RU42873U1 - THERMAL VALVE - Google Patents

Abstract

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. The thermal shut-off valve comprises a housing, in the cavity of which a transverse sprocket is placed, the rim of which is fixed relative to the housing and connected by spokes to a hub provided with a rod guide of the spring-loaded locking element, and a through longitudinal channel is made in one of the spokes, rim and hub, in which the movable pin is placed , the end of which is located in the groove of the rod, fixing the valve in the open position, while above the pin there is a fusible insert made in the form of a heat-sensitive cylinder and the interaction acting with a pin, and the valve body is made with at least one flange, the sprocket rim is installed inside the flange, the last hole is made coaxially to the through longitudinal channel of the sprocket needle, while the hole is muffled by a cap fixed to the flange, by means of which a heat-sensitive balloon with a movable pin tightened to the stock groove. The result is a reduction in the response time of the thermal shutoff valve.

Description

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

An automatic thermal shut-off valve is known, comprising a housing, in the cavity of which, opposite the passage opening, a shut-off element is installed, loaded with a spring and equipped with a stopper and a fusible insert, the stopper is made in the form of a washer with spacer tabs on one side and restrictive tabs on the other side, and a fusible insert in in the form of a glass with two diametrically located grooves in which the washer cut walls are placed, while the internal cavity of the glass is filled with fusible material, and through its open torus derived stem fixing the locking element and the locking member is a ball (See. Patent RU 2149303, IPC 7 F 16 K 17/40, 20.05.2000).

However, this thermal shutoff valve does not provide the required stability of operation at a given temperature, which narrows the scope of its use.

The closest to the utility model in terms of technical nature and the achieved result is a thermal shut-off valve containing a housing, in the cavity of which there is a transverse sprocket, the rim of which is fixed relative to the housing and connected by spokes to a hub provided with a rod guide of a spring-loaded locking element, and in one of the rim spokes and a hub is provided with a through longitudinal channel in which a movable pin is placed, acting with the groove of the rod and fixing it in the open position, with the pin being higher and placed fuse, made in the form of

heat-sensitive cylinder and interacting with a pin, (see patent RU 2189515, IPC 7 F 16 K 17/40, 09/20/2002).

This valve provides its automatic response, however, this valve has a relatively long response time when an external source of ignition occurs, which is associated with the placement of a thermosensitive balloon in the sprocket pin located inside the valve.

The technical result, which is achieved by the present utility model, is to reduce the response time of the thermal shut-off valve.

The specified technical result is achieved due to the fact that the thermal shutoff valve comprises a housing, in the cavity of which a transverse sprocket is placed, the rim of which is fixed relative to the housing and connected by spokes to a hub provided with a rod guide of a spring-loaded locking element, moreover, in one of the spokes, rim and hub a through longitudinal channel in which a movable pin is placed, the end of which is located in the stem groove, fixing the valve in the open position, while a fusible link is placed above the pin a, made in the form of a heat-sensitive cylinder and interacting with the pin, and the valve body is made with at least one flange, the sprocket rim is installed inside the flange, in the latter a hole is made coaxially to the through longitudinal channel of the sprocket needle, while the hole is muffled by a cap fixed to the flange by means of which the heat-sensitive cylinder with a movable pin is pressed against the stem groove.

An analysis of the operation of thermal shut-off valves showed that the design of the element in which the fuse-link is located, as well as the design of the fuse-link itself, have a significant effect on the valve response time. The execution in the spoke, rim and hub of the through channel coaxial hole in the flange with the placement of the fusible insert in the hole of the flange

under the cap provides quick valve actuation in emergency situations by reducing the inertia of valve actuation associated with the valve warm-up process in the event of, for example, a fire. The design of the thermal shut-off valve allows the use of heat-sensitive cylinders, which are commercially available and the manufacturing technology of which is well developed, as a fusible insert, which also helps to increase the reliability of operation of the thermal shut-off valve.

Figure 1 presents a longitudinal section of a thermal shut-off valve and figure 2 presents a side view of a thermal shut-off valve.

A thermal shut-off valve containing a housing 1, in the cavity of which a transverse sprocket 2 is placed, the rim 3 of which is fixed relative to the housing 1 and connected by the spokes 4 to the hub 5 provided with a guide 6 of the rod 7 loaded with a spring 8 of the locking element 9. In one of the spokes 4, the rim 3 and the hub 5 has a through longitudinal channel in which a movable pin 10 is placed, the end of which is located in the groove 11 of the rod 7, fixing the valve in the open position. Above pin 10 there is a fusible insert 12 made in the form of a heat-sensitive balloon and interacting with pin 10. The valve body 1 is made with at least one flange 13. The rim 3 of the sprocket 2 is installed inside the flange 13, the hole is made coaxially with the through longitudinal channel spokes 4 of sprocket 2. The hole of the flange 13 is sealed by a cap 14 fixed to the flange 13, by means of which the heat-sensitive cylinder 12 with the movable pin 10 is pressed against the groove 11 of the rod 7.

In the initial position, the thermal shutoff valve is in the open position. In this case, the spring 9, located between the locking element 9 and the sprocket 2, is in a compressed state and is held in this state by the pin 10. In an emergency situation, for example, when the temperature around the valve rises, the fuse box 12 is destroyed. As a result, there is no longer a pressing force of the fusible insert 12 and the movable

the pin 10 to the groove 11. In this case, the stem 7 is released and under the action of the spring 8, the locking element 9, moving to the extreme right position, overlaps the passage section of the housing 1, moving the valve to the closed position.

This utility model can be used wherever it is required to automatically shut off 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 housing, in the cavity of which a transverse sprocket is placed, the rim of which is fixed relative to the housing and connected by a spoke to a hub provided with a rod guide of a spring-loaded locking element, and a through longitudinal channel is made in one of the spokes, the rim and the hub, in which the movable a pin, the end of which is located in the stem groove, fixing the valve in the open position, while a fusible insert made in the form of a heat-sensitive balloon and inter acting with a pin, characterized in that the valve body is made with at least one flange, the sprocket rim is installed inside the flange, in the latter a hole is made coaxially to the through longitudinal channel of the sprocket needle, while the hole is muffled by a cap fixed to the flange, by means of which the heat-sensitive balloon with a movable pin are pressed to the stem groove.