SU1300436A1 - Temperature control valve - Google Patents

Abstract

The invention relates to devices for temperature control, based on the effect of temperature expansion of materials, and can be used to control and maintain the desired temperature inside residential and industrial premises during the heating period. The purpose of the invention is to increase the sensitivity of the pressure regulating valve. The thermostatically controlled valve contains a cylindrical body 1, a cup 5 of elastic material, a safety mechanism filled with a temperature-sensitive medium 17, a directional cylinder, a cylinder 4, a piston 6 connected to the locking member 20. Execution in glass 5 of the rod 8 made in the bottom part of it, and fixing the free end of the rod still allows you to limit the amount of heat-sensitive medium required to move the locking member 20 when the temperature of the adjustable object rises, and the diameters of the rod and the stack and associated a certain ratio. 1 il. i (L iZ 9; o 8 oo 4 OO O5

Description

1300436

12

The invention relates to devices for temperature control, based on the effect of temperature expansion of materials, and can be used to control and maintain a given temperature inside residential and industrial premises during the heating period, as well as in thermal constants caused by technological requirements.

The drawing shows a thermostatic valve.

The thermostatic valve contains a cylindrical body 1, which is connected to the cavity 2 of the safety mechanism 3. Inside the guide cylinder 4 there is a glass 5 made of elastic material and

The piston 6 with the seal 1. At the same time, in 15 24, separating the channels of the cup 5, a rod 8 is made fixed from one end by a fixed pin 9, pressed inside the rod 8, and a nut 10. The glass 5 is made with corrugations. Movable support rings 11 are installed between the inner surface of the cylinder 4 and the corrugations, which reduce the frictional frictional force between the corrugated wall of the glass and the inner surface of the guide cylinder 4. SterPer when the temperature decreases, the temperature-sensitive medium-liquid 17 in the cylindrical housing 1 - The locking member 20 is compressed by the action of the spring 22 and releases the seat 24 5 and connects the channels 25 and 26. The heat carrier is supplied and the room is heated to the required temperature.

When the temperature in the cylindrical housing 1, the thermo-sensitive liquid 17 expands and expands through the elastic seal 7 to the piston 6. The piston 6, overcoming the force of the spring 22, through the insulator 28 and the pusher 21 transfers movement to the locking member 20 and presses him to the saddle

25 and 26. The supply of coolant stops.

When expanding the heat-sensitive liquid 17, the beaker 5 lengthens. Together with it, the rod 8 is lengthened fixedly from the end. As a result of the elongation of the rod 8, no additional volume of liquid obtained from the temperature effect is required to compensate for the released volume when the rod is moved without fixing it. Decrease20

insignificantly, and they can be neglected.

The dimensions of the inner diameter of the DCT cup and the diameter of its dcrp rod are found by the following ratios:

dcrp DOT - 2;

DCT and At

V L //

+ 1,

The gum 8 is held inside the cylindrical 25 of the diameter of the rod 8 with the elongated body 1 by means of a pressed sleeve 12. A guide 13 is provided for fastening the guide cylinder 4. At the same time, the position of the cylinder 4 relative to the guide 13 is changed by means of a thread 14 and is rectified by arrow 15.

The piston sealing mechanism of the safety mechanism is made in the form of a glass 16 of an elastic material. To fill the housing 1 with a temperature-sensitive medium 17 in its upper part there is a mouth 35 where LN is 18.

In the housing, coaxially to the piston 6, there is located a shut-off member 20 connected to it, having a pusher 21 with a spring 22, a seal 23 and a saddle 24. For supplying heat carrier to heating devices (not shown) in the housing 19 are interconnected with each other. 20 channels 25 and 26. Between the housing 19 and the guide 13, as well as between the pusher 21 and the piston 6, there are heat insulators 27 and 28.

but -

V -

At-

the increment of the length of the glass under the influence of a change in the volume of the temperature-sensitive medium; volumetric expansion coefficient of a heat-sensitive environment; the volume of heat-sensitive medium filling the cylindrical body;

temperature difference between the temperature-sensitive medium, which provides the value of AH.

Thermostatic valve operates as follows.

Valve operation is carried out depending on the ambient temperature, so before starting work it is necessary to adjust it to the set temperature. To do this, by changing the position of the cylinder 4 relative to the guide 13 and observing the indication of the arrow 15, the outside temperature is established at which the locking member 20 is reliably pressed against the seat 24 and blocks the heat carrier access to the heating devices.

1300436

5 24, separate channels

When the temperature in the room decreases, the temperature-sensitive medium-liquid 17 in the cylindrical housing 1 is compressed and the shut-off member 20 under the action of the spring 22 releases the saddle 24 5 and connects the channels 25 and 26. The heat carrier is supplied and the room is heated to the required temperature.

When the temperature in the cylindrical housing 1, the thermo-sensitive liquid 17 expands and expands through the elastic seal 7 to the piston 6. The piston 6, having overcome the force of the spring 22, through the insulator 28 and the pusher 21 transfers movement to the locking member 20 and presses him to the saddle

25 and 26. The supply of coolant stops.

When expanding the heat-sensitive liquid 17, the beaker 5 lengthens. Together with it, the rod 8 is lengthened fixedly from the end. As a result of the elongation of the rod 8, no additional volume of liquid obtained from the temperature effect is required to compensate for the released volume when the rod is moved without fixing it. Reduce 0

5 the diameter of the rod 8 when it is stretched

insignificantly, and they can be neglected.

The dimensions of the inner diameter of the DCT cup and the diameter of its dcrp rod are found by the following ratios:

diameter of the rod 8 when it is stretched

dcrp DOT - 2;

ra rod 8

and at

V L //

+ 1,

the increment of the length of the glass under the influence of a change in the volume of the temperature-sensitive medium; volumetric expansion coefficient of a heat-sensitive environment; the volume of heat-sensitive medium filling the cylindrical body;

temperature difference between the temperature-sensitive environment, providing the value of AN.

Claims (1)

Invention Formula A thermostatic valve comprising a cylindrical body with a cup of elastic material fixed thereto, forming with the cylindrical body a cavity filled with a temperature-sensitive medium and installed in a guide cylinder in which a piston connected to the valve bottom is placed in contact with the bottom of the elastic cup, and safety mechanism mounted on the housing, characterized in that, in order to increase the sensitivity the valve, in which the bottom part of the glass is made with a rod directed inside the cavity and fixed stationary, with the diameter of the dctp rod and the internal diameter of the glass derp connected by the following relationship dcTp DCT 2, DcT and At V DTT + 1; where qy is the increment of the length of the glass under the influence of a change in the volume of the temperature-sensitive medium; a is the coefficient of volumetric expansion of a temperature-sensitive medium; V is the volume of heat sensitive medium filling the cylindrical body; L / is the temperature difference of the temperature-sensitive medium, providing the value of LL.