SU1057753A1 - Freezer - Google Patents

Abstract

The freezer is mainly for domestic use, containing a thermally insulated cabinet, a thermally insulated partition dividing the internal volume of the cabinet into a freezing compartment and the storage compartment, a refrigeration unit with an evaporator installed in the freezing compartment and evaporators installed in the storage compartment, a thermostat, a control unit and three, a valve mounted on a pipeline connecting the evaporator of the freezing compartment to the evaporators of the storage compartment, characterized in that freezing the newly loaded products without increasing energy consumption, it is equipped with an additional evaporator installed in the freezing compartment, the inlet of which is connected to the three-way valve, and the outlet is connected to the suction line of the compressor of the refrigeration unit, while the temperature controller is located in the storage compartment and connected to the compressor, three-way valve and control unit. CO ate 01 co

Description

The invention relates to refrigeration engineering, in particular, to freezers for mainly household purposes for freezing and storing food products.

A household freezer is known, including a thermally insulated cabinet with a door, sections for storing food in a frozen form, a compression refrigeration unit, a brake regulator and a control unit. Each of the freezer sections is provided with an evaporator, the evaporators being connected in series with one another and forming part of the refrigeration unit. The known freezer has two modes of operation: freezing and storage. In the freezing mode, the refrigeration unit of the freezer operates continuously until the freezing temperature of the products is lowered to -25 ° C, after which it is manually switched to the storage mode. In the storage mode, the freezer operates cyclically, which is provided by a thermostat that turns the compressor on and off depending on the temperature in the freezer, which is maintained at -18 ° C 1.

The practice of operating household freezers shows that loading the entire volume of the freezer at one time is carried out in very rare cases, usually the freezers are loaded with products as they are consumed, with the number of products being reloaded being usually 10-20% of the total capacity of the freezer. Thus, the continuous operation of the freezer to freeze small amounts of fresh food is very uneconomical in terms of electricity consumption and freezing speed, since a significant part of the cooling capacity of the unit in this case is spent on lowering the temperature of previously frozen products from storage temperature (-18 ° C) to freezing temperature (-25 ° C).

The closest to the proposed technical essence and the achieved result is a freezer containing a thermally insulated switchboard, a heat-insulated partition located therein, dividing the internal volume of the cabinet into a freezing compartment and a storage compartment, a refrigeration unit with an evaporator installed in the freezing compartment and evaporators installed in the storage compartment, the thermostat, the control unit and the three-way valve mounted on the pipeline connecting the evaporator of the compartment freezing or with evaporators. storage compartments. The thermostat of this freezer is installed in the freezing compartment 2.

The disadvantages of the known freezer include the fact that with a large thermal load on the storage compartment (which may be caused, for example, by a significant amount of stored products), despite the need for continuous operation of the freezing unit, the compressor may be turned off. This is due to the fact that the temperature in the freezing compartment may be sufficient to trigger the thermostat.

The purpose of the invention is to accelerate the freezing of newly loaded products without increasing energy costs.

The goal is achieved by the fact that

the freezer is mainly for domestic use containing a heat insulated scaffold, a heat insulated partition dividing the internal volume of the cabinet into a freezing compartment and a storage compartment, a refrigeration unit with an evaporator installed in the freezing compartment and evaporators installed in the storage compartment, a thermostat, a control unit and a three-way valve mounted on a pipe connecting the evaporator of the freezing compartment with the evaporators of the storage compartment, is provided with an additional evaporator, installed in the freezing compartment, the inlet of which is connected to the three-way valve and the outlet to the suction pipe of the compressor of the refrigeration unit, while the thermostat is located in the storage compartment and connected to the compressor, the three-way valve and the control unit.

The drawing schematically shows a freezer.

The freezer consists of a heat insulated cabinet 1 with a door 2, a refrigeration unit formed by compressor 3, a condenser 4, a capillary tube 5 and series-connected evaporators b-9. The cooling unit also contains an additional evaporator 10 connected on one side to the suction pipe 11 of compressor 3, and on the other hand to a three-way electromagnetic valve 12 included in the pipeline connecting the evaporator 6 to the evaporator 7. Inside the cabinet 1 there is a heat-insulated partition 13, dividing the internal volume of the refrigeration appliance into two compartments — freezing compartment 14 and storage compartment 15. In the storage compartment 15 there is a thermostat 16 connected to the compressor 3 and the control unit 17, which turns the compressor on and off depending on the temperature in the freezer.

Freezer works as follows. Three modes of operation are provided: storage, freezing and combination. In the storage mode, which is set by the control unit 17 by pressing the corresponding switch, the freezer operates cyclically, which is provided by a thermostat that turns on the compressor, whereby the temperature in the refrigerator is maintained at a predetermined level. In this mode, the additional evaporator 10 is closed by the valve 12, and the refrigerant moves sequentially along the evaporators 6, 7.8 and 9. To freeze fresh food in large quantities, for example, when the freezer is fully loaded, a freezing mode is provided. In this mode, set manually from the control unit 17, the freezer operates continuously without shutting down the thermostat compressor -. torus This optional evaporator 10 is disabled. For freezing a small amount of food (in the order of 10-20% of the total capacity of the cabinet), a combined mode is provided. For this, freezing compartment 14 is emptied of previously loaded products, which are transferred to storage compartment 15, and compartment 14 is loaded with fresh products, after which a combined mode is set from control unit 17. In this case, the solenoid valve 12 opens the entrance to the additional evaporator 10 and simultaneously closes the entrance to the evaporator 7, with the result that the evaporators 7, 8 and 9 are turned off. Thus, the entire cooling capacity of the unit is spent on cooling the volume of the compartment 14 with evaporators b and 10. In the process of freezing the products in the freezing compartment 14, the heat leaks in the uncooled storage compartment 15 due to heat influx occur, the temperature control valve 16 is triggered. operating mode, turns off valve 12 without shutting down compressor 3. Valve 12 closes the entrance to the evaporator 10 and opens the evaporator 7, resulting in evaporators 7, 8 and 9 of the VC Included in the work, carried out the cooling action. As the temperature in storage compartment 15 drops below that for which the thermostat is set, the latter triggers and turns on valve 12, causing the evaporators 7, 8 and 9 to shut off, the entrance to the evaporator 10 opens and further intensive cooling of the freezing section 14 occurs. evaporators 6 and 10. The proposed freezer design is more economical, which translates into energy savings, and allows you to increase the speed of freezing food.

Claims (1)

A freezer mainly for domestic purposes, containing a thermally insulated cabinet, a thermally insulated partition dividing the internal volume of the cabinet into a freezing compartment and a storage compartment, a refrigeration unit with an evaporator installed in the freezing compartment, and evaporators installed in the storage compartment, a temperature controller, a control unit and a three-way valve mounted on a pipe connecting the evaporator of the freezing compartment with the evaporators of the storage compartment, characterized in that, in order to accelerate freezing newly loaded products without increasing energy consumption, it is equipped with an additional evaporator installed in the freezing compartment, the inlet of which is connected to the three-way valve, and the outlet to the suction pipe of the compressor of the refrigeration unit, while the temperature regulator is located in the storage compartment and is connected to the compressor, three-way valve and control unit.