RU196802U1 - Thermoelectric Control Valve - Google Patents

Abstract

The device relates to refrigeration, in particular to a device for automatically controlling the flow of refrigerant to the evaporator of the refrigeration machine. The technical result is an increase in the range of regulation of the flow of refrigerant. The device comprises a housing with inlet and outlet chambers, a setting spring and a mechanism that controls the initial force of this spring, and also a solenoid, consisting of an electromagnetic coil, a core with a valve attached to it and a return spring, a solenoid is installed on the valve body, connected to an electric ctric compressor motor control circuit, and its core with a valve attached to it, is designed to tightly shut off the liquid line of the chiller when the compressor engine is turned off, further comprises a diaphragm consisting of two groups of figured elements with protrusions mounted inside the output chamber of the housing, an annular shaft mounted on the output chamber of the housing, connected to a solenoid and a diaphragm, moving along a guide that is rigidly fixed on the outer surface of the output chamber EASURES.

Description

The invention relates to refrigeration, in particular to a device for automatically controlling the flow of refrigerant to the evaporator of a refrigeration machine.

A device is known comprising a housing with input and output chambers, a manometric system with a remote thermoball, a primary and secondary valve for regulating the flow of the refrigerant depending on the superheat temperature of the refrigerant vapor in the evaporator, a rod, a setting spring, and a mechanism that controls the initial spring force, the valve has a portion of the side surface in direct contact with the mating side surface of the through hole of the main valve, with giving the overlap zone of the refrigerant flow, providing an interval between temperatures corresponding to the closure of the main valve and the opening of the additional valve (and vice versa), and the magnitude of the overlap area determined by the length of the contact portion side surface of the additional valve from the main valve. (RF patent No. 2316740, 2006).

However, this device does not allow to regulate the flow of refrigerant with small changes in the superheat of the refrigerant vapor.

The closest in technical essence is a device containing a housing with an input and output chambers, a spring setting and a mechanism that regulates the initial force of this spring, as well as a solenoid consisting of an electromagnetic coil, a core with a valve fixed to it and a return spring, a solenoid installed in the inlet chamber of the valve is connected to the electric circuit for controlling the compressor engine, and its core with a valve fixed to it is designed for tight shutoff of the refrigeration liquid line The machines when disconnecting the compressor motor. (RF patent No. 2163389, 1999)

However, this device has a small control range and cannot provide the necessary refrigerant intake with a small change in the superheat of the refrigerant vapor after the evaporator.

The technical task is to create a device that allows for smooth control of the flow of refrigerant and its supply to the evaporator.

The technical result is an increase in the range of regulation of the flow of refrigerant.

It is achieved by the fact that the known device comprising a housing with input and output chambers, a tuning spring and a mechanism regulating the initial force of this spring, as well as a solenoid consisting of an electromagnetic coil, a core with a valve fixed to it and a return spring, a solenoid is mounted on the valve body , is connected to the compressor motor’s electrical control circuit, and its core with a valve fixed to it is designed to tightly shut off the liquid line of the chiller when the motor is turned off of Tell compressor, further comprises a diaphragm consisting of two groups of shaped elements with protrusions mounted within the output chamber body, the annular shaft mounted on the outlet housing chamber connected to the solenoid and the diaphragm, moving along the guide, which is rigidly fixed to the outer surface of the discharge chamber.

The use of a diaphragm allows you to increase the range of regulation of the supply of refrigerant to the evaporator

The drawing schematically shows the proposed device.

FIG. 1 - general view;

FIG. 2 - elements of the diaphragm and ring drive;

The device comprises a housing 1, with input and output chambers 2-3, a diaphragm consisting of two groups of figured elements, 4, an annular shaft 5 mounted on the output chamber 3 of the housing 1 and connected to the diaphragm 4 and the core of the solenoid 6, moving along the guide 7 which is rigidly fixed on the outer surface of the output chamber 3, a solenoid 8 mounted on the housing 1, with a core 6, a core 6 is equipped with a spring 9, an electric transformer 10 mounted on the housing 1, connected to a solenoid 8 and a thermistor 11 installed at the output and the evaporator of the refrigeration machine and electrically connected to the solenoid 8 and the transformer 10, the curly elements of the diaphragm 4 have protrusions 12 for synchronizing operation.

The device operates as follows.

With increasing temperature of the refrigerant vapor at the outlet of the evaporator, the thermistor 11 changes its conductivity by supplying the necessary voltage to the coil of the solenoid 8, the core 6 is drawn into the coil of the solenoid 8, overcoming the resistance of the spring 9 causing the annular shaft 5 to move clockwise 7 along the guide 7, curly elements the diaphragms 4 connected to the annular shaft 5 move in the same direction with it, opening the output chamber 3, the elements of the diaphragm 4 are coordinated with each other due to the protrusions 12 located on the first uppe of curly elements moving along the grooves of the second group of curly elements of the diaphragm 4, the refrigerant from the inlet chamber 2 through the open diaphragm 4 enters the outlet chamber 3 and then enters the evaporator of the refrigeration machine, when the overheating decreases, the thermistor 11 increases its resistance, the voltage on the solenoid 8 decreases , the spring 9 overcomes the resistance of the coil of the solenoid 8 and, acting on the annular shaft 5, closes the curly elements of the diaphragm 4, a transformer is installed on the housing to power the solenoid 8 and the operation of the thermistor 11 ator 10, when deenergized solenoid 8, the spring 9 acts on the core 6, and the ring on the shaft 5 and closes the aperture 4, the discharge chamber 3 through channel locked, preventing the ingress of liquid refrigerant to the compressor.

The proposed device allows you to increase the range of regulation of the flow of refrigerant.

Claims (1)

A thermoelectric control valve containing a housing with an input and output chambers, a tuning spring and a mechanism that controls the initial force of this spring, as well as a solenoid consisting of an electromagnetic coil, a core with a valve attached to it and a return spring, the solenoid is mounted on the valve body, connected to the compressor motor’s electrical control circuit, and its core with a valve attached to it is designed to tightly shut off the liquid line of the chiller when the engine is turned off For the compressor, characterized in that it further comprises a diaphragm consisting of two groups of curly elements with protrusions mounted inside the output chamber of the housing, an annular shaft mounted on the output chamber of the housing, connected to the solenoid and the diaphragm, moving along a guide that is rigidly fixed to the outer surface of the output chamber.

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