Source: https://patents.google.com/patent/RU2484392C1/en
Timestamp: 2020-08-05 17:47:42
Document Index: 410979429

Matched Legal Cases: ['art 211', 'art 212', 'art 362', 'art 364', 'art 362', 'art 362', 'art 336', 'art 362', 'art 362', 'art 364', 'art 364', 'art 362', 'art 362', 'art 364', 'art 364', 'art 364', 'art 365', 'art 364', 'art 364', 'art 362', 'art 362', 'art 364', 'art 362', 'art 364']

RU2484392C1 - Refrigerator - Google Patents
RU2484392C1
RU2484392C1 RU2011139999/13A RU2011139999A RU2484392C1 RU 2484392 C1 RU2484392 C1 RU 2484392C1 RU 2011139999/13 A RU2011139999/13 A RU 2011139999/13A RU 2011139999 A RU2011139999 A RU 2011139999A RU 2484392 C1 RU2484392 C1 RU 2484392C1
RU2011139999/13A
Су Вон ЛИ
Киунг Еун ЛИ
Хан Рим СОНГ
2009-09-03 Application filed by ЭлДжи ЭЛЕКТРОНИКС ИНК. filed Critical ЭлДжи ЭЛЕКТРОНИКС ИНК.
2013-06-10 Publication of RU2484392C1 publication Critical patent/RU2484392C1/en
238000005057 refrigeration Methods 0.000 claims abstract description 41
SUBSTANCE: refrigerator contains the main body, a refrigeration chamber arranged inside the main body and having an access hole, multiple doors of the refrigeration chamber that are connected to the main body so that to enable their turning, opening and closing the refrigeration chamber access hole. One of the multiple doors of the refrigeration chamber includes a main door that has an auxiliary refrigeration chamber arranged inside the body and an auxiliary door that opens and closes the auxiliary refrigeration chamber and covers the main door while the auxiliary door is closed. The auxiliary door is designed to have a latch hook while the main chamber has a latch socket the latch hook is connected to. The refrigerator contains the main body, a refrigeration chamber arranged inside the main body and having an access hole, multiple doors of the refrigeration chamber that are connected to the main body so that to enable their turning, opening and closing the refrigeration chamber access hole. One of the multiple doors of the refrigeration chamber includes a main door that has an auxiliary refrigeration chamber arranged inside the body and an auxiliary door that opens and closes the auxiliary refrigeration chamber and covers the main door while the auxiliary door is closed. The auxiliary door turn direction coincides with that of the main door.
EFFECT: increased convenience of the refrigerator use.
Essentially, a refrigerator is a device for storing food at a low temperature.
The refrigerator comprises a main body in which a storage chamber is formed, and doors movably connected to the main body with the ability to open and close the storage chamber.
The storage chamber can be divided into a refrigerator and a freezer, and the doors comprise a refrigerator door that opens and closes the refrigerator, and a freezer door that opens and closes the freezer.
Thus, to retrieve products stored in the freezer or refrigerator, the user must open the door of the freezer or refrigerator.
The aim of the present invention is to provide a refrigerator that allows you to remove stored in the storage chamber food products with a minimum of effort.
In one embodiment, a refrigerator is provided comprising:
a refrigerator provided in the main body;
a plurality of refrigeration chamber doors that open and close the refrigeration chamber and which are rotatably connected to the main body, wherein one of the plurality of refrigeration chamber doors includes a main door that has an auxiliary refrigeration chamber;
a box, which forms the specified auxiliary refrigerating chamber, selectively inserted into the refrigerating chamber; and
the auxiliary door, which is movable relative to the main door and opens and closes the auxiliary refrigerating chamber and covers the main door when the auxiliary door is closed,
wherein the auxiliary door is provided with a latch hook, and the main door is provided with a latch socket to which the latch hook is connected.
Preferably, the main door and the auxiliary door are mounted one after the other in the forward-backward direction of the main body.
Preferably, when the main door is opened, the auxiliary door and the main door move together.
The auxiliary door can be made to move to open the auxiliary refrigerating chamber, in a state where the main door closes the refrigerating chamber.
The front size of the main door is preferably equal to the front size of the auxiliary door.
In another embodiment, a refrigerator is provided comprising:
a cooling chamber provided in the main body and having an opening for access;
a plurality of refrigeration chamber doors that are rotatably connected to the main body and open and close an opening for access of the refrigeration chamber, one of the plurality of refrigeration chamber doors including a main door that has an auxiliary refrigeration chamber formed in the housing; and
an auxiliary door that opens and closes the auxiliary refrigerating chamber and covers the main door when the auxiliary door is closed,
In yet another embodiment, a refrigerator is provided comprising:
the direction of rotation of the auxiliary door coincides with the direction of rotation of the main door.
According to the proposed options, there is a separate auxiliary door on the refrigerator door so that the user can open the auxiliary door without opening the refrigerator door to extract the necessary food products, thereby improving user convenience.
In addition, when the auxiliary door forms the entire front panel of the front surface of the refrigerator door, the appearance of the refrigerator is improved.
Further, when the refrigerator or the freezer formed in the door is selectively mounted in the freezer or the refrigerator formed in the main body, the volume of the freezer or the refrigerator formed in the main body can be stored as much as possible.
Figure 1 is a perspective view of the refrigerator according to the first embodiment.
Figure 2 is a perspective view of the refrigerator in a state when the auxiliary door according to the first embodiment is open.
Figure 3 is a perspective view of the refrigerator in a state where the door of the refrigerator compartment and the door of the freezer compartment in the first embodiment are open.
Figure 4 is a top view of the refrigerator according to the first embodiment.
5 is a perspective view of a refrigerator in a state where only the refrigerator door of the second embodiment is open.
6 is a perspective view of a refrigerator in a state where both the refrigerator door and the drawer of the second embodiment are open.
7 is a diagram illustrating the construction of a second loop assembly according to a second embodiment.
Fig.8 is a section along the line aa in Fig.7.
Fig.9 is a perspective view of the connecting structure of the refrigerator door and the drawer according to the second embodiment.
10 is a diagram illustrating a state in which a drawer and a refrigerator door are connected to each other.
11 is a perspective view of a refrigerator according to a third embodiment.
12 is a perspective view of a refrigerator in a state where the freezer door of the third embodiment is open.
13 is a perspective view of a refrigerator in a state where the freezer door and the refrigerator door of the third embodiment are open.
The following is a detailed description of embodiments of the present invention with reference to the attached drawings.
Figure 1 presents a perspective view of the refrigerator according to the first embodiment; figure 2 shows a perspective view of the refrigerator in the state when the auxiliary door according to the first embodiment is open, and figure 3 shows a perspective view of the refrigerator in the state when the door of the refrigerator compartment and the door of the freezer according to the first embodiment are open.
As shown in FIGS. 1-3, the refrigerator 1 of the present invention comprises a main body 10 in which a storage chamber is formed, and doors that open and close the storage chamber.
The storage chamber includes a refrigerator YY, which is formed in the upper part of the main body, and a freezer 13, which is formed in the lower part of the main body 10 and is separated from the refrigeration chamber 11 by a partition.
The doors include a plurality of refrigerating chamber doors 21, 22 that open and close the refrigerating chamber 11, and a freezing chamber door 23 that opens and closes the freezing chamber 13.
Many doors 21 and 22 of the refrigerator are connected to the main body 10, for example, rotatably, and the door 23 of the freezer is connected to the main body 10, for example, with the ability to extend and retract.
The refrigerating chamber 11 has a single space or may be divided by one or more partitions. In the present embodiment, the refrigerating chamber 11 formed in the main body 10 may be referred to as the “main refrigerating chamber".
Any of the multiple doors 21 and 22 of the refrigerator compartment (for example, the right door 22 in the present embodiment) has a main door 210 (referred to as the first door) that opens and closes a portion of the main refrigerator compartment 11, an auxiliary door 230 (referred to as the second door), which is connected can be rotated with the main door 210, and a drawer 220, which defines the auxiliary cooling chamber 221.
Box 220 is connected to the rear surface of the main door 210.
Therefore, when the main door 210 swings open, the drawer 220 rotates with the main door 210.
In the present embodiment, the drawer 220, which forms the auxiliary cooling chamber 221, moves together with the main door 210 so that the auxiliary cooling chamber 221 can be formed on the door 22 of the refrigerating chamber (in particular, the main door 210).
Thus, in the present invention, the main cooling chamber 11 can be opened and closed by the left door 21 and the right door 22 (or the main door), and the auxiliary cooling chamber 221 can be opened and closed by the auxiliary door 230.
Auxiliary refrigeration chamber 221 defined by box 220 may comprise a plurality of compartments 222 and 224.
Box 220 may include one or more chilled air holes 225 extending into the main refrigerator compartment 11. In addition, box 220 may include a lid 226 through which food products stored in refrigerator compartment 221 can be inserted and removed in a state where the door 22 refrigerator compartment open. The main door 210 is provided with an open portion 211, through which products are removed and placed in the auxiliary refrigerating chamber 221. The user can place or remove food products stored in the refrigerating chamber 221 through the open part 211.
Auxiliary door 230 determines the appearance of the front surface of the right door 22.
The auxiliary door 230 has a guide 231 that facilitates opening and closing of the door by the user. The guide 231 extends to the side from the side surface of the auxiliary door 230. The main door 210 also has a protruding part 212 having a shape corresponding to the guide 231.
The rear surface of the guide 231 includes a latch hook 232 for connecting to the main door 210, and a protruding portion 212 of the main door 210 has a latch slot 214 to which the latch hook 232 connects.
The design of the latch hook 232 and the latch slot 214 may be known, and therefore, a detailed description thereof will be omitted.
Thus, if the front surface of the guide 231 is pressed in the state that the auxiliary door 230 is closed, the latch hook 232 is detached from the latch slot 214 and the auxiliary door 230 is opened. On the other hand, when the auxiliary door 230 is rotated and closed, the latch hook 232 and the latch socket 214 engage with each other.
In each side surface of the left door 21 and the main door 210, grooves 216 and 217 are provided that act as handles.
Although not shown in the drawings, the rear surface of the left door 21, the rear surface of the main door 210 and the rear surface of the auxiliary door 230 may be provided with seals.
At the same time, the rear surface of the door 23 of the freezer may be connected to the basket 24 for storing food products. The upper surface of the door 23 of the freezer may have a groove 231 that acts as a handle.
In the auxiliary refrigerating chamber 221, for example, frequently used food products or baby food, etc. can be stored. In this case, the user opens the auxiliary door 230 to extract the desired products without opening the door 22 of the refrigerator compartment, which increases the usability.
In other words, the force required to open the auxiliary door 230 is less than the force required to open the refrigerator door 22, which includes the main door 310 and the auxiliary door 230, so the user can remove products from the auxiliary refrigeration chamber 221 without much effort .
Figure 4 shows a partial top view of the refrigerator according to the first embodiment of the present invention.
As shown in FIGS. 3 and 4, the main door 210 is located in front of the main body 10, and the auxiliary door 230 is located in front of the main door 210.
In other words, when viewed from above, the main door 210 and the auxiliary door 230 are arranged in a row one in front of the other.
The main door 230 may rotate relative to the main body on the first hinge assembly 240, and the auxiliary door may rotate relative to the main body and the main door 210 on the second hinge assembly 250.
As shown in the drawings, the pivot axes at the loop nodes 240 and 250 are spaced apart.
Therefore, the main door 210 and the auxiliary door 230 can be rotated independently and without interference on the loop nodes 240 and 250.
In addition, the rotation axis of each of the loop nodes 240 and 250 extends up and down relative to the refrigerator. Therefore, the main door 210 and the auxiliary door 230 can be rotated horizontally about a vertical axis.
FIG. 5 is a perspective view of a refrigerator in a state where only the door of the refrigerator compartment is open according to the second embodiment of the invention, and FIG. 6 is a perspective view of the refrigerator in a state where both the door of the refrigerator compartment and the box according to the second embodiment of the invention are open.
As shown in FIGS. 5 and 6, the refrigerator 300 of this embodiment comprises a main body 310 in which a refrigerator 311 and a freezer (not shown) are formed, separated by a horizontal partition, a plurality of doors and doors 320 and 330 of the refrigerator that open and close the refrigerator chamber 311, door 340 of the freezer, which opens and closes the freezer.
In this embodiment, the refrigerating chamber formed in the main body 310 may be referred to as the “main refrigerating chamber".
The doors 320 and 330 of the refrigeration chamber are rotatably mounted on the main body on the first hinge assembly 335. The first hinge assembly 335 can be located, for example, on the upper side and on the lower side of the doors 320 and 330 of the refrigeration chamber.
The main body 310 is movably connected to a box 312, which defines an auxiliary refrigerating chamber 313, separated from the main refrigerating chamber 311. As one example, the box 312 is rotatably connected and supported on the housing 310 through a plurality of second loop nodes 350.
One of the many second loop nodes 350 can be mounted on the upper side of the box 312, and the other on the lower side of the box 312.
One end of the second loop assembly 350 may be connected to the side wall of the main refrigerator compartment 311, and the other end to the upper side of the drawer 312. The construction of the second loop assembly 350 will be described below with reference to the drawings.
Box 312 can be pulled from the main body 310 (or the main refrigerating chamber) outward together with any (in the present embodiment, the right door 330) of the plurality of refrigerating chamber doors in a state where the box 312 is located in the main housing 310.
In other words, the drawer 312 and the right door 330 are selectively connected to each other by a connecting device (which will be described later) and in the state that the drawer 312 and the right door 330 are disconnected from each other, only the right door rotates, opening the auxiliary refrigerating chamber 313 when box 312 is located in the main body 310.
On the other hand, when the drawer 312 and the right door 330 are connected to each other, the drawer 312 rotates with the right door 330, opening the main refrigerator compartment 311.
On the side surfaces of each door 320 and 330 of the refrigerator, grooves 332 can be provided to act as a handle.
Box 312 may be provided with one or more openings 314 for supplying cold air to the main refrigeration chamber 311. In addition, box 312 may be provided with a lid 315 through which food products stored in auxiliary refrigeration chamber 313 can be placed or removed when box 312 rotated with right door 330.
In the auxiliary refrigerating chamber 313, frequently used products, baby food and the like can be stored as described for the first embodiment.
Fig. 7 is a diagram illustrating the construction of the second loop assembly in the second embodiment, and Fig. 8 is a section along line AA in Fig. 7.
As shown in FIGS. 7 and 8, the second hinge assembly 350 of this embodiment comprises a first lever 352 attached to the inner side wall of the main body 350, and a second lever 356 slidably connected to the first lever 352.
The first lever 352 may be connected to the main body 310 by a connecting element, for example a screw. Both the first lever 352 and the second lever 356 may be in the form of a circular arc of approximately 90 ° in length.
The second lever 356 is located on the lower side of the first lever 352. In the lower surface of the first lever 352, a first guide groove 353 is made, and on the upper side of the second lever 356 there is a first guide protrusion 357 that fits into the first guide groove 353.
So that the first guide protrusion 357 does not come out of the first guide groove 353, the first guide protrusion and the first guide groove may, for example, be T-shaped.
In the lower surface of the second lever 356 there is a second guide groove 358, and on the upper surface of the box 312 there is a second guide protrusion 359. The second guide protrusion plays the role of the axis of rotation of the box 312 and can move along the second guide groove 358.
In order to prevent the second guide protrusion 359 from coming out of the second guide groove 358, the second guide protrusion 359 and the second guide groove 358 may, for example, be T-shaped.
The second guide protrusion 359, which acts as the pivot axis of the box 312, can be moved by the first lever 353 and the second lever 356.
In other words, when the box 312 is located in the main body 310, the first lever 353 enters the second lever 356, and when the box 312 is pulled out of the main body 310, the second lever 356 is pulled out of the main body 310.
Since the second guide protrusion 359 can be moved, the drawer 312 can be rotated together with the refrigerator compartment door 330 when the drawer 312 is connected to the refrigerator compartment door 330, even though the positions of the pivot axis of the drawer 312 and the pivot axis of the first hinge assembly 335 do not match.
Although the present embodiment describes a case where, for example, a box is rotated by two levers from the main body, this description is only an illustration and is not limited to the construction of the second loop assembly.
Figure 9 shows a perspective view of the connecting structure of the box and the door of the refrigerator compartment according to the second embodiment, and figure 10 shows a diagram illustrating the state when the box and the door of the refrigerator chamber are connected to each other.
As shown in FIGS. 9 and 10, the drawer 312 and the refrigerator door 330 can selectively connect to each other using a connecting device 360. FIG. 9 shows a case where, for example, there are a plurality of connecting devices 360.
The connecting device 360 comprises a first connecting part 362 mounted on the door 330 of the refrigerator compartment, a second connecting part 364 mounted on the box 312 and connected to the first connecting part 362, and a drive 367 that drives the first connecting part 362.
The first connecting part is inserted into the receiving part 336, formed in the rear surface of the door 330 of the refrigerating chamber. The first connecting part 362 is connected to a drive 367, which selectively rotates it.
In the first connecting part 362, a connecting groove 363 is made on which the second connecting part 364 is suspended. The second connecting part 364 is seated in the second connecting groove 636 in a state where the first connecting part 362 is rotated in one direction (in the direction of connection with the second connecting part). In other words, the first connecting part 362 supports the second connecting part 364.
Therefore, when the drawer 312 is rotated together with the refrigerator compartment door 330, the load of the drawer 312 can be supported by the second hinge assembly 350 and the connecting device 360.
The second connecting part 364, for example, has a cylindrical shape and selectively fits into the second connecting groove 363. The end portion of the second connecting part 364 may have a separation preventing part 365 having a diameter larger than the diameter of the second connecting part 364 so as to stably maintain the state of the connection between the second connecting part 364 and the first connecting part 362.
The drive 367 may be driven by an actuator 333, which is located in the door groove 332. In other words, if the actuator 333 is pressed once, the drive rotates in one direction so that the first connecting part 362 and the second connecting part 364 are connected to each other.
On the other hand, when the refrigerator door 330 is closed without actuating the actuator 333, the actuator 367 is rotated in the opposite direction so that the connection of the first connecting portion 362 and the second connecting portion 364 is broken. The opening and closing of the refrigerator door 330 may be detected by a sensor (not shown).
At this time, although the actuator 333, with the refrigeration chamber door 330 open, was actuated and the first connecting part 362 and the second connecting part 364 connected, the actuator 367 does not operate.
This prevents the drawer 312 from being disconnected from the refrigerator compartment door 330 when the drawer 312 and the refrigerator compartment door 330 are opened together.
It should be noted that in this embodiment, the position of the actuating element 333 is shown by way of example, and its placement is not limited. For example, the actuator 333 can be mounted on the front surface of the refrigerator door 333.
In addition, it should be noted that the design of the connecting device 360 is not limited to this option and various devices can be used instead.
Figure 11 shows a perspective view of the refrigerator according to the third embodiment. On Fig shows a perspective view of the refrigerator according to the third embodiment with the door of the refrigerator compartment open. On Fig shows a perspective view of the refrigerator according to the third embodiment with the doors of the refrigerator and the freezer open.
As shown in FIGS. 11-13, the refrigerator 400 in this embodiment comprises a main body 410 in which a refrigerating chamber 412 is formed, a plurality of refrigerating chamber doors 420 and 430 for opening and closing the refrigerating chamber 414, a box 413 provided at the doors 420 and 430 a refrigerator and forming a freezer 414, and a plurality of doors 440, 450 of the freezer, rotatably connected from each of the doors 420 of the refrigerator to open and close the freezer 414.
In this embodiment, a case is described where the doors of the refrigerator compartment are located left and right, as an example, and the design of the left refrigerator compartment door and the construction of the right refrigerator compartment door are the same, therefore, only the left refrigerator compartment door will be described with reference to its reference positions.
Box 413 is connected to the rear surface of the refrigerator compartment door 420. In this embodiment, the drawer 413, in a state when it is connected to the refrigerator door 420, moves together with this door and, therefore, a case where the freezer is formed in the refrigerator door 420 is also described.
Thus, in this embodiment, the freezer 414 is selectively mounted inside the refrigerator, depending on whether the door 420 of the refrigerator is open.
An opening 421 is made in the door of the refrigerator compartment 420 through which food products can be removed and placed. Therefore, the products are placed in or taken out of the freezer 414 through the opening 421.
The freezer door 440 opens and closes the opening 421 (or freezer), in a state where it is located in front of the refrigerator door 420. In other words, when viewed from the upper surface of the refrigerator 400, the freezer door 440 and the refrigerator door 420 are located one in front of the other.
The freezer door 440 forms the overall appearance of the front surface of the refrigerator. Therefore, the user from the outside can only see the front surface of the door 440 of the freezer. However, by reducing the size of the freezer door 440 relative to the size of the refrigerator door 420, it is possible to make the entire surface of the freezer door and part of the surface of the refrigerator door 420 visible.
At the top of the drawer 413 is an evaporator (not shown) and one or more openings 415 for injecting cold air into which the heat exchange cold air is being pumped. In the inner upper surface of the main body 410, there is an air duct 416 for cold air, which forms a cold air channel.
At the same time, the refrigerator compartment door 420 is rotated relative to the main body 410 by the first hinge assembly 460, and the freezer compartment door 440 can be rotated relative to the refrigerator compartment door 420 by the second hinge assembly 470.
Thus, the refrigerator compartment door 420 and the freezer compartment door 440 can rotate independently and without interfering with each other at each of the loop nodes 460 and 470.
At the same time, the rear surface of the refrigerator door 420 has a seal 422 to prevent cold air from leaking from the refrigerator 412, and a magnet (not shown) may be installed on the inside of the seal 422 to connect to the main body 410.
Additionally, the rear surface of the freezer door 440 has a seal 422 to prevent leakage of cold air from the freezer 414, and a magnet (not shown) can be installed on the inside of the seal 422 to connect to the refrigerator door 420. The magnetic force of the magnet of the door 440 of the freezer is less than the magnetic force of the magnet of the door 420 of the refrigerator.
In each of the side surfaces of the refrigerator door 420 and the freezer door 440, a door groove 424 and 444 is formed to act as a handle.
Thus, when the freezer door 420 is pulled by a hand located in the groove 424 of the refrigerator door 420, the refrigerator door 420 rotates in a state where the freezer door 440 is connected to the refrigerator door 420 so that access to the refrigerator 412 is opened.
When the refrigerator door 440 is pulled by a hand located in the groove 444 of the freezer door, the magnetic force of the refrigerator magnet 420 is greater than the magnetic force of the magnet of the freezer door 440, so only the freezer door 440 rotates when the refrigerator door 420 remains connected with the main body and provides access to the freezer 414.
In the above embodiment, the refrigerating chamber 412 is formed in the entire space of the main body 410, and the freezing chamber 414 formed at the freezing chamber door 440 can be inserted into the refrigerating chamber 412, therefore, the volume of the refrigerating chamber can be formed as possible.
In contrast, in order to increase the volume of the freezer, this freezer can be formed in the main body, and the refrigerator can be formed in the door. In this case, the refrigerator is formed in the door of the freezer and is located in front of the freezer.
In the above embodiments, a freezer or a refrigerator formed in the main body may be referred to as a first storage chamber, and a refrigerator or a freezer selectively inserted into the first storage chamber may be referred to as a second storage chamber. Therefore, the first storage chamber and the second storage chamber are a refrigerator or a freezer, and any one of them may be a refrigerator and the other a freezer.
1. Refrigerator containing:
the main body, a refrigeration chamber provided in the main body; a plurality of refrigerating chamber doors that open and close the refrigerating chamber and which are rotatably connected to the main body, one of the plurality of refrigerating chamber doors including a main door that has an auxiliary refrigerating chamber, a box that forms said auxiliary refrigerating chamber selectively inserted inside refrigerating chamber; and an auxiliary door that is movable with respect to the main door and opens and closes the auxiliary refrigerating chamber and covers the main door when the auxiliary door is closed, wherein the auxiliary door is provided with a latch hook and the main door is provided with a latch socket to which the latch hook is connected.
2. The refrigerator according to claim 1, in which the main door and the auxiliary door are installed one after the other in the front-back direction of the main body.
3. The refrigerator according to claim 1, wherein when the main door is opened, the auxiliary door and the main door move together.
4. The refrigerator according to claim 1, in which the auxiliary door is made with the possibility of movement to open the auxiliary refrigerating chamber in a state where the main door closes the refrigerating chamber.
5. The refrigerator according to claim 1, in which the front size of the main door is equal to the front size of the auxiliary door.
6. Refrigerator containing:
the main body, a refrigerating chamber provided in the main body and having an opening for access; a plurality of refrigeration chamber doors that are rotatably connected to the main body and open and close an opening for access of the refrigeration chamber, one of the plurality of refrigeration chamber doors including a main door that has an auxiliary refrigeration chamber formed in the housing; and an auxiliary door that opens and closes the auxiliary refrigerating chamber and covers the main door when the auxiliary door is closed, wherein the auxiliary door is provided with a latch hook, and the main camera is provided with a latch socket to which the latch hook is connected.
7. A refrigerator comprising: a main body; a cooling chamber provided in the main body and having an opening for access; a plurality of refrigeration chamber doors that are rotatably connected to the main body and open and close an opening for access of the refrigeration chamber, one of the plurality of refrigeration chamber doors including a main door that has an auxiliary refrigeration chamber formed in the housing; and an auxiliary door that opens and closes the auxiliary refrigerating chamber and covers the main door when the auxiliary door is closed, wherein the rotation direction of the auxiliary door coincides with the direction of rotation of the main door.
RU2011139999/13A 2009-05-12 2009-09-03 Refrigerator RU2484392C1 (en)
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