KR101423893B1 - Cooling device for vending machine - Google Patents

Abstract

The cooling device of the automatic vending machine according to the present invention is constituted by sequentially connecting the evaporator 24, the compressor 21, the condenser 22 and the expansion mechanism 23 with the refrigerant pipe 25, And a refrigerant circuit (20) for circulating the enclosed refrigerant to cool the axial coolant stored in the storage container (26) by using the evaporator (24) as a heat source for cooling. By using the cooled axial coolant, (10) of a vending machine cooling a product storage area (2a) for storing a product in a product storage container (2), comprising: a condensation part (31) And a vaporizing portion 32 disposed in the heat dissipating portion 2b above the product storing area 2a and circulating the working fluid enclosed between the condensing portion 31 and the evaporating portion 32 while changing the phase And heat transfer means (30) for transferring cold heat of the axial coolant to the heat dissipating portion (2b).

Description

{COOLING DEVICE FOR VENDING MACHINE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device for a vending machine, and more particularly to a cooling device for a vending machine that is applied to a vending machine for selling a product such as a can drink or a PET bottle drink, And a cooling device for cooling the storage area.

BACKGROUND ART [0002] Conventionally, as a cooling device for a vending machine for selling a product such as a can drink or a PET bottle drink, for example, a refrigerating device is known. In the refrigerant circuit, an evaporator, a compressor, a condenser, and an expansion mechanism are sequentially connected by a refrigerant pipe, and a refrigerant is sealed in the refrigerant circuit. The evaporator is disposed on the inner bottom surface of the merchandise container, which is a heat insulating structure of the vending machine. This evaporator evaporates the supplied refrigerant, thereby cooling the inside air (inside atmosphere) of the product receiving oven. The compressor is disposed in a portion of the vending machine main body that serves as the exterior of the goods receptacle, for example, in a machine room, sucks the refrigerant evaporated by the evaporator, compresses the sucked refrigerant, and discharges the compressed refrigerant under high temperature and high pressure. Like the compressor, the condenser is disposed in a portion (machine room or the like) which becomes the exterior of the goods receptacle in the automatic vending machine main body. This condenser condenses the refrigerant discharged from the compressor by cooling it with ambient air. Like the compressor and the condenser, the expansion mechanism is disposed in a portion (machine room or the like) which becomes the outside of the interest goods receptacle in the automatic vending machine main body. The expansion mechanism is for decompressing the refrigerant condensed by the condenser to adiabatically expand the refrigerant.

In this refrigerant circuit, the ambient air of the evaporator is cooled by circulation of the refrigerant, and the air cooled by the driving of the indoor blower fan disposed in the product receiving space circulates in the interior of the product receiving hall, The article housed in the tray is cooled.

In addition to the above-described configuration, a cooling device further having a spindle cooling unit is proposed in Patent Document 1. [ The condensation unit is configured such that one end of a heat transfer means such as a heat pipe is immersed in water stored in the water storage tank. The other end of the heat pipe is thermally connected to the evaporator of the refrigerant circuit. As a result, in the condensing unit, the refrigerant circulates in the refrigerant circuit, and the evaporator is used as a heat source to cool the water stored in the water storage tank.

In the cooling apparatus having such a condensing unit, in principle, the refrigerant is circulated in the refrigerant circuit, the ambient air is cooled by the evaporator, and the cooled air is circulated in the product receiving chamber by driving the high- , The driving of the compressor is stopped in a predetermined peak power time zone, the ambient air is cooled by using the ice that has been de-iced in the condensing unit, and the air cooled by the driving of the high-temperature air blowing fan is circulated inside the product receiving compartment .

Patent Document 1: Japanese Patent Application Laid-Open No. 07-141556

However, in the above-described cooling apparatus, in principle, the refrigerant is circulated in the refrigerant circuit, the ambient air is cooled by the evaporator, the cooled air is circulated in the interior of the article receiving chamber by driving the high- The operation of the compressor is stopped in the time zone, the ambient air is cooled by using the ice made in the cooling unit, and the air cooled by the driving of the high-temperature air blowing fan is circulated in the interior of the product receiving space. It is necessary to drive the indoor air blowing fan, and as a result, it has been difficult to sufficiently reduce power consumption.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cooling apparatus for a vending machine that can reduce power consumption in a good manner in view of the above-mentioned circumstances.

In order to achieve the above object, a cooling apparatus for an automatic vending machine according to claim 1 of the present invention comprises an evaporator, a compressor for sucking and compressing the refrigerant evaporated by the evaporator, a condenser for condensing the refrigerant compressed by the compressor, And a refrigerant circuit which is constituted by sequentially connecting an expansion mechanism for expanding the condensed refrigerant by a refrigerant pipe and circulating the enclosed refrigerant so that the evaporator serves as a heat source for cooling the axial coolant stored in the storage container, A cooling device for an automatic vending machine for cooling a product storage area for storing a product in a product receiving space of a heat insulating structure using a cooled axial cold storage material, the cooling device comprising: a condensing part thermally connected to the axial cooling material; And a vaporizing portion disposed in a heat radiation region above the merchandise receiving area in the evaporator, And a heat transfer means for circulating the enclosed working fluid while circulating the cold working fluid through a phase change, the cooling fluid being water, and the refrigerant circuit cooling the water stored in the storage container, And condensing the water vapor around the evaporator of the refrigerant circuit and the refrigerant pipe which is disposed thermally connected to the refrigerant pipe connecting the evaporator of the refrigerant circuit and the compressor, And a condenser for storing the converted signal.

According to a second aspect of the present invention, there is provided a cooling apparatus for a vending machine according to the first aspect of the present invention, wherein the heat transfer unit is provided on a lower side of the condensing section with a gap between the evaporation section and the condensing section .

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According to the present invention, the heat transfer means having the condenser portion thermally connected to the axial coolant and the evaporator portion disposed in the heat radiation portion above the product storage area in the product storage compartment is provided between the condenser portion and the evaporator portion Since the cold heat of the axial coolant is transferred to the heat dissipation site by circulating the working fluid while changing the phase of the working fluid, the air cooled by the natural convection in the product receptacle can be circulated, Can be cooled. Therefore, it is possible to achieve a reduction in power consumption.

1 is an explanatory view showing a case in which an internal structure of a vending machine to which a cooling device according to an embodiment of the present invention is applied is viewed from the front.
2 is a sectional side view showing a side view of the internal structure of a vending machine to which a cooling device according to an embodiment of the present invention is applied.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of a cooling apparatus for a vending machine according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show an automatic vending machine to which a cooling device according to an embodiment of the present invention is applied. FIG. 1 is an explanatory view showing a case where the internal structure of the automatic vending machine is viewed from the front, Sectional side view showing the structure viewed from the side. The vending machine exemplified here includes a main body cabinet 1 and a cooling device 10. [

The main body cabinet 1 is in the form of a rectangle having a front surface opened. The main body cabinet 1 is provided with a goods receptacle 2 inside thereof and an outer door 3 and an inner door 4 are provided on the front surface thereof.

The product receptacle 2 has a heat insulating structure for accommodating products such as canned beverages and PET beverages in a state maintained at a desired temperature. The outer door 3 is for opening and closing the front opening of the main body cabinet 1. The inner door 4 is for opening and closing the front surface of the merchandise container 2 and has a heat insulating structure.

In the merchandise container 2, a goods storage rack 5 and a delivery shoe 6 are provided. The goods storage racks 5 are arranged in the goods storage area 2a of the goods receptacle 2 for storing goods in such a manner that they are arranged in the vertical direction. An upper area of the product storage rack 5 is communicated with a product input port (not shown) for inputting the product. On the other hand, a dispensing mechanism (not shown) is provided below the goods storage rack 5. The dispensing mechanism is for dispensing the products at the bottom of the product group stored in the product storage rack 5 one by one. The delivering shooter 6 is for guiding the goods dispensed from the dispensing mechanism to the transport mechanism 7 through the goods dispensing port 4a provided in the inner door 4. [ The transport mechanism 7 receives the merchandise that has passed through the merchandise dispensing port 4a and transports the received merchandise to the merchandise dispensing port 3a of the outer door 3 by driving it.

The cooling device 10 is configured to include a refrigerant circuit 20, heat transfer means 30, a high-temperature air blowing fan F, and a condenser 40. [

The refrigerant circuit 20 is filled with a refrigerant (for example, R134a or the like) inside the refrigerant circuit 20 and the refrigerant pipeline 25 sequentially supplies the refrigerant to the compressor 21, the condenser 22, the expansion mechanism 23, And connected to form an annular shape.

The compressor 21 is disposed in the machine room 8 of the main body cabinet 1 as shown in Fig. The machine room 8 is a space inside the main body cabinet 1 and partitioned from the merchandise receiving hall 2 and also located above the merchandise receiving hall 2. The compressor 21 sucks the refrigerant through the suction port, compresses the sucked refrigerant, and discharges it from the discharge port in a state of high temperature and high pressure.

The condenser 22 is disposed in the machine room 8 like the compressor 21. [ The condenser (22) condenses refrigerant passing through the condenser (22). More specifically, the refrigerant compressed by the compressor 21, discharged from the discharge port, and discharged through the refrigerant pipe 25 is heat-exchanged with ambient air to condense it.

The expansion mechanism 23 is arranged in the machine room 8 like the compressor 21 and the condenser 22. The expansion mechanism 23 is constituted by, for example, an expansion valve or a capillary tube, and decompresses the refrigerant supplied from the condenser 22 to adiabatically expand the refrigerant.

The evaporator 24 is disposed inside the merchandise container 2 and more particularly is immersed in the water stored in the storage container 26. The storage container 26 is a box-shaped container which is made of stainless steel, plastic, or the like, and which is opened on the upper surface and is provided above a product storage area 2a (a goods storage rack 5) via a support member have. In this storage container 26, water as an axial coolant is stored. In the present embodiment, water is exemplified as an example of the axial coolant. However, the present invention is not limited to water, and for example, an antifreeze or the like may be used. In addition, the volume of the storage container 26 has a size capable of storing a sufficient amount of axial coolant (water) for cooling the interior of the product storage bin 2 to a desired temperature, and a sufficient amount of water is also stored.

In this refrigerant circuit 20, the compressor 21 is driven so that the refrigerant compressed in the compressor 21 is sucked into the compressor 21 via the condenser 22, the expansion mechanism 23 and the evaporator 24 . Accordingly, the refrigerant condensed in the condenser 22 after being compressed by the compressor 21, and the refrigerant adiabatically expanded in the expansion mechanism 23 is evaporated by heat exchange with water by passing through the evaporator 24, And the state changes to ice.

The heat transfer means 30 is made up of a heat pipe made of a copper pipe having a wick having a diameter of about 8 mm to about 12 mm and filled with a working fluid such as water or alcohol. And a vaporizing section 32. The vaporizing section 32 is a vaporizing section.

The condensing section 31 is provided at one end of the heat pipe and is connected to the condensing section 31 through a heat receiving plate (heat receiving plate) 34 formed of a metal material having excellent thermal conductivity, such as copper or aluminum, And is connected to the bottom surface of the bottom portion. Accordingly, the condensing section 31 is thermally connected to the water (axial coolant) of the storage container 26. [

The evaporator 32 is formed at the other end of the heat pipe and is located at a heat radiating portion 2b located above the condenser 31 and below the product storage area 2a (product storage rack 5) And is provided through a support member (not shown). The evaporator 32 has a plurality of heat radiating fin members 35 and is capable of heat exchange with ambient air through the heat radiating fin member 35. [ In addition, the evaporator 32 has a gap S between it and the condenser 31.

In the heat transfer means 30, the working fluid is condensed by heat exchange with ice (water) through the heat-exchanging plate 34, and the condensed working fluid flows into the evaporator 32 by capillary phenomenon, . The working fluid in the evaporator 32 is evaporated by heat exchange with the surrounding air through the heat radiating fin member 35 and the evaporated working fluid is moved to the condenser 31. [ That is, the heat transfer means 30 circulates the working fluid enclosed between the condenser 31 and the evaporator 32 while changing the phase of the working fluid, thereby transferring the cold heat of the ice (water) to the heat dissipating portion 2b.

The interior air blowing fan F is arranged above the product storage area 2a (the goods storage rack 5) on the lower side of the evaporator 32 constituting the heat transfer means 30. [ The indoor air blowing fan F is blowing means for blowing air (ambient air around the evaporator 32) of the heat radiation portion 2b toward the lower goods storage area 2a by driving with a drive command .

The condenser 40 is disposed on the upper side of the storage container 26 and thermally connected to the refrigerant pipe 25 connecting the evaporator 24 and the compressor 21 of the refrigerant circuit 20. [ The condenser 40 evaporates water in the evaporator 24 and uses the cold heat of the refrigerant passing through the refrigerant pipe 25 to condensate water vapor around the condenser 40 and store the water vapor in the storage container 26 as water.

In the cooling device 10 having the above-described structure, the product in the product storage area 2a can be cooled as follows. In addition, it is preferable to perform the operation (cold storage coolant cooling operation) for cooling the cold storage material at predetermined time zones set in advance, for example, in the nighttime time zone on the premise that the product in the product storage area 2a is cooled.

This axial coolant cooling operation is performed by circulating the refrigerant through the refrigerant circuit 20 by driving the compressor 21. [ Accordingly, the water stored in the storage container 26 is cooled by evaporating the refrigerant in the evaporator 24, and is changed into ice and stored. After completion of the cooling of the axial coolant, the compressor 21 is stopped.

The cold heat of the ice produced by the cold storage cooling operation is transferred through the heat transfer means 30 to the heat radiation portion 2b where the evaporator 32 is disposed. In the heat dissipating portion 2b, the ambient air of the evaporating portion 32 is cooled through the heat dissipating fin member 35. [ Since the heat radiation portion 2b is located above the product storage area 2a, the cooled air naturally moves toward the lower side due to the density difference with the air in the product storage area 2a, 2a to cool the product stored in the product storage rack 5. On the other hand, the air in the product storage area 2a moves upward, is cooled in the heat dissipation area 2b, and then moves naturally downward due to the density difference with the air in the product storage area 2a. In this way, in the product receptacle 2, air cooled by natural convection can be circulated.

However, when a product replenishment or the like is performed on the product storage rack 5, it is necessary to perform a pull-down operation of rapidly cooling the internal temperature of the product storage container 2. [ When performing such a pull-down operation, a drive command is given to the internal air blowing fan F to drive it. As a result, the air in the heat dissipation site 2b, that is, the air cooled in the evaporation unit 32, is fed out downward. As a result, the internal air circulates inside the product accommodation space 2, The product can be rapidly cooled.

According to the cooling device 10 of the present embodiment as described above, the cooling device 10 of the vending machine is provided with the condensing portion 31 thermally connected to the axial coolant (water or ice), the product accommodating area 2 The heat transfer means 30 having the evaporation portion 32 disposed in the heat radiation portion 2b above the evaporation portion 2a circulates the working fluid while changing the phase of the working fluid between the condensation portion 31 and the evaporation portion 32 The cold air from the ice is transferred to the heat dissipating portion 2b, so that the cooling air can be circulated in the product receptacle 2 by natural convection. Accordingly, the product can be cooled well even if the internal air blowing fan F as the blowing means is not driven. Therefore, the power consumption can be reduced.

According to the cooling device 10, since the gap S is provided between the evaporator 32 and the condenser 31 constituting the heat transfer means 30, the air passes through the gap S It is possible to pass through the periphery of the evaporator 32 later, thereby sufficiently cooling the air. As a result, it is possible to improve the cooling efficiency.

According to the cooling device 10, since the condenser 40 condenses the water vapor around itself by using the cold heat of the refrigerant evaporated in the evaporator 24 and stores it as water in the storage container 26, The moisture evaporated from the container 26 can be returned to the storage container 26. [ As a result, the cooling capacity of the water as the axial coolant can be sufficiently secured, and as a result, the power consumption can be reduced.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications can be made.

Although the condensing section 31 of the heat transfer means 30 is thermally connected to the water as the axial coolant through the heat receiving plate 34 disposed on the bottom surface of the bottom portion of the storage container 26 in the foregoing embodiment, In the invention, the condenser may be connected in any form if it is thermally connectable to the axial coolant.

Although the upper surface of the storage container 26 is opened in the above-described embodiment, the storage container may be a closed container in the present invention. In this case, the condenser 40 may not be particularly required.

1: Body cabinet 2: Commodity receptacle
2a: a product storage area 2b: a heat dissipation area
3: outer door 4: inner door
5: Merchandise storage rack 6: Exporting shooter
7: transport mechanism 8: machine room
10: Cooling unit 20: Refrigerant circuit
21: compressor 22: condenser
23: Expansion mechanism 24: Evaporator
25: refrigerant pipe 26: storage container
30: Heat transfer means 31: Condenser
32: Evaporator 34: Heat sink plate
35: heat dissipation fin member 40: condenser
F: High air blowing fan S: Clearance

Claims (4)

A condenser for condensing the refrigerant compressed by the compressor and an expansion mechanism for adiabatically expanding the refrigerant condensed by the condenser are sequentially connected by a refrigerant pipe, And a refrigerant circuit for circulating the enclosed refrigerant to cool the axial coolant stored in the storage container using the evaporator as a heat source,
1. A cooling device for a vending machine for cooling a product storage area for storing a product in a product storage container of a heat insulating structure by using a cooled axial cold storage material,
A condensing section thermally connected to the axial coolant, and an evaporator disposed in a heat radiating section above the merchandise storing area in the merchandise container, wherein the working fluid enclosed between the condenser and the evaporator is an upper And heat transfer means for transferring the cold heat of the axial coolant to the heat radiating portion by circulating the heat exchanger while changing the temperature of the heat exchanger,
Wherein the refrigerant is water, and the refrigerant circuit cools water stored in the storage container to make ice,
And condensing water vapor around the evaporator and the refrigerant pipe in the refrigerant circuit and storing the condensed water in the storage container as water by using the cold heat of the refrigerant passing through the refrigerant pipe, Wherein the condenser further comprises a condenser for supplying the condensed water to the condenser. The cooling device for a vending machine according to claim 1, wherein the heat transfer means is provided on a lower side of the condensing portion with a gap between the evaporating portion and the condensing portion. delete delete

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