Source: https://patents.google.com/patent/JP6456927B2/en
Timestamp: 2020-02-19 19:26:07
Document Index: 130098899

Matched Legal Cases: ['art 230', 'art 230', 'art 230', 'art 237', 'art 239', 'art 239', 'art 239', 'art 237', 'art 239', 'art 237', 'art 239', 'art 260', 'art 200', 'art 200', 'art 282', 'art 281', 'art 282', 'art 281', 'art 282', 'art 255', 'art 282', 'art 281', 'art 282', 'art 260', 'art 261', 'arts 265', 'art 282', 'art 260', 'art 262', 'art 282', 'art 262', 'art 282', 'art 200', 'art 200', 'art 200', 'arts 262', 'arts 262', 'art 320', 'art 323', 'art 323', 'art 323', 'art 323', 'art 323', 'art 352', 'art 323']

JP6456927B2 - Washing machine - Google Patents
JP6456927B2
JP6456927B2 JP2016516472A JP2016516472A JP6456927B2 JP 6456927 B2 JP6456927 B2 JP 6456927B2 JP 2016516472 A JP2016516472 A JP 2016516472A JP 2016516472 A JP2016516472 A JP 2016516472A JP 6456927 B2 JP6456927 B2 JP 6456927B2
JP2016516472A
JP2016522729A (en
ポソン ソ
ミョンフン イム
2014-03-04 Priority to KR1020140025733A priority Critical patent/KR20150103981A/en
2014-03-04 Priority to KR10-2014-0025733 priority
2014-03-04 Priority to KR10-2014-0025746 priority
2014-03-04 Priority to KR1020140025746A priority patent/KR20150103988A/en
2014-03-04 Priority to KR10-2014-0025747 priority
2014-03-04 Priority to KR1020140025747A priority patent/KR20150103989A/en
2015-03-03 Priority to PCT/KR2015/002048 priority patent/WO2015133796A1/en
2015-03-03 Application filed by エルジー エレクトロニクス インコーポレイティド, エルジー エレクトロニクス インコーポレイティド filed Critical エルジー エレクトロニクス インコーポレイティド
2016-08-04 Publication of JP2016522729A publication Critical patent/JP2016522729A/en
2019-01-23 Publication of JP6456927B2 publication Critical patent/JP6456927B2/en
238000005406 washing Methods 0 claims description title 239
239000003599 detergent Substances 0 claims description 744
239000007788 liquids Substances 0 description 127
239000000843 powders Substances 0 description 61
The present invention relates to a washing machine, and more particularly to a washing machine equipped with a detergent dispenser.
In general, a washing machine is a device that removes contaminants attached to laundry due to the interaction between the laundry and the washing water by rotating the drum after the laundry and washing water are put into the drum. . In this process, various additives for improving the washing power and protecting the laundry may be used together. Typically, there are detergents and various softening agents.
The detergent and various softening agents (hereinafter abbreviated as “detergent”) may be directly put into the washing water by the user, or may be supplied by a detergent supply device provided in the washing machine. The detergent supply device is mounted on the front surface or the upper surface of the washing machine so that the introduced detergent is supplied into the drum together with the washing water.
Specifically, when a user puts an appropriate amount of detergent into the charging space provided in the detergent supply device, the washing water supplied to the drum is made to pass through the charging space, and the detergent is washed together with the washing water. Is supplied to the drum.
Since such a conventional washing machine is separately provided with a flow path for supplying washing water from the charging space to the drum, a space for providing the flow path is necessary above the drum of the washing machine. It was. When the door is provided on the front surface, the detergent supply device is mounted on the upper surface of the washing machine, and the door is mounted below the detergent supply device, so that the height of the door is reduced. Therefore, there is a problem that it is not convenient for a user to open the door and put laundry into the drum.
Furthermore, the washing machine having such a structure not only requires the user to determine the proper amount directly, but also has the inconvenience of having to supply detergent each time it is washed. In order to solve this problem, a detergent supply device of a type in which a large amount of detergent is stored and supplied in an appropriate amount every time washing is considered. However, due to the characteristics of the powder detergent, there is a problem that the detergent powder aggregates when it comes into contact with moisture and closes the inlet.
An object of the present invention is to provide a washing machine that facilitates the input of laundry by lowering the position of the detergent dispenser below the door and raising the position of the door and the insertion port upward.
Another object of the present invention is to provide a washing machine capable of automatically supplying detergent to the inside of a drum without the user directly putting in the detergent each time washing is performed.
Still another object of the present invention is to provide a washing machine capable of preventing the agglomeration phenomenon of detergent powder and the like.
In order to achieve one object of the present invention, a washing machine according to the present invention includes a cabinet having a slot formed in a front panel so that laundry is thrown in and a door that opens and closes the slot, and the cabinet includes: A tub provided inside for storing washing water therein; a drum communicated with the inlet; and rotatably provided in the tub; a detergent dispenser installed below the inlet; A water supply passage for supplying washing water from a water source to at least one of the tub and the detergent dispenser, and the washing water stored in the tub flows into the detergent dispenser and the detergent stored in the detergent dispenser is applied to the tub. And a connecting channel connecting the tub and the detergent dispenser to flow in.
According to an example relating to an object of the present invention, the input port may be disposed to be biased upward in a front surface portion of the cabinet.
According to an example of the present invention, the tab may be disposed to be inclined with respect to the bottom surface of the cabinet such that the height of the front surface is higher than the height of the back surface.
According to an example of the present invention, the detergent dispenser may include a dispenser case having an opening on an upper surface, and a detergent supply unit in which the detergent is stored and attached to the dispenser case.
According to an example of the present invention, the dispenser case is rotatably provided on the front surface of the cabinet, and an open position where the opening is exposed to the outside and the opening is accommodated inside the cabinet. You may make it rotate between storage positions.
According to an example relating to an object of the present invention, the dispenser case may form the entirety of a lower panel positioned lower than the input port in the front panel of the cabinet.
According to an example relating to an object of the present invention, the dispenser case may form a part of a lower panel that is positioned lower than the input port of the front panel of the cabinet.
According to an example of the present invention, the dispenser case includes a front plate that opens and closes a storage hole in which the detergent dispenser is stored, a side plate that extends rearward from both ends of the front plate, and the front plate. A hinge shaft that is formed at a lower end portion of the side plate so as to be rotatable in the front-rear direction and is coupled to the cabinet may be included.
According to an example of the present invention, the detergent supply unit may be detachably mounted at an open position of the dispenser case.
According to an example of the present invention, the dispenser case may include a guide groove formed in the side plate with a predetermined curvature so that the opening angle of the front plate is maintained constant.
According to an example of the present invention, the detergent supply unit may include at least one of a manual detergent supply unit and an automatic detergent supply unit.
According to an example of the present invention, a pump module is provided in the cabinet, and the pump module circulates washing water mixed with washing water or detergent through the tab, and the tab. It may include at least one pump of a drainage pump for discharging the washing water that has passed or washing water mixed with detergent to the outside of the cabinet.
According to an exemplary embodiment of the present invention, the connection channel includes a first detergent supply channel that connects the detergent dispenser and the bottom surface of the tab such that detergent is supplied from the detergent dispenser to the bottom surface of the tab. And at least one of a second detergent supply channel connecting the detergent dispenser and the remaining part of the tab so that detergent is supplied from the detergent dispenser to the remaining part of the tab except for the bottom surface of the tab. The detergent supply channel may be included.
According to an example of the present invention, the water supply channel includes a first water supply channel that connects the water supply source and the tub so that washing water is supplied from the water supply source to the tub, and the wash water. Including at least one water supply channel of the second water supply channel connecting the water supply source and the detergent dispenser so that the water supply source is supplied to the detergent dispenser, the first water supply channel and the second water supply channel A water supply valve may be provided in at least one of the water supply channels.
According to an exemplary embodiment of the present invention, a detergent inlet may be provided so that the detergent flows into the bottom surface of the tab.
According to an embodiment of the present invention, at least one of the automatic detergent supply unit and the manual detergent supply unit is supplied to the bottom surface of the tab through the first detergent supply channel. Also good.
According to an example of the present invention, at least one of the automatic detergent supply unit and the manual detergent supply unit is supplied to the remaining part of the tub through the second detergent supply channel. You may do it.
According to an example relating to an object of the present invention, the first detergent supply channel may include backflow prevention means for preventing the wash water discharged from the tub from flowing back to the detergent dispenser.
According to an example relating to an object of the present invention, the first water supply channel may be arranged at a position higher than the backflow prevention means.
According to an example relating to an object of the present invention, the wash water supplied from the water supply source to the tub is supplied through the second water supply flow path so that the water level of the tub is at the height of the backflow prevention means. Then, it may be supplied via the first water supply channel.
According to an exemplary embodiment of the present invention, the washing machine includes a drainage channel that connects the tab, the drainage pump, and the outside of the cabinet so that washing water inside the tab is drained to the outside of the cabinet. The drainage flow path connecting the tub and the drainage pump may be shared with a part of the first detergent supply flow path.
According to an example of the present invention, the washing machine includes the circulation pump and the automatic detergent supply unit so that the washing water that has passed through the manual detergent supply unit flows into a water supply port of the automatic detergent supply unit. You may further include the connection piping which connects a water supply port.
According to an exemplary embodiment of the present invention, the automatic detergent supply unit may include a pumping unit that selectively discharges the detergent stored in the container by a predetermined amount.
According to an example of the present invention, the pumping means discharges the detergent of the automatic detergent supply unit to at least one of the first detergent supply channel and the second detergent supply channel. You may do it.
According to an exemplary embodiment of the present invention, the automatic detergent supply unit communicates with a water supply port through which washing water flows and the water supply port so that the detergent discharged by the pumping unit is mixed with the washing water. An internal flow path that flows into the internal flow path, and a drain opening that communicates with the internal flow path and that discharges the wash water mixed with the detergent.
According to one example relating to an object of the present invention, the automatic detergent supply unit may include a water level detecting means for detecting a remaining amount of the detergent.
According to an example relating to an object of the present invention, the water level detection means includes a pair of electrodes whose one end is exposed to the inside of the container, and a container side connection terminal connected to the electrode and disposed on the bottom surface of the container And a container-side connection terminal provided in the container container so as to be in contact with the container-side connection terminal.
According to an exemplary embodiment of the present invention, the manual detergent supply unit is provided at an upper portion of the dispenser case, and includes a distribution plate for distributing washing water, a charging space into which the detergent is charged, and a bottom outlet. A detergent charging unit disposed at a lower part of the distribution plate and supplied with the washing water; a hopper unit provided at a lower part of the detergent charging unit for temporarily storing the washing water falling from the water outlet; and An extension portion that extends downward from the hopper portion and discharges washing water mixed with washing water or detergent may be included.
According to an exemplary embodiment of the present invention, the extension is connected to the first detergent supply channel, and the backflow prevention is performed to prevent the washing water discharged from the tab from flowing back to the detergent dispenser. Means may be provided.
According to an example related to the first aspect of the present invention, the water outlet is formed at a rear portion of the bottom surface of the detergent charging portion, and the bottom surface of the detergent charging portion is inclined so as to become lower toward the water outlet. When the detergent dispenser rotates to the open position, the portion where the water outlet is formed may be arranged to be higher than the other portions.
In order to achieve another object of the present invention, a washing machine according to the present invention includes a cabinet provided with a slot formed in a part of a front panel so that laundry is loaded, and a door that opens and closes the slot. A tab provided inside the cabinet, in which washing water is stored, a drum communicated with the inlet, and rotatably provided in the tab; a detergent installed below the inlet The detergent dispenser includes a dispenser case having an opening on an upper surface thereof, an automatic detergent supply unit mounted on the dispenser case, and at least one detergent supply unit of a manual detergent supply unit, and the automatic detergent The supply unit includes an injection port and a discharge port, and a container for storing the liquid detergent, a container housing unit for storing the container, and a liquid detergent discharged from the discharge port of the container. And a pumping means for selectively discharging amount defined order.
According to an example related to another object of the present invention, the container housing part may include a placement part on an upper surface so that the container is placed.
According to an example relating to another object of the present invention, the pumping means may be provided in the container housing part.
According to another example of the present invention, the container housing part may include a water supply port through which washing water flows and a water discharge port through which the washing water mixed with the washing water or detergent flows out.
According to another example of the present invention, the container housing portion connects a boss portion that houses a discharge portion from which liquid detergent is discharged by the pumping means, the water supply port, and the drain port, and the discharge port And an internal flow path communicating with the boss portion so that the liquid detergent discharged from the portion flows in.
According to another example of the present invention, a plurality of the containers are provided, at least one of which stores the detergent used during the main washing, and the other one is used during the preliminary washing and rinsing. The detergent may be stored.
According to another example of the present invention, the container may include a grip portion at an upper portion so that a user can hold it with a hand.
According to another example of the present invention, the container may be detachably coupled to an upper portion of the container housing portion.
According to another example of the present invention, the container receiving part may further include a container support frame so as to form an insertion space for the container.
According to another example of the present invention, the automatic detergent supply unit includes a driving unit that drives the pumping unit, and the driving unit and the pumping unit when the container is mounted on the mounting unit. And a coupler for connecting the two.
According to another example of the present invention, the driving unit includes a motor housing provided in the container housing unit, and is housed in the motor housing, and is coupled to the pumping unit by the coupler. And a drive motor including a drive shaft that protrudes to the outside of the motor housing.
According to another example of the present invention, the automatic detergent supply unit includes a flow path forming plate coupled to a bottom surface of the container so as to cover the discharge port, and the flow path forming plate includes the drainage plate. An inflow portion into which the liquid detergent flows, which is disposed so as to face the outlet, a discharge portion from which the liquid detergent is discharged by the pumping means, and the liquid detergent flowing into the inflow portion can be transferred to the discharge portion A supply channel that connects the inflow part and the discharge unit, and an accommodation space that is formed on the supply channel so as to accommodate the pumping means.
According to another example of the present invention, the pumping means is constituted by a gear pump that sends the liquid detergent that has flowed into the inflow portion to the discharge portion, and the gear pump is housed in the housing space and rotates. A first gear and a second gear may be included that are rotatably supported by the shaft and coupled to mesh with each other.
According to another example of the present invention, the coupler is disposed at an upper part of the driving unit, and is coupled to a driving shaft of the driving unit, and is disposed at a lower part of the pumping unit. May include a driven gear coupled so as to mesh with the drive gear when mounted on the mounting portion.
According to another example of the present invention, any one of the rotating shafts of the gear pump protrudes through the flow path forming plate, and the driven gear is coupled to an end portion of the protruding rotating shaft. May be.
According to another example of the present invention, the automatic detergent supply unit may further include an agitator that is rotatably provided in the container.
According to another example of the present invention, another one of the rotation shafts of the gear pump penetrates the flow path forming plate and protrudes into the container, and the agitator is disposed at the end of the protruding rotation shaft. It may be combined.
In order to achieve still another object of the present invention, a washing machine according to the present invention includes a cabinet including a slot formed in a front surface of the laundry unit and a door that opens and closes the slot. A tub provided inside the cabinet, in which the wash water is stored, a drum that communicates with the charging port and is rotatably provided in the tub, and the wash water is supplied from a water supply source. Or a detergent supply device that supplies washing water mixed with a detergent to the inside of the drum, wherein the detergent supply device includes a liquid detergent storage unit having a storage space for storing the liquid detergent and an outlet, and the liquid. A detergent box provided in the detergent storage unit and provided with pumping means for selectively discharging a predetermined amount of liquid detergent discharged from the discharge port; and provided in the cabinet; A dispenser housing having a storage space for inserting and withdrawing water, and a water supply / distribution unit provided on an upper surface of the dispenser housing and distributing the wash water supplied from the water supply source to the inside of the detergent box. .
According to another exemplary embodiment of the present invention, the liquid detergent storage unit includes a driving unit provided in the dispenser housing to drive the pumping means, and the detergent box is inserted into the dispenser housing. And a coupler for connecting the driving unit and the pumping means.
According to another exemplary embodiment of the present invention, the driving unit is disposed behind the dispenser housing, is housed in the motor housing, and is coupled to the pumping unit by the coupler. And a drive motor having a drive shaft protruding outside the motor housing.
According to another example of the present invention, the liquid detergent storage unit includes a flow path forming plate coupled to a back surface of the detergent box so as to cover the discharge port, and the flow path forming plate includes: An inflow portion arranged to face the discharge port, a discharge portion from which the liquid detergent transferred by the pumping means is discharged, and the liquid detergent that has flowed into the inflow portion can be transferred to the discharge portion. You may include the supply flow path which connects an inflow part and the said discharge part, and the accommodation space formed on the said supply flow path so that the said pumping means may be accommodated.
According to still another example of the present invention, the pumping unit includes a gear pump that sends the liquid detergent that has flowed into the inflow portion to the discharge portion, and the gear pump is accommodated in the accommodation space, respectively. The first and second gears may be included that are rotatably supported by the rotating shaft and coupled to mesh with each other.
According to another example of the present invention, the coupler is disposed in front of the driving unit, is coupled to a driving shaft of the driving unit, and is disposed behind the pumping unit. A detergent gear may include a driven gear coupled to mesh with the drive gear when the detergent box is inserted into the dispenser housing.
According to another example of the present invention, any one of the rotation shafts of the gear pump protrudes through the flow path forming plate, and the driven gear is coupled to an end portion of the protruding rotation shaft. It may be.
According to another example of the present invention, the liquid detergent storage unit is rotatable to the cover plate so as to open and close the cover plate, and a cover plate having an inlet for replenishing the liquid detergent. An opening / closing plate to be mounted may be included.
According to another example of the present invention, the detergent box includes a washing water input unit that is partitioned separately from the liquid detergent storage unit and into which the washing water of the water supply / distribution unit is supplied. Is provided at the lower end of the back surface, and is connected to the tub so that the washing water mixed with washing water or detergent is supplied to the tub, the washing water flowing out from the washing water input portion, and You may provide the space part which connects the discharge part of the said laundry detergent storage part, the said liquid detergent storage part, and the said water supply flow path so that the detergent discharged from the said liquid detergent storage part may be merged and mixed.
According to another example of the present invention, the detergent box includes a siphon tube inside so that washing water or washing water mixed with detergent flows down, and is partitioned separately from the liquid detergent storage unit. And a washing water drainage passage connected to the space so that washing water that has passed through the siphon tube or washing water mixed with the detergent flows down to the space.
According to another example of the present invention, the bottom surface of the liquid detergent storage unit may be formed to be inclined toward the discharge port.
According to the present invention configured as described above, since the height of the insertion port is increased and the upper side of the tab is provided at a high position, the user only needs to bend the waist slightly, so that the laundry can be easily performed. Can be loaded and unloaded.
In addition, since the proper amount of detergent is automatically supplied to the inside of the tub, the trouble that the user needs to put the appropriate amount of detergent into the detergent input part of the detergent supply device every time the user performs washing is eliminated. There is an effect that the detergent supply becomes easy.
Therefore, according to the present invention, by selectively driving the pumping means provided in the liquid detergent storage unit, the appropriate amount of liquid detergent is not determined by the user, but automatically set in the detergent supply device. Since the user can set a desired amount as necessary, the disadvantages of supplying a conventional detergent can be solved.
In addition, by providing a siphon tube in the powder detergent storage section, the powder detergent and the washing water can be temporarily stored in a sealed space until the powder detergent is sufficiently dissolved in the washing water, and if the siphon tube becomes higher than the height of the siphon tube Washing water in which the detergent is dissolved can be supplied.
Further, by narrowing the passage through which the detergent liquid passes by the siphon tube and the siphon cover tube, it is possible to prevent the conventional detergent discharge port from being blocked by a lump of powder detergent.
1 is a perspective view showing a washing machine according to an embodiment of the present invention. It is sectional drawing seen from the I direction of FIG. It is a back perspective view which shows the manual detergent supply part by this invention. FIG. 4 is an exploded perspective view of a state where the pump unit is removed in FIG. 3. It is a side view which shows the rotation operation state of the detergent dispenser of FIG. It is sectional drawing which shows the washing machine by other embodiment of this invention. FIG. 6 is a perspective view illustrating a washing machine according to still another embodiment of the present invention. It is sectional drawing seen from the III direction of FIG. FIG. 4 is a rear perspective view illustrating a state where the manual detergent supply unit and the automatic detergent supply unit according to the present invention are mounted on a dispenser case. FIG. 10 is an exploded perspective view illustrating a state in which a distribution plate of the manual detergent supply unit is disassembled from the manual detergent supply unit of FIG. 9. It is a perspective view which shows the state with which the container is mounted | worn with the container accommodating part in the automatic detergent supply part by this invention. It is a bottom perspective view of the container shown in FIG. It is a perspective view which shows the upper surface of the flow-path formation plate with which the bottom face of the container of FIG. 12 is mounted | worn. It is a disassembled perspective view of the gear pump and detergent detection sensor with which the bottom face of the container of FIG. 12 is mounted | worn. FIG. 13 is a partially cut perspective view of FIG. 12. It is a perspective view which shows the internal structure of the container accommodating part shown in FIG. FIG. 6 is a perspective view illustrating a washing machine according to still another embodiment of the present invention. It is a perspective view which shows the automatic detergent supply apparatus by further another embodiment of this invention. It is a perspective view which shows the internal structure of the detergent box of FIG. It is a perspective view which shows the external appearance of the dispenser housing of FIG. FIG. 20 is a perspective view illustrating a state in which the opening / closing plate is opened in the liquid detergent storage unit of FIG. 19. It is a disassembled perspective view of the pumping means and drive part with which the liquid detergent storage part of FIG. 20 was equipped. It is sectional drawing which shows the liquid detergent movement path | route in the liquid detergent storage part by further another embodiment of this invention. It is sectional drawing which shows the movement path | route of the washing water in which the powder detergent melt | dissolved in the powder detergent storage part by further another embodiment of this invention.
Hereinafter, a washing machine according to the present invention will be described in more detail with reference to the accompanying drawings. In the present specification, the same or similar components are denoted by the same or similar reference numerals even in different embodiments, and the description thereof is omitted. As used herein, the singular form includes the plural form unless the context clearly indicates otherwise.
FIG. 1 is a perspective view showing a washing machine according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view seen from the I direction of FIG.
1 and 2, a washing machine according to an embodiment of the present invention includes a cabinet 110 that forms an appearance of the washing machine. The cabinet 110 has a substantially rectangular parallelepiped shape. On the upper surface of the cabinet 110, there are provided control panels 116 on which various operation means 112 for operating the washing machine and a display device 114 for informing the user of the operation state of the washing machine are mounted. Of course, the configuration of the control panel 116 is not limited to this, and the display device 114 may be provided with a touch screen to receive control commands.
The control unit is electrically connected to the control panel 116 and the parts of the washing machine, respectively, and controls the parts based on a control command input via the control panel 116 and a program stored in advance. In addition, the control unit sends various information regarding the operation of the washing machine to the control panel 116 and causes the display device 114 to display the information.
On the upper front side of the cabinet 110, a loading port 111 is formed as a passage for loading laundry into the drum 120. The input port 111 communicates with the inside of the drum 120. The laundry can be put into or taken out of the drum 120 via the charging port 111. The door 118 is hingedly coupled to the front surface of the cabinet 110 so as to open and close the insertion port 111.
A detergent dispenser 200 may be provided below the input port 111. The input port 111 may be arranged so as to be biased upward in the front portion of the cabinet 110. Therefore, the height of the insertion port is higher than that of the conventional washing machine, and the user can input and take out the laundry without bending the waist greatly, so that the laundry can be easily input and output. .
In order to store the detergent dispenser 200, a storage hole 101 for storing the detergent dispenser 200 may be formed on the front surface of the cabinet 110 below the input port 111.
The cabinet 110 is provided with components necessary for washing. Referring to FIG. 2, a storage space formed in the cabinet 110 includes a cylindrical tab 130 for storing washing water, and a drum 120 that is rotatably provided in the tab 130.
The tab 130 has a substantially cylindrical shape, and the front surface of the tab 130 is opened to be connected to the insertion port 111. Further, a gasket 137 that seals the front of the tab 130 and the periphery of the insertion port 111 is provided between the front portion of the tab 130 and the insertion port 111. The tab 130 is disposed to be inclined with respect to the bottom surface of the cabinet 110 so that the height of the front surface is higher than the height of the back surface.
When the tab 130 is inclined so that the front surface of the tab 130 is positioned higher, the user can see from the inlet 111 to the back of the drum 120 when the laundry is input. Since 111 is formed on the upper side of the cabinet 110, there is an effect that it is easy to load laundry. Moreover, since the front surface of the tab 130 is positioned higher than the back surface, a sufficient space for installing the detergent dispenser 200 can be provided below the front surface of the tab 130.
A detergent inlet 131 may be formed on the bottom surface of the tab 130. The detergent inlet 131 may be connected so as to communicate with a first detergent supply channel described later. The tab 130 may be supported by a spring (not shown) and a damper (not shown) provided inside the cabinet 110.
A plurality of through holes are formed in the drum 120, and washing water can pass through the drum 120 and move to the tab 130, or can flow into the drum 120 from the tab 130. A plurality of lifts are provided on the inner surface of the drum 120 so that the laundry can be raised.
A drive unit 140 for driving the drum 120 is provided at the rear of the tab 130. The driving unit 140 includes a stator 141 and a rotor 143, and is connected to the drum 120 by a rotation shaft 145 to transmit a rotational force to the drum 120. The rotating shaft 145 is supported by a bearing, and a connecting member between the rotating shaft 145 and the drum 120 is provided with a sealing member that seals the washing water from leaking from the drum 120.
3 is a rear perspective view showing a manual detergent supply unit 200a according to the present invention, FIG. 4 is an exploded perspective view of the pump unit removed in FIG. 3, and FIG. 5 is a rotation of the detergent dispenser 200 of FIG. It is a side view which shows an operation state.
The detergent dispenser 200 includes a dispenser case 210 and a detergent supply unit attached to the dispenser case 210. The detergent supply unit may include at least one of a manual detergent supply unit 200a and an automatic detergent supply unit.
In the embodiment shown in FIGS. 3 to 5, a case where the manual detergent supply unit 200 a is attached to the dispenser case 210 is shown. The manual detergent supply unit 200a is provided at the upper part of the dispenser case 210 to distribute the wash water, the detergent input part 230 provided at the lower part of the distribution plate 220 to which the detergent is supplied, and the detergent input part 230. And a hopper portion 237 provided at the lower portion.
The detergent charging unit 230 includes an input space 235 that opens upward and stores the detergent stored from the opened upper surface. The detergent charging unit 230 may be divided into a plurality of partitions 231, one of which may be used as the laundry washing detergent charging space, and the other may be used as the preliminary washing detergent charging space. A rinsing detergent charging unit 223 into which a rinsing detergent such as a softening agent is charged may be separately provided in the laundry detergent charging space.
The input space 235 into which the detergent is input may be formed in different sizes.
A plurality of input spaces 235 are provided, and when the user inputs the detergent, the user selects an appropriate input space 235 in proportion to the amount of laundry or adjusts the number of input spaces 235 into which the detergent is input. The amount of detergent can be adjusted intuitively.
The distribution plate 220 is formed in communication with the washing water inflow portion 221 through which the washing water flows into the back surface thereof, and the distribution flow formed by branching into a plurality of branches so as to distribute the flowing washing water. And a water supply hole formed in communication with the detergent charging unit 230 on the bottom surface of the distribution channel. The wash water supplied from the water supply source flows into the distribution plate 220 through the wash water inflow portion 221 and is distributed to the distribution flow path inside the distribution plate 220, and the distributed wash water is a water supply hole of the distribution flow path. Are sprayed and supplied to the detergent charging unit 230.
Here, when the detergent dispenser 200 is opened, the user can put the detergent into the detergent throwing unit 230 of the manual detergent supply unit 200a, and when the detergent dispenser 200 is closed, the washing water and the detergent are in the detergent throwing unit. Mixed inside.
The detergent dispenser 200 is formed such that it can be rotated and pulled out from the front surface of the cabinet 110. For this purpose, the dispenser case 210 is rotatably fastened to the front surface of the cabinet 110.
The dispenser case 210 is accommodated in the cabinet 110 by the accommodation hole 101 for accommodating the detergent dispenser. The dispenser case 210 includes a front plate that forms the whole or a part of the lower panel located below the inlet of the front panel of the cabinet, side plates that extend rearward from both ends of the front plate, and the front plate. And a hinge shaft 213 formed at the lower end portion of the side plate so as to be rotatable in the front-rear direction and coupled to the cabinet. In addition, a guide plate is formed behind the front plate so as to surround a container of the automatic detergent supply unit by connecting a rear end portion of the side plate, and the container of the automatic detergent supply unit is inserted. You may make it guide.
The hinge shaft 213 is fastened to the lower end of the front surface of the cabinet 110 so as to be rotatable. The hinge shaft 213 extends in the lateral direction of the cabinet 110 and is coupled to the cabinet 110 to allow the dispenser case 210 to rotate in the front-rear direction of the cabinet 110. Accordingly, when the detergent dispenser 200 rotates toward the front of the cabinet 110, the detergent charging portion 230 formed at the top of the dispenser case 210 is opened, and when rotated toward the rear of the cabinet 110, the detergent dispenser 200 is accommodated in the storage hole 101 and is washed. The input unit 230 is closed.
Referring to FIG. 4, a guide groove 212 is further formed on the side surface of the dispenser case 210 to guide and support the rotating detergent dispenser 200. A guide protrusion (not shown) is formed on a side surface of the storage hole 101 at a portion corresponding to the guide groove 212 and is inserted into the guide groove 212. The dispenser case 210 has a protection for protecting components disposed on the back surface when the detergent dispenser 200 is closed, for example, the detergent inlet 230 and the piping of the first detergent supply channel 154 connected to the detergent inlet 230. A wall 215 is further included. The protective wall 215 is disposed so as to block the back surface of the detergent dispenser 200. When the detergent dispenser 200 is closed, the back surface of the detergent dispenser 200 is accommodated in the protective wall 215.
The distribution plate 220 includes a lid 222 that is disposed on top of the detergent charging unit 230 so as to cover the detergent charging unit 230. The distribution plate 220 and the lid 222 are fixed to the inside of the cabinet 110 and separated from the detergent charging unit 230 when the detergent dispenser 200 is open, and when the detergent dispenser 200 is closed, the lid 222 closes the detergent charging unit 230. Cover the top surface. The lid 222 extends from the upper edge of the protective wall 215 to the top of the detergent charging unit 230 so that the washing water does not leak out of the protective wall 215.
FIG. 5 is a side view showing a rotation state of the detergent dispenser 200 of FIG. As shown in FIG. 5, the detergent dispenser 200 is disposed between an open position where the detergent charging part 230 formed on the upper part of the dispenser case 210 is exposed to the outside of the cabinet 110 and a storage position stored inside the cabinet 110. Mounted to be rotatable. A state in which the detergent dispenser 200 is pulled out from the storage hole 101 to the open position is indicated by a solid line, and a state in which the detergent dispenser 200 is stored in the storage hole 101 is indicated by a dotted line.
Referring to FIG. 5, a water outlet 236 is formed on the bottom surface 232 of the detergent charging unit 230. The water outlet 236 is formed in the bottom surface 232 so as to be biased toward the rear of the cabinet 110, and the bottom surface 232 is inclined so as to become lower as it approaches the water outlet 236. When the detergent dispenser 200 is pulled out, the water outlet 236 is The formed portion is higher than the bottom surface 232. Further, the bottom surface 232 is formed so as to be inclined downward toward the water outlet 236 so that the portion where the water outlet 236 is formed is lower than the other portions when the detergent dispenser 200 is housed in the cabinet 110. Is done. However, the bottom surface 236 does not have to be clearly inclined with the naked eye, and only needs to have such an inclination that the fluid flows toward the water outlet 236 by gravity.
In the aspect of the configuration described above, when the detergent dispenser 200 is opened, when the detergent is poured into the detergent throwing section 230, the position of the water outlet 236 is higher than the bottom surface 232 as shown in FIG. The detergent does not flow out to the water outlet 236. Further, in the state where the detergent dispenser 200 is housed in the cabinet 110, the bottom surface 232 is inclined toward the water outlet 236, so that the detergent flows together with the washing water toward the water outlet 236 due to gravity.
The water outlet 236 may be formed extending along the boundary line between the rear surface and the bottom surface 232 of the detergent charging unit 230. The outlet space 235 and the hopper 237 communicate with each other through the water outlet 236.
The hopper 237 is a space that is provided in the lower part of the detergent charging unit 230 and is temporarily stored by mixing detergent and washing water falling from the water outlet 236. The bottom surface of the hopper part 237 is formed to be inclined toward the extension part 239 so that the washing water is accumulated in the extension part 239.
Referring to FIG. 5, the extension portion 239 is formed on the bottom surface of the hopper portion 237 and is formed so as to be biased to either one. That is, when the rotation direction of the detergent dispenser 200 is the width direction of the detergent dispenser 200, the extension 239 is formed to be biased rearward in the width direction. Further, the bottom surface of the hopper portion 237 is formed to be inclined downward toward the extension portion 239, and the washing water that has flowed into the hopper portion 237 from the water outlet 236 is guided to the extension portion 239. Further, the extension 239 is connected to a flow path 154 for supplying washing water mixed with detergent to the tub 130.
Inside the cabinet 110, there are a first water supply channel 153 for supplying wash water of the water supply source directly to the tub 130 and a second water supply channel 152 for supplying the wash water of the water supply source to the detergent dispenser 200. At least one water supply channel may be included. You may make it open and close the 1st water supply flow path 153 and / or the 2nd water supply flow path 152 by providing the water supply valve 151 in at least one of the 1st water supply flow path 153 and the 2nd water supply flow path 152. The water supply valve 151 can adjust the amount of washing water supplied from the water supply source to the detergent dispenser 200. In the embodiment shown in FIG. 2, a second water supply flow path 152 that supplies wash water as a water supply source to the detergent dispenser 200 is shown.
The cabinet 110 includes a connection channel for supplying the detergent of the detergent dispenser 200 to the tub 130. The connection channel includes first detergent supply channels 154 and 156 for supplying the detergent of the detergent dispenser 200 to the bottom surface of the tab 130, and the remaining part of the tab 130 except for the bottom surface of the tab 130. At least one detergent supply channel of the second detergent supply channel for supplying to may be included.
The cabinet 110 may include a drainage channel 163 for discharging the washing water stored in the tab 130 to the outside of the cabinet 110.
According to the flow path configured as described above, the wash water of the water supply source is directly supplied to the tab 130 via the first water supply flow path or to the detergent dispenser 200 via the second water supply flow path 152. Supplied. According to the 2nd water supply flow path 152 shown in FIG. 2, the wash water of a water supply source is supplied to the detergent dispenser 200. FIG.
The detergent of the detergent dispenser 200 is supplied to the bottom surface of the tab 130 via the first detergent supply flow paths 154 and 156, or the remaining part excluding the bottom face of the tab via the second detergent supply flow path, for example, the tab It is supplied to the upper part of 130 or the upper part of the gasket 137. According to the detergent supply channels 154 and 156 shown in FIG. 2, the detergent is supplied to the bottom surface of the tab 130 via the first detergent supply channels 154 and 156.
The first detergent supply channels 154 and 156 are configured to cause the bottom surface of the tab 130 and the detergent dispenser 200 to flow in order to allow the washing water stored in the tab 130 to flow to the detergent dispenser 200 and to allow the detergent of the detergent dispenser 200 to flow to the bottom surface of the tab 130. You may make it connect. The first detergent supply channels 154 and 156 may include two channels 154 and 156 such that the detergent of the detergent dispenser 200 is supplied to the bottom surface of the tab 130 via the drain pump 160. For example, of the two first detergent supply channels 154 and 156, one first detergent supply channel 154 may connect the detergent dispenser 200 and the drainage pump 160. The other first detergent supply channel 156 may connect the drain pump 160 and the tab 130. Thereby, the detergent of the detergent dispenser 200 can be supplied to the bottom surface of the tab 130 through the drainage pump 160. The first detergent supply channel 156 that connects the drain pump 160 and the tab 130 may be formed of a bellows-like tube.
The detergent dispenser 200 contains detergents such as laundry detergent, softener and bleach, and the washing water from the water supply source passes through the second water supply flow path 152 through the detergent dispenser 200 to mix the detergent and the washing water. Is done.
Wash water discharged from the extension 239 shown in FIG. 5 is supplied to the drain pump 160 via the first detergent supply channel 154 shown in FIG. 3, and then the first detergent supply connecting the drain pump 160 and the tab 130. It is supplied to the detergent inlet 131 formed on the bottom surface of the tab 130 through the flow path 156. Here, the detergent inlet 131 may be formed separately from the drain outlet of the tab 130, and may be used also as the drain outlet of the tab 130 and the detergent inlet.
The drainage pump 160 is also connected to a drainage channel 163 extending outside the cabinet 110. The drainage channel 163 is provided with a valve 161 so that the washing water discharged from the drainage pump 160 is selectively supplied to the first detergent supply channel 156 or the drainage channel 163. That is, when the washing water discharged from the drain pump 160 is supplied to the first detergent supply channel 156, the control unit closes the valve 161. In addition, when the washing water discharged from the drain pump 160 is supplied to the drain channel 163, the control unit opens the valve 161.
Here, when the valve 161 is closed, the washing water that has passed through the detergent dispenser 200 or the washing water in which the detergent is mixed passes through the drain pump 160 and the first detergent supply channel 156 due to the supply water pressure from the water supply source. It flows into the tab 130 from the detergent inlet 131 formed on the bottom surface.
Further, when the valve 161 is opened, the washing water mixed with the washing water or the detergent is drained from the tab 130 to the outside of the cabinet 110 through the drainage channel 163 by the pumping force of the drainage pump 160.
Accordingly, the washing water that has passed through the detergent dispenser 200 or the washing water mixed with the detergent is supplied to the bottom surface of the tub through the first detergent supply channel 156 and the drainage pump 160 provided at the bottom of the tub 130, or Since the washing water stored in the tab 130 is drained, the configuration is simple. In addition, since the detergent easily dissolves in the washing water while passing through the drainage pump 160, there is an effect that when the detergent is supplied to the tab 130, the detergent is supplied in a state of being almost dissolved in the washing water.
Referring to FIG. 2, the first detergent supply channel 154 includes a backflow prevention unit 170 for preventing the washing water discharged from the tub or the washing water mixed with the detergent from flowing back to the detergent dispenser. Further, it may be provided. As the backflow prevention means 170, a check valve 161 or the like can be used. However, the installation position of the backflow prevention means 170 is not limited to this, and may be provided in the extension part 239 or may be provided in the hopper part 237.
When the backflow prevention means 170 is provided in the extension part 239 or the hopper part 237, in addition to the check valve, when the washing water reaches a predetermined height or more, the float rises to the extension part 239. It may be configured to occlude.
FIG. 6 is a cross-sectional view illustrating a washing machine according to another embodiment of the present invention.
The embodiment shown in FIG. 6 includes a first water supply channel 153 for supplying washing water directly to the tub 130 and a second water supply channel 152 for supplying washing water to the detergent dispenser 200. Other components are the same as or similar to the components of the embodiment of the present invention described above, and are omitted for the sake of clarity.
The first water supply channel 153 directly supplies wash water from the water supply source to the tub 130 without going through the detergent dispenser 200. Here, the first water supply channel 153 supplies the washing water to the tab 130 at a position higher than the height of the backflow prevention means 170. The first water supply channel 153 may be connected to the upper surface of the tab 130 or may be connected to the gasket 137 to supply washing water to the inside of the tab 130.
In the aspect of the configuration described above, the wash water is not supplied only by the first detergent supply channels 154 and 156 and the drain pump 160, but the wash water is supplied to the lower portion of the tub 130 by the drain pump 160 and the first feed water is supplied. By supplying the washing water to the upper part of the tab 130 through the flow path 153, there is an effect that a large amount of washing water can be smoothly supplied.
Here, the control unit is configured to discharge the drainage pump 160 so that the washing water is supplied through the first detergent supply channel 156 to the height of the backflow prevention unit 170 and then supplied through the first water supply channel 153. The valve 161, the water supply valve 151, and the like can be controlled. However, the backflow prevention means 170 is not limited to the installation position shown in FIG. 6, and may be provided at a position higher than or at least the same as the height of the bottom surface of the tab 130.
In the aspect of the configuration described above, at the height where the backflow prevention means 170 is provided, the wash water mixed with the detergent is supplied to the bottom surface of the tab 130 via the drainage pump 160, and the backflow prevention means 170 is supplied to the bottom surface of the tab 130. When the washing water is filled up to the height, the washing water is supplied through the first water supply flow path 153, so that the washing water can be supplied to the tab 130 without difficulty even if the pumping force of the drain pump 160 is somewhat small. .
FIG. 7 is a perspective view showing a washing machine according to still another embodiment of the present invention, and FIG. 8 is a cross-sectional view seen from the III direction of FIG. FIG. 9 is a rear perspective view illustrating a state in which the manual detergent supply unit 200a and the automatic detergent supply unit 200b according to the present invention are mounted on the dispenser case 210. FIG. 10 illustrates the distribution plate 220 from the manual detergent supply unit 200a of FIG. It is a disassembled perspective view which shows the state decomposed | disassembled. FIG. 11 is a perspective view showing a state in which the containers 250a and 250b are mounted on the container housing 260 in the automatic detergent supply unit 200b according to the present invention, and FIG. 12 is a bottom perspective view of the containers 250a and 250b shown in FIG. is there. FIG. 13 is a perspective view showing the upper surface of the flow path forming plate 280 attached to the bottom surfaces of the containers 250a and 250b of FIG. 14 is an exploded perspective view of a gear pump and a detergent detection sensor mounted on the bottom surface of the containers 250a and 250b of FIG. 12, FIG. 15 is a partially cutaway perspective view of FIG. 12, and FIG. 16 is a container shown in FIG. FIG. 6 is a perspective view showing an internal configuration of a housing part 260.
The detergent dispenser 200 'according to the present invention includes at least one detergent supply part of an automatic detergent supply part 200b and a manual detergent supply part 200a. For example, the detergent dispenser 200 'may include only the automatic detergent supply unit 200b, may include only the manual detergent supply unit 200a, or may include both 200a and 200b.
The automatic detergent supply unit will be described with reference to FIGS.
The automatic detergent supply unit 200b includes a plurality of containers 250a and 250b in which detergent is stored, and a pumping unit that selectively discharges a predetermined amount of liquid detergent discharged from the discharge ports 252 of the containers 250a and 250b, And a container housing portion 260 including a placement portion 261 so that the containers 250a and 250b are placed thereon.
The two containers 250a and 250b may be formed with different capacities or may be formed with different shapes. Further, the containers 250a and 250b may be configured such that liquid fluids for processing different types of laundry are respectively stored and selectively supplied to the washing water as necessary. Of course, only one container 250a, 250b may be provided.
For example, at least one of the two containers 250a and 250b stores a main laundry detergent used for main laundry, and the other container 250b is used for a preliminary laundry detergent used for preliminary washing or rinsing. Softeners to be stored may be stored.
A handle is provided on the upper surface of the containers 250a and 250b so that the user can hold the containers 250a and 250b by hand, and the containers 250a and 250b can be easily transported and the dispenser case 210 can be inserted and pulled out. There are advantages.
The lower portions of the containers 250a and 250b are detachably coupled to the container housing portion 260. Further, a container support frame may be further provided in the container housing portion 260 so as to limit a space in which the containers 250a and 250b are inserted into the container housing portion 260 and guide the insertion of the containers 250a and 250b. The container support frame may have the same shape as the edge surface of the container housing portion 260.
Since the basic configurations of the containers 250a and 250b are the same, the following description will be focused on the container 250a shown on the right side.
Referring to FIG. 15, a storage space for storing detergent is formed in the container 250a, and an inlet 251 for supplying the detergent to the storage space from the outside is formed in the upper part of the container 250a. Referring to FIG. 14, a discharge port 252 through which the detergent is discharged is formed on the bottom surface of the container 250a.
The automatic detergent supply unit 200b includes a flow path forming plate 280 coupled to the bottom surface of the container 250a so as to cover the discharge port 252.
A mounting portion 255 is formed on the bottom surface of the container 250a to receive and fasten the flow path forming plate 280. The discharge port 252 is formed on one side of the mounting portion 255.
Referring to FIG. 13, the flow path forming plate 280 includes an inflow portion 281 formed on a surface (hereinafter referred to as an upper surface of the flow path forming plate) 280 b facing the discharge port 252, and a liquid detergent transferred by the pumping unit. The discharge part 282 to be discharged, the supply flow path connecting the inflow part 281 and the discharge part 282 so that the liquid detergent flowing into the inflow part 281 can move to the discharge part 282, and the pumping means are accommodated. You may provide the accommodation space 254 and 281a formed on a supply flow path.
Further, the pumping means may be constituted by a gear pump that sends the liquid detergent that has flowed into the inflow portion 281 of the flow path forming plate 280 to the discharge portion 282.
The inflow portion 281 is formed in a groove shape on the upper surface 280b of the flow path forming plate 280, communicates with the accommodation space, and guides the detergent discharged from the discharge port 252 into the gear pump of the accommodation space.
The supply flow path includes a first flow path forming groove 253 formed in the mounting part 255 so as to connect the discharge port 252 and the discharge part 282, and a flow path forming plate so as to connect the inflow part 281 and the discharge part 282. The second flow path forming groove 283 is formed on the upper surface of 280.
The accommodation spaces 254 and 281a in which the gear pump is accommodated are formed between the first accommodation space 254 formed between the discharge port 252 and the first flow path forming groove 253, and between the inflow portion 281 and the second flow path forming groove 283. The second storage space 281a is configured.
The gear pump includes a first gear 284 and a second gear 285 that mesh with each other, and the first gear 284 and the second gear 285 are accommodated in the first and second accommodation spaces 254 and 281a. Here, the rotation shafts of the first gear 284 and the second gear 285 are rotatably coupled to the first and second accommodation spaces 254 and 281a, respectively. A rotation shaft of the first gear 284 extends through the first accommodation space 254 so as to protrude into the container 250a, and transmits power to an agitator 296 described later.
The rotating shaft of the second gear 285 extends through the second receiving space 281a to the outside of the bottom surface 280a of the flow path forming plate 280 and is connected to the driven gear 286 of the coupler. Is transmitted.
Therefore, a predetermined amount of detergent can be selectively discharged from the discharge portion 282 by the pumping means. Further, even when the detergent is somewhat hardened, it is pulverized while passing between the first gear 284 and the second gear 285, so that there is an effect that it is easily dissolved in the washing water.
Referring to FIGS. 14 and 15, the rotation shaft of the second gear 285 is further provided with a seal member 289 that prevents the detergent flowing through the supply channels 253 and 283 from leaking to the rotation shaft of the second gear 285. Here, the seal member 289 may be provided between the driven gear 286 of the coupler and the bottom surface 280 a of the flow path forming plate 280. The coupler will be described later.
The container housing part 260 includes a placement part 261 on which the containers 250a and 250b are placed, and drive parts 265a and 265b that drive the pumping means. The mounting portion 261 accommodates the bottom surfaces of the containers 250a and 250b, and the pumping means and the driving portions 265a and 265b are connected by the coupler. For this purpose, the placement portion 261 is formed in a groove shape having the same area as the silhouette of the bottom surfaces of the containers 250a and 250b.
The mounting portion 261 is formed with a drive portion accommodating portion 263 and boss portions 262a and 262b. Drive units 265a and 265b are stored and provided in the drive unit storage unit 263. Here, the drive units 265a and 265b are provided at positions corresponding to the gear pump described above.
The boss portions 262a and 262b are provided at positions corresponding to the discharge portions 282. When the containers 250a and 250b are placed on the placement portion 261, the discharge portions 282 are inserted into the boss portions 262a and 262b and the boss portions are provided. It is supported by 262a and 262b.
Two drive units 265a and 265b are provided corresponding to the number of containers 250a and 250b, and the following description will focus on the left drive unit 265b. The drive unit 265b includes a motor housing fixed to the drive unit storage unit 263 and a drive motor stored in the motor housing. A coupler housing portion 269 for housing the coupler is formed in a groove shape on the upper surface of the motor housing, and a drive shaft 267 of the drive motor protrudes from the upper surface of the coupler housing portion 269.
The coupler includes a driving gear 287 and a driven gear 286, and connects the pumping means and the driving units 265a and 265b. Specifically, the drive shaft 267 is inserted into a shaft insertion hole formed at the center of the drive gear 287, and the drive gear 287 is rotatably coupled with the drive shaft 267. Therefore, when the drive shaft 267 rotates, the drive gear 287 coupled to the drive shaft 267 also rotates.
The driven gear 286 is connected to the rotating shaft of the second gear 285 at the bottom surface of the flow path forming plate 280. Further, the driven gear 286 is accommodated in the coupler accommodating portion 269 and meshed with the drive gear 287 when the container 250 b is placed on the placing portion 261. As a result, when the drive gear 287 rotates, the driven gear 286 meshes with the drive gear 287 and the second gear 285 connected by the same rotation shaft as the driven gear 286 rotates. Accordingly, when the gear pump as the pumping means rotates, a predetermined amount of detergent is discharged to the discharge unit 282.
The detergent discharged from the discharge part 282 is mixed with the washing water inside the container housing part 260. For this purpose, the container housing portion 260 accommodates the water supply port 277a through which the washing water flows, the drain port 277b through which the washing water mixed with the washing water or the detergent flows, and the discharge unit 282. It includes a boss portion 262b that supports the surface, and an internal flow path 273 that connects the water supply port 277a and the drainage port 277b through which the washing water flows.
The internal flow path 273 is formed so as to pass through the lower part of the boss part 262b and communicate with the lower part of the discharge part 282 inserted into the boss part 262b, and the detergent discharged from the discharge part 282 flows into the internal flow path 273. By doing so, the washing water and the detergent are mixed. Here, the washing water mixed with the detergent is supplied from the internal flow path 273 to the inside of the tab 130.
The automatic detergent supply unit 200b and the tab 130 may be connected by a connection channel. The connection channel may be configured such that the washing water stored in the tab 130 is supplied to the automatic detergent supply unit 200b, or the detergent stored in the automatic detergent supply unit 200b is supplied to the tab 130. And the tab 130 are connected.
The connection channel includes a first detergent supply channel that connects the detergent dispenser 200 ′ and the bottom surface of the tab 130 such that the detergent is supplied from the detergent dispenser 200 ′ to the bottom surface of the tab 130, and the detergent from the detergent dispenser 200 ′. The detergent dispenser 200 ′ may be supplied to the remaining part of the tab 130 except for the bottom surface of the tab 130, and the second detergent supply channel 155b connecting the remaining part of the tab 130 may be included.
A detergent inlet 131 may be formed on the bottom surface of the tab 130 so that the detergent in the first detergent supply channels 154 and 156 flows into the detergent inlet 131. The remaining part of the tab 130 may be, for example, a part of the gasket 137 that connects the inlet 111 and the front part of the tab 130. One end of the second detergent supply channel 155b is connected to the drain outlet 277b of the automatic detergent supply unit 200b, a nozzle 135 is provided at the other end of the second detergent supply channel 155b, and the nozzle 135 is located above the gasket 137. It may be fixedly coupled.
The detergent of the automatic detergent supply unit 200b configured as described above can be supplied to the tab 130 through at least one of the first detergent supply channel and the second detergent supply channel 155b.
For example, the detergent of the automatic detergent supply unit 200b can be supplied to the bottom surface of the tab 130 through the first detergent supply channel. The first detergent supply channel connects the water supply port 277b of the automatic detergent supply unit 200b and the detergent inlet 131 of the tab 130, so that the washing water stored in the tab 130 passes through the first detergent supply channel. It flows into the bosses 262a and 262b through the water supply port of the automatic detergent supply unit 200b and the internal flow path 273, and the detergent of the automatic detergent supply unit 200b is discharged from the discharge unit 282 by a predetermined amount to the bosses 262a and 262b. Then, the washing water mixed with the washing water and mixed with the detergent may be supplied to the bottom surface of the tab 130.
Alternatively, the detergent of the automatic detergent supply unit 200b is removed from the nozzle 135 provided in the gasket 137 provided in the remaining part of the tab 130, for example, the front part of the tab 130, via the second detergent supply channel 155b. And can be supplied to the drum 120.
Alternatively, the detergent of the automatic detergent supply unit 200b can be supplied to the bottom surface of the tab 130 and the remaining part of the tab 130 through the first detergent supply channel and the second detergent supply channel 155b.
The detergent of the automatic detergent supply unit 200b is discharged from the discharge unit 282 to the bosses 262a and 262b by a predetermined amount and mixed with the wash water, and the wash water mixed with the detergent is discharged from the automatic detergent supply unit 200b. The second detergent supply channel 155b connecting the mouth 277b and the gasket 137 of the tab 130 is moved to move the nozzle 130 and the drum 120 from the nozzle 135 of the second detergent supply channel 155b fixed to the upper portion of the gasket 137 of the tab 130. It can be made to be injected inside. Here, the circulation pump 180 is provided inside the cabinet 110, a part of the flow path of the circulation pump 180 is connected to the internal flow path 273 of the automatic detergent supply unit 200b, and the detergent is secondly driven by the pumping force of the circulation pump 180. The detergent supply channel 155b can be moved.
Here, a container support frame (not shown) for guiding the insertion and removal of the containers 250 a and 250 b may be provided inside the cabinet 110 separately from the dispenser case 210.
The embodiment shown in FIGS. 7 to 10 includes a modified embodiment of the detergent dispenser 200 ′ described above, and the description of the same reference numerals is omitted.
A detergent dispenser 200 ′ shown in FIG. 7 includes an automatic detergent supply unit 200 b in the dispenser case 210 together with the manual detergent supply unit 200 a described above.
At least one detergent of the automatic detergent supply unit 200b and the manual detergent supply unit 200a can be supplied to the bottom surface of the tab 130 via the first detergent supply channels 154 and 156. Alternatively, at least one detergent of the automatic detergent supply unit 200b and the manual detergent supply unit 200a may be a gasket 137 provided in the remaining part of the tab 130, for example, the front part of the tab 130, via the second detergent supply channel 155b. Can be fed at the top. Alternatively, at least one of the detergent of the automatic detergent supply unit 200b and the manual detergent supply unit 200a is applied to the bottom surface of the tab 130 and the remaining part of the tab 130 through the first detergent supply channel 154, 156 and the second detergent supply channel 155b. Each can be supplied.
The detergent dispenser 200 ′ is supplied with wash water from a water supply source via the second water supply flow path 152 or from the tab 130 via the first detergent supply flow paths 154 and 156. can do. In addition, the detergent is supplied to the washing water supplied by the detergent dispenser 200 ′, and the washing water mixed with the detergent in the detergent dispenser 200 ′ is at least in the first detergent supply channels 154 and 156 and the second detergent supply channel 155b. It may be supplied to the inside of the tab 130 through one flow path.
For example, the bottom surface of the tab 130 is disposed at a position higher than the container housing portion 260 of the automatic detergent supply unit 200b, and the washing water discharged from the tab 130 through the first detergent supply channels 154 and 156 is caused by gravity and potential energy. It can be supplied to the internal flow path 273 of the automatic detergent supply unit 200b via the circulation pump 180.
In addition, the manual detergent supply unit 200a is positioned below the charging port 111 so that the wash water of the water supply source is supplied to the distribution plate 220 of the manual detergent supply unit 200a via the second water supply channel 152 by the supply water pressure. can do.
Referring to FIG. 8, the washing water supplied from the water supply source is supplied to the manual detergent supply unit 200a of the detergent dispenser 200 ′, mixed with the detergent of the manual detergent supply unit 200a, and then the first detergent supply channel 154. 156 may be supplied to the bottom surface of the tab 130. In addition, the washing water that has passed through the manual detergent supply unit 200a is supplied to the automatic detergent supply unit 200b via the circulation pump 180, mixed with the detergent of the automatic detergent supply unit 200b, and then via the second detergent supply channel 155b. For example, it can be supplied to the top of the tab 130.
However, the detergent supply unit may be configured only by the automatic detergent supply unit 200b or may be configured only by the manual detergent supply unit 200a. When the automatic detergent supply unit 200b includes only the automatic detergent supply unit 200b, the automatic detergent supply unit 200b puts the detergent into the wash water sent from the tab 130 through the first detergent supply channels 154 and 156 and puts the detergent on the bottom surface of the tab 130. It can be supplied to the remaining part of the tab 130 via the second detergent supply channel 155b.
Here, the second water supply channel 152 is connected to the water supply port 277a of the automatic detergent supply unit 200b, and the washing water of the water supply source is supplied to the automatic detergent supply unit 200b, or the first detergent supply channel 154, 156 may be connected to the water supply port 277a of the automatic detergent supply unit 200b so that the washing water stored in the tab 130 is supplied to the internal flow path 273 of the automatic detergent supply unit 200b.
Alternatively, in the case where only the manual detergent supply unit 200a is configured, the manual detergent supply unit 200a supplies the washing water mixed with the detergent to the bottom surface of the tab 130 via the first detergent supply channels 154 and 156. The remaining part of the tab 130 can be supplied through the second detergent supply channel 155b. Here, the 2nd water supply flow path 152 is connected with the distribution plate 220 of the manual detergent supply part 200a, and the wash water of a water supply source can be supplied to the manual detergent supply part 200a.
The detergent dispenser 200 ′ illustrated in FIG. 9 may include a manual detergent supply unit 200 a and an automatic detergent supply unit 200 b, and the pump module 190 may be disposed below the dispenser case 210. The pump module 190 circulates the washing water that has passed through the detergent dispenser 200 ′ or the washing water mixed with the detergent to the tab 130, and the washing water that has passed the tab 130 and has been mixed with the detergent into the cabinet. 110 and a drainage pump 160 for discharging to the outside of 110.
The first detergent supply channel 154 connects the manual detergent supply unit 200a, the pump module 190, and the tab 130, and the washing water discharged from the manual detergent supply unit 200a or the washing water mixed with the detergent is the pump module 190 and the tab. 130 may be provided.
On the upstream side of the pump module 190, a branch pipe having a three-way flow path connecting portion is arranged. In the branch pipe, one channel connecting portion is connected to the first detergent supply channel 154, the other channel connecting portion is connected to the pump module 190, and the other channel connecting portion is a tab. Connected to 130 detergent inlets 131.
Washing water that has passed through the manual detergent supply unit 200a or mixed with detergent flows into the branch pipe through the first detergent supply channel 154, and then flows into the circulation pump 180 of the pump module 190 from the branch pipe. To do. In addition, a connection pipe 155a is provided on one side of the circulation pump 180, and the connection pipe 155a connects the circulation pump 180 and the water supply port of the automatic detergent supply unit 200b.
According to the flow path configured as described above, the washing water flows from the circulation pump 180 to the water supply port 277a of the automatic detergent supply unit 200b through the connection pipe 155a and flows into the water supply port 277a by the pumping force of the circulation pump 180. The washed water moves through the internal flow path 273 of the automatic detergent supply part 200b, flows into the boss parts 262a, 262b, is mixed with the detergent that flows into the boss parts 262a, 262b, and then supplies the second detergent from the drain port 277b. It flows out to the flow path 155b. The detergent flowing out from the automatic detergent supply unit 200b moves through the second detergent supply channel 155b and is supplied to the inside of the tab 130 and the drum 120 from the nozzle 137 fixed to the upper part of the gasket of the tab 130.
Here, the internal flow path 273 may be formed in a zigzag shape so that the detergent is easily mixed.
Referring to FIG. 15, an agitator 296 may be rotatably provided on the bottom surface inside the container 250a. Here, the agitator 296 is connected to the rotation shaft 145 of the first gear 284 and rotates together with the rotation of the first gear 284 to transfer the detergent inside the container 250a to the discharge port 252 side. For this purpose, the blades formed on the agitator 296 are formed with their ends extending toward the discharge port 252.
In the aspect of the configuration described above, there is an effect that the detergent easily moves to the discharge port 252. Moreover, in the aspect of the structure mentioned above, there exists an effect of preventing that a detergent solidifies or sinks and a layer is produced by stirring the lower layer of the detergent stored in the container 250a.
As still another embodiment of the present invention, a water level detecting means for confirming the remaining amount of stored detergent may be further provided on the bottom surface of the container 250a shown in FIG. The water level detection means includes a pair of electrodes 291 exposed to the detergent, a pair of electrodes 291, a container side connection terminal 293 provided on the bottom surface of the container 250 a, and a container housing portion that can contact the container side connection terminal 293. 260 and a receiving portion side connection terminal 294 provided at 260.
The pair of electrodes 291 are respectively inserted into electrode insertion holes 257 formed through the bottom surface of the container 250a and exposed to the inside of the container 250a. The container side connection terminal 293 is fixed to the bottom surface of the container 250a, and one end projects into the container 250a. The accommodating portion side connection terminal 294 is provided on the inner surface of the driving portion accommodating portion 263 at a position corresponding to the container side connecting terminal 293, and one end extends to the upper surface of the placement portion 261. Therefore, when the storage unit is placed on the placement unit 261, the container side connection terminal 293 disposed on the bottom surface of the container 250a comes into contact with the storage unit side connection terminal 294. The container side connection terminal 294 is electrically connected to the control unit, and the control unit displays on the display device 114 that the detergent supply is necessary when no current flows through the pair of electrodes 291. May be.
Hereinafter, a washing machine 300 including an automatic detergent supply device 310 according to still another embodiment of the present invention will be described with reference to FIG.
FIG. 17 is a perspective view illustrating a washing machine 300 according to still another embodiment of the present invention.
The washing machine 300 according to still another embodiment of the present invention includes a cabinet 301, a tab, a drum, a lift, and a drum driving motor.
The cabinet 301 forms the appearance of the washing machine 300.
A laundry input port is provided on the front surface of the cabinet 301, and the laundry can be input into the drum from the laundry input port.
Further, a door 302 is coupled to the front surface of the cabinet 301 with a hinge structure, and when the laundry is put in or when the laundry that has been washed is collected, the door 302 is opened and the laundry is put into the laundry from the laundry inlet. The door 302 can be closed and washed when thrown in and washed.
The tab has a cylindrical shape and is horizontally provided inside the cabinet 301. The tab is provided with a wash water storage space and receives wash water from a water supply source.
The drum is rotatably provided in the tub and can wash the laundry put in the tub.
The drum includes a plurality of drain holes along a side surface, and the wash water stored in the tub or the detergent mixed with the detergent flows into the drum from the drain hole or the water in the drum. Can flow into the tab.
The lift is circumferentially spaced on the inner surface of the drum, is fixedly installed long in the axial direction, is linked to the drum, and rotates while the laundry is placed on the lift. So that it drops at a predetermined height before it reaches the apex, so that it can be washed efficiently.
The drum driving motor is attached to the rear of the tab and can generate a rotational force to rotate the drum. A speed reducer is provided on the output shaft of the drum driving motor, and the rotational speed of the drum can be adjusted.
Hereinafter, a detergent supply apparatus 310 according to still another embodiment of the present invention will be described in detail with reference to FIGS.
18 is a perspective view showing an automatic detergent dispenser 310 according to still another embodiment of the present invention, FIG. 19 is a perspective view showing an internal structure of the detergent box 312 of FIG. 18, and FIG. 20 is a dispenser of FIG. FIG. 5 is a perspective view showing an appearance of a housing 350.
21 is a perspective view showing a state where the opening / closing plate 329b is opened in the liquid detergent storage unit 320 of FIG. 19, and FIG. 22 is a pumping means 322 and a driving unit provided in the liquid detergent storage unit 320 of FIG. 327 is an exploded perspective view of 327. FIG.
The washing machine 300 according to the present invention provides a detergent supply device 310 that can be charged with a detergent.
A water supply pipe may be provided at the lower part of the upper plate of the cabinet 301.
One end of the water supply pipe is connected to a water supply source, and the other end is connected to a detergent supply device 310 so that washing water from the water supply source passes through the detergent supply device 310.
A water supply valve is provided on one side of the water supply pipe, and the water supply pipe line can be opened and closed.
A control panel 303 may be provided at the upper front end of the cabinet 301. The control panel 303 may include a power button 303a, a washing mode adjustment dial 303b, a display unit 303c for displaying the washing mode, and an auxiliary adjustment button 303d.
The washing mode includes various modes such as standard washing, stubborn dirt, baby clothes, saving boiled washing, speed wash, allergy care, steam cleaning, functional clothing, quiet, color care, lingerie / wool, blanket, rinsing + dehydration, etc. It is divided into.
The washing mode adjustment dial 303b can be selectively set by a user's rotation operation, and washing can be performed by a desired washing method.
The detergent supply device 310 may include a dispenser housing 350 and a detergent box 312.
The dispenser housing 350 may be provided inside the front left upper end of the cabinet 301.
The dispenser housing 350 may be provided adjacent to the left end of the control panel 303.
The dispenser housing 350 provides a storage space in which the detergent box 312 can be stored.
The dispenser housing 350 may have an opening at the front and may have a sealed box structure surrounding the outer periphery and the rear of the detergent box 312.
The dispenser housing 350 includes a water supply / distribution unit 330 at its upper end.
The water supply / distribution unit 330 may include a water supply cover 331 that covers the entire upper end of the dispenser housing 350, and a distribution plate 332 that includes a water supply / distribution flow path therein.
The distribution plate 332 may be provided integrally with the upper end portion of the dispenser housing 350 or may be detachably coupled.
A plurality of water supply ports 333 are provided behind the distribution plate 332 so as to communicate with the water supply distribution flow path, and a water supply pipe is connected to the water supply port 333 so that the wash water from the water supply source is supplied to the distribution plate 332. The distribution channel can be supplied.
A plurality of water supply holes are formed in the bottom surface of the distribution plate 332, and the wash water supplied through the water supply distribution channel can be supplied from the water supply holes to the detergent storage unit.
The detergent box 312 includes a front plate 311 in the front, and a recessed portion 311a is formed in the inside from the front surface of the front plate 311, and a user puts a finger into the recessed portion 311a so that a part of the front plate 311 is placed. Can be pulled.
The detergent is divided into powder detergent and liquid detergent.
The powder detergent is generally widely used. However, due to the characteristics of the detergent, there is a drawback that when it comes into contact with moisture, it becomes damp and the detergent powder aggregates to block the detergent discharge port 321.
Meanwhile, the liquid detergent has an inconvenience that an appropriate amount must be distributed to the liquid detergent storage unit 320 every time it is washed.
In this invention, the fault of such a liquid detergent can be solved at once.
For this, the detergent supply device 310 according to the present invention may include a liquid detergent storage unit 320 and a powder detergent storage unit 340 inside the detergent box 312.
The liquid detergent storage unit 320 and the powder detergent storage unit 340 may be partitioned by a partition wall.
A cover plate 329a may be provided on the upper surface of the liquid detergent storage unit 320, and an inlet may be provided on one side of the cover plate. An opening / closing plate 329b may be coupled to one side of the cover plate with a hinge structure to open / close the injection port.
In this case, the opening / closing plate 329b is opened when additional liquid detergent is added to the liquid detergent storage unit 320, and the opening / closing plate 329b is normally closed, so that the washing water is supplied from the water supply hole of the water distribution unit 330 to the liquid detergent. It can be prevented from flowing into the storage unit 320.
Here, the opening / closing plate 329b is not coupled to the cover plate 329a with a hinge structure, but is slidably coupled to the cover plate 329a so that it overlaps the cover plate 329a or is unfolded from the cover plate 329a. The inlet of the storage unit 320 may be opened and closed.
The liquid detergent storage unit 320 includes a pumping unit 322 and a discharge unit 323c, and may discharge each time an appropriate amount of liquid detergent stored therein is washed.
The liquid detergent storage unit 320 may have a box structure arranged horizontally inside the detergent box 312.
The pumping means 322 may be provided in the rear part of the liquid detergent storage unit 320.
The pumping means 322 may be realized by a gear pump operated by a pair of gears 322a and 322b.
The gear pump may include a pair of gears 322a and 322b that mesh with each other and rotate, and the gears 322a and 322b may circumscribe each other and rotate in opposite directions.
The gear pump may pump the liquid detergent from one side to the other side via gears 322a and 322b that circumscribe.
A liquid detergent discharge port 321 may be provided on the bottom surface of one end of the liquid detergent storage unit 320, and the liquid detergent may be discharged to the outside from the liquid detergent discharge port 321.
The bottom surface of the liquid detergent storage unit 320 may be formed to be inclined downward toward the liquid detergent discharge port 321.
That is, in the liquid detergent storage unit 320, the height of the bottom surface on the other side may be gently inclined so as to become lower as it approaches the liquid detergent discharge port 321.
Thereby, the liquid detergent stored in the liquid detergent storage part 320 gathers in the liquid detergent discharge port 321 by gravity, and the flow of the liquid detergent can be maintained smoothly.
The liquid detergent discharge port 321 may be formed in communication with the inflow port of the gear pump.
The liquid detergent is discharged from the liquid detergent storage unit 320 through the liquid detergent discharge port 321 and supplied to the gear pump, and is pumped by the gear pump and discharged through the discharge unit 323c.
The pumping means 322 may selectively discharge the detergent discharged from the discharge port 321.
“The detergent is selectively discharged by the pumping means 322” means that the detergent is supplied intermittently.
For example, since the detergent is pumped by the pumping means 322 while the pumping means 322 is being driven, in this case the detergent is supplied to the tub, whereas the detergent is pumped by the pumping means 322 during the rest period when the pumping means 322 is not driven. In this case, no detergent is supplied to the tub.
In this way, the pumping means 322 selectively supplies the detergent by the pumping means 322 instead of allowing the user to determine the appropriate amount of liquid detergent and put it in the detergent box 312 each time it is washed. This is because the detergent is intermittently supplied to the tub.
The amount of detergent pumped by the pumping means 322 can be adjusted by the rotational speed of the gears 322a and 322b.
As the rotational speed of the gear pump increases, the pumping speed increases and the pumping amount increases.
Therefore, the appropriate amount of liquid detergent put into the tub every time washing is performed using the detergent supply amount adjustment knob (or detergent supply amount adjustment button) provided in the control panel 303 to control the rotation speed of the gear pump. Can be adjusted.
The pumping means 322 may include a flow path forming plate 323 coupled to cover the discharge port 321 of the liquid detergent storage unit 320.
The flow path forming plate 323 may be disposed on the rear surface of the liquid detergent storage unit 320.
The flow path forming plate 323 may include an inflow portion 323 a disposed to face the discharge port 321 of the liquid detergent storage unit 320.
The inflow portion 323a is preferably disposed on the bottom surface of the rear surface of the liquid detergent storage unit 320, similarly to the outlet 321 of the liquid detergent storage unit 320.
This is because when the discharge port 321 and the inflow portion 323a are formed as low as possible, the maximum amount of liquid detergent stored in the liquid detergent storage portion 320 can be sent.
The flow path forming plate 323 may include a supply flow path 323b that connects one side of the gear pump that is the pumping means 322 and the other side.
The supply channel 323b may connect the inflow portion 323a and the discharge portion 323c.
In this case, the supply flow path 323b can move the detergent pumped by the pumping means 322 to the discharge part 323c and transfer the pumped detergent to the tab via the discharge part 323c.
The pumping unit 322 may be driven by the driving unit 327.
The drive unit 327 may be a drive motor that generates a rotational force.
The drive motor may be provided on the rear surface of the dispenser housing 350.
The drive motor may be accommodated in the motor housing 328.
The drive motor may be fixedly coupled to the interior of the cabinet 301 by a fixing bracket.
The drive motor may be controlled by an electrical control signal from a detergent supply amount adjustment knob of the control panel 303.
The detergent supply amount can be manually adjusted by the user using the detergent supply amount adjustment knob, and can be automatically set to a preset default value for each washing mode.
The drive motor may generate a rotational force by a three-phase AC power source supplied from the outside.
The rotational force generated from the drive motor may be output via a drive shaft 326 protruding outside the motor housing 328.
The drive shaft 326 may be formed to protrude from one end of the motor housing 328 and to protrude inward from the rear surface of the dispenser housing 350.
The pumping means 322 may be connected to the drive motor via a coupler 325 to transmit power.
Coupler 325 may include drive gear 325a and driven gear 325b.
The drive gear 325a may be rotatably coupled to the drive shaft 326.
The driven gear 325b may be coupled so as to mesh with the drive gear 325a.
The gear pump gears 322 a and 322 b may be rotatably supported at both ends by bearings provided between the flow path forming plate 323 and the rear end of the liquid detergent storage unit 320.
The gears 322a and 322b of the gear pump may each include a rotation shaft 322b '.
A rotation shaft 322b 'provided in any one of the gears 322a and 322b of the gear pump 322a and 322b may be formed long in the axial direction.
The length of the rotation shaft 322 b ′ may be increased so as to penetrate the thickness of the flow path forming plate 323.
One end of the rotating shaft 322b 'may be directly connected to the center of the gear 322b, and the other end of the rotating shaft 322b' may be coupled to the driven gear 325b.
The flow path forming plate 323 may include a through hole for allowing the rotation shaft 322b 'to pass therethrough.
Since the liquid detergent in the liquid detergent storage unit 320 may leak from the through hole, a seal member 324 may be provided around the through hole.
The seal member 324 may be formed in a ring shape so as to surround the through hole.
The sealing member 324 may be provided on the back surface of the flow path forming plate 323, that is, the surface opposite to the surface facing the liquid detergent storage unit 320.
On the back surface of the flow path forming plate 323, a seal member support portion 323d may be provided in a circular shape so that the seal member 324 can be fixed.
The seal member 324 has a circular shape, and seals a gap between the rotation shaft 322b 'and the through hole by being inserted into the seal member support portion 323d.
The rotary shaft 322b 'may be coupled to the driven gear 325b through the seal member 324.
The pumping mechanism and the pumping action of the liquid detergent will be described in detail based on the connection relation of such a configuration.
When the drive motor is driven, the drive shaft 326 that protrudes from the motor housing 328 to the inside of the dispenser housing 350 rotates.
Next, the drive gear 325a coupled to the drive shaft 326 rotates, and the driven gear 325b coupled to mesh with the drive gear 325a also rotates.
As the drive gear 325a and the driven gear 325b rotate, power is transmitted to the gear pump that is the pumping means 322 via the rotation shaft 322b 'that passes through the flow path forming plate 323.
Any one of the gears 322a and 322b of the gear pump is rotated by the power transmitted from the rotary shaft 322b ′, and the remaining gear 322a coupled to mesh with the gear 322b is also interlocked, whereby the gear 322a. 322b generates a pumping force.
Due to the pumping force, the liquid detergent is supplied to the inflow side of the gear pump from the discharge port 321 formed in the bottom surface of the rear end portion of the liquid detergent storage unit 320 via the inflow portion 323a of the flow path forming plate 323, The supplied liquid detergent is compressed through a pair of gears 322a and 322b meshing with each other.
The compressed liquid detergent is supplied to the discharge part 323c via the supply flow path 323b of the flow path forming plate 323, and is discharged downward from the discharge part 323c.
The discharged liquid detergent is supplied to the water supply channel 351 through a space 352 provided on the bottom surface of the dispenser housing 350.
The space 352 may be provided between the bottom surface of the detergent box 312 and the bottom surface of the dispenser housing 350.
The space 352 may communicate with a water supply channel 351 provided on the rear bottom surface of the dispenser housing 350.
The water supply channel 351 may be connected to the tab via a bellows tube.
The liquid detergent may be supplied to the tub through the bellows tube.
Moreover, since the liquid detergent discharged from the discharge part 323c is mixed with the wash water which flows into the space part 352, the wash water mixed with the liquid detergent can be supplied to the tub.
Furthermore, in this invention, the method of solving the fault of the conventional powder detergent at a stretch is shown.
The liquid detergent storage unit 320 may be disposed behind the left side in the detergent box 312 when the washing machine 300 is viewed from the front.
Furthermore, a washing water input unit 334 may be provided in front of the liquid detergent storage unit 320 inside the detergent box 312.
Washing water from a water supply source can be directly supplied to the tub through the water supply channel 351 by being supplied to the washing water input unit 334 from the water supply hole of the water supply distribution unit 330.
Furthermore, the washing water and the liquid detergent introduced into the washing water introduction unit 334 are mixed in the space 352 between the bottom surface of the detergent box 312 and the bottom surface of the dispenser housing 350, so that the washing water mixed with the detergent is supplied to the water supply flow. The tub can be supplied via a path 351.
A water level sensor is provided inside the liquid detergent storage unit 320. When the liquid detergent is insufficient, the liquid detergent is additionally supplied into the liquid detergent storage unit 320 via a separate liquid detergent supply pipe or hose line. be able to.
Hereinafter, a liquid detergent movement path in a detergent supply apparatus 310 according to still another embodiment of the present invention will be described with reference to FIG.
FIG. 23 is a cross-sectional view illustrating a liquid detergent movement path in the liquid detergent storage 320 according to still another embodiment of the present invention.
The capacity of the liquid detergent that can be stored in the liquid detergent storage unit 320 is not a one-time capacity but a capacity that can be used multiple times.
There are two methods for supplying and putting the liquid detergent into the liquid detergent storage unit 320: a method in which the user manually injects the liquid detergent into the detergent box 312, and a method for automatically supplying the liquid detergent from an external liquid detergent supply hose.
However, the automatic supply method using the liquid detergent supply hose is executed when the water level sensor inside the liquid detergent storage unit 320 is activated.
The liquid detergent stored in the liquid detergent storage unit 320 is supplied from the outlet 321 formed on the back surface of the liquid detergent storage unit 320 to the inflow portion 323a of the flow path forming plate 323.
Next, the liquid detergent supplied to the inflow portion 323a of the flow path forming plate 323 flows in between the gears 322a and 322b meshing with each other of the gear pump and is compressed.
The compressed liquid detergent falls into the space 352 of the dispenser housing 350 via the supply flow path 323b and the discharge part 323c of the flow path forming plate 323.
The dropped liquid detergent is mixed with the washing water descending from the upstream side of the washing water input unit 334 and supplied to the tub through the water supply channel 351.
Meanwhile, the powder detergent storage unit 340 may be disposed in parallel with the liquid detergent storage unit 320 through a partition wall.
In addition, the powder detergent storage unit 340 may be disposed behind the right side surface in the detergent box 312.
Furthermore, the upper surface of the powder detergent storage unit 340 is opened or an opening is formed on the upper surface, so that the washing water falls from the water supply hole of the water distribution unit 330 to the powder detergent storage unit 340 through the opening surface. And temporarily stored.
The powder detergent storage unit 340 may include a siphon tube 341 in order to prevent a phenomenon that the detergent discharge port is blocked by the solid powder detergent.
The siphon tube 341 may be formed to protrude upward from the bottom surface of the powder detergent storage unit 340 whose four side surfaces are all closed.
A lid plate 342 that covers the upper surface of the powder detergent storage unit 340 may be provided on the upper part of the siphon tube 341.
An opening may be formed on one side of the lid plate 342 so that the washing water from the water supply hole of the water supply / distribution unit 330 falls through the opening.
A siphon cover tube 343 may be provided on the other bottom surface of the cover plate 342 so as to cover the siphon tube 341.
The diameter of the siphon cover tube 343 is relatively larger than the diameter of the siphon tube 341.
As a result, a siphon flow path is formed between the outer diameter surface of the siphon tube 341 and the inner diameter surface of the siphon cover tube 343.
The powder detergent put in the powder detergent storage unit 340 and the washing water supplied from the water supply hole of the water supply distribution unit 330 are mixed.
The powder detergent is a hydrophilic substance that is easily dissolved regardless of whether it is cold water or hot water, and dissolves only by being immersed in water for a while.
A predetermined time is required for the washing water supplied from the water supply hole of the water supply distribution unit 330 to be filled up to the height of the siphon tube 341, and the powder detergent put into the powder detergent storage unit 340 is dissolved in the washing water during that time. .
That is, since the internal space of the powder detergent storage unit 340 is sealed, the detergent powder is soaked and mixed in the wash water for a predetermined time required for the wash water to be filled up to the height of the siphon tube 341. To do.
When the washing water in which the powder detergent is dissolved exceeds the height of the siphon tube 341, the washing water mixed with the detergent ascends the siphon flow path between the siphon tube 341 and the siphon cover tube 343 according to the siphon principle, And flows into the inside of the siphon tube 341 and falls.
Here, the siphon channel is sufficient for the washing water in which the powder detergent is dissolved, but the solid powder detergent cannot pass.
Therefore, the siphon tube 341 acts to promote the powder detergent to be sufficiently dissolved in the washing water, and the siphon cover tube 343 and the siphon tube 341 can prevent the inflow of the solid powder detergent.
Further, a stirrer may be provided inside the powder detergent storage unit 340 in order to facilitate dissolution of the powder detergent in washing water.
The agitator may be rotated using a fluid flow, such as a windmill or a water wheel.
The agitator may be realized by a bucket that rotates in the vertical direction and a rotating shaft 322b 'that supports the bucket.
The agitator may be rotated using the potential energy of the washing water falling from the water supply hole of the water supply distribution unit 330 as a power source.
For example, when the falling wash water accumulates in the bucket, the bucket rotates to stir the wash water.
Thereby, a powder detergent can be effectively dissolved in washing water, without generating the phenomenon that a powder detergent aggregates.
A water level sensor is provided inside the powder detergent storage unit 340, and the washing water can be supplied to the powder detergent storage unit 340 so that the washing water is maintained at a height higher than the siphon tube 341.
Hereinafter, the movement path of the powder detergent disclosed in the present specification will be described with reference to FIG.
FIG. 24 is a cross-sectional view illustrating a washing water moving path in which a powder detergent is dissolved in a powder detergent storage unit 340 according to still another embodiment of the present invention.
Since the powder detergent is solid due to the properties of the detergent, the detergent powder is dissolved in water and supplied to the tub.
The user pulls out the detergent box 312 in front of the cabinet 301 for washing, and then puts an appropriate amount of detergent powder into the powder detergent storage 340.
Washing water is supplied from a water supply source to the water supply distribution channel of the water supply distribution unit 330, and the wash water distributed through the water supply distribution channel is supplied to the powder detergent storage unit 340 from a water supply hole formed on the bottom surface of the distribution plate 332. It is thrown.
The washing water supplied from the water supply hole flows into the powder detergent storage unit 340 through an opening formed in the upper cover plate 342 of the powder detergent storage unit 340.
The washing water flowing into the powder detergent storage unit 340 is mixed with the powder detergent, and the powder detergent is dissolved in the washing water.
In the powder detergent storage unit 340, the amount of the detergent liquid in which the powder detergent is dissolved (hereinafter referred to as detergent liquid) gradually increases, so that the height of the detergent liquid becomes higher than the height of the siphon tube 341, and the detergent liquid is The siphon tube 341 moves to the apex of the siphon tube 341 via the siphon channel between the siphon cover tube 343 and the siphon tube 341.
Next, the detergent liquid flows into the pipe from the top of the siphon pipe 341 and descends in the pipe.
The detergent liquid descending in the siphon tube 341 falls into the detergent liquid drain passage 344 provided on the bottom surface of the detergent box 312, flows to the bottom surface of the detergent box 312, and eventually passes through the water supply channel 351 of the dispenser housing 350. Supplied to the tab.
Therefore, according to the present invention, by selectively driving the pumping means 322 provided in the liquid detergent storage unit 320, the user does not determine the appropriate amount of liquid detergent, but automatically in the detergent supply device 310. Since the user can set a desired amount as needed, the disadvantages of supplying a conventional detergent can be solved.
Further, by providing the powder detergent storage unit 340 with the siphon tube 341, the powder detergent and the wash water can be temporarily stored in the sealed space until the powder detergent is sufficiently dissolved in the wash water. Then, washing water in which the powder detergent is dissolved can be supplied.
Further, by narrowing the passage through which the detergent solution passes by the siphon tube 341 and the siphon cover tube 343, it is possible to prevent the conventional detergent discharge port 321 from being blocked by a lump of powder detergent.
The embodiment described above corresponds to a case where the technical idea of the present invention is applied to a washing machine, but is not necessarily limited thereto, and can be applied to a washing machine having a drying function.
A cabinet comprising a slot formed in the front panel so that laundry can be thrown in and a door that opens and closes the slot;
A tab provided inside the cabinet, in which washing water is stored;
A drum that communicates with the inlet and is rotatably provided in the tab;
A detergent dispenser installed below the inlet;
A water supply flow path for supplying washing water from a water supply source to at least one of the tub and the detergent dispenser;
A first detergent supply channel for connecting the detergent inlet of the detergent dispenser and the tub to supply washing water stored in the tub to the detergent dispenser, and an upper part of the detergent dispenser and the tab. A connecting flow path comprising a second detergent supply flow path for connecting and supplying the detergent stored in the detergent dispenser to the tub;
A circulation pump for circulating washing water mixed with washing water or detergent to the tub,
An upper end portion of the second detergent supply channel passes through an upper portion of the gasket of the tab and protrudes into the drum, and a nozzle is provided at an upper end portion of the second detergent supply channel. A washing machine in which detergent is sprayed onto the laundry inside.
The detergent dispenser is
A dispenser case having an opening on the upper surface;
The washing machine according to claim 1, further comprising a detergent supply unit in which a detergent is stored and attached to the dispenser case.
The washing machine according to claim 2, wherein the detergent supply unit includes at least one of a manual detergent supply unit and an automatic detergent supply unit.
A pump module is provided inside the cabinet,
The washing machine according to claim 3, wherein the pump module includes a drainage pump that discharges washing water that has passed through the tub or washing water mixed with detergent to the outside of the cabinet.
The washing machine according to claim 4, wherein the first detergent supply channel allows detergent to be supplied from the detergent dispenser to a detergent inlet formed on a bottom surface of the tub.
The water supply channel includes a first water supply channel that connects the water supply source and the tub so that washing water is supplied from the water supply source to the tub, and washing water is supplied from the water supply source to the detergent dispenser. Including at least one water supply channel of the second water supply channel connecting the water supply source and the detergent dispenser,
The washing machine according to claim 4 or 5, wherein a water supply valve is provided in at least one of the first water supply channel and the second water supply channel.
The washing machine according to claim 5 or 6, wherein at least one of the automatic detergent supply unit and the manual detergent supply unit is supplied to a bottom surface of the tab via the first detergent supply channel.
The washing machine according to claim 5 or 6, wherein at least one of the automatic detergent supply unit and the manual detergent supply unit is supplied to an upper portion of the tub through the second detergent supply channel.
The said 1st detergent supply flow path is equipped with the backflow prevention means for preventing the washing water discharged | emitted from the said tab from flowing back into the said detergent dispenser, The washing as described in any one of Claims 5-8. Machine.
The first detergent supply channel includes a backflow prevention means for preventing the washing water discharged from the tub from flowing back to the detergent dispenser,
The washing machine according to claim 6, wherein the first water supply flow path is disposed at a position higher than the backflow prevention means.
Washing water supplied from the water supply source to the tub is supplied via the second water supply channel, and when the water level of the tub reaches the height of the backflow prevention means, the first water supply channel passes through the first water supply channel. The washing machine according to claim 10 , which is supplied.
A drainage channel connecting the tab, the drainage pump, and the outside of the cabinet so that washing water inside the tab is drained to the outside of the cabinet;
The drainage channel which connects the tab and the drainage pump is a washing machine according to any one of claims 5 to 11, which is shared with a part of the first detergent supply channel.
It further includes a connecting pipe that connects the circulation pump and the water supply port of the automatic detergent supply unit so that the washing water that has passed through the manual detergent supply unit flows into the water supply port of the automatic detergent supply unit. The washing machine according to any one of the above.
The automatic detergent supply unit includes pumping means for selectively discharging a predetermined amount of detergent stored in a container,
The said pumping means discharges the detergent of the said automatic detergent supply part to at least one detergent supply flow path of a said 1st detergent supply flow path and a said 2nd detergent supply flow path. The washing machine as described in.
The automatic detergent supply unit
A water inlet through which washing water flows,
An internal flow path that communicates with the water supply port and flows in such that the detergent discharged by the pumping means is mixed with the wash water;
The washing machine according to claim 14, further comprising: a drain port that communicates with the internal flow path and discharges washing water mixed with the detergent.
JP2016516472A 2014-03-04 2015-03-03 Washing machine Active JP6456927B2 (en)
KR10-2014-0025733 2014-03-04
KR10-2014-0025746 2014-03-04
KR1020140025746A KR20150103988A (en) 2014-03-04 2014-03-04 Detergent dispenser and washing machine with the same
KR10-2014-0025747 2014-03-04
KR1020140025747A KR20150103989A (en) 2014-03-04 2014-03-04 Washing machine
KR1020140025733A KR20150103981A (en) 2014-03-04 2014-03-04 Washing machine
PCT/KR2015/002048 WO2015133796A1 (en) 2014-03-04 2015-03-03 Washing machine
JP2016522729A JP2016522729A (en) 2016-08-04
JP6456927B2 true JP6456927B2 (en) 2019-01-23
ID=54016817
JP2016516472A Active JP6456927B2 (en) 2014-03-04 2015-03-03 Washing machine
US (3) US10415173B2 (en)
EP (3) EP2994565A4 (en)
JP (1) JP6456927B2 (en)
CN (3) CN106068344B (en)
AU (2) AU2015224713B2 (en)
BR (1) BR112015030691A2 (en)
RU (2) RU2639063C1 (en)
WO (3) WO2015133798A1 (en)
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AU2015224715A1 (en) 2016-09-15
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BR112015030691A2 (en) 2017-07-25
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US20150252514A1 (en) 2015-09-10
AU2015224713B2 (en) 2016-11-10
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CN106068344B (en) 2018-09-21
US10415173B2 (en) 2019-09-17
EP2994565A1 (en) 2016-03-16
AU2015224713A1 (en) 2015-11-12
WO2015133796A1 (en) 2015-09-11
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