SU1566331A1 - Temperature control - Google Patents

Abstract

The invention relates to controlling the temperature of a liquid or gas in a closed volume and can be used in various fields of science and technology. The aim of the invention is to increase the convenience of operation by allowing the controller to be changed over to a temperature other than the one originally set, with no access to the controller. The temperature regulator contains a bimetallic plate 1 connected with bellows chambers 2, 3, which regulate the flow of coolant or coolant to the pipeline. The bimetallic plate 1 is mounted on a movable block in the form of a nut 4, which is connected via screw 5 to a bimetallic coil 6 placed in a thermostating casing 7. Into the interstitial space 8 of a thermostating casing 7 a liquid or gas with a constant temperature is supplied. To the ends of the bimetallic spiral 6 summed electric current. A nut 4 with a bimetallic plate 1, a casing 7 and a bimetallic spiral 6 is installed in a U-shaped bracket 10 that is attached to the bracket 13. 1 Il.

Description

The invention relates to techniques for controlling the temperature of a liquid or gas in confined spaces and can be used in various fields of science and technology.

The purpose of the invention is to improve ease of use due to the possibility of readjusting the regulator to a temperature different from the set one, q initially, in the absence of access to the regulator.

The drawing shows a temperature controller, General view.

The temperature controller contains a bi-15 metal plate 1, the first 2 and second 3 bellows chambers, the first of which is connected to a valve (not shown) that regulates the flow of coolant and refrigerant, a movable boat J0 in the form of nut 4, screw 5, bimetallic spiral 6 , thermostatic casing 7, into which the interstitial space 8 is supplied with liquid or gas. with a constant temperature. An electric current is connected to the ends of the spiral 6 through terminals 9. A nut 4 with a bimetallic plate 1, a thermostatic casing 7 and a bimetallic spiral 6 is installed in a U-shaped bracket 10, which, in turn, is attached to the bracket 13 with 30 adjustment screws 11 and 12, to which bellows 2 and 3 are rigidly connected. regulating the flow of coolant or refrigerant and compensating for the change in pressure 35 of the coolant or refrigerant in the pipe 14. Terminals 9 are connected to a power source 15.

The temperature controller operates as follows.

Using the adjusting screws 11 and 12, the controller is tuned ₍ to the specified ambient temperature. When deviations of the ambient temperature from the specified value appear, the bimetallic plate 1, bending, acts on the bellows chamber 2, decreasing or increasing the flow of coolant or refrigerant into the pipeline 14. The necessity in 'The bridge changeover control on sub _(• holding other ambient temperatures through the bimetallic helix 6 passes electric current, whereby the bimetallic helix 6 LOAD It changes its shape and, by rotating the screw 5, moves the nut 4, and changes the temperature of the regulator. The movement of the nut 4 occurs until the heat flows are equal — supplied to the bimetallic spiral 6 due to the release of Joule heat and it into the thermostatic casing 7 due to convection and radiation. The use of a temperature regulator will make it possible to maintain temperature in confined spaces and, if necessary, easily change it over a wide range by changing the regulator setting.

Claims (1)

Claim A temperature controller containing a bimetallic plate, one end of which is located between two bellows chambers, one of which is connected to a valve installed in the coolant or refrigerant supply pipe, and the cavity of the second bellows chamber is connected to the coolant or refrigerant supply pipe after the valve, the second end of the bimetallic plate mounted on a movable block, a U-shaped bracket and adjustment screws, characterized in that, in order to improve ease of use by providing remote For reconfiguration of the regulator, it is equipped with a bracket, a bimetallic spiral surrounded by a thermostatic casing, placed in an U-shaped bracket, which is fastened on both sides by means of the adjustment screws to the bracket to which the bellows chambers are connected, and the movable block is made in the form of a nut mounted on a screw one end of which is connected to a bimetallic spiral, and the other to a branch of a U-shaped bracket, and the ends of the bimetallic spiral are connected to a power source.