RU153175U1 - THERMAL VALVE - Google Patents

Abstract

A thermal shut-off valve, comprising a body with an internal thread, in the cavity of which there is a hemispherical shutter, a conical spring and a fuse of heat-sensitive material, characterized in that the spring-loaded hemispherical shutter abuts an equilateral triangular fuse with rounded corners and a side of at least 2 mm, and a conical spring, hemispherical shutter and fuse are located on the same axis with the housing.

Description

The utility model relates to domestic and industrial devices and is designed to automatically shut off the gas supply pipeline during heating during a fire.

Closest to a utility model in terms of technical nature and the achieved result is an automatic thermal valve [RF patent 2289747, cl. F16K 17/40], comprising a housing in the cavity of which a shutter is mounted, loaded with a spring to the passage opening and provided with a stopper that prevents the passage from closing the passage hole with the shutter. The stopper is made of a thermosensitive material in the form of a rod located between the shutter and the bore with an emphasis on the ends of the rod in the walls of the body cavity. As a heat-sensitive material, a material with a shape memory, for example, nitinol, having an initial curved shape, which does not prevent the passage opening from being blocked by a shutter, is used.

The stopper in the cross section is made round, and the ends of the bar are made with bevels oriented in the direction of the bend of the bar.

The thermal valve is equipped with a support washer with flexible tabs, providing the ability to enter it into the body cavity and subsequent fixation of its position. The central part of the washer

made in the form of a hollow truncated cone, which allows the central part of the washer to be used as a spring support.

Before assembling the automatic valve, the stopper having an initial curved shape is shaped like a straight bar and in this form it is installed in the valve between the shutter, which can be made in the form of a ball, a hemisphere with a protrusion under the spring, a truncated cone or some other shape that allows block the valve bore, and the bore.

The disadvantages of this device are the design complexity, namely the presence of numerous attachment devices; fixing the spherical lock with a spring at an angle to the passage hole; the presence of a rod-shaped stopper, which has only two points of contact with the valve circumference, and as a result, a wide range of response temperature, which reduces the reliability of the device. In addition, during transportation, the spherical and non-fixed valve falls out.

The objective of the utility model is to improve the functionality of the device, and the technical result is to increase the accuracy of operation of the thermal shut-off valve. This problem is solved, and the technical result is achieved by the fact that the valve comprises a body with an internal thread, in the cavity of which there is a hemispherical shutter, a conical spring and a triangular equilateral fuse of heat-sensitive material located on the same axis.

At the same time, a fuse resting on the thread of the housing does not allow a hemispherical shutter under the influence of a conical

the springs radially shift and has three points of support, which prevents the valve from triggering spontaneously during transport or falling. Due to the triangular shape of the fuse, the hemispherical shutter is located symmetrically on the same axis with the body, which ensures uniform gas passage, thereby reducing hydraulic resistance and facilitates the assembly of the entire valve. The conical spring is also located on the same axis as the body and the hemispherical shutter in a concentrated manner helps to lock the valve at a certain temperature, reducing its response time.

The test results of the devices (Table 1) showed that with the side length of an equilateral triangular fuse with

with rounded corners of at least 2 mm, the optimal valve response time at a certain temperature is obtained, since with its size less than 2 mm - due to an increase in the rigidity of the structure, the response time is significantly increased, thereby reducing the accuracy of operation in an extreme situation.

The utility model is illustrated by drawings, where in FIG. 1 shows the proposed valve thermal shut-in section; in FIG. 2 is a section along AA in FIG. one.

The thermal shut-off valve contains a housing 1, in the cavity of which a hemispherical shutter 2 is installed, loaded with a spring 3 in one axis with the passage opening and provided with a triangular fuse 4, which prevents the passage opening from being blocked by a hemispherical shutter 2. The triangular fuse 3 is made of heat-sensitive material.

The valve operates as follows. In the initial (open) position, the hemispherical shutter 2 abuts against the fuse 4, while the distance from the shutter to the walls of the housing is the same. When the temperature rises in or around the valve, for example, during a fire, the fuse 4 heats up and its heat-sensitive sides bend, forming a hole into which a hemispherical shutter moves under the influence of a conical spring 3, blocking the gas supply, which leads to the fact that this utility model can be used wherever it is required to automatically close the passage opening of pipelines, in particular gas pipelines in emergency situations, for example during fires.

Claims (1)

A thermal shut-off valve, comprising a body with an internal thread, in the cavity of which there is a hemispherical shutter, a conical spring and a fuse of heat-sensitive material, characterized in that the spring-loaded hemispherical shutter abuts an equilateral triangular fuse with rounded corners and a side of at least 2 mm, and a conical spring, hemispherical shutter and fuse are located on the same axis with the housing.

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