RU2163389C2 - Heat control valve device combined with solenoid valve - Google Patents

Abstract

FIELD: measuring technique, possibly measuring and regulating temperature of overheating of cooling agent in evaporators of refrigeration machines and also for fluid-tight closing of hydraulic line of refrigeration machines at turning off compressor. SUBSTANCE: solenoid is placed inside inlet chamber of heat controlling valve, it is connected with electric circuit for controlling compressor motor and core supporting valve and it provides fluid-tight closing of line of refrigeration machine at deenergizing motor of compressor. EFFECT: enhanced reliability, enlarged using range of valve. 1 dwg

Description

 The invention relates to measuring equipment and can be used to measure and control the temperature of the superheat of the refrigerant in evaporators of refrigeration machines, as well as for hermetically closing the liquid line of refrigeration machines during compressor shutdown.

 Known thermostatic valve according to European patent N 0156962, 10.11.84, which contains a housing with input and output cameras; a solenoid whose core is connected with a valve located in the inlet chamber by means of a hollow pusher; mechanism for adjusting the initial force of the adjustment spring. The solenoid is controlled by an electronic device that measures and converts the superheat temperature of the refrigerant into an electrical signal.

 Closest to the proposed technical solution is a thermostatic valve according to US patent N 4646532, 09/30/85, which contains a housing with input and output cameras; manometric thermosystem with a remote sensor filled with a thermosensitive substance; a solenoid installed in the outlet chamber of the valve and controlled by an electronic device that measures the temperature of the superheat of the refrigerant in the evaporator of the refrigeration machine. A valve is also installed in the outlet chamber of the valve, on which, on the one hand, the force exerted by the pressure of the thermosensitive substance in the manometric thermosystem acts on the opening, and on the other hand, the spring and the core of the solenoid create an additional force through the spring that acts to close the valve.

 The disadvantage of this valve is its low reliability and limited scope due to the impossibility of using it simultaneously with the measurement and regulation of the superheat temperature for tight shutoff of the liquid line of the chiller when the compressor stops, which leads to a sharp increase in the starting load on the compressor engine when it is turned on.

 The technical task of the invention is to increase reliability and expand the scope.

 This goal is achieved by the fact that the solenoid is installed in the inlet chamber of the valve (on the liquid line), is connected to the electric circuit of the compressor motor control and the core with the valve attached to it seals the liquid line of the chiller when the compressor engine is turned off.

 The drawing shows a General view of the proposed valve thermostatic, combined with a solenoid valve.

 The thermostatic valve includes a housing 1 having an inlet chamber 2 and an outlet chamber 3; manometric thermosystem 4 with a remote temperature-sensitive sensor 5 and a membrane 6 filled with a thermosensitive substance; a valve 7 regulating the flow rate of the refrigerant depending on the superheat temperature; stock 8; setting spring 9; a mechanism 10 that controls the initial force of the tuning spring; a solenoid 11 located in the inlet chamber 2 of the valve body and consisting of an electromagnetic coil 12, a return spring 13, a core 14, a valve 15 mounted on the core 14 and tightly blocking the liquid line when the compressor stops, and also a filter 16.

 The temperature measurement of the superheat of the refrigerant in the evaporator of the refrigeration machine is controlled by a temperature-sensitive sensor 5 installed at the outlet of the evaporator of the refrigeration machine, and causes a change in the pressure of the heat-sensitive substance in the manometric thermosystem 4.

 The membrane 6 measures the pressure difference inside the manometric thermosystem 4 and in the evaporator of the refrigeration machine and through the rod 8 acts on the valve 7, which, during the stroke, changes the flow rate of the refrigerant depending on the temperature of the superheat at the outlet of the evaporator of the refrigeration machine.

 The flow rate increases with an increase in the superheat temperature of the refrigerant and, accordingly, with an increase in pressure inside the manometric thermosystem and vice versa.

 During operation of the chiller, the electromagnetic coil 12 of the solenoid 11 is turned on, which causes a magnetic field to occur, which creates a traction force that holds the core 14 with the valve 15 fixed on it inside the electromagnetic coil 12, leaving the liquid line open.

 When the compressor engine is stopped due to technological features or an emergency, the electromagnetic coil 12 is turned off. The core 14 of the solenoid 11 with the valve 15 mounted on it under the action of the return spring 13 and its own weight hermetically closes the liquid line of the chiller, which prevents the refrigerant from entering the evaporator of the chiller and significantly reduces the starting load on the compressor engine when it is turned on.

 The use of the proposed thermostatic valve, combined with a solenoid valve, can improve the reliability of the refrigeration machine and expand the scope of thermostatic valves.

Claims (1)

 Thermostatic valve, combined with a solenoid valve, comprising a housing with an input and output chambers, a manometric thermosystem with a remote temperature-sensitive sensor, designed to control the flow of the refrigerant depending on the superheat temperature, the valve with a stem, a setting spring and a mechanism that regulates the initial force of this spring, and also a solenoid, consisting of an electromagnetic coil, a core with a valve fixed on it and a return spring, characterized in that the solenoid tanovlen in the inlet valve chamber is connected to the compressor motor control circuit and its core with the valve mounted thereon for sealingly covering the liquid line when disconnected chiller compressor motor.