RU61834U1 - THERMAL VALVE - Google Patents

Abstract

The utility model relates to domestic and industrial gas supply systems and can be used to stop gas supply in emergency situations, for example, in case of fire. The thermal shut-off valve contains a housing in the cavity of which there is a support with an axial hole, in which a rod spring-loaded relative to the support is installed with the possibility of movement, with a plate fixed on one of its ends, which can interact with the surface of the housing to shut off the gas supply, as well as a fusible insert . The valve is equipped with a sleeve with a radial hole and a locking element, and grooves are made on the rod and in the hole of the support, the sleeve and fuse are installed on the rod and placed in the hole of the support, the fuse being fixed to the stem and the support, and the sleeve is installed in the hole of the support with the possibility axial movement, the stem has the possibility of axial movement relative to the sleeve, in the open position of the valve the locking element is located in the radial hole of the sleeve and the groove of the rod, and in its closed position in the radial opening ii sleeve and the groove bearing, while Tarel and an elastic member mounted on the rod on opposite sides of the support. 1 p. Fs, 1 ill.

Description

The utility model relates to domestic and industrial gas supply systems and can be used to stop gas supply in emergency situations, for example, in case of fire.

Known thermal shutoff valve containing a housing in which an asterisk is fixed by means of a locking ring, the outer rim of the sprocket is connected to the hub by spokes, a longitudinal through channel is made in one of the spokes, a movable pin (pusher) and a pressure screw are located in the channel. Between the pin and the screw there is a fusible insert.

In the hub there is a guide in which the rod of the locking element is placed, which is axially spring-loaded relative to the hub by an elastic element. A groove is made in the rod of the locking element, in which a ball stop is placed, which holds the locking element in the open position, the stop being in contact with the pin in this position.

In the initial position, the thermal shutoff valve is in the open position. The elastic element is compressed and its force is compensated by a ball retainer. In an emergency, for example, in the event of a fire, the fuse melts due to an increase in temperature. As a result, the force of the pressure screw is not transmitted to the pin and the latter no longer holds the ball stop in the groove of the rod, the rod is released from the ball stop and, under the action of the spring, the locking element moves and closes the passage section of the housing, moving the valve to the closed position, i.e., shutting off the gas supply.

(see RF patent No. 2189515, CL. F 16 K 17/40, 2001) is the closest analogue.

As a result of the analysis of the implementation of the known thermal shut-off valve, it should be noted that this valve is characterized by significant radial dimensions, which is due to the radial location of some elements of the valve fixing mechanism in the open position relative to the valve axis, and in addition, given that an opening is made in one of the beams of the hub in which the pusher, fuse and pressure screw are located,

the rays have different stiffness, and, as a result, a different degree of deformation, when loads occur, which can lead to a misalignment of the axis of the hub hole, and consequently to incomplete blocking of the gas supply when the valve is activated.

The objective of this utility model is to develop a design of a thermal shut-off valve having insignificant radial dimensions, which allows it to be placed in crowded places, as well as technologically advanced in manufacture and reliable in operation.

The task is ensured by the fact that in the thermal shut-off valve containing the housing, in the cavity of which there is a support with an axial hole, in which the rod is spring-mounted relative to the support, with a plate fixed on one of its ends, having the possibility of interaction with the surface of the housing for gas supply shutoff, as well as a fusible insert, new is that the valve is equipped with a sleeve with a radial hole and a locking element, and grooves, a sleeve and the fusible insert is mounted on the stem and placed in the support hole, the fuse being attached to the stem and the support, and the sleeve is mounted in the support hole with the possibility of axial movement, the rod has the possibility of axial movement relative to the sleeve, in the open position of the valve, the locking element is located in the radial hole of the sleeve and the groove of the rod, and in its closed position - in the radial hole of the sleeve and the groove of the support, while the plate and the elastic element are mounted on the rod from different sides relative to the support.

When conducting patent research, no solutions were found that were identical to the declared one, and therefore, the claimed utility model meets the patentability condition of “novelty”.

We believe that the information set forth in the application materials is sufficient for the practical implementation of the utility model.

The essence of the utility model is illustrated by graphic materials on which the thermal shutoff valve, axial section is presented.

The thermal shutoff valve contains a hollow body 1 with two flanges 2 at its ends with holes (not indicated by positions) for fasteners. AT

the cavity of the housing 1 has a locking mechanism for shutting off the gas supply. The locking mechanism is mounted on a support 3, made integrally with the housing 1 and having an axial hole. A plate 4 with a surface “A” is located in the cavity of the housing, which has the ability to interact with the surface “B” of the housing when locking the housing through hole. The plate 4 is mounted on the rod 5, mounted for movement in the hole of the support 3. On the surface of the rod 5 is made a groove having a conical shape in which the locking element 6 is partially located, made, for example, in the form of a ball. In the hole of the support 3, the fuse-link 7 and the sleeve 8 are facing each other. The sleeve 8 is mounted in the hole of the support 3 with the possibility of axial movement and a radial hole is made in it (not indicated by the position), in which the locking element 6, with the possibility of entry, is partially located into the groove 9 made in the support 3. On the rod 5 there is a groove 10 for the outflow of molten material of the fusible insert 7. The rod 5 is spring-loaded relative to the support 3, and therefore relative to the housing 1 by the elastic element 11. One end of the elastic element nta 11 abuts against a flange 13, mounted on the end of the rod opposite to that on which the plate 4 is fixed, and the other on the support 3. Relative to the rod, the elastic element is fixed by a locking (locking) ring 13. It is easy to notice that the plate and the elastic element are located with different sides relative to the support 3.

Naturally, in the support 3 there are channels (positions are not indicated) for the passage of the medium (gas).

Thermal shutoff valve operates as follows.

Assembly of the valve is not difficult for specialists.

To assemble the valve, the elastic element 11 is “put on” on the stem 5 — a coil spring, positioning it between the locking ring 13 and the flange 12. “Put on” the fusible insert 7 and the sleeve 8 on the rod so that the locking element is located in the rod groove and at the same time radial hole bushing. Fasten the fusible insert 7 with the rod 5. Pass the rod 7 into the hole of the support 3, while loading the elastic element 11 and fasten the fusible insert with the support 3. Attach the plate 4. The valve is assembled on the rod.

The thermal shutoff valve is installed in the gas supply line. When installing the valve, the flanges 2 of the housing are combined with the flanges of the gas supply line and the valve is fixed with fasteners inserted into the holes of the flanges 2.

In the initial position, the valve is in the open position and does not impede the supply of gas to consumers (surfaces "A" and "B" do not contact each other). In the initial position of the valve, the stem is in the cocked position (in the left plane of the drawing). The elastic element 8 is loaded.

In an emergency, for example, in the event of a fire, when the temperature in the zone of the valve is exceeded for which the fusible insert 7 is designed, its alloy melts, as a result of which the rod 5 starts to move as the molten mass of the fusible insert 7 flows into the groove 10 right (in the drawing plane). As soon as the rod 5 moves the locking element 6 opposite the groove 9, the locking element is extruded partially into the hole by the conical surface of the rod groove, thereby releasing the rod 5, which, under the action of the elastic element 11, moves sharply to the right (in the drawing plane) until the surfaces contact “A” and “B”, which leads to a shutdown of the gas supply.

The undoubted advantage of this design of the thermal shut-off valve is the simplicity of its design, ease of reinstallation, as well as reliability in operation, since there are no special fixing elements in the design that can jam the movement of the plate in the process of closing the valve passage section. In this design, the compression force of the spring acts only on the fusible element, but the latter in this case does not work on the cut, as in most similar designs, which completely eliminates the unauthorized actuation of the valve.

Claims (1)

A thermal shut-off valve containing a body, in the cavity of which there is a support with an axial hole, in which a rod spring-loaded relative to the support, with a plate fixed on one of its ends, having the ability to interact with the surface of the body to shut off the gas supply, and also fusible, is mounted an insert, characterized in that the valve is provided with a sleeve with a radial hole and a locking element, and grooves are made on the stem and in the hole of the support, the sleeve and the fuse are installed on the stem and placed s in the support hole, and the fusible link is bonded to the stem and the support, and the sleeve is mounted in the support hole with the possibility of axial movement, the rod has the possibility of axial movement relative to the sleeve, in the open position of the valve, the locking element is located in the radial hole of the sleeve and the groove of the rod, and in its closed position - in the radial hole of the sleeve and the groove of the support, while the plate and the elastic element are mounted on the rod from different sides relative to the support.