UA135471U - CONNECTING ASSEMBLY FOR SEQUENTIAL CONNECTION OF ADDITIONAL HEAT EXCHANGE SYSTEMS IN REFRIGERATION SYSTEMS - Google Patents

Abstract

Detachable 1 assembly of the additional heat exchange system contains according to the General scheme: compressor 2, condenser 3, evaporator 4, while in the section of the refrigerant line 5, in the space between the compressor 2 and the condenser 3 is a detachable assembly 1 containing connectors nozzles 6 and 7, three-way valve 9 and refrigerant jumper 10.

Description

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A useful model for heat exchange equipment and can be used to create conditions for the optimal and trouble-free operation of the refrigerant system, due to the serial connection to it through the detachable node of the additional heat exchange system, in the event that the condenser, due to wear or contamination, stops completely perform its function.

Such a refrigerant system as a window conditioner (10) of the type having a base layer (24) which is divided into an inner (12) and an outer section (14) is already known. The inner section (12) has an evaporator coil (40), an evaporator fan (42) and a coil (44) to direct the internal air flow. The outer section (14) has a compressor, a condenser coil (46), a condenser fan (48), a condenser fan shroud, and an electric motor (54).

The electric motor (54) is configured to drive both the evaporator and condenser fans. The first partition section is attached to the base (24) and has a height less than the total height of the partition. The first section of the condenser fan shroud is also attached to the base (24) and has a height less than the overall height of the condenser fan shroud.

The molded component having an upper wall (100) is designed to cover at least part of both the inner section (12) and the outer section (14). The upper wall (100) has, integrally formed with it, a partition section extending downwards. The second section of the partition is made with the possibility of interaction with the first section of the wall to determine the section.

The top wall (100) further has a second condenser fan shroud section (108) extending therewith that is configured to engage with the first condenser fan shroud section (50) to define a condenser fan shroud.

Means are provided for attaching the molded component to both the first partition section and the first section of the condenser fan shroud. (Patent Ats9246998 (A), publ. 2000-04-03) The closest to the proposed one is the already known air conditioner. The invention provides an air conditioning system that includes a refrigerant system, a first heat exchange system and a second heat exchange system. The refrigerant system includes a compressor, a first dual-flow heat exchanger, a second dual-flow heat exchanger, and a third heat exchanger that are connected through pipes. The first heat exchange system includes a first electric pump, a first heat exchanger, and a first dual-flow heat exchanger, which

They are connected through pipes. The second heat exchange system includes a second electric pump, a second heat exchanger, and a second dual-flow heat exchanger that are connected through pipes. When heating occurs, the refrigerant of the refrigerant system and the coolant of the first heat exchange system carry out heat exchange in the first dual-flow heat exchanger. When cooling occurs, the refrigerant of the refrigerant system and the coolant of the second heat exchange system exchange heat in the second dual-flow heat exchanger. With the air conditioning system, the refrigerant system is located far from the cabin, and the air conditioning system has a simple design and high efficiency. (Patent Sp105020816 (A), publ. 2015-11-04).

The technical task of a useful model is to create conditions for the optimal and trouble-free operation of the refrigerant system, due to its serial connection to it through the connector node of the additional heat exchange system, in the event that the condenser, due to wear or contamination, ceases to fully perform its function .

The task is solved thanks to a new design of the refrigerant system, which includes: a compressor, a condenser, an evaporator, it is distinguished by the fact that in the area of the refrigerant line, in the gap between the compressor and the condenser, there is a disconnecting unit containing connecting pipes for serial connection in the refrigerant system, additional heat exchange system.

The connector assembly for serially connecting the additional heat exchange system to the refrigerant system according to item 1 differs in that it additionally contains a three-way valve that connects or disconnects the additional heat exchange system from the refrigerant system, and in the area between the a refrigerant bridge is located in the connecting pipes.

Description of drawings:

Fig. 1 - diagram of the refrigerant system with a disconnecting node, for sequential connection of an additional heat exchange system in the refrigerant system according to clause 1 of the formula.

Fig. 2 - diagram of a disconnecting unit for sequential connection of an additional heat exchange system to the refrigerant system according to item 2 of the formula. where: 1 - connector node; 2 - compressor; C - capacitor; 4 - evaporator; 5 - refrigerant line, b and 7 - connecting pipes; 8 - additional heat exchange system; 9 - three-way valve, 10 - refrigerant jumper.

The technical task of a useful system is to create conditions for the optimal and trouble-free operation of the refrigerant system, due to the serial connection to it through the connector node 1 of the additional heat exchange system 8, in the event that the condenser 3, due to wear or contamination, ceases to be fully functional perform its function.

The task is solved thanks to the new design of the refrigerant system, which includes: compressor 2, condenser C, evaporator 4, according to the useful model, in the section of the refrigerant line 5, in the gap between compressor 2 and condenser C, there is a disconnecting unit 1, which contains connecting nozzles 6 and 7 for sequential connection to the refrigerant system, additional heat exchange system 8. The connector assembly for sequential connection of the additional heat exchange system 8 to the refrigerant system according to item 1 differs in that it additionally contains a three-way valve 9, which connects or disconnects the additional heat exchange system 8 from the refrigerant system, and the refrigerant bridge 10 is located in the area between the connecting pipes 6 and 7.

The plug-in unit for serially connecting an additional heat exchange system to the refrigerant system works as follows:

From the compressor 2, the heated refrigerant through the refrigerant line 5 through the connecting pipe b of the connector 1 enters the additional heat exchange system 8, which performs the duplicating function of the condenser 3, where it gives off part of its heat. After that, the refrigerant through the connecting pipe 7 again returns to the general circuit of the refrigerant system, where it passes through: condenser 3, evaporator 4 and returns to compressor 2. At the same time, connecting or disconnecting the additional heat exchange system (8) from the general refrigerant system scheme is carried out using a three-way valve (9).

Claims (2)

USEFUL MODEL FORMULA 1. A connector for serially connecting the additional heat exchange system (8) to the refrigerant system, which contains: a compressor (2), a condenser (3), an evaporator (4), which differs in that in the area of the refrigerant line (5 ), in the space between the compressor (2) and the condenser (3) there is a disconnecting unit (1) containing connecting pipes (6) and (7) for sequential connection to the refrigerant system, additional heat exchange system (8 ). 2. A connector assembly for sequentially connecting an additional heat exchange system (8) to the refrigerant system according to claim 1, which is characterized by the fact that it additionally contains a three-way valve (9) that connects or disconnects the additional heat exchange system ( 8) from the refrigerant system, and in the area between the connecting pipes (6) and (7) there is a refrigerant bridge (10).