RU2302031C1 - Temperature controller - Google Patents

Abstract

FIELD: tool-making industry, in particular, direct action temperature controllers, possible use for automatic air temperature control in rooms fitted out with heating devices.

SUBSTANCE: temperature controller contains temperature sensor, mounted in a case, connected through a rod to a valve installed in heat carrier feeding pipeline and containing return spring, valve control unit, provided with two bushings, mounted coaxially and concentrically to the rod, inside bushings return spring is mounted together with supporting washer fastened on the rod. Temperature sensor case is connected to heat carrier feeding pipeline through replaceable layer. Valve holding device is mounted on the end of the rod, above the pass aperture of heat carrier pipeline wall. Locking device of the valve is made in form of bushing, supporting washer, packing layer and screw spring. Supporting washer and packing layer are rigidly held on external side of the bushing, and screw spring is held by one end in internal hollow of the bushing, while its outer end is held on the end of the rod.

EFFECT: decreased hydraulic resistance coefficient of the controller.

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Description

The invention relates to instrumentation, and more specifically to direct-acting temperature controllers, and can be used to automatically control air temperature in rooms equipped with heating devices (radiators).

Known temperature controller (USSR AS No. 1140102, IPC G05D 23/02), containing a regulatory body associated with a spring-loaded overload spring, a temperature sensor placed in a glass, connected to the base and installed in the casing with through slots, on which the setting scale and element are applied settings.

The disadvantage of the regulator is the high coefficient of hydraulic resistance, due to the design features of the regulatory body, which consists in the fact that the passage opening of the baffle of the regulatory body is perpendicular to the direction of flow, and the coolant entering the heater (radiator) changes its direction of movement twice sharply, which leads to increase the coefficient of hydraulic resistance of the regulator and, as a consequence, reduce the coefficient of leakage in heating Yelnia appliance that limits the scope of application of the regulator.

Closest to the proposed invention is a temperature controller (USSR AS No. 1153317 IPC G05D 23/02) containing a temperature sensor installed in the casing, connected via a rod to a valve installed in the coolant supply pipe and containing a return spring, a valve setting unit provided with two bushings mounted coaxially and concentrically to the rod, in the inner cavity of which a return spring and a support washer are mounted, mounted on the rod, and the casing of the temperature sensor is connected to the heat supply pipe itel through replaceable laying, and on the end of a rod the locking device of the valve mounted above a passage opening of a partition of the coolant supply pipe is fixed. This regulator is taken as a prototype.

The disadvantage of the regulator is the high coefficient of hydraulic resistance, due to its design features, namely, that the passage opening of the partition of the coolant supply pipe is perpendicular to the direction of flow, and the coolant entering the heater changes its direction of movement twice, which leads to an increase in the coefficient hydraulic resistance of the regulator. This limits the use of the regulator in single pipe heating systems.

The problem solved in the invention is to reduce the coefficient of hydraulic resistance of the regulator.

The solution to the problem is achieved by the fact that in the temperature controller containing a temperature sensor, which is located in the casing and connected via a rod to a valve installed in the coolant supply pipe and containing a return spring, a setting unit with two bushings mounted coaxially and concentrically to the rod in the internal cavity of which a return spring and a supporting washer mounted on the rod are placed, and the temperature sensor casing is connected to the coolant supply pipe through interchangeable gaskets, and the valve locking device the pan is pivotally mounted on the rod, and the partition with the passageway of the coolant supply pipe is made obliquely to the axis of the coolant supply pipe, while the valve shut-off device is made in the form of a sleeve, a support washer, a gasket and a helical spring, and the support washer and gasket are rigidly fixed to the outer side of the sleeve, and the coil spring is fixed at one end in the inner cavity of the sleeve, and its outer end is fixed at the end of the rod.

Figure 1 shows the design of the temperature controller; figure 2 shows the design of the locking device of the valve in the "open" position; figure 3 - in the "closed" position.

The temperature controller consists of a temperature sensor 2 installed in the casing 1 and connected through a heat-insulating sleeve 18 and a stem 4 with a locking device 17 of the valve 3 mounted above the passage opening 11 of the partition 8, made obliquely to the axis of the coolant supply pipe 14. The valve 3 contains a setting unit with two bushings 5 and 6, mounted coaxially and concentrically to the rod, in the inner cavity of which a return spring 7 and a supporting washer 15 are mounted on the rod 4. The casing of the temperature sensor 1 is mounted on the base 16, which is fastened with a union nut 13 through interchangeable gaskets 12 to the coolant supply pipe 14. The tightness of the adjustment unit is ensured by the packing glands 9 and 10.

Figure 2 presents the locking device of the valve in the "open" position, and figure 3 - in the closed position, containing a sleeve 19, connecting the support washer 20 and the gasket 21, and in the inner cavity of the sleeve is fixed a coil spring 22, the upper the end of which is fixed to the end of the stem 4. The gasket 21 is made of fluoroplastic, and the sleeve after assembling it with the gasket and washer is expanded. The screw spring is fixed in the sleeve and at the end of the stem by press fit.

The temperature controller operates as follows.

With increasing air temperature in a heated room, the temperature-sensitive element of the temperature sensor 2 acts on the stem 4, which moves the locking device 17 of the valve 3 above the passage opening 11 of the partition 8. Due to the spring 22, the locking device rotates and the diametric part of the gasket 21 abuts against an inclined partition 8 and, tilting relative to the axis of the rod, overlaps the passage opening 11. When the temperature of the air in a heated room decreases, the heat-sensitive element temperature sensor 2 acts on the rod 4 in the opposite direction. The maximum angle of inclination of the locking device of the valve corresponds to the complete closure of the bore in the inclined partition.

Due to the screw spring of the locking device of the valve, one end of which is rigidly fixed in the inner cavity of the sleeve 19, and the other is rigidly fixed on the end of the stem 4, a hinged connection of the stem and the locking device of the valve is ensured, which together with a partition made obliquely to the axis of the coolant supply pipe, allows for a smooth change in the amount of coolant during its regulation, which ultimately reduces the coefficient of hydraulic resistance of the regulator to the coolant flow from the pipeline to the heating system.

The use of a temperature controller with a low coefficient of hydraulic resistance allows:

increase the efficiency of heat transfer regulation of the heating device (radiator);

expand the scope of the regulator.

Claims (1)

A temperature controller containing a temperature sensor installed in the casing, connected through a rod to a valve installed in the coolant supply pipe and containing a return spring, a valve setting unit equipped with two bushings mounted coaxially and concentrically to the rod, in which the return spring and the support are installed a washer mounted on the rod, and the casing of the temperature sensor is connected to the coolant supply pipe through interchangeable gaskets, and a locking device is fixed at the end of the rod your valve, installed above the bore of the partition of the coolant supply pipe, characterized in that the locking device of the valve is made in the form of a sleeve, a support washer, a gasket and a coil spring, and the support washer and gasket is rigidly fixed to the outside of the sleeve, and the coil spring is fixed one end in the inner cavity of the sleeve, and its outer end is fixed to the end of the rod.

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