SU1195152A1 - Combined cooler - Google Patents

Abstract

COMBINED COOLTER, containing a thermoelectric battery with a heat exchanger of hot junctions included in the coolant circuit. with a thermostat, and a refrigeration compression mask with a refrigerant circuit, the evaporator of which is located in the indicated thermostat, because, in order to reduce the operating time, the thermoelectric battery contains a second hot junction heat exchanger parallel to the first a heat exchanger, the second heat exchanger being included in the refrigerant circuit of the compression chiller after the evaporator and provided with a bypass line with a zapoonny valve.

Description

The invention relates to refrigeration, and in particular to devices of combined compression-thermoelectric cooling systems intended for use in the technique of thermophysical experiment, in medicine, in the food industry for cooling electronic devices and components.

The purpose of the invention is to reduce the time required to reach the operating mode. ₁

In FIG. 1 presents a diagram of the proposed combined cooler; in FIG. 2 - section A — A in FIG. 1.

The combined cooler comprises a thermoelectric battery 1 mounted by hot junctions 2 on a liquid heat exchanger 3, which is made in the form of a metal casing 4 with channels 5 and 6 for passage of a coolant and a refrigerant, respectively. System cooled object - thermal battery - heat exchanger is enclosed in a heat-insulating casing 7. ²

Channel 5 of the heat exchanger 3 is included in the circuit 8 of the circulation of the coolant containing the pump 9 and thermostat 10. Thermal insulation on the circuit 8 is not shown. The channels 6 of the heat exchanger 3 are included in the circuit 1 1 of the refrigerant refrigerant compressor refrigeration machine comprising a compressor 12, a condenser 13, a throttle valve 14, an evaporator 15 located in the thermostat 10, and a valve 16, and the channels 6 of the heat exchanger '> are equipped with a bypass line 17 with ³ shut-off valve 18.

Combined cooler works as follows.

When the compression chiller is turned on, cooling of the coolant in the thermostat 10 starts. To more quickly cool the volume of the coolant at this time, the pump 9 is turned off and there is no circulation of the coolant in circuit 11. At this time, the thermoelectric battery 1 is also disconnected, the ventilator 18 is open, and the valve 16 is closed. After the compression refrigeration machine reaches its working boiling temperature (for freon 12 at P –0.1 MPa, the working temperature is –30 ° C), open _4- gig 16 and part of the vapor-liquid mixture of refrigerant from the evaporator passes into the channels 6 of the heat exchanger 3, cooling it .

In the second embodiment, the bypass line 17 is completely closed by the valve 18, and all the refrigerant enters the channels 6 of the heat exchanger 3.

The moment of inclusion of the thermoelectric battery 1 is selected depending on a given temperature and heat capacity of the cooling object.

If necessary, pre-cool the object, for example, in case of its high heat capacity, the thermal battery can be turned on immediately after the start of the flow of refrigerant into the heat exchanger. In order to avoid overheating of hot junctions, an earlier start of the thermal battery is possible only if the coolant is circulated through the heat exchanger, i.e., when the pump is on. Thus, after cooling the refrigerant in the thermostat, the refrigerant vapor (when it is completely boiled ^away ) ^{! 0} or the vapor-liquid mixture (if it is not fully boiled ^away ) at the boiling point additionally cools the heat exchanger 3. Depending on the ratio of the total mass heat capacities of the coolant in the tank (as volume rule

5-15 l) and the heat exchanger – thermal battery – object systems, taking into account the heat generation of the thermal battery, choose the pump on time. The coolant begins to circulate along circuit 8 through the already cooled ⁰ valuable pre-heat exchanger.

When the coolant reaches a temperature close to the set (or as low as possible), the valve 16 is closed, and the valve 18 is opened, thereby stopping the flow of refrigerant to the heat exchanger. In distance ³ , the cooling system operates in a stationary thermal mode.

The heat from the cooling object is removed by the thermoelectric battery 1 to the coolant. In the heat exchanger 3, and then in the thermostat 10 it is transferred to the refrigerant boiling in the evaporator 15, and as a result it is discharged into the environment through the condenser 13. The set temperature condition of the object is maintained by adjusting the current supply of the thermopile with given that its hot junctions are thermostated at a known temperature using a coolant.

VNIIIPI Order 7404/43 Circulation 508 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

COMBINED COOLER containing a thermoelectric battery with a hot junctions heat exchanger included in the refrigerant circuit. with a thermostat, and a compression chiller with a refrigerant circuit, the evaporator of which is located in the specified thermostat, characterized in that, in order to reduce the time for operating mode, the thermoelectric battery contains a second heat exchanger of hot junctions mounted along the heat flux parallel to the first heat exchanger, and the second heat exchanger is included in the refrigerant circuit of the compression chiller after the evaporator and is equipped with a by-pass line with a shut-off valve. ~ SU <„> 1195152