RU157231U1 - THERMAL VALVE - Google Patents

Abstract

A thermal shut-off valve comprising a body, in a cylindrical bore of which a valve is installed opposite the passage opening, loaded with a spring and provided with a thermosensitive element, the valve being made in the form of a ball mounted with an eccentricity relative to the axis of the passage opening, and the thermally sensitive element consists of a rectangular support plate and a fixing element, made in the form of a cylindrical rod, characterized in that the rod of the heat-sensitive element is made of a rose alloy, and in the reference Lastin - through hole, wherein the rod is passed through the plate hole into contact with the surface of the bore and in the open position of the shutter fixedly presses with its free end face the ball towards the surface of the bore diametrically opposite from said surface.

Description

The utility model relates to domestic and industrial gas units and is designed to protect gas supply systems in emergency situations, for example, to cut off gas in the event of a fire.

Known automatic thermal valve containing a housing in the cavity of which, opposite the passage opening, a shutter is installed, loaded with a spring and equipped with a lock washer and thermocouple, the inner cavity of which is filled with fusible material and a cylindrical rod is withdrawn from it, and the lock washer is installed on the side opposite to the spring, and the shutter made in the form of a ball mounted with an eccentricity relative to the axis of the bore, and an annular groove is made in the body cavity iametralno oppositely placed relative to the ball thermoelement with low-melting metal and the cylindrical stem (cm. Patent RU №2190792, cl. F16K 17/40, publ. 10.10.2002). However, this valve may cause false operation during transportation, which is associated with a complex system for fixing the position of the ball, including several structural elements that, during shaking during transportation, can release the ball from its original eccentric position relative to the seat, including due to the flexibility of the alloy material and the big efforts created by springs.

The objective of the utility model is to eliminate the noted drawbacks. The technical result is to simplify the design of the valve by eliminating the stopper and additional bore in the cavity of the housing, which reduces the complexity of manufacturing a thermal shut-off valve and simplifies its assembly.

The problem is solved, and the technical result is achieved due to the fact that in the thermal shut-off valve containing the housing, in the cylindrical bore of which is installed a valve loaded with a spring and provided with a heat-sensitive element opposite the passage opening, the valve being made in the form of a ball mounted with an eccentricity relative to the axis of the passage opening and the heat-sensitive element consists of a support rectangular plate and a fixing element made in the form of a cylindrical rod, the rod is made of alloy Rose, and in the base plate there is a through hole, the rod being passed through the hole of the plate until it contacts the surface of the bore and in the open position of the shutter, it fixes with its free end the ball against the surface of the bore diametrically opposite from the indicated surface.

The drawing shows a cross section of the proposed valve.

The thermal shutoff valve contains a housing 1, in a cylindrical bore 2 of which, opposite the passage bore 3, a shutter is installed, loaded with a spring 4, which has a stop in the form of a washer 5, and provided with a heat-sensitive element, the shutter being made in the form of a ball 6 mounted with an eccentricity relative to the axis of the bore 2 and a through hole 3. The thermocouple consists of a supporting rectangular plate 7 and a fixing low-melting element made in the form of a cylindrical rod 8 of a Rose alloy provided with a rigid element and the surface of the ball bearing in the form of a fused metal washer. A through hole is made in the base plate through which the rod 8 is passed until it contacts the surface of the bore 2, while the rod 8 in the open position of the shutter fixedly presses the ball 6 against the surface of the bore 2 diametrically opposite from the indicated surface with its free end.

The valve operates as follows. In the drawing, the valve is shown in its initial (open) position: the ball 6 is loaded with a spring 4 and is fixedly pressed with its free end to the surface of the bore 2. In an emergency, for example, when the temperature in the valve location zone increases due to fire more than + 94 ° C, the stem 8, made of a Rose alloy, melts, loses stability and stops holding the ball 6 in the open position. The valve closes and the ball 6 is held in this position by the force of the spring 4 and the pressure of the working medium.

This utility model can be used where it is required to block the flow cross section of pipelines, in particular gas pipelines in emergency situations, for example during fires.

Claims (1)

A thermal shut-off valve comprising a body, in a cylindrical bore of which a shutter is installed, loaded with a spring and provided with a thermosensitive element, opposite the passage opening, the shutter being made in the form of a ball mounted with an eccentricity relative to the axis of the passage opening, and the heat-sensitive element consists of a rectangular support plate and a fixing element, made in the form of a cylindrical rod, characterized in that the rod of the heat-sensitive element is made of a rose alloy, and in the reference Lastin - through hole, wherein the rod passed through the hole plate to the contact surface with the bore in the open position of the shutter fixedly presses with its free end surface of the ball to the bore diametrically opposite from said surface.

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