JP4973594B2 - vending machine - Google Patents

Description

  The present invention relates to a vending machine that sells and sells products such as canned beverages in a heated (hot) and cooled (cold) state, and the inside of a main body cabinet formed as a heat insulating casing is a heat insulating partition plate Is divided into at least two chambers, one of which is a cold dedicated chamber and the other is a hot / cold combined chamber. A refrigeration cycle is performed by a heat exchanger installed in the cold dedicated chamber and a condenser and a compressor installed outside the chamber. The present invention relates to a vending machine configured.

  Vending machines that sell products such as canned beverages, bottled beverages, and plastic bottle beverages store the products in a cold and hot state in the cabinet of the main body cabinet, which is an insulated case, and display on the outer door A plurality of product samples are displayed side by side in the room, and a product selected based on an operation of a product selection button provided corresponding to the product sample is sold. This type of conventional vending machine will be described with reference to FIG.

As shown in FIG. 3, the vending machine includes a main body cabinet 1 having an open front surface and an outer door 6 supported on the front surface of the main body cabinet 1 so as to be opened and closed by a hinge. The main body cabinet 1 is configured as a heat insulating casing by disposing heat insulating boards made of urethane foam on the inner side of the outer box made of steel plate, that is, on the upper wall, the left and right side walls, the back wall, and the bottom wall 1a. The inside of the product storage box surrounded by the heat insulation board of the main body cabinet 1 is partitioned into a plurality of product storage chambers 3, 4, 5 by the heat insulation partition plate 2 in the left-right direction. Each of the product storage chambers 3, 4 and 5 stores a product and a product storage rack R having a product delivery mechanism for discharging one product at a lower end thereof (in this example, a product having a meandering product passage called a serpentine type) Storage racks) are respectively housed, and a chute C that is inclined forward and downward is disposed at a lower portion of the commodity storage rack R.

  As is well known, a display room for a product sample placed on a display base is formed on the front surface of the outer door 6 that is openably and closably mounted on the front surface of the main body cabinet 1 and covers the front surface of the display chamber. A product selection button unit having product selection buttons provided corresponding to each product sample is disposed on the transparent plate. Further, on the front surface of the outer door 6, a coin insertion port and a bill insertion port of the coin processing device 7 and the banknote processing device 8 attached to the back surface of the outer door 6, a change return port of the coin processing device 7, and a product outlet 2a, a return lever, a handle lock device with a cylinder lock, and the like are assembled. In addition, 9 is an inner door which closes the front surface of the product storage in the main body cabinet 1. In this example, the inner door is divided into upper and lower parts, and the lower inner door is arranged at the lower part of each product storage chamber 3-5. In addition, a product exit having a delivery door 9a is provided at a position facing the shooter C that sends out the product paid out from the product storage rack R. The carry-out door 9a is pivotally supported at its upper end and always closes the product carry-out port to prevent the outflow of cold air or warm air, and is formed so as to be pushed open by the product delivered via the chute C.

  Behind the chute C disposed in the lower part of the product storage chambers 3, 4 and 5, the products stored in the product storage rack R by cooling or heating the product storage chambers 3, 4 and 5 are cold-hot. A cooling unit or a cooling / heating unit for storing the state is provided. The lower part of the bottom wall 1a of the main body cabinet 1 is formed as a machine room, in which a cooling unit of the cooling / heating unit and a condensing unit of a refrigerator constituting a refrigeration cycle are arranged. The product storage room in which only the cooling unit is disposed is a cold dedicated room, and the product storage room in which the cooling / heating unit is disposed is a hot / cold combined room. In the example shown in FIG. 3, the product storage room 3 is cold. Dedicated rooms and product storage rooms 4 and 5 are hot / cold rooms. In each of the product storage rooms 3, 4 and 5, a heat exchanger functioning as an evaporator for cooling the product and an internal fan are installed as a cooling unit, and the heat exchanger is a compressor disposed in the machine room. It is connected to the condensing unit of the refrigerator that consists of a condenser, a fan outside the refrigerator, and so on. In addition to the heat exchanger, a product heating heater is installed as a heating unit in the product storage chambers 4 and 5 which are hot / cold rooms.

  It is also known that a heat exchanger installed in each product storage chamber 4 or 5 is used as a heating unit instead of the heater. In this case, in addition to the circuit constituting the refrigeration cycle of the condensing unit of the refrigerator, the heat exchanger condenses the high-temperature refrigerant gas from the compressor via the heat exchanger in the condensing unit of the refrigerator. In the hot operation mode, the heat exchanger of each of the product storage chambers 4 and 5 is configured to function as a condenser. Moreover, what installed the heat exchanger only for heating as a heating unit in addition to the heat exchanger installed in each goods storage chamber 4 and 5 is also known.

By the way, although the main body cabinet 1 is comprised as a heat insulation housing | casing and the interruption | blocking of heat | fever is aimed at with respect to external air, the heat | fever in a store | warehouse | chamber flows outside through the main body cabinet 1 by the temperature difference of the inside | chamber interior and external air. A heat leak is inevitable. In particular, when the hot / cold room is operated as a hot room in winter or the like, since the outside air temperature is low, the warm air in the hot room continues to flow outside through the main body cabinet 1, so that energy loss increases. Since the time until the internal temperature reaches the set temperature becomes long, the operation time of the compressor becomes long and the power consumption increases. For this reason, the thing which laid the heat insulation sheet in the inner wall face of the goods storage room and suppressed the heat leak from the main body cabinet 1 is known (for example, patent document 1).
JP 2002-42225 A

  The vending machine disclosed in Patent Document 1 is excellent in that heat in the cabinet is prevented from leaking from the main body cabinet 1 to the outside by a heat insulating sheet laid on the inner wall surface of the product storage room. However, in the vending machine disclosed in Patent Document 1, the thermal insulation sheet is laid in a floating state so as to form a stagnant air layer between the inner wall surface without closely contacting the inner wall surface of the product storage room. If the heat insulating sheet comes into close contact with the inner wall of the product storage room, it will not be possible to prevent the heat inside the cabinet from leaking outside through the main body cabinet 1, and it will be applied to existing vending machines. It has the problem that it is difficult to do.

  Therefore, the present invention has been made in view of the above points, and its purpose is to solve the above-described problems and to reduce the heat leaked from the hot / cold chamber through the main body cabinet to the outside. Is to provide a machine.

In order to achieve the above object, the invention according to claim 1 is characterized in that the interior of the main body cabinet formed as a heat insulating casing is divided into at least two product storage rooms by a heat insulating partition plate, one of which is a cold dedicated room and the other is a In a vending machine in which a refrigeration cycle is constituted by a heat exchanger installed in the product storage room and a condenser and a compressor installed outside the warehouse. A primary circuit having a heat exchange plate that is formed by being drawn out from the heat transfer tube that constitutes the heat transfer plate, and a heat receiving unit having a heat exchange plate that encloses liquid refrigerant and receives heat by exchanging heat with the heat exchange plate of the primary circuit, and A heat dissipating part having a heat exchange plate for guiding and dissipating the high-temperature refrigerant gas vaporized in the heat receiving part to the outside of the main body cabinet corresponding to the hot / cold combined room Consists of a secondary circuit having a transfer heat heat transfer means provided in the outer wall of the main body cabinet corresponding to the outside-compartment condenser exhaust heat to the hot / cold combined chamber and hot operating the hot / cold combined chamber In this case, the heat transfer means reduces the temperature difference between the inside of the hot / cold combined room and the outer wall of the main body cabinet.

According to the vending machine according to claim 1 of the present invention, the interior of the main body cabinet formed as a heat insulating casing is divided into at least two product storage rooms by a heat insulating partition plate, one of which is a cold dedicated room and the other is a In a vending machine in which a refrigeration cycle is constituted by a heat exchanger installed in the product storage room and a condenser and a compressor installed outside the warehouse. A primary circuit having a heat exchange plate that is formed by being drawn out from the heat transfer tube that constitutes the heat transfer plate, and a heat receiving unit having a heat exchange plate that encloses liquid refrigerant and receives heat by exchanging heat with the heat exchange plate of the primary circuit, and A heat-dissipating part having a heat exchange plate that guides the high-temperature refrigerant gas vaporized in the heat-receiving part to the outside of the main cabinet corresponding to the hot / cold chamber and dissipates heat. And consists of a secondary circuit, the transfer heat heat transfer means to the outer wall of the main body cabinet corresponding to the hot / cold combined chamber exhaust heat of the outside-compartment condenser provided, when hot-operate the hot / cold combined chamber In addition, since the temperature difference between the inside of the hot / cold room and the outer wall of the main body cabinet is reduced by the heat transfer means, the exhaust taken by the outside condenser constituting the condensing unit of the refrigerator is removed. The outer wall of the main cabinet corresponding to the hot / cold room can be heated using heat (generally, the exhaust heat temperature of the air-cooled condenser is 40 to 50 ° C.), thereby storing the hot / cold room Since the temperature difference between the inside and the outer wall of the main body cabinet is reduced, heat leaking to the outside through the main body cabinet can be suppressed. Therefore, it is possible to shorten the time required for the internal temperature to reach the set temperature when the hot / cold chamber is hot-operated, thereby shortening the operation time of the compressor, thereby saving energy. It contributes.

Further, according to the vending machine according to claim 1 of the present invention, the heat receiving portion and the heat radiating portion of the primary circuit and the secondary circuit are provided with heat exchange plates, whereby the heat exchange efficiency between the primary and secondary circuits is achieved. Can be improved.

  Hereinafter, a vending machine according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is an exploded view of a vending machine according to Embodiment 1 of the present invention, and FIG. 2 is a perspective view of the vending machine shown in FIG. The overall configuration of the vending machine is the same as that shown in FIG. 3, and the same components as those shown in FIG. FIG. 1 shows a state in which the condensing unit and the heat exchanger of the refrigerator are pulled out from the vending machine, and in FIG. 2, the heat insulating board and the cover are omitted.

In FIG. 1, a main body cabinet formed again as a heat insulating housing in 1 and 6 and an outer door supported by a hinge on the front surface of the main body cabinet 1 so as to be opened and closed are shown. Reference numeral 10 denotes a refrigerator condensing unit. The condensing unit 10 includes a compressor 11, a fin tube condenser 12 (external condenser), an accumulator 13, and an external fan 14, in addition to an expansion valve (not shown), a distributor, and an electromagnetic valve. The heat exchangers 31, 41, 51 installed in the product storage (for example, the product storage 3-5 shown in FIG. 3) are connected to the product via individual pipes. As is well known, the condensing unit 10 and the heat exchangers 31, 41, 51 are supplied with high-temperature refrigerant gas compressed by the compressor 11 to the condenser 12 via an electromagnetic valve. After the refrigerant that has been condensed in the liquid refrigerant expands in the expansion valve to become a gas-liquid two-phase flow, it is supplied to the heat exchangers 31, 41, 51 via the distributor and the individual electromagnetic valves, A refrigerant gas evaporated and vaporized by the heat exchangers 31, 41, 51 is separated into gas and liquid by the accumulator 13, and returns to the compressor 11. Reference numeral 15 denotes an evaporation coil formed by winding a middle portion of a heat transfer tube (refrigerant pipe) of the condenser 10 into a coil shape, and this evaporation coil 15 is an evaporation dish for accumulating drain water generated in the product storage. (Not shown).

Now, 21 is a primary circuit drawn out from the heat transfer tube which comprises the condenser 12, and 24 is the heat receiving part 25 in which liquid refrigerant is enclosed and heat-exchanged with the primary circuit 21, and receives heat, and the said heat receiving part 25 It is a secondary circuit which has the thermal radiation part 26 which guide | induces the vaporized high temperature refrigerant gas to the exterior of the main body cabinet 1 corresponding to a hot / cold combined room, and radiates heat. The primary circuit 21 and the secondary circuit 24 are formed by heat transfer tubes, and constitute heat transfer means 20 for transferring the exhaust heat of the condenser 12 to the outer wall of the main body cabinet 1 corresponding to the hot / cold combined chamber.

  The primary circuit 21 is formed by removing one of the U-bend portions 121 of the heat transfer tube protruding laterally from the fin-type heat radiation plate constituting the condenser 12 and connecting the heat transfer tube. A solenoid valve 22 is connected to the primary circuit 21 and a heat exchange plate 23 is provided, so that the liquid refrigerant from the condenser 12 flows and is radiated from the heat exchange plate 23 by opening and closing the solenoid valve 22. It is configured. Further, the heat receiving part 25 of the secondary circuit 24 is provided with a heat exchange plate 251 having the same size as the heat exchange plate 23 of the primary circuit 21, and the heat radiating part 26 of the secondary circuit 24 is provided on the side wall of the main body cabinet. A smaller heat exchange plate 261 is provided.

Here, in FIG. 1, the heat exchange plates 23 and 251 of the heat receiving portion 25 of the primary circuit 21 and the secondary circuit 24 are shown enlarged for easy understanding. The heat exchange plates 23 and 251 are in close contact with each other and are arranged in the machine room (see FIG. 3). As shown in FIG. 2, a pipe ( heat transfer pipe) between the heat receiving part 25 and the heat radiating part 26 of the secondary circuit 24 is drawn out from the gap of the lattice member 1C in the air discharge port 1B of the machine room. In FIG. 1, reference numerals 27 to 30 denote heat insulating boards attached to the outer wall surface of the main body cabinet 1, reference numeral 40 denotes a cover that covers the heat insulating boards 27 to 30, and the heat radiation part 26 of the secondary circuit 24 is insulated. Covered by a board 28 and a cover 40.

  Next, assembly of the heat transfer means 20 will be described. Before assembling the condensing unit 10 of the refrigerator in the machine room of the main body cabinet 1, the primary circuit 21 of the heat transfer means 20 is connected to the condenser 12 in advance, and the heat exchange plate 23 of the primary circuit 21 is connected to the condenser 12. Secure to a cover. The condensing unit 10 and the heat exchangers 31, 41, 51 to which the primary circuit 21 is connected in this way are stored and installed in the machine room of the main body cabinet 1 and the product storage compartments 3 to 5 (see FIG. 3), respectively. . The secondary circuit 24 of the heat transfer means 20 inserts the heat receiving portion 25 from the air outlet 1B (FIG. 2) of the machine room. Then, the heat exchange plate 251 of the heat receiving unit 25 is attached in close contact with the heat exchange plate 23 of the primary circuit 21. In this case, the heat exchanging plate 251 may be attached to the heat exchanging plate 23 with an adhesive, but in consideration of recycling, the two may be coupled with screws. Thus, after connecting the heat receiving part 25 of the secondary circuit 24 to the primary circuit 21, the lattice member 1C is attached to the air discharge port 1B of the machine room. Next, in this embodiment, the heat radiating portion 26 of the secondary circuit 24 drawn out from the air outlet 1B of the machine room is installed in close contact with the outer wall on the right side (viewed from the front of the vending machine) of the main body cabinet 1. . In this case, when the heat exchange plate 261 of the heat radiating section 26 is installed on the outer wall of the main body cabinet 1, the heat exchange plate 261 is covered with the heat insulating board 28 and the cover 40 that are attached in a later process, so that the outer wall of the main body cabinet 1 is firmly attached. It is not necessary to adhere to the tape, and it can be temporarily fixed with an adhesive tape or the like.

  As described above, in the vending machine in which the heat transfer means 20 is assembled, the solenoid valve 22 is set when the product storage room 5 (hot / cold room) provided in the cabinet of the main body cabinet 1 is hot-operated. By opening, the high-temperature refrigerant flows into the primary circuit 21 of the heat transfer means 20 and heat dissipation is started from the heat exchange plate 23. The heat receiving portion 25 of the secondary circuit 24 absorbs the heat diffused from the heat exchange plate 23 of the primary circuit 21, and the refrigerant accumulated in the heat receiving portion 25 is evaporated and diffused from the heat radiating portion 26 to be diffused in the main body cabinet 1. Warm the outer wall. The refrigerant condensed in the heat radiating section 26 moves downward due to gravity and returns to the heat receiving section 25. As described above, the heat transfer means 20 reduces the temperature difference between the inside of the hot / cold chamber and the outer wall of the main body cabinet 1, so that heat leaking to the outside through the main body cabinet 1 is suppressed. Therefore, it is possible to shorten the time required for the internal temperature to reach the set temperature when the hot / cold combined room is hot-operated, thereby shortening the operation time of the compressor. When the hot / cold combined room is cold-operated, the electromagnetic valve 22 is closed.

  When laying the heat transfer means 20 on an existing vending machine, the heat transfer means 20, the heat insulating boards 27 to 30 and the cover 40 are transported to the place where the vending machine is installed, Lay it in the same procedure as assembly. In this case, in addition to the above-described procedure, after extracting the condensing unit 10 of the refrigerator from the machine room of the main body cabinet 1, the operation of removing the refrigerant from the condensing unit 10 and one of the U-bend parts 121 of the condenser 12 are performed. Although the work of cutting and connecting the heat transfer tubes of the primary circuit 21 is added, the heat transfer means 20 can be laid by a slight work without drastically changing the existing vending machine.

As described above, according to the present invention, the interior of the main body cabinet 1 formed as a heat insulating casing is divided into a plurality of product storage chambers 3 to 5 by the heat insulating partition plate 2, one of which is a cold dedicated chamber and the other is A vending machine that serves as a hot / cold room and has a refrigeration cycle composed of heat exchangers 31, 41, 51 installed in the product storage rooms 3-5, a condenser 12 and a compressor 11 installed outside the warehouse. In the machine, a primary circuit 21 having a heat exchange plate 23 formed from a heat transfer tube constituting the external condenser 12 and a liquid refrigerant is enclosed, and the heat exchange plate 23 and heat of the primary circuit 21 are enclosed. A heat receiving part 25 having a heat exchange plate 251 that exchanges and receives heat, and a main body cabinet 1 corresponding to a hot / cold combined room for the high-temperature refrigerant gas vaporized in the heat receiving part 25 Consists of a secondary circuit comprising a heat radiating portion 26 having a heat exchange plate 261 for radiating leading to the outside, heat transfer to the outer wall of the main body cabinet 1 corresponding exhaust heat of the outside-compartment condenser 12 to the hot / cold combined chamber A heat transfer means 20 for heating is provided, and when the hot / cold combined room is operated hot, the heat transfer means 20 reduces the temperature difference between the inside of the hot / cold combined room and the outer wall of the main body cabinet 1. As a result, the external wall of the main body cabinet 1 corresponding to the hot / cold room can be warmed by using the exhaust heat taken by the external condenser 12 constituting the condensing unit of the refrigerator. / Since the temperature difference between the inside of the cold-use room and the outer wall of the main body cabinet 1 is reduced, the heat leaking outside through the main body cabinet 1 is suppressed. Door can be. Therefore, it is possible to shorten the time until the inside temperature reaches the set temperature when the hot / cold chamber is hot-operated, thereby shortening the operation time of the compressor, thereby saving energy. Can be planned.

  In the first embodiment described above, the primary circuit 21 of the heat transfer means 20 cuts one of the U-bend portions 121 of the heat transfer tube that protrudes laterally from the fin-type heat radiating plate constituting the condenser 12. Although what was formed by connecting a heat exchanger tube to was described, it is not restricted to this. For example, in the condenser 12, the high-temperature refrigerant gas supplied from the compressor 11 is condensed into a liquid refrigerant, so that the refrigerant temperature on the inlet side is higher than the refrigerant temperature on the outlet side, so that the heat transfer tube on the inlet side is cut. Thus, the heat transfer tube of the primary circuit 21 of the heat transfer means 20 can be connected.

It is an exploded view of the vending machine which is embodiment of this invention. It is the perspective view which looked at the vending machine of FIG. 1 from the back. It is a perspective view of the outside door open state which shows the whole vending machine structure concerning the implementation object of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body cabinet 2 Thermal insulation partition plate 3,4,5 Goods storage 6 Outer door 10 Condensing unit of a refrigerator 11 Compressor 12 (Outside of a refrigerator) Condenser 20 Heat transfer means 21 Primary circuit 22 Solenoid valve 23,251,261 Heat exchange plate 24 Secondary circuit 25 Heat receiving part 26 Heat radiating part

Claims (1)

The interior of the main cabinet formed as a heat insulating enclosure is divided into at least two product storage rooms by a heat insulating partition plate, one of which is a cold dedicated room and the other is a hot / cold combined room, and is installed in the product storage room. In the vending machine comprising a refrigeration cycle with a heat exchanger and a condenser and a compressor installed outside the warehouse, the heat exchange plate is formed by being drawn out from the heat transfer tube constituting the outside condenser. A primary circuit having a liquid refrigerant, a heat receiving part having a heat exchange plate that receives heat by exchanging heat with the heat exchange plate of the primary circuit, and a high-temperature refrigerant gas vaporized in the heat receiving part in the hot / cold combined chamber It consists of a secondary circuit comprising a heat radiating portion having a heat exchanger plate for dissipating led to the outside of the corresponding cabinet, discharge of the outside-compartment condenser A heat transfer means for transferring heat to the outer wall of the main cabinet corresponding to the hot / cold combined room, and when the hot / cold combined room is operated hot, A vending machine characterized in that the temperature difference from the outer wall of the main cabinet is reduced.

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