JPH0468968U - - Google Patents

Description

[Brief explanation of the drawing]

Figure 1 is a composition diagram of the cooler system of the present invention. Second
The figure is a composition diagram of a cooler system for general study. Summary of symbols, 1... Compressor, 2... Condenser, 3
...Fan, 4...Liquid reservoir, 5...Magnetic valve, 6...Evaporator, 10...Controller, 11...
Gas refrigerant, 7...fan, 8...filter, 12...
...Check valve, 21...Liquid refrigerant, 30,7
0... Motor, 9... Capillary, 41... Filter, 42... Detector, 51... Refrigerant vapor, 61...
Refrigerant, 62...Storage container, 621...Inlet, 622...Outlet, 623...Cylinder.

Claims (1)

[Claims for Utility Model Registration] (1) In a composition with a compressor, a condenser, a condenser fan, an evaporator, and an evaporator fan, one reservoir and one control valve are connected to the condenser and evaporator for each step. The liquid storage tank first stores the liquid refrigerant after being condensed with the high-pressure air refrigerant discharged from the compressor through the condenser, and its control valve is opened and closed by a single controller. The liquid refrigerant in the reservoir is injected into the evaporator according to its demand to perform evaporative heat absorption, and the output power of the cold air can be adjusted from the control valve and the operation of the evaporator fan, so that it can be directly compressed and condensed. A refrigerant storage type cooler system that is characterized by not being subject to restrictions on the operating speed of the container. (2) A liquid level detector is installed in the liquid storage container to measure the amount of liquid refrigerant stored therein, and a signal is output to control the amount of liquid refrigerant as appropriate. Once the storage level reaches a high level, the operation of the compressor and condenser fan is accelerated; once the storage level reaches a high level, the operation of the compressor and condenser fan is slowed down or stopped to maintain adequate storage at all times. The refrigerant storage type cooler system according to claim 1, which includes the step of continuing to operate the compressor and condenser fan until the storage capacity is insufficient when the storage capacity is insufficient to be shut down. (3) The refrigerant storage cooler system according to claim 2, which has one check valve between the compressor and the condenser. (4) A refrigerant retention type cooler system according to claim 2, which has one air storage container between the compressor and the evaporator. (5) The refrigerant retention type cooler system according to claim 1 or 2, wherein the condenser fan and the evaporator fan are each driven by an individual motor. (6) The refrigerant storage cooler system according to claim 1 or 2, wherein the control valve is a magnetic opening/closing (jet) valve whose opening/closing time is controlled by one microcomputer. (7) The refrigerant storage type cooler system according to claim 1 or 2, wherein the condenser and evaporator are not directly cooled by a fan, but use water as a medium (ie, water-cooled).