BLENDER

Proposed is a blender which detects whether a container lid is closed by transmitting an electrical signal through a transparent film. The blender according to the present disclosure comprises a container body in which food is accommodated; a main body provided under the container body so as to support the container body; the container lid detachably mounted on the upper surface of the container body so as to open and close the upper side of the container body; and a detection system which detects whether the container lid is mounted on the container body, wherein the detection system includes a transparent electrode film configured to have multiple layers so as to guide the flow of electricity. Therefore, the blender has the advantage of preventing an assembly defect without damaging the appearance of the container body formed of a transparent material.

TECHNICAL FIELD

The present disclosure relates generally to a blender. More particularly, the present disclosure relates to a blender which has the function of detecting whether a container lid is closed by transmitting an electrical signal through a transparent film.

BACKGROUND ART

Generally, a blender is referred to as a mixer or crusher, and is mainly used for crushing or chopping food contained in a container body by rotating blades by the rotation of a motor.

In a normal blender, a main body having a motor operated by electricity is located at the lower side of the blender, and the container body receiving food is seated on the upper side of such a main body. Blades crushing or chopping food are provided inside the container body, and are rotated by the rotational force of the motor.

Accordingly, when a user drives the motor by using a manipulation button or a knob of the main body after putting food in the container body, the blades receiving the rotational force generated by the motor crush or chop food contained inside the container body.

Various types of blenders have recently been developed in accordance with a user's desire to facilitate the food intake of office workers due to their busy daily life. That is, a small hand blender has been developed, and a blender has been developed that allows food to be crushed in a larger capacity or at high speed.

Additionally, a vacuum blender which cuts or crushes food by vacuumizing the inside of a container body so that the food accommodated in the container body of the blender can be processed in a fresher state is also disclosed.

However, what is increasingly emphasized in these various types of blenders is safety along with the taste and nutrition of food processed by these machines. That is, when blades rotate while a container lid is open, food contained in the container body is thrown out and scattered, and an accident may occur when a child puts his or her finger inside the container body.

Accordingly, a technology for detecting whether a container lid is mounted has been developed and disclosed.

For example, as disclosed in U.S. Pat. Nos. 6,910,800 and 7,871,196, a push rod which physically connects a container body with a main body is installed, and when the container lid closes the container body, the container lid presses the push rod.

Specifically, in U.S. Pat. No. 6,910,800, a link is provided longitudinally along the side surface of the container body, and when the container lid at an upper side is closed, the protrusion of the container lid presses the upper end of the link downward such that the lower end of the link is moved downward, so the closing of the container lid of the container body can be mechanically detected.

Additionally, in U.S. Pat. No. 7,871,196, a link which transmits the closing of the container lid to the upper and lower sides of the container body is not provided on the side surface of the container body, but is provided inside the handle of the container body. That is, a push rod installed to be vertically long is installed in the groove of the inside of the handle, and when the push rod is moved downward by the closing of the container lid at the upper side, a switch provided at a lower side is activated by the push rod to detect the closing of the container lid.

However, in these conventional technologies, a separate push rod or push block is required to be installed, and the link or push rod installed to be vertically long is required to be installed according to the length of an associated part, and thus manufacturing and assembly thereof are difficult, and the link or push rod is worn or damaged due to frequent use thereof, which causes the loss of a detection function. Additionally, the link or push rod having a considerably long length may not perform a detection function (a signal transmission function) due to the twisting or bending of the link or push rod.

In addition, the push rod and a press detection part are required to be separately installed, and the press detection part may be contaminated due to moisture or food introduced thereinto, and the push rod of the container body and the press detection part of the main body are required to be respectively installed at positions corresponding to each other, so the container body is required to be installed only in a specific direction.

Furthermore, as in the conventional technology, in a connection structure of transmitting a signal to the upper and lower sides of the container body by using a mechanical structure (or wire), when the container body is formed to be transparent or translucent, at least a portion of the container body is required to be opaque such that a transmission mechanism or wire is not seen from the outside, thereby reducing the degree of design freedom.

In addition, recently, US Patent Application Publication No. 2018-0020875 discloses an interlocking blending device in which a pair comprised of a transmission coil and a reception coil is arranged in a main body and a pair comprised of a reception coil and a transmission coil is arranged in a container body by corresponding to the coils, and when a container lid closes the container body, power is transmitted to the reception coil of the container body through the transmission coil of the main body and is transmitted back to the reception coil of the main body through the transmission coil of the container body such that the main body recognizes the closing of the container lid of the container body.

That is, US Patent Application Publication No. 2018-0020875 discloses a structure of allowing or disallowing signal transmission in which a push rod is installed vertically along the side surface of the container body such that the signal of detecting the closing of the container lid is mechanically transmitted to the lower side of the container body, and according to the turning on/off of the switch of the upper side of the container body by the container lid, a circuit connected between the upper side of the container body and a lower side thereof is opened or closed so as to allow or disallow signal transmission to a base.

However, in such a conventional technology, a connection wire for the connection of two switches of the upper end part of the container body and for transmitting an electrical signal between the upper and lower ends of the container body is installed to connect the periphery of the upper end of the container body with the upper and lower ends of the container body.

Accordingly, since this connection wire is installed on the periphery of the upper end of the container body or is vertically installed on the side surface of the container body, the appearance of the transparent container body is damaged. That is, a connection wire for transmitting an electrical signal is installed on the surface of the container body and thus may be cut by external interference, or a colored connection wire is installed on the transparent container body, which may damage the design of the container body.

DISCLOSURE

Technical Problem

Accordingly, the present disclosure has been made to solve the above problems occurring in the prior art, and the present disclosure is intended to provide a blender which electrically transmits the detection signal of the closing of a container lid of a container body to a main body.

The present disclosure is intended to provide a blender which can maintain the design of the container body made of a transparent material.

The present disclosure is intended to provide a blender which is provided with a handle having improved beauty, soft touch, and degree of design freedom.

The present disclosure is intended to provide a blender in which a transparent electrode film is prevented from being electrically disconnected by external impact or vibration.

The present disclosure is intended to provide a blender in which during the assembly of the transparent electrode film, the transparent electrode film is prevented from being physically damaged even when a pulling force or other external forces are applied to the transparent electrode film.

Technical Solution

In order to accomplish the above objectives, according to the characteristic of the present disclosure, a blender of the present disclosure may include a detection system which detects whether a container lid is mounted through an electrical signal.

In the present disclosure, a transparent electrode film may be provided between the upper and lower ends of a container body. Accordingly, without damage to the design of the container body which is transparent, a signal of the upper end of the container body may be transmitted to the lower end thereof.

In the present disclosure, the transparent electrode film may have multiple layers. Accordingly, a transmission member made of a conductive member may be protected from the outside.

In the transparent electrode film of the present disclosure, the transmission member which transmits an electrical signal may be configured to be printed on a base film.

In the transparent electrode film of the present disclosure, the transmission member which transmits an electrical signal may be configured to be covered by a cover film.

In the present disclosure, the transparent electrode film may be attached and fixed to the container body by a fixing member having an adhesive function.

In the present disclosure, the transparent electrode film may be configured as a single member. Accordingly, the transparent electrode film may be prevented from being cut or separated into two or more films even when an external force is applied to the transparent electrode film.

The transparent electrode film of the present disclosure may be provided with a support part so as to supplement resistance against external force.

The transparent electrode film of the present disclosure may include at least one groove to prevent damage or tearing thereof due to bending thereof.

The transparent electrode film of the present disclosure may be provided with at least one reinforcement piece which reinforces the rigidity of the transparent electrode film.

The transparent electrode film of the present disclosure may be coupled to the container body by a hook fastening method.

The blender of the present disclosure may include the container body in which food is accommodated; a main body provided under the container body so as to support the container body; the container lid mounted detachably on the upper surface of the container body so as to open and close the upper side of the container body; and the detection system which detects whether the container lid is mounted on the container body, wherein the detection system may include the transparent electrode film configured to have multiple layers so as to guide the flow of electricity.

In addition, the transparent electrode film may include the transmission member which transmits an electrical signal, and the base film on which the transmission member is printed.

The cover film which supports the transmission member may be provided at one side of the transmission member.

The fixing member which allows the transparent electrode film to be attached to the container body may be provided at the one side of the transmission member.

One surface of the fixing member may be in contact with one surface of the cover film.

An adhesive member may be provided between the transmission member and the cover film such that the transmission member and the cover film are coupled to each other.

A coating layer may be formed on an end of the transmission member so as to prevent corrosion thereof.

The transparent electrode film may be a single member configured such that a first end thereof is connected with a second end thereof.

The transparent electrode film may includea main part attached to the container body, a first bent part formed by bending and extending from a first end of the main part, and a second bent part formed by bending and extending from a second end of the main part.

A support part may be provided on the first bent part so as to supplement resistance against external force.

A tear prevention groove may be formed in the support part so as to prevent damage or tearing thereof due to bending between the main part and the first bent part.

A reinforcement piece may be provided at one side of the support part so as to reinforce rigidity thereof.

A reinforcement piece may be provided at an end of the transparent electrode film so as to reinforce rigidity thereof.

The end of the transparent electrode film may be coupled to the lower or upper end part of the container body by a hook fastening method.

A hook groove into which a hook is inserted may be formed in the end of the transparent electrode film by passing therethrough.

Advantageous Effects

The blender of the present disclosure has the following effects.

First, in the present disclosure, an electric circuit formed in the container body may be configured to be opened or closed depending on whether the container lid is closed such that whether the container lid is closed is electrically detected. Accordingly, compared to a conventional mechanical detection, whether the container lid is closed may be precisely detected in spite of long-term use thereof. That is, malfunction due to deformation of or damage to a link or a push rod of a conventional technology due to long-term use thereof may be prevented.

Second, in the present disclosure, the transparent electrode film may be attached vertically to the surface of the transparent container body such that electricity is conducted between the upper and lower sides of the container body, and thus whether the container lid is mounted may be detected. Accordingly, without damage to the external design of the transparent container body, whether the container lid is mounted may be detected. That is, the degree of the design freedom of the container body may be improved.

Third, in the present disclosure, the transparent electrode film, a permanent magnet, and a detection sensor may be used such that the signal of detecting the closing of the container lid of the upper end of the container body is transmitted to a lower side thereof. Accordingly, compared to the use of the link or push rod of the conventional technology, the associated parts of the present disclosure may be easily assembled and installed, and since the blender does not require a push rod or a press detection part, the blender may be light and manufacturing costs thereof may be reduced.

Fourth, in the present disclosure, the transparent electrode film may be configured as one single member. Accordingly, the transparent electrode film may have strong resistance against external tensile force, compared to multiple parts connected to each other. That is, as for multiple parts connected to each other, when external pulling force is applied to the multiple parts, connection portions therebetween may be fractured or damaged. In the present disclosure, the transparent electrode film may prevent the risk of this fracture, thereby improving durability.

Fifth, in the present disclosure, the transparent electrode film may have multiple layers, and the transmission member which transmits an electrical signal may be located inside the transparent electrode film. Accordingly, the transmission member which guides the flow of electricity may be protected from external impact or contact.

Sixth, in the present disclosure, the transmission member which transmits an electrical signal may be printed on the base film. Accordingly, the risk of the transmission member being cut or damaged due to external friction by protruding to the outside may be reduced.

Seventh, in the present disclosure, the end of the transparent electrode film may be coated with carbon. Accordingly, the connection part of the transparent electrode film may be prevented from being corroded.

Eighth, in the present disclosure, the transparent electrode film may further include the support part to support the secure attachment of the transparent electrode film to the container body. Accordingly, the transparent electrode film may have supplemented resistance against an external force.

Ninth, in the present disclosure, the tear prevention groove may be formed in the support part of the transparent electrode film. Accordingly, even when the transparent electrode film is installed by being bent, the transparent electrode film may be prevented from being damaged or torn.

Tenth, in the present disclosure, a separate reinforcement piece may be provided on an end part of the transparent electrode film. Accordingly, the rigidity of the transparent electrode film may be increased.

Eleventh, in the present disclosure, the end of the transparent electrode film may be coupled to the lower or upper end part of the container body by a hook fastening method. Accordingly, even if the blender is vibrated or impacted, or even if assembly failure by a worker occurs, the transparent electrode film may be prevented from being removed.

Twelfth, in the present disclosure, the hook groove into which a hook protrusion is inserted may be formed in the end of the transparent electrode film by passing therethrough, so during the coupling of the transparent electrode film, when the hook protrusion of a hook connector is inserted into the hook groove, an insertion sound of “click” may be generated. Accordingly, since a user can audibly recognize whether the connection of the end of the transparent electrode film is completed (whether normal connection thereof is performed), the assembly defect of the associated product may be prevented.

Accordingly, in the present disclosure, the transparent electrode film may be configured to have multiple layers such that the transmission member which transmits an electrical signal is covered by the cover film. Accordingly, overall, the transparent electrode film may be structurally strong against damage or impact caused by external interference during assembly or use, thereby securing durability.

In addition, the transparent electrode film may be made of one material, and ends thereof may be securely fixed by hooks, so the transparent electrode film may be prevented from being torn by external tensile force and from being removed from a position thereof by vibration or impact, thereby improving durability and usability thereof.

MODE FOR INVENTION

Hereinafter, a blender of the present disclosure will be described in detail with reference to the accompanying drawings.

FIGS.1and2are a perspective view and a vertical sectional view, respectively, illustrating the configuration of the blender according to an embodiment of the present disclosure.

As illustrated in these drawings, the blender of the present disclosure may include a container body100located relatively at the upper side thereof and configured to receive food, and a main body500provided at the lower side of the container body100and configured to support the container body100.

The container body100may be a part in which food is received and the process of cutting or crushing the food occurs, and the main body500may support the container body100. Furthermore, multiple parts may be provided inside such a main body500to control the cutting or crushing of the food received in the container body100, or to supply electric power.

The container body100may have a cylindrical shape as a whole, and the upper surface thereof may be configured to be open to introduce food thereinto.

The container body100may be made of a transparent material such that the inside thereof can be seen from the outside. That is, the container body100may be made of glass or transparent plastic so that a user can check the state of food contained inside the container body100from the outside.

A blade assembly200may be provided in the inner lower portion of the container body100. The blade assembly200may have multiple blade units mounted rotatably thereto such that the blade units chop or crush food received in the container body100.

The blade assembly200may be connected to a motor assembly600to be described below, and be configured to be rotated by a rotational force generated by the motor assembly600.

The container body100may be formed to have a double structure. That is, the container body100may be composed of an outer container body110constituting the appearance thereof and an inner container body120provided inside the outer container body110. The outer container body110and the inner container body120may be configured to be in contact with each other or to be spaced apart by a predetermined distance from each other. Furthermore, only a portion of each of the outer container body110and the inner container body120may be configured to be in contact with each other.

At least one inner guide122may be provided in the container body100to have a predetermined length in a vertical direction. The inner guides122are intended to guide food rotating in the container body100, and may be configured in pairs symmetrical to each other in the front and rear or left and right of the inner container body120.

A handle300grasped by a user may be formed on the right surface of the container body100by protruding therefrom to the right side. Such a handle300may be configured such that a user can grasp the handle with his or her one hand, and in the present disclosure, the upper end of the handle is illustrated to be connected integrally to the upper surface of the container body100.

Meanwhile, a spout210may be formed at the opposite side to the handle300.

As illustrated inFIG.2, the spout210may be formed on the upper end of the left surface of the container body100, and may be a part through which food completely crushed in the container body100is guided to be easily poured to the outside. Accordingly, such a spout210may be configured to more protrude gradually upward in the left direction.

The upper surface of the container body100may be covered by a container lid400. That is, the container lid400may be removably mounted to the upper surface of the container body100, and open and close the upper surface of the container body100.

The container lid400may cover the upper surface of the container body100such that food contained in the container body100is not removed to the outside and foreign matter of the outside is not introduced into the container body100.

The container lid400may be configured to be mounted to the container body100by pressing or rotating the container lid400by a user. A gasket402may be provided in the outer circumferential surface of the container lid400and block a gap between the container lid400and the container body100. Of course, such a gasket402may function to allow the container lid400to be pressed and fitted to the container body100.

A cap450may be provided in the container lid400. That is, a lid hole401which is a circular hole having a predetermined size may be formed vertically through the center of the container lid400, and the cap450may be mounted to such a lid hole401and cover the lid hole401.

As illustrated in the drawings, the cap450may be installed at the center of the container lid400, and as a whole, may be formed to have a diameter smaller than the diameter of the container lid400. The cap450may be removably mounted to the container lid400by forcible fitting by pressing or by rotating.

In the present disclosure, it is illustrated that the cap450is configured to be attached to and detached from the container lid400by being rotated, and a detailed configuration thereof will be described below.

Since the cap450may be removably mounted to the container lid400, a user may see food contained inside the container body100by opening only the cap450without opening the container lid400, and insert food into the container body100by opening the cap450, or insert a mixing rod thereinto and stir the food contained inside the container body100.

The upper end of the cap450may be configured by protruding toward a side upper than the upper end of the container lid400, so the cap450may function as the handle of the container lid400grasped by a user when the user opens or closes the container lid400.

As illustrated in the drawings, the main body500may be configured to have a hexahedral shape having the shape of a rectangular barrel as a whole and be provided under the container body100so as to support the container body100, wherein the motor assembly600and multiple electronic parts such as a PCB (a printed circuit board) may be installed inside the main body500. Of course, the external shape of such a main body500may be variously changed as required.

The motor assembly600may be provided at the center of the inside of the main body500. The motor assembly600may generate a rotational force by power supplied from the outside such that the blades constituting the blade assembly200rotate.

Accordingly, the lower end of the blade assembly200may be connected to the upper end of the motor assembly600.

A knob502may be provided on the front surface of the main body500by protruding forward therefrom. The knob502is intended to set the operation of the blender of the present disclosure, and may be rotatably mounted to the main body500.

The knob502may be configured to control the operation intensity of the motor assembly600. That is, the knob502may be configured to change the rotational speed of the motor assembly600to high speed or low speed by the clockwise or counterclockwise rotation of the knob502.

Meanwhile, a manipulation part504may be provided on the upper surface of the main body500.

The manipulation part504is intended to manipulate the blender of the present disclosure by touching, and may be configured to manipulate the starting and stopping of the operation of the blender.

Of course, the knob502and the manipulation part504may be configured to selectively set or manipulate the operation of the blender, or may be configured to overlap each other in the functions of the setting and manipulating. That is, for convenience, the knob502and the manipulation part504may be configured to overlap each other in the functions such that a user may select any one of the knob502or the manipulation part504to set or manipulate the operation of the blender.

A display part506may be provided at a side of the manipulation part504(a left side ofFIG.1). That is, the display part506may be provided on the upper surface of the main body500. Such a display part506may function to display the state of the operation of the blender such that a user can check the state thereof. Accordingly, such a display part506may be configured as a seven-segment display.

A cooling fan610may be provided at the lower side of the motor assembly600.

The cooling fan610may be connected to the lower end of the motor assembly600and be rotated by a rotating force generated by the motor assembly600, thereby introducing an outside air into the main body500and forcing the flow of the air. Accordingly, the cooling fan610may allow air to be introduced into the main body500from the outside and to flow therein, and function to cool parts such as the PCB provided in the main body500.

A base end510may be provided on the lower surface of the main body500.

The base end510may be formed by protruding downward from the lower surface of the main body500and may have a space having a predetermined size therein to receive a wireless power module520. The wireless power module520may function to receive external wireless power in a wireless method using induced electromotive force and to supply the wireless power to the motor assembly600provided inside the main body500.

Meanwhile, a detection system may be provided in the main body500and the container body100described above so as to detect whether the container lid400is mounted to the container body100.

The detection system may allow an electric circuit (not shown) which can be turned on and off to be formed in the container body100, and allow such an electric circuit to form a closed circuit, so that the detection system may be configured to detect whether electric current flows in the closed circuit by voltage supplied by the main body500.

More specifically, the detection system may include: a power transmission means700provided in the main body500and configured to supply power to the container body100; a power reception means220provided in the container body100and configured to receive the power supplied by the power transmission means700; an on/off means230provided at the upper side of the container body100and configured to turn on/off the electric circuit formed in the container body100depending on whether the container lid400is closed; a transparent electrode film240made of a transparent material provided on a surface of the container body100and connecting the power reception means220and the on/off means230to each other so as to allow electricity to flow therebetween; and a detection means800provided on one side of the main body500or the container body100and allowing the electric circuit formed by the connection of the power reception means220with the on/off means230to form a closed circuit so as to detect whether electric current flows.

The power transmission means700is intended to transmit power, which is introduced to the main body500from the outside of the main body500or stored in advance in the main body500, to the container body100, and may use an induction coil in which induced electromotive force can be generated.

The power reception means220is intended to receive the power transmitted from the main body500, and may be configured to have a structure corresponding to the structure of the power transmission means700. That is, the power reception means220may use a coil such that power is transmitted by induced electromotive force generated between the power transmission means700and the power reception means220.

The power transmission means700and the power reception means220may be located to be adjacent to each other so as to generate induced electromotive force. Accordingly, in the present disclosure, the power transmission means700is illustrated to be mounted to the right upper end of the main body500, and the power reception means220is illustrated to be mounted to the right lower end of the container body.

The on/off means230may be configured to turn on/off the electric circuit (not shown) formed in the container body100depending on whether the container lid400is mounted to the container body100, and may include a permanent magnet232and a detection sensor234provided in the container lid400and the container body100, respectively.

As illustrated inFIG.2, in the present disclosure, the permanent magnet232is illustrated to be mounted to the right edge of the container lid400, and the detection sensor234is illustrated to be mounted to the right upper end (a portion of the handle) of the container body100.

More specifically, the detection sensor234may be mounted to be received in a reed switch groove236formed in the upper end portion of the handle300.

The detection sensor234may be configured as a device which can detect a magnet or magnetic field, such as a reed switch or a Hall sensor.

It is widely known that the reed switch has magnetic movable contacts enclosed in a glass tube, and when a magnet approaches the reed switch, the contacts in the glass tube contact with each other.

In addition, a Hall sensor may detect the direction and magnitude of a magnetic field by using a Hall effect that a voltage is generated in a direction perpendicular to a current and the magnetic field when the magnetic field is formed in a conductor in which the current flows, and may be a sensor using the effect of generating electric potential difference due to the voltage generated in this case.

Accordingly, the reed switch or Hall sensor is a component which is widely used, and here, further detailed description of the detailed configuration and principle thereof will be omitted.

Of course, except for the use of the permanent magnet232and the detection sensor234as such an on/off means230, other electric on/off means or mechanical structures may be used to turn on/off the electric circuit, and the mounting positions of the permanent magnet232and the detection sensor234respectively mounted to the container lid400and the container body100may be exchanged oppositely.

Various types of electrical devices or structures having a function that can detect whether electric current flows in the electric circuit formed in the container body100turned on/off by the on/off means230may be used as the detection means800. However, in the present disclosure, a photosensor is used to detect light as an example.

Accordingly, the detection means800may include a light transmission module810provided in the container body100to generate light, and a light reception module820provided in the main body500to receive the light transmitted by the light transmission module810.

The light transmission module810and the light reception module820may be located at positions adjacent to each other. In the present disclosure, as illustrated inFIG.2, the light transmission module810may be located on the left lower end of the container body100, and the light reception module820may be located on the left upper end of the main body500.

The light transmission module810may use an LED that emits light by electricity, and the light reception module820may use the photosensor that receives light and converts the light into an electrical signal.

In addition, the transparent electrode film240may be provided between the outer container body110and the inner container body120. More particularly, the transparent electrode film240may be attached to the inner surface of the outer container body110.

The transparent electrode film240may be made of a member such as a conductive member which can transmit electricity. For example, the transparent electrode film240may be made of a transparent material such as an ITO film (an indium-tin oxide film).

The transparent electrode film240may be attached to the surface of the container body100and may allow the on/off means230provided on the upper side of the container body100to be connected to the power reception means220and the light transmission module810provided on the lower end portion of the container body100so as to form the electric circuit.

Accordingly, the transparent electrode film240may be attached vertically and longitudinally on the surface of the container body100made of a transparent material and may function to guide the transmission of an electrical signal between the upper and lower ends of the container body100.

Accordingly, when the container body100is made of a transparent material, and the transparent electrode film240is also made of a transparent material, the transparent electrode film240may not be visually exposed, so the appearance of the container body100may not be damaged and the design thereof may be maintained.

Additionally, when the transparent electrode film240is attached to the surface of the container body100, the transparent electrode film240may have a hole formed therein to remove air bubbles that may be generated between attached surfaces. That is, a perforated hole may be added to the center of the transparent electrode film240made of the ITO film to allow the air bubbles to escape therethrough such that the generation of the air bubbles is prevented.

Meanwhile, a seating step900may be formed on the upper surface of the main body500by protruding upward therefrom.

The seating step900may be configured to have a circular shape corresponding to the shape of the lower end of the container body100such that the lower end of the container body100is mounted to the seating step900to be vertically removed therefrom.

Furthermore, the container body100may be configured as a double structure. That is, the container body100may be composed of the outer container body110and the inner container body120, and the inner guides122may be formed on the inner surface of the inner container body120by protruding inward therefrom.

More specifically, the container body100may be configured as a double structure having a cylindrical shape as a whole. That is, the container body100may include the outer container body110constituting the appearance thereof, and the inner container body120provided inside the outer container body110.

The container body100, that is, the outer container body110and the inner container body120may be made of a transparent material. That is, the container body100may be made of a transparent material such as glass, Tritan, or transparent plastic such that a user can check the state of food contained inside the container body100from the outside.

The outer container body110may constitute the appearance of the container body, and be configured to have a cylindrical shape with the same top and bottom sizes, and the handle300may be formed on the outer right surface of the outer container body110by protruding therefrom to the right such that a user can grasp the handle.

The handle300may be formed to have an L shape, and the upper end portion thereof may be connected to the right upper end of the outer container body110.

The reed switch groove236in which the detection sensor234is received may be formed inside the handle300. That is, the reed switch groove236may be formed in the upper end of the handle300, and may provide space to mount the detection sensor therein, and the left of such a reed switch groove236may be open.

Hereinafter, the configuration of the transparent electrode film240installed on the container body100will be described in detail.

FIG.3illustrates the vertical sectional view of the internal configuration of the container body100, andFIG.4illustrates a perspective view showing the state of the transparent electrode film240mounted to the container body100.

As illustrated in these drawings, the transparent electrode film240which is a component constituting the detection system which detects whether the container lid400is mounted on the container body100, may function to detect whether the container lid400is mounted from the upper end part of the container body100and to transmit an associated signal to the lower end part of the container body100.

The transparent electrode film240may be configured as a single member configured such that a first end thereof is connected with a second end thereof. That is, the transparent electrode film240may not be formed by coupling at least two members to each other, but may be formed as a long single body in the form of an integral film wire.

Accordingly, when the transparent electrode film240is made as a single integral film wire without an intermediate joint, cutting or damage at joints produced when the transparent electrode film consists of multiple parts may be reduced, so the durability of the transparent electrode film240may be basically secured.

In addition, the end of the transparent electrode film240may be configured to be coupled to the lower or upper end part of the container body100by a hook fastening method. That is, the upper end of the transparent electrode film240may be located on the upper end part of the container body100, and the lower end of the transparent electrode film240may be located on the lower end part of the container body100such that a signal or electricity generated in the upper end of the container body100is transmitted to the lower end part of the container body100.

More specifically, the upper end of the transparent electrode film240may be located on the upper end of the handle300. That is, the upper end of the transparent electrode film240may be connected to the detection sensor234received and installed in the reed switch groove236formed in the upper end part of the handle300.

The transparent electrode film240may include a main part242attached to the container body100, a first bent part244formed by bending and extending from a first end of the main part242, and a second bent part246formed by bending and extending from a second end of the main part242.

More specifically, as illustrated in the drawing, the transparent electrode film240may be formed to be vertically long, and may include the main part242attached to the side surface of the container body100, the first bent part244formed by bending laterally and extending from the lower end of the main part242, and the second bent part246formed by extending and bending at least one time from the upper end of the main part242so as to be received inside the handle300.

As illustrated in the drawing, the first bent part may be laterally so as to be perpendicular to the main part242as a whole, and may be bent at predetermined angles at least two times. This is because there is a risk that the transparent electrode film240may be cut when the transparent electrode film240is bent vertically in any one place.

A support part250may be provided on the first bent part244so as to supplement resistance against external force. That is, the support part250may be formed on the end (a right end in each ofFIGS.3and4) of the first bent part244connected with the main part242. The support part250may function to supplement resistance against puling force applied to the transparent electrode film240.

Meanwhile, a tear prevention groove252may be formed in the support part250so as to prevent damage or tearing thereof due to bending between the main part242and the first bent part244. That is, as illustrated in the drawing, at least one tear prevention groove252may be formed in at least one end (a right end inFIG.4) of the support part250in contact with the main part242by being recessed leftward therefrom (inFIG.4).

In addition, the end (a left end inFIG.4) of the first bent part244may be provided with a power connection end244aconnected with the power reception means220, and the end (an upper end inFIG.4) of the second bent part246may be provided with a sensor connection end246aconnected with the detection sensor234.

InFIGS.5to9, the detailed configuration of the transparent electrode film240is illustrated. That is,FIGS.5and6respectively illustrate the top plan view and front sectional view of the transparent electrode film240, andFIGS.7and8respectively illustrate top plan views showing the configurations of the first bent part244and the second bent part246of the transparent electrode film240. In addition,FIG.9illustrates an exploded perspective view showing the detailed configuration of the transparent electrode film240.

As illustrated in these drawings, the support part250may be provided on the first bent part244so as to supplement resistance against external force or pulling force, wherein the tear prevention groove252may be formed in an end of the support part250(a left end inFIG.5, and a right end inFIG.7) so as to prevent damage or tear due to bending of the support part.

A hook groove248into which a hook is inserted may be formed in the end of the transparent electrode film240by passing therethrough. That is, as illustrated in the drawings, the hook groove248may be formed through each of the end of the first bent part244(a left rear end inFIG.7) and the end of the second bent part246(a right end inFIG.8), and a hook provided in the power reception means220or the detection sensor234may be selectively inserted into the hook groove248.

As illustrated in the drawing, the hook groove248may include a pair of hook grooves. In addition, the size and shape of each of the hook grooves248may have size and shape corresponding to a hook to be coupled thereto.

The transparent electrode film240may be configured to have multiple layers so as to guide the flow of electricity.

The transparent electrode film240may include a transmission member260which transmits an electrical signal, a base film261on which the transmission member260is printed, a cover film262which is provided at one side of the transmission member260and supports the transmission member260, and a fixing member263which is provided at one side of the transmission member260and allows the transparent electrode film240to be attached to the container body100.

Specifically, the transmission member260, which constitutes the main frame of the transparent electrode film240, may include the main part242, the first bent part244, and the second bent part246as described above, and may have the power connection end244aand the sensor connection end246aprovided respectively on the opposite ends of the transmission member260.

As illustrated in the drawing, the base film261may be formed to have a shape corresponding to the transmission member260as a whole. In addition, the support part250described above may be formed on the base film261.

The transmission member260may be printed on the base film261. That is, the transmission member260may be made of a silver paste material which has the thickness of 0.2 mm or less and through which electricity flows, and may be printed on the base film261.

The cover film262may cover one surface of the transmission member260and may be made of polyethylene terephthalate (PET). As illustrated inFIG.9, the cover film262may be provided on the upper side of the transmission member260(inFIG.9), and may support the transmission member260. That is, overall, the cover film262may serve as a support for the transparent electrode film240.

In addition, as illustrated in the drawing, the cover film262may be configured to have shape and size corresponding to the shape and size of the base film261. Accordingly, the cover film262may be stacked on the base film261, and the transmission member260may be located between the cover film262and the base film261.

The fixing member263may be provided at a side of the transmission member260(an upper side inFIG.9), and may function to attach the transparent electrode film240to the container body100.

As illustrated in the drawing, the fixing member263may be formed in the shape of a tape having a predetermined length as a whole, and may be formed to have length and width corresponding to the length and width of the main part242of the transmission member260. That is, the fixing member263may function to attach and fix the transparent electrode film240to the container body100, and thus may have a size corresponding to the size of the main part242of the transparent electrode film240.

One surface of the fixing member263may be installed to be in contact with one surface of the cover film262. That is, as illustrated in the drawing, the fixing member263may be made as an adhesive member such as a double-sided tape, and the lower surface of the fixing member263(inFIG.9) may be installed to be in contact with the upper surface of the cover film262(inFIG.9).

An adhesive member264may be provided between the transmission member260and the cover film262such that the transmission member260and the cover film262are coupled to each other.

The adhesive member264may be made of a material including an adhesive such as a double-sided tape, and may allow the transmission member260and the cover film262to be attached to each other.

Meanwhile, as illustrated in the drawing, the adhesive member264may be formed to have shape and size corresponding to the shape and size of each of the base film261and the cover film262. Accordingly, the support part250of the base film261and the support part250of the cover film262may be attached to each other by the support part250of the adhesive member264.

In addition, a coating layer265may be formed on the end of the transmission member260so as to prevent corrosion thereof. That is, the end of the transmission member260which is the contact part of the transmission member260made of a silver paste material may be coated with carbon so as to prevent corrosion of the contact part.

Such carbon coating may be selectively performed on the upper or lower surface of the end of the transmission member260or may be performed on all of the upper and lower surfaces thereof. That is, the coating layer265may be formed on one surface of the end of the transmission member260, and may be formed to cover the entirety of the end thereof.

A reinforcement piece266,267, or268may be provided on an end of the transparent electrode film240so as to reinforce rigidity thereof. The reinforcement piece266,267, or268may be a stiffener for reinforcing the rigidity of the transparent electrode film240, and may be provided at least on each of the ends of the first bent part244and the second bent part246of the transparent electrode film240. That is, a bending reinforcement piece266may be provided on the end of the first bent part244of the transparent electrode film240, and a connector reinforcement piece267may be provided on the end of the second bent part246.

Of course, as illustrated inFIG.9, the reinforcement piece266,267, or268may be further provided even on one side of the support part250so as to supplement rigidity thereof. That is, a support reinforcement piece268may be provided on the lower side (inFIG.9) of the support part250so as to reinforce the rigidity of the support part250.

In addition, the reinforcement piece266,267, or268may be attached and fixed to the base film261by an adhesive. Specifically, the bending reinforcement piece266may be attached to the first bent part244by a bending adhesive member266a, the connector reinforcement piece267may be attached to the second bent part246by a connector adhesive member267a, and the support reinforcement piece268may be attached to the support part250of the base film261by a support adhesive member268a.

Each of the bending adhesive member266a, the connector adhesive member267a, and the support adhesive member268amay also be made as a member having an adhesive on both sides, such as a double-sided tape.

FIG.10illustrates a top plan view showing a state in which the transparent electrode film240is coupled to the power reception means220and the detection sensor234, andFIG.11illustrates a top plan view showing a state in which the transparent electrode film240is removed from the power reception means220and the detection sensor234.

As illustrated in these drawings, the power reception means220and the detection sensor234may respectively include hook connectors270, and the opposite ends of the transparent electrode film240may be respectively coupled to the hook connectors270.

Specifically, as illustrated in the drawing, the end of the first bent part244of the transparent electrode film240may be connected to the hook connector270of the power reception means220, and the end of the second bent part246of the transparent electrode film240may be connected to the hook connector270of the detection sensor234.

FIGS.12and13respectively illustrate partial sectional views showing states in which the end of the transparent electrode film240is inserted into and removed from the hook connector270. That is, inFIGS.12and13, an example of the hook connector270is illustrated.

As illustrated in these drawings, the hook connector270may be provided with a hook to which the end of the transparent electrode film240is fitted and coupled. That is, the hook connector270may include a fixing hook272.

In addition, as illustrated in the drawings, such a fixing hook272may be provided with a pair of hook protrusions272awhich is provided vertically and can be in close contact with each other due to elasticity thereof.

The pair of hook protrusions272amay be configured to have a shape vertically symmetrical to each other such that the hook protrusions are respectively inserted into the hook grooves248formed in the end of the transparent electrode film240.

In addition, the hook connector270may further include a hook cover274which forces the hook protrusions272aof the fixing hook272to move.

The fixing hook272may be configured to be selectively pressed by rotating and opening/closing the hook cover274such that the hook protrusions272aare inserted into or removed from the hook grooves248formed in the end of the transparent electrode film240.

Specifically, as illustrated inFIG.12, when the hook cover274is closed, the hook protrusions272alocated at upper and lower sides may be close to each other by elastic force, and when the end of the transparent electrode film240is inserted into space between the pair of hook protrusions272a, the hook protrusions272amay be inserted into the hook grooves248of the transparent electrode film240, and accordingly, the end of the transparent electrode film240may be coupled and fixed to the hook connector270.

Next, as illustrated inFIG.13, when the hook cover274is counterclockwise (inFIG.13), the pair of hook protrusions272amay respectively move upward and downward and thus a distance between the hook protrusions272amay increase.

In this case, the hook protrusions272ainserted into the hook grooves248of the transparent electrode film240may be removed from the hook grooves248, respectively, and thus the end of the transparent electrode film240may be removed from the hook connector270.

The scope of the present disclosure is not limited to the embodiment illustrated above, and within the technical scope as described above, many other modifications based on the present disclosure may be made by those skilled in the art.