RU46553U1 - THERMAL VALVE (OPTIONS) - 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 shutoff valve comprises a housing, in the cavity of which a lock is fixed, having a hub with an axial hole, in which a rod of a locking element spring-loaded relative to the lock and having a working surface having the ability to contact with the groove of the housing to shut off the gas supply is placed with axial movement element. The housing is provided with a flange and a groove made in its cavity, the lock has folding elements and is installed in the housing in such a way that its end is pressed against the shoulder, and the folding elements are brought into the groove, and a hole is made in the rod of the locking element in which the fusible element fixing locking element in the open position. The thermal shut-off valve variant is characterized in that a recess is made in the rod of the shut-off element, and an undercut is made at the end of the lock hub. in which the fusible element is fixed, fixing the locking element in the open position.

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 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 - spring-loaded in the axial direction 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. moreover, the stopper contacts in this position with the pin.

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 is melted 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 design, a thermal shut-off valve is known, it should be noted that it is rather complicated in terms of the mechanism for fixing the locking element in the open position. This mechanism includes a ball stopper, a movable pin, a fuse, a pressure screw. In addition, the known thermal shut-off valve is characterized by significant radial dimensions, due to the radial arrangement of the mechanism

fixing the locking element with respect to the longitudinal axis of the valve. It should also be noted that during operation of the known valve, it may be unauthorized to operate, since the pressure screw or retaining ring does not provide reliable fixation of the ball stop and the transverse sprocket.

The objective of this utility model is to develop a thermal shut-off valve having insignificant radial dimensions, which allows the installation of valves in tight spaces, simple structurally 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 is fixed a lock having a hub with an axial hole, in which the rod of a locking element spring-loaded relative to the lock and having a working surface having contact with the groove of the housing is axially moved to shut off the gas supply, as well as a fusible element, it is new that the housing is equipped with a shoulder and a groove made in its cavity, the lock has folding elements and is installed poured into the housing in such a way that its end face is pressed against the shoulder, and the folding elements are brought into the groove, and a hole is made in the rod of the locking element in which the fusible element is fixed, which fixes the locking element in the open position. In an embodiment of a thermal shut-off valve comprising a housing, in the cavity of which a lock is fixed, having a hub with an axial hole, in which, with the possibility of axial movement, a rod of a locking element spring-loaded relative to the lock with a working surface is placed, having contact with the groove of the housing for shutting off the gas supply, and also a fusible element, new is that the body is equipped with a flange and a groove made in its cavity. the lock has folding elements and is installed in the housing in such a way that its end is pressed against the shoulder and the folding elements are guided into a groove, with a recess in the rod of the locking element and an undercut at the end of the lock hub, in which a fusible element fixing the locking element is placed in the open position.

In the developed design of the thermal shut-off valve, the locking element in the open position is fixed directly by the fusible element, which eliminates the use of a ball stopper, a movable pin and a pressure screw, which simplifies the valve design and reduces its radial dimensions. As a fusible insert, materials that work well for shear can be used. Such materials are widely known. As the material for the fusible insert, for example, the Rose alloy or industrial solders can be used.

The locking element used in the valve design virtually eliminates the possibility of its unauthorized closing.

We believe that the claimed devices (thermal shutoff valves) relate to objects of the same type, of the same purpose and providing the same technical result, that is, the claimed group of utility models meets the requirements of a group of utility models.

When conducting patent research, no solutions were found that are identical to those declared, and therefore, the claimed group of utility models meets the criterion of "novelty."

We believe that the essence of the claimed group of utility models does not follow explicitly from the prior art, and therefore, the claimed group of inventions meets the criterion of "inventive step".

We believe that the information presented in the application materials is sufficient for the practical implementation of utility models.

The essence of the claimed group of utility models is illustrated by graphic materials, where:

figure 1 - thermal shutoff valve, axial section;

figure 2 is a view of figure 1;

figure 3 - thermal shutoff valve (option).

The thermal shut-off valve contains a hollow body 1, at the ends of which there is a thread (external and / or internal) for installing the valve in the gas supply line.

There is a shoulder 2 and a groove 3 in the body cavity.

The shoulder 2 and the groove 3 are designed to install the lock 4 (washers), made in the form of a washer cut from two sides parallel to its axis, having a hub 5 with an axial hole (not indicated by the position). On the forming washer there are bending elements 6 (antennae).

In the hole of the washer, the rod 7 of the locking element 8 is movably mounted, the working surface (A) of which in the closed position of the valve is in contact with the groove (B) made in the cavity of the housing 1.

On the rod, perpendicular to its axis, a hole is made (not indicated by position) for the fusible element 9.

The locking element 8 is axially spring-loaded relative to the locking element by an elastic element (spring) 10.

In the design variant of the thermal shut-off valve, a recess is made on the stem 7, for example, an annular groove 11, and at the end of the hub there is an undercut, for example, of a conical shape. A fixing element, for example, solder 12, which inherently represents a fusible insert, is placed in the recess 11 and the undercut.

To carry out the assembly of the thermal shut-off valve, a spring 10 is put on the locking element 8, the locking element rod 7 is placed in the axial hole of the lock hub 5 of the lock 4. thereby compressing the spring 10 until the locking element stops in the lock end 4. Insert the fusible element 9 into the stem hole, fixing the washer 4 and the locking element 8 with each other. The spring 10 is compressed.

The assembled assembly is inserted into the cavity of the housing 1 until it stops against the end of the lock 4 in the end of the shoulder 2 of the housing. The folding elements are inserted into the groove 3 of the housing, thereby fixing the assembled assembly in the housing.

In the embodiment, the assembly is carried out almost as well, except that instead of a fusible element, a fixing composition, for example, solder 12, is poured into the undercut of the hub and the recess 11 on the rod and wait for some time necessary for the solder to solidify.

The thermal shut-off valve and its variant are assembled.

In general, the assembly process is not difficult for specialists.

Thermal shutoff valve and its variant are as follows.

For operation, the valve is installed in the gas supply line.

In the initial position, the valve is in the open position. The spring 10 is compressed and held in this state by the fusible element 9 or by the hardened fixing composition (embodiment).

In an emergency, for example, in the event of a fire, when the temperature rises in the area of the valve, the fusible element 9 or solder 12 (depending on the embodiment) softens and melts.

As a result, the spring 10 is activated for expansion, which moves the locking element 8 until the contact of its working surface (A) with the surface (B) of the groove of the housing 1, thereby blocking the gas supply.

Claims (2)

1. Thermal shut-off valve, comprising a housing, in the cavity of which a lock is fixed, having a hub with an axial hole, in which a rod of a locking element spring-loaded relative to the lock and with a working surface having the ability to contact with the groove of the housing to shut off the gas supply is placed with axial movement as well as a fusible element, characterized in that the housing is provided with a collar and a groove made in its cavity, the lock has folding elements and is installed in the housing in such a way that its end face is t to the shoulder, and the folding elements are brought into the groove, and in the rod of the locking element perpendicular to its axis, a hole is made in which a fusible element is fixed, which fixes the locking element in the open position. 2. Thermal shut-off valve comprising a housing, in the cavity of which a lock is fixed, having a hub with an axial hole, in which, with the possibility of axial movement, a rod of a locking element spring-loaded relative to the lock with a working surface having contact with the groove of the housing for shutting off the gas supply is placed, and also a fusible element, characterized in that the casing is provided with a flange and a groove made in its cavity, the lock has folding elements and is installed in the casing so that its end face is pressed against a flange, and folding elements are brought into the groove, and a recess is made in the rod of the locking element, and an undercut is made on the highlander of the lock hub, in which a fusible element is fixed, which fixes the locking element in the open position.