SU394762A1 - TEMPERATURE REGULATOR - Google Patents

Description

one

The invention relates to devices and elements of automation and co-measuring instruments, in particular, to the regulation of the temperature of the circulating gases and liquids as heat carriers.

Temperature controllers are known, consisting of a thermometric system and spools. The thermometric system is a two-bellows sensitive element with a vapor-liquid filling located inside a three-way valve. The bellows is washed with coolant. When the temperature of the coolant changes, the temperature of the fluid in the bellows changes, its volume changes, which causes the free end of the bellows to move. The bellows controls the movement of the spools or valves. The disadvantages of the known regulator are: low sensitivity, low accuracy, long latency, the regulator functions normally only at a certain position of the bellows; the regulator cannot function normally after exposure to a wide range of ambient temperatures; the design of the controller is not universal.

The aim of the invention is to increase sensitivity, increase accuracy and decrease controller lag time, as well as increase reliability and extend control range.

This goal is achieved by the fact that the valve is controlled not by the bellows in which the working medium is flooded, but by the sensitive element embedded inside the bellows with a large displacement stroke, the value of which is determined by the ratio of the increment of the working medium in the bellows to the effective area of the sensitive element in the temperature control range. , and the movement of the sensitive element occurs only in the temperature control range, and the bellows itself acts as a volume compensator for the medium filling the bellows when the ambient temperature outside the control range. As a filling medium, a medium is taken, the melting point of which is equal to or close to

to the lower limit of regulation, and the vaporization temperature is higher than the possible ambient temperature, in which the characteristic is linear within the limits of regulation, and beyond the limits of regulation it is linear and sharply decreases.

The drawing shows a diagram of the controller. The temperature regulator consists of a housing У with inlet 2 and outlet 3 II 4 fittings, in which the working element is installed,

CONSTITUTION of sylphia 5, sleeve 6, cover 7 with a filling hole, closed ball 8 with a nut 9. Cover 7 has a cylindrical direction, which is centered for the bellows 5 in the corius). The lid 7 is biased by a spring 10, the force of which is regulated by a nut 11 installed in 12. The lid 12 is fixed by the inlet fitting 2. Inside the sleeve 6 a sensing element is installed in the form of a cylindrical mouth 13 connected by a 14 with a regulating valve body 15. The spool 15 has Two windows for directing circulation, its tenon carrier through the outlet nozzles 3 and 4 to the heater or cooler. The movement of the spool / 5 is transmitted 15 to the notentsiometer 16 through the tug 17, the cylinder 18, the tug 19 and the rail 20. The sleeve 6 has sealing devices 21 and 22. The cylindrical piston 13 of the sensing element is spring-loaded with a return spring 23.20 The regulator works in the following way. The working element - bellows is filled with working medium at normal temperature in a discharged volume, if the lower limit of regulation is less than normal temperature, and sealed at the temperature of the lower limit of regulation, while the cover 7 abuts against the sleeve 6, the piston 13 is shifted to unor cover 7. At normal temperature, the volume of the working medium is increased to 30 chits, and the piston 13 will move and press into the sleeve 6. Cover 7 will move away from sleeve 6 and compress the spring 10. The temperature regulator is connected to the pipelines of the system thermostatically and so that the coolant 35. entered the nozzle 2 and, having washed the bellows 5, was directed to the nozzles 3 and 4. The nozzle 5 was connected by pipeline with a cooler, the nozzle 4 was 5 10 with a pipeline with a heater. The spool IS controls the overlap of the unions 3 and 4. At the temperature of the heating medium, e.g. 10 ° C, the spool 15 equally blocks the entrances to the fittings 3 and 4, and the coolant is equally distributed between the cooler and the heater. When the temperature of the heat carrier drops below 10 ° C, the spool 15 opens the nozzle 4 more and closes the nozzle 3. When the heat medium heats up to a temperature of more than 12 ° C, the nozzle 5 will be fully open, the nozzle 4 will be completely closed. Potentiometer 16 and contact devices are used to monitor the spool stroke. For temperature compensation, an increase in the volume of the working medium in the bellows beyond the upper limit of regulation (more than 12 ° C) is not exerted by the bellows 5 spring 10. Temperature compensation of the working medium below the regulation limit (below 8 ° C) is not performed because the bellows 5 rests on the sensitive sleeve 6 an item. The subject of the invention is a temperature controller, a housing with an inlet and outlet fittings and a bellows filled with a working fluid located in it, and a regulator, characterized in that, in order to increase the accuracy and reliability of the controller, a sensing element is installed inside the bellows. view of a sleeve with a spring-loaded piston located in it, connected through a tube to a regulating organ, one end of the bellows being connected to the sleeve, and the other end with a lid, spring-loaded on one side and abutted, on the free end of the sleeve on the other.

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