SU832537A1 - Temperature regulator - Google Patents

Description

The invention relates to automation, in particular, direct action regulators with a liquid thermal system and an adjustable proportionality zone, designed to control the temperature of various media. A temperature controller is known that contains a regulator and a thermal system with a bellows, the bottom of which is connected to rod 1. In the controller, there is no possibility to adjust the proportional band — the amount of temperature change required for permutation of the regulator beyond the full stroke. Closest to the proposed VL is the temperature controller, comprising a housing with inlet and outlet fittings, a liquid thermosystem with a bellows, the bottom of which is connected to the stem of the regulator. The regulator also contains a separating tumbler with an eccentric axis of the thermal system located around its axis, acting through the L-shaped lever and the stem on the regulator valve, and a device protecting the system from damage during thermal overload 2. The disadvantages of the known regulator are an increase in linearity static characteristics and, as a result, a decrease in the accuracy of temperature control; an increase in friction during the transmission of force from the thermostem rod to the valve and, as a consequence, an increased insensitivity of the regulator. The purpose of the invention is to improve the accuracy and reduce the insensitivity of the controller. The goal is achieved by the fact that the regulator contains a chamber filled with a thermosensitive fluid, separated from the environment by a second bellows, and connected to the thermal system through an opening in the movable base of the third bellows, connected with a sleeve inside which the stop rod is located with a setting node. This embodiment of the temperature regulator provides for the regulation of the proportional band by changing the mass of the heat-sensitive

liquid in the thermal system and the direct transfer of movement from the stem of the thermal circuit to the regulator, which ensures the constant value of the stroke of the regulator per unit of displacement of the thermosystem stem during operation within the selected proportionality zone and reduction of friction losses in the regulator, accuracy of regulation and reduction of insensitivity of the regulator.

; The drawing shows the controller

 temperature

The regulator includes a housing 1 with input 2 and outlet 1 and 3 and 4 fittings, regulator 5, return spring 6, rod 7, connecting the regulator with the bottom of the first bellows 8, thermal system 9, chamber 10 filled with a heat-sensitive liquid bone and a channel 11 connected to the thermal system, a sleeve 12, inside of which a locking brush 13 is located, provided with a seal 14. In the upper part of the chamber 10 there is a setting unit consisting of a barrel 15 and a cylinder 16, the threaded connections of which are fixed by locking screws 17 and 18 , Second bellows 19 from separates the cavity of the chamber from the surrounding medium and has a movable bottom 20, equipped with a seal 21, the thermal system and the chamber are filled with a heat-sensitive liquid and separated from each other by a third, bellows 22, the position of which is coherently determined by the pointer 23.

The regulator works as follows.

The calculated proportional band is achieved by filling the cavity

thermal systems calculated mass of heat-sensitive liquid. For this, the following operations are carried out: with the locking rod 13, the channel 11 is opened; screw the cylinder 16 into the glass 15 to the minimum axial clearance between the cylinder 16 and the sleeve 12; screw 18 locks cylinder 16; rotating the cup 15, impart translational motion to the sleeve 12, moving the third bellows 22 to the design position (determined by pointer 23); stopper t glass 15, screw in screw 17 until it stops; close the channel 11 shut-off rod -13,

In a tuned regulator installed in the control system, as the temperature of the controlled medium increases, the liquid in the thermal system expands, stretching the third bellows 22 (the effective area of which is larger than that of the first bellows 8) until the sleeve 12 stops against the cylinder 16, after which the first bellows 8, which corresponds to the moving point of the regulator (the lower limit of the proportional band).

The use of the proposed controller in control systems makes it possible to increase the temperature control accuracy due to a decrease in the linearity of the static characteristic of the controller, to reduce the insensitivity of the controller due to the reduction in losses from quenching, thereby improving the conditions of operation of the heat and power plant due to its optimal cooling.

Claims (2)

1.Alexeev B.C. et al. Temperature controllers for diesel engines. Survey information TSNIITEI instrument-making, 1974, TS-6, vol. 4, s. 19, fig. 5e. 2. USSR author's certificate number 237469, cl. G 05 D 23/12, 1967. (prototype). Fridge