KR100538455B1 - A thermohygrostat of one body type - Google Patents

Abstract

The present invention improves the "integrated constant temperature and humidity humidifier" introduced in the applicant's utility model registration No. 259280, divided into an outdoor part (5) and an indoor part (7) by the vertical bulkhead (3), the outdoor part A compressor 11, a condenser 13, and a liquid heater 15 are disposed at 5, and an air filter 21, an expansion valve 23, an evaporator 25, and a heater 27 are disposed at the interior 5. ), A humidifier 29, an external air intake damper 31, and a blower fan 33 is an integrated thermo-hygrostat, the connecting pipe 50 connecting the condenser 13 and the liquid heater 15 is a double pipe The refrigerant is supplied to the inner tube 51 of the connecting pipe 50 to the liquid heater 15 from the condenser 13, the cooling water flows to the outer pipe 53 of the connecting pipe 50 The refrigerant and the coolant are characterized in that heat exchange.

Description

A thermohygrostat of one body type

The present invention is an improvement of the "integrated constant temperature and humidity chamber" introduced in the applicant's utility model registration No. 259280, more specifically, the connection pipe connecting the condenser and the heat sink is formed of a double pipe to supply the refrigerant supplied to the heat heater. The present invention relates to an integrated thermo-hygrostat capable of supercooling a refrigerant supplied to a liquid heater by exchanging heat with cooling water.

Utility model registration No. 259280 (registered on December 18, 2001) of the applicant has introduced an "integrated thermo-hygrostat".

The integrated thermo-hygrostat is divided into an outdoor part and an indoor part by a vertical bulkhead, and a compressor and a condenser are disposed in the outdoor part, an air filter, a first expansion valve, an evaporator, a heater, a humidifier, an outdoor air intake damper, And a blowing fan is disposed, and a liquid heater is mounted between the condenser and the first expansion valve.

An object of the present invention is to form an expansion valve connecting the condenser and the heat exchanger is formed as a double pipe so that the refrigerant supplied to the heat exchanger heat exchanges with the cooling water, thereby reducing the ratio of the flash gas of the refrigerant supplied to the heat reactor to the expansion valve The ratio of the flash gas mixed with the supplied coolant can be significantly lowered, thereby increasing the operating efficiency of the expansion valve to provide an integrated thermo-hygrostat that can improve the overall cooling efficiency of the cooling cycle.

It will be described in detail a preferred embodiment according to the present invention for achieving the above object.

Referring to FIG. 1, the integrated thermo-hygrostat according to the present invention is divided into an outdoor part 5 and an indoor part 7 by a vertical bulkhead 3, and a compressor 11 and a condenser in the outdoor part 5. 13 and the liquid heater 15 are disposed in the interior portion 7, the air filter 21, expansion valve 23, evaporator 25, heater 27, humidifier 29, air intake damper 31 and a blowing fan 33 are arranged. As a result, the refrigerant passes through the liquid heater 15, the expansion valve 35, the evaporator 25, and the compressor 11 in order from the condenser 13, and then is supplied to the condenser 13 again. Done. In addition, in general, the refrigerant condensed in the condenser 13 is a mixture of condensate and flash gas, and the refrigerant discharged from the condenser 13 is supplied to the liquid heater 15 to increase cooling efficiency. After the flash gas included in the refrigerant is removed from the liquid heater 15, the refrigerant is supplied to the expansion valve 75.

1 and 2, the integrated thermo-hygrostat according to the present invention also has a connecting tube 50 connecting the condenser 13 and the liquid heater 15 is formed of a double tube, The refrigerant supplied from the condenser 13 to the liquid heater 15 flows to the inner tube 51, and the coolant flows to the outer tube 53 of the connection pipe 50, thereby exchanging the refrigerant and the coolant.

The outer tube 53 of the connection pipe 50 is connected to the cooling water supply pipe 55, the solenoid valve SV1 is mounted on the cooling water supply pipe 55, the cooling water heat-exchanged with the refrigerant is discharged to the outside.

The solenoid valve SV1 is connected with the operation of the fan 13a of the condenser 13, and is opened when the fan 13a is operated and closed when the operation of the fan 13a is stopped.

Referring to FIG. 3, the connecting pipe 50 may be made of copper, and the outer pipe 53 may be any one of a braided hose and a rubber hose made of synthetic resin.

In the integrated thermo-hygrostat according to the present invention configured as described above, a liquid heater 15 is disposed between the condenser 13 and the expansion valve 23 to increase the cooling efficiency, and the condenser 13 and the liquid heater 15 are By being connected by a connecting pipe 50 formed of a double pipe, the refrigerant discharged from the condenser 13 through the inner pipe 51 of the connecting pipe 50 to the heat generator 15 surrounds the inner pipe 51. As the heat exchanged with the cooling water flowing through the pipe 53, the refrigerant supplied to the liquid heater 15 is supercooled, and the flash gas included in the refrigerant is liquefied, so that the refrigerant condensed by the liquid heater 15 with 95% or more is condensed. A small amount of flash gas, which is not condensed in the refrigerant, is filtered out of the liquid heater 15 so that a refrigerant made of pure condensed water is expanded and supplied to the expansion valve 23. As a result, the efficiency of the entire cooling cycle is improved while the efficiency of the expansion valve 23 is improved.

Unexplained components are introduced in detail in the "integrated thermo-hygrostat" of the Utility Model Registration No. 259280 of the applicant, detailed description thereof will be omitted.

As described above, the integrated thermo-hygrostat according to the present invention has a connecting pipe connecting the condenser and the heat sink to form a double pipe so that the refrigerant supplied to the heat pump heat exchanges with the coolant, thereby improving the cooling efficiency of the cooling cycle. have.

1 is a schematic diagram showing an integrated thermo-hygrostat according to the present invention

Figure 2 is a schematic diagram showing the main part of Figure 1

3 is a cross-sectional view taken along the line A-A of FIG.

Claims (4)

The vertical partition 3 is divided into an outdoor part 5 and an indoor part 7, and a compressor 11, a condenser 13, and a liquid heater 15 are disposed in the outdoor part 5. An integrated constant temperature in which the air filter 21, the expansion valve 23, the evaporator 25, the heater 27, the humidifier 29, the outdoor air intake damper 31, and the blowing fan 33 are disposed in the unit 7. In the humidifier, A connecting tube 50 connecting the condenser 13 and the liquid heater 15 is formed as a double tube, and is supplied from the condenser 13 to the liquid heater 15 to the inner tube 51 of the connecting tube 50. Coolant flows, the cooling water flows to the outer tube (53) of the connecting pipe 50, the integral thermo-hygrostat, characterized in that the refrigerant and the coolant heat exchange. The method of claim 1, The outer tube (53) of the connecting pipe (50) is connected to the cooling water supply pipe (55), integral thermo-hygrostat, characterized in that the solenoid valve (SV1) is mounted to the cooling water supply pipe (55). The method of claim 2, The solenoid valve SV1 is connected with the operation of the fan 13a of the condenser 13, and is opened when the fan 13a is operated and closed when the operation of the fan 13a is stopped. Integral thermo-hygrostat. The method of claim 1, The connecting tube 50 is made of copper, the inner tube 51, the outer tube 53 is an integral thermo-hygrostat, characterized in that it can be any one of a rubber hose made of braided hose and synthetic resin.