KR950001539Y1 - Showcase - Google Patents

Abstract

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Description

Dew device of showcase using refrigeration cycle

1 is a perspective view showing an example of a showcase to which the present invention device is applied.

2 is a longitudinal sectional view of a showcase showing a conventional apparatus.

3 is a longitudinal sectional view of the showcase to which the present invention device is applied, (a) is a state in which the door is closed, and (b) is a state in which the door is open.

4 is a partial perspective view of the showcase to which the present invention device is applied.

5 is a perspective view of the windshield of the showcase to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

2: condenser 3: evaporator

5: condensing fan motor 6: condensing copper tube

7: copper fine wire 8: air passage core

10: heater 12: table

13: front glass 14: glass door

The present invention relates to a showcase, and more specifically, to prevent dew condensation on the front glass and the glass door of the showcase by using a condensation tube of a refrigeration cycle.

1 is a perspective view showing an example of a general showcase, wherein the showcase is a front case 13 and an openable glass which are installed on the front of the case so that the outer case 11 constituting the body and the goods stored in the case can be viewed. It is composed of a door (14) and the like is installed inside the refrigeration cycle components for maintaining the stored goods at a predetermined temperature.

2 is a configuration diagram of a refrigeration cycle component that has been applied to a conventional showcase. In the conventional showcase, a compressor 21 for compressing a refrigerant, a condenser 22 for reliquefying a refrigerant compressed by the compressor, and a high-pressure refrigerant are expanded. The capillary tube 24, the evaporator 23 for evaporating the refrigerant expanded in the capillary tube, and the condensation fan motor 25 for discharging heat generated from the condenser to the outside of the showcase are provided.

The compressor 21, the condenser 22, the capillary tube 24, the condenser fan motor 25 and the like are located at the lower end of the showcase and the evaporator is installed on the wall of the product storage chamber.

Therefore, when power is applied to the compressor 21, the compressor operates to bring the refrigerant into a high temperature and high pressure state and sends it to the condenser 22, and in the condenser, the refrigerant is reliquefied and sent to the capillary tube 24, and the high pressure refrigerant in the capillary tube. After expanding the evaporator 23 is sent to evaporate.

In addition, the high-temperature and high-pressure refrigerant passing through the evaporator 23 takes heat away while maintaining heat inside the showcase while performing heat exchange, and the evaporated (heat-exchanged) refrigerant is returned to the compressor 21. It works.

That is, the refrigerant forms a refrigerating cycle while sequentially circulating the compressor → condenser → capillary → evaporator → compressor. The high temperature heat generated from the condenser is transferred to the outside through the bottom part of the showcase according to the operation of the condenser fan motor 25. Is released.

However, in the above-described conventional structure, as the internal temperature of the showcase becomes low and a temperature difference occurs between the inside and the outside of the showcase, dew formation phenomenon occurs on the surfaces of the double-glazed windshield 13 and the glass door 14. Severe generation occurs, especially the dew condensation in the summer or high humidity of the humidity is more severe cause the buyer's desire to buy.

In addition, the heat generated from the condenser is discharged to the outside by the condenser fan motor as it is, thereby increasing the ambient temperature of the showcase. The increase in the ambient temperature of the showcase acts as a factor to increase the cooling part of the room where the showcase is installed. There is also a problem falling.

An object of the present invention is to provide a device that can prevent the dew condensation occurring in the windshield and the glass door by renewing the configuration of the refrigeration cycle and by changing the arrangement of the components of the refrigeration cycle.

Condenser installed on the table 12 above the showcase according to the object of the present invention, a blower fan for blowing heat dissipation of the condenser into a glass door, and connected between the discharge side of the compressor installed below the showcase and the condenser and double front Provided is a showcase anti-dew device using a refrigeration cycle consisting of condensate pipes penetrated through glass.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 3 to 5.

3 is a longitudinal cross-sectional view of the showcase to which the device of the present invention is applied, and the compressor 1 is located at the lower part of the showcase and the condenser 2 is located at the upper table 12 part of the outer case 11. The evaporator 3 and the capillary tube 4 are located in the product storage compartment of the showcase.

A condensation tube 6 is connected between the discharge side of the compressor 1 and the condenser 2, and the condensation tube 6 passes through the front glass 13 along the front wall of the outer case 11 of the showcase. It is connected with the condenser (2).

That is, as shown in FIG. 4, the condensation copper tube is arranged between two windshields 13 and is connected to the condenser 2 after being arranged along the circumference of the windshield, between the upper and lower condensation copper tubes arranged between the windshields. The plurality of copper fine wires 7 are connected to each other to facilitate heat transfer.

A condensation fan motor 5 is installed at the rear of the condenser 2, and an air passage core 8 is coupled to the front lower portion of the table 12, and the wind generated by the condensation fan motor is located below the condenser. The air guide plate 9 for guiding in the direction of the air passage core 8 is prevented from being introduced into the air passage core 8.

In addition, directly below the air passage core 8, the inside of the showcase is lower than the set temperature, and a heater 10 is provided for supplying warm air to the glass door when the refrigeration cycle is stopped.

It describes the operation effect of the present invention as described above.

When power is supplied to the compressor (1), the compressor (1) operates to bring the refrigerant to a high temperature and high pressure state and sends it to the condensation tube (6). At this time, high temperature heat is generated on the surface of the condensation tube. The copper tube 6 passes through the double windshield 13, so that heat generated from the surface of the condensation copper tube is transferred to the windshield to remove dew from the windshield.

In addition, the upper and lower portions of the condensation copper tube 6 inserted between the windshield 13 are connected by a plurality of copper fine wires 7 to improve the heat transfer effect, and part of the heat retained by the condensation copper tube is transferred to the windshield. It is taken away to get the condensation effect.

The refrigerant passing through the windshield 13 flows to the condenser 2 installed on the table 12 to generate high temperature heat from the condenser, and the generated heat passes through the air passage by driving the condenser fan motor 5. Blowing in the direction of the core 8 prevents dew formation on the surface of the glass door 14.

That is, when the condenser fan motor 5 is driven in a state where high temperature heat is generated on the surface of the condenser, air flow is induced, and hot hot air is guided to the air guide plate 9 while the glass door (8) is opened through the air passage core (8). The discharged heat air in the 14) direction flows along the surface of the glass door 14, so that the surface temperature of the glass door is increased, thereby eliminating dew formation.

In addition, the hot air discharged through the air passage core 8 is deprived of heat from the surface of the glass door while flowing along the surface of the glass door 14, cooled by air at room temperature, and then diffused into the room by natural convection. It does not cause an increase in the freezing load due to the discharge of hot air.

The refrigerant passing through the condenser (2) is sent to the evaporator (3) installed in the product storage room through the capillary tube (4) and the inside of the showcase is kept at a low temperature due to the refrigerant evaporated from the evaporator, the refrigerant passed through the evaporator is a compressor Through the input side of (1) it is a circular motion flowing into the compressor (1).

In addition, when the glass door 14 is opened as shown in FIG. 3 (b) while the glass door 14 is closed as shown in FIG. 3 (a), the air discharged through the air passage core 8 is the product of the showcase. Hot air is not introduced into the product storage chamber because the flow path is converted and flows upward by the protrusion handle formed in the glass door 14 without flowing over the storage chamber.

In addition, the heater 10 installed immediately after the air passage core 8 operates when the temperature of the condenser is lowered as the internal temperature of the showcase is lower than the set temperature and the operation of the freezer is stopped, thereby preventing the temperature drop of hot air. .

As described above, the present invention can prevent dew condensation occurring on the front glass and glass door of the showcase by using a refrigeration cycle, and can minimize the load of the compressor by maximizing the condenser capacity of the condenser according to the improvement of the refrigeration cycle. Therefore, the cooling capacity of the showcase is improved.

Claims (2)

A condenser (2) installed on the table (12) above the showcase, a blower fan motor (5) for blowing heat radiation of the condenser to the glass door (14), a discharge side of the compressor installed at the lower part of the showcase, and a condenser. Dew prevention device of the showcase using a refrigeration cycle, characterized in that consisting of a condensation copper tube (6) penetrated between the double front glass (13). The apparatus of claim 1, wherein the copper case (7) is connected to a condensation copper tube penetrated between the windshields.