KR20150120691A - Apparatus for holding cup - Google Patents

Abstract

A cup holder device is disclosed. According to one embodiment of the present invention, the cup holder device comprises: a plurality of cup storage units; a plurality of thermoelements facing the cup storage units; one heat radiating unit arranged on the other surface of the thermoelements; and a control unit individually controlling the thermoelements.

Description

[0001] APPARATUS FOR HOLDING CUP [0002]

An embodiment of the present invention relates to a storage device, and more particularly to a cup holder device.

Generally, a cup holder is provided in the interior of the vehicle so that a beverage can, a cup or the like that the passenger drinks can be stored. In recent years, by using a thermoelectric element or the like to cool or heat the cup holder, the occupant can drink a cool drink or a warm drink regardless of the season or the weather. However, when the cup holder is cooled or heated by using the thermoelectric element, a heat dissipating portion and a blowing fan for dissipating heat generated from the thermoelectric element to the outside should be provided. In this case, there is a problem that the volume of the cup holder device itself increases and power consumption increases.

Korean Registered Utility Model No. 20-0285445 (Aug. 13, 2002)

An embodiment of the present invention is to provide a cup holder device capable of reducing power consumption while reducing the volume of the cup holder device.

A cup holder apparatus according to an embodiment of the present invention includes: a plurality of cup holders; A plurality of thermoelectric elements, one surface of which faces the cup housing part; A heat dissipation unit provided on the other surface of the plurality of thermoelectric elements; And a controller for individually controlling the plurality of thermoelectric elements.

The controller may operate at least one of the plurality of thermoelectric elements as a refrigeration function and at least one of the plurality of thermoelectric elements may operate as a warming function.

The heat of the other surface of the thermoelectric element operated by the refrigeration function and the heat of the other surface of the thermoelectric element operated by the warming function can be heat exchanged by the heat dissipation unit.

The cup holder device may further include a blowing fan provided at one side of the heat dissipating unit.

The control unit may operate the blowing fan when at least two thermoelectric elements among the plurality of thermoelectric elements are operated by a refrigeration function or a warming function.

Wherein at least one of the plurality of thermoelectric elements operates as a refrigeration function and at least one of the plurality of thermoelectric elements operates as a warming function, the control unit may turn off the blowing fan, It is possible to operate with the output set lower than the basic output.

The heat radiating portion may be provided between at least one of the plurality of cup receiving portions.

The cup holder device may further include an auxiliary thermoelectric element provided between the plurality of cup housing parts.

The control unit may operate the auxiliary thermoelectric element when cooling one of the cup housings which sandwich the auxiliary thermoelectric element and heating the other one of the cup housings.

The controller may control one of the cup housings to cool the other of the cup housings which sandwich the auxiliary thermoelectric element with only the auxiliary thermoelectric elements and to heat the other cup housings.

According to the embodiment of the present invention, the heat dissipation unit is provided on the other surface of the plurality of thermoelectric elements without separately providing the heat dissipation unit for each of the plurality of thermoelectric elements, so that the cup holder apparatus can perform the cooling and warming function, The volume can be reduced. At least one of the plurality of thermoelectric elements is controlled to operate as a refrigeration function, and when at least one of the plurality of thermoelectric elements is controlled to operate as a warming function, the cool air and the warm air are heat- It is not necessary to provide a blowing fan, power consumption can be reduced, and cooling and heating efficiency of the thermoelectric elements can be improved.

1 is a schematic view of a cup holder apparatus according to an embodiment of the present invention;
2 is a view illustrating an embodiment in which a plurality of thermoelectric elements are individually controlled in a cup holder apparatus according to an embodiment of the present invention.
3 is a view illustrating another embodiment in which a plurality of thermoelectric elements are individually controlled in a cup holder apparatus according to an embodiment of the present invention.
4 is a schematic view of a cup holder device according to another embodiment of the present invention
5 is a schematic view of a cup holder device according to another embodiment of the present invention

Hereinafter, a specific embodiment of the cup holder device of the present invention will be described with reference to FIGS. 1 to 5. FIG. However, this is an exemplary embodiment only and the present invention is not limited thereto.

In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intention or custom of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

The technical idea of the present invention is determined by the claims, and the following embodiments are merely a means for efficiently describing the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs.

1 is a schematic view of a cup holder apparatus according to an embodiment of the present invention.

1, the cup holder device 100 includes a cup holder 102, a cup holder housing 104, a heat conduction block 106, a thermoelectric element 108, a heat dissipation unit 110, and a control unit 112, . ≪ / RTI > The cup holder device 100 may be mounted on an internal structure of a vehicle (e.g., a center console or an armrest), but is not limited thereto and may be mounted on various other indoor structures (e.g., tabletop, table, etc.) Can be mounted.

The cup holder 102 has a space for accommodating the cup therein. Hereinafter, for convenience of explanation, the cup holder 102 stores the cup will be described as an embodiment. However, it is needless to say that only the cup is accommodated in the cup holder part 102, and various other articles (for example, a drink can, beverage bottle, etc.) can be stored therein. The cup holder part 102 may include a first cup holder part 102-1 and a second cup holder part 102-2. Here, although the cup holder 102 includes the first cup holder 102-1 and the second cup holder 102-2, the present invention is not limited thereto, and the cup holder 102 may include two Or more.

The cup holder housing 104 accommodates the cup holder portion 102. The cup holder 102 may be integrally formed with the cup holder housing 104. [ For example, the cup holder 102 can be formed by forming a space in which the cup can be stored in the cup holder housing 104. However, the present invention is not limited thereto, and the cup holder 102 may be separately formed, and the cup holder 102 may be accommodated in the cup holder housing 104 by forming a storage space in the cup holder housing 104 have.

The heat conduction block 106 is provided on one side of the cup holder portion 102. The heat conduction block 106 may include a first heat conduction block 106-1 and a second heat conduction block 106-2. The first thermally conductive block 106-1 is provided on one side of the first cup holder part 102-1 and the second thermally conductive block 106-2 is provided on one side of the second cup holder part 102-2 . The heat conduction block 106 serves to transmit heat generated in the thermoelectric element 108 to the cup holder 102. For this purpose, the heat conduction block 106 may be made of a material having excellent thermal conductivity (for example, aluminum, copper, tungsten, stainless steel, etc.). In addition, the heat conduction block 106 serves to secure a heat insulation distance by separating the cup holder 102 from the thermoelectric element 108 by a certain distance. For example, when the cup holder portion 102 is cooled by absorbing heat from one surface (surface in contact with the heat conduction block 106) of the thermoelectric element 108, heat is dissipated from the other surface of the thermoelectric element 108 do. If the distance between the cup holder part 102 and the thermoelectric element 108 is too close to the thermoelectric element 108, the cooling effect of the cup holder part 102 is lowered. 108 can be secured.

The thermoelectric element 108 serves to cool or heat the cup holder 102 under the control of the controller 112. The thermoelectric element 108 may include a first thermoelectric element 108-1 and a second thermoelectric element 108-2. The first thermoelectric element 108-1 may be provided in the first heat conduction block 106-1 and the second thermoelectric element 108-2 may be provided in the second heat conduction block 106-2. One surface of the first thermoelectric element 108-1 faces the first cup holder 102-1 and one surface of the second thermoelectric element 108-2 faces the second cup holder 102- 2 as shown in Fig. At this time, the first thermoelectric element 108-1 can cool or heat the first cup holder part 102-1 and the second thermoelectric element 108-2 can cool the second cup holder part 102-2, Can be cooled or heated. Here, the first thermoelectric element 108-1 and the second thermoelectric element 108-2 cool or heat the first cup holder part 102-1 and the second cup holder part 102-2, respectively However, the present invention is not limited thereto, and one thermoelectric element may be implemented to cool or heat two or more cup holder portions.

The heat dissipating unit 110 may be provided on the other surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2. That is, the heat dissipating unit 110 may be provided on the other surface of the plurality of thermoelectric elements 108 (the surface not facing the cup holder 102). In the embodiment of the present invention, one heat dissipation unit 110 is provided on the other surface of the plurality of thermoelectric devices 108 without separately providing a heat dissipation unit for each of the thermoelectric devices 108-1 and 108-2. When the cup holder device 100 includes a plurality of thermoelectric elements 108, the heat dissipation function is performed through one heat dissipation part 110, thereby reducing the volume of the cup holder device 100.

The control unit 112 individually controls the plurality of thermoelectric elements 108-1 and 108-2. That is, the control unit 112 generates the control signals to the first thermoelectric elements 108-1 and the second thermoelements 108-2, respectively, and outputs the control signals to the first thermoelectric elements 108-1 and the second thermoelements 108- 2) are independently controlled. This will be described in detail with reference to FIG. 2 is a view showing an embodiment in which a plurality of thermoelectric elements are individually controlled in a cup holder apparatus according to an embodiment of the present invention.

2, the control unit 112 controls the first thermoelectric element 108-1 to cool the first cup holder part 102-1, and the second thermoelectric element 108-2 controls the second So that the cup holder 102-2 can be controlled to be heated. Then, the first thermoelectric element 108-1 absorbs heat at one surface (the surface in contact with the first thermoelectric block 106-1) of the first thermoelectric element 108-1, -1) is cooled, and heat is radiated from the other surface (the surface in contact with the heat radiation portion 110) of the first thermoelectric element 108-1. The second thermoelectric element 108-2 absorbs heat at the other surface of the second thermoelectric element 108-2 (the surface in contact with the heat radiating portion 110), and the heat of the second thermoelectric element 108-2 And heat the second cup holder portion 102-2 by radiating heat on one surface (the surface in contact with the second heat conductive block 106-2). That is, the heat of the heat dissipating unit 110 is absorbed from the other surface of the second thermoelectric element 108-2, and the heat is absorbed by the second thermoelectric element 108-2 from the second cup holder 102-2. And the flow of warmth (moving direction) is diverted from the heat radiating portion 110 toward the second cup holder portion 102-2 side. Here, the movement of the warmth in the first direction can be represented by the movement in the second direction of the cool air (i.e., the direction opposite to the first direction). In this case, the flow of cool air (moving direction) is directed toward the heat radiation portion 110 side in the second cup holder portion 102-2. According to this, absorbing heat from the other surface of the second thermoelectric element 108-2 can be expressed as radiating cold air from the other surface of the second thermoelectric element 108-2.

In this manner, the first thermoelectric element 108-1 allows the first cup holder portion 102-1 to cool, and the second thermoelectric element 108-2 causes the second cup holder portion 102-2 to heat The cool air is emitted from the other surface of the first thermoelectric element 108-1 toward the heat radiating portion 110 side and from the other surface of the second thermoelectric element 108-2 toward the heat radiating portion 110 side . Then, the heat emitted from the other surface of the first thermoelectric element 108-1 is moved toward the second thermoelectric element 108-2 along the longitudinal direction of the heat radiation portion 110, and the second thermoelectric element 108-2 Is moved toward the first thermoelectric element 108-1 along the longitudinal direction of the heat dissipating unit 110 to perform heat exchange. At this time, the heat emitted from the other surface of the first thermoelectric element 108-1 moves to the second thermoelectric element 108-2, and the heat is supplied to the other surface of the second thermoelectric element 108-2. The heating efficiency of the second cup holder portion 102-2 by the thermoelectric element 108-2 can be increased. Since the cool air emitted from the other surface of the second thermoelectric element 108-2 moves toward the first thermoelectric element 108-1 and supplies cool air to the other surface of the first thermoelement 108-1, The heat radiation efficiency of the thermoelectric element 108-1 is increased and the cooling efficiency of the first cup holder part 102-1 by the first thermoelectric element 108-1 can be increased. In this case, the cooling efficiency of the first thermoelectric element 108-1 and the heating efficiency of the second thermoelectric element 108-2 can be improved at the same time through one heat radiating part 110 without a separate blowing fan . Accordingly, the cooling and heating efficiency can be increased while reducing the total volume of the cup holder device 100, and power consumption can be reduced.

Here, the first thermoelectric element 108-1 controls to cool the first cup holder part 102-1, and the second thermoelectric element 108-2 controls the second cup holder part 102-2 The first thermoelectric element 108-1 controls to heat the first cup holder part 102-1 and the second thermoelectric element 108-2 controls to heat the second cup holder part 102-1, 102-2 may be controlled to be cooled. When a plurality of thermoelectric elements 108 are provided in the cup holder device 100, at least one of the plurality of thermoelements 108 is controlled to operate as a refrigerating function, So that heat can be exchanged between the cold air and the warm air in the heat dissipation unit 110. [

3 is a view illustrating another embodiment in which a plurality of thermoelectric elements are individually controlled in a cup holder device according to an embodiment of the present invention.

Referring to FIG. 3A, the cup holder device 100 may further include a blowing fan 114 at one side of the heat dissipating unit 110. The control unit 112 controls the first thermoelectric elements 108-1 and the second thermoelements 108-2 to cool the first cup holder part 102-1 and the second cup holder part 102-2, . Then, heat is absorbed from one surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2, so that the first cup holder part 102-1 and the second cup holder part 102-2 And the heat is dissipated from the other surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 to the heat radiating part 110. [ As described above, in the case where heat is dissipated from the other surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 to the heat radiating portion 110, the controller 112 operates the blower fan 114 So that the heat of the heat dissipation unit 110 can be cooled.

3 (b), the control unit 112 determines whether the first thermoelectric element 108-1 and the second thermoelectric element 108-2 are in contact with the first cup holder 102-1 and the second cup 102-2, The holder 102-2 can be controlled to be heated. Then, heat is absorbed from the other surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 (the surface in contact with the heat radiation portion 110), and the first thermoelectric elements 108-1 and The first cup holder portion 102-1 and the second cup holder portion 102-2 are heated by radiating heat from one surface of the second thermoelectric element 108-2. When the heat is absorbed from the other surface of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 (that is, when the cold air is emitted), the controller 112 controls the blowing fan 114, So that the heat can be supplied to the heat dissipating unit 110.

When both of the first thermoelectric elements 108-1 and the second thermoelements 108-2 operate as a refrigeration function or a warming function, the controller 112 operates the blowing fan 114 to control the temperature of the first thermoelectric element 108-1, The cooling efficiency or heating efficiency of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 can be improved.

On the other hand, the control unit 112 may cause the first thermoelectric element 108-1 to function as a refrigerating function or the warming function and the second thermoelectric element 108-2 to be turned off, The first thermoelectric element 108-1 and the second thermoelectric element 108-2 are individually controlled by turning on the first thermoelectric element 108-1 and turning off the first thermoelectric element 108-1, can do.

2, the first thermoelectric element 108-1 is operated as a refrigerating function and the second thermoelectric element 108-2 (second thermoelectric element 108-1) is operated as shown in FIG. 2 in a state where a blowing fan 114 is provided on one side of the heat- The control unit 112 determines whether the blower fan 114 is turned on or off even if the blower fan 114 is operated with the warming function (or vice versa) (E.g., 1/4 to 1/2 the level of the primary output). 3 (a) and 3 (b) (that is, the first thermoelectric transducing unit 108-1 and the second thermoelectric converting unit 108-2 both have a refrigeration function or a warming function When the blowing fan 114 is operated. When only one of the first thermoelectric element 108-1 and the second thermoelectric element 108-2 is operated, the blowing fan 114 is operated at, for example, 1/2 to 3/4 of the basic output .

4 is a schematic view of a cup holder apparatus according to another embodiment of the present invention. For convenience of explanation, the cup holder housing 104 and the control unit 112 are omitted.

Referring to FIG. 4, the heat dissipating unit 110 may be provided between the first cup holder 102-1 and the second cup holder 102-2. Specifically, one surface of the first thermoelectric element 108-1 is provided to face the first cup holder part 102-1, and the other surface of the first thermoelectric element 108-1 is provided on one side of the heat radiating part 110 As shown in FIG. One surface of the second thermoelectric element 108-2 is provided facing the second cup holder 102-2 and the other surface of the second thermoelectric element 108-2 is provided on the other side of the heat radiating portion 110 That is, the side facing one side of the heat dissipating unit 110).

Here, the control unit 112 controls the first thermoelectric element 108-1 to cool the first cup holder part 102-1, and the second thermoelectric element 108-2 controls the second cup holder part 102-1 102-2 can be controlled to be heated. Then, the first thermoelectric element 108-1 absorbs heat from one surface of the first thermoelectric element 108-1 to cool the first cup holder part 102-1, and the first thermoelectric element 108-1 (That is, one side of the heat dissipating unit 110). The second thermoelectric element 108-2 absorbs heat (that is, radiates cold air) from the other surface of the second thermoelectric element 108-2 (that is, the other side of the heat radiation portion 110) The second cup holder portion 102-2 is heated by radiating heat from one surface of the element 108-2. The heat dissipated from the other surface of the first thermoelectric element 108-1 moves to the other surface side of the second thermoelectric element 108-2 along the width direction of the heat dissipating part 110 and the second thermoelectric element 108-2 Is moved to the other side of the first thermoelectric element 108-1 along the width direction of the heat dissipating unit 110 to perform heat exchange. At this time, the heat emitted from the other surface of the first thermoelectric element 108-1 and the cool air emitted from the other surface of the second thermoelectric element 108-2 move along the width direction of the heat radiation portion 110, The heat exchange can be performed more quickly. Although one cup holder portion 102-1 and one cup holder portion 102-2 are provided on one side and the other side of the heat dissipating portion 110, the present invention is not limited thereto, and the cup holder portions 102-1 and 102-2 may be provided on one side and the other side of the heat dissipating portion 110 At least one cup holder portion may be provided.

5 is a schematic view of a cup holder apparatus according to another embodiment of the present invention. For convenience of explanation, the cup holder housing 104 and the control unit 112 are omitted. Hereinafter, the difference from the embodiment shown in FIG. 1 will be mainly described.

Referring to FIG. 5, an auxiliary thermoelectric element 116 may further be provided between the first cup holder 102-1 and the second cup holder 102-2. That is, one surface of the auxiliary thermoelectric element 116 is provided facing the first cup holder part 102-1, and the other surface of the auxiliary thermoelectric element 116 is provided facing the second cup holder part 102-2 . At this time, a heat conductive block (not shown) is formed between one surface of the first cup holder part 102-1 and the auxiliary thermoelectric element 116 and between the other surface of the second cup holder part 102-2 and the auxiliary thermoelectric element 116, ) May be provided.

When the first thermoelectric element 108-1 cools the first cup holder part 102-1 and the second thermoelectric element 108-2 heats the second cup holder part 102-2, The controller 112 may operate the auxiliary thermoelectric element 116 to cool the first cup holder part 102-1 and heat the second cup holder part 102-2. That is, the first cup holder part 102-1 is cooled by absorbing heat from one side of the auxiliary thermoelectric element 116, and the second cup holder part 102- 2) can be heated. In this case, it is not necessary to provide a separate heat radiating portion for the auxiliary thermoelectric element 116, and the first cup holder portion 102-1 is further cooled through the auxiliary thermoelectric element 116, and the second cup holder portion 102-2 can be additionally heated, so that the first cup holder portion 102-1 can be cooled more quickly and the second cup holder portion 102-2 can be heated. Conversely, when the first thermoelectric element 108-1 heats the first cup holder part 102-1 and the second thermoelectric element 108-2 cools the second cup holder part 102-2 The control unit 112 may operate the auxiliary thermoelectric element 116 to heat the first cup holder unit 102-1 and cool the second cup holder unit 102-2.

When the first thermoelectric element 108-1 cools (or heats) the first cup holder part 102-1, the controller 112 turns off the second thermoelectric element 108-2, The auxiliary thermoelectric element 116 may be operated to cool (or heat) the first cup holder part 102-1 and heat (or cool) the second cup holder part 102-2. The first thermoelectric element 108-1 and the second thermoelectric element 108-2 are both turned off and only the auxiliary thermoelectric element 116 is operated to cool the first cup holder part 102-1 (Or heated) to heat (or cool) the second cup holder portion 102-2.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: cup holder device
102: cup holder part
102-1: first cup holder part
102-2: second cup holder part
104: cup holder housing
106: Heat conduction block
106-1: a first heat conduction block
106-2: a second heat conduction block
108: thermoelectric element
108-1: first thermoelectric element
108-2: second thermoelectric element
110:
112:
114: blowing fan
116: auxiliary thermoelectric element

Claims (10)

A plurality of cup receiving portions;
A plurality of thermoelectric elements, one surface of which faces the cup housing part;
A heat dissipation unit provided on the other surface of the plurality of thermoelectric elements; And
And a control unit for individually controlling the plurality of thermoelectric elements.
The method according to claim 1,
Wherein,
Wherein at least one of the plurality of thermoelectric elements operates with a refrigeration function and at least one of the plurality of thermoelectric elements operates with a warming function.
The method of claim 2,
Wherein heat of the other surface of the thermoelectric element operated by the refrigerating function and heat of the other surface of the thermoelectric element operated by the warming function are heat exchanged by the heat radiating portion.
The method according to claim 1,
The cup holder device comprises:
And a blowing fan provided on one side of the heat dissipating unit.
The method of claim 4,
Wherein,
And operates the blowing fan when at least two thermoelectric elements among the plurality of thermoelectric elements are operated by a refrigerating function or a warming function.
The method of claim 4,
Wherein,
Wherein at least one of the plurality of thermoelectric elements operates as a refrigeration function, and when at least one of the plurality of thermoelectric elements operates as a warming function, the blowing fan is turned off or the blowing fan is lowered And operates with the set output.
The method according to claim 1,
The heat-
And between at least one of the plurality of cup receiving portions.
The method according to claim 1,
The cup holder device comprises:
And an auxiliary thermoelectric element provided between the plurality of cup receiving portions.
The method of claim 8,
Wherein,
Wherein the auxiliary thermoelectric element is operated when cooling one of the cup housings which hold the auxiliary thermoelectric element therebetween and heating the other one of the cup housings.
The method of claim 8,
Wherein,
Wherein one of the cup accommodating portions for holding the auxiliary thermoelectric element therebetween is cooled by only the auxiliary thermoelectric element and the other one of the cup accommodating portions is heated.

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