RU2243440C1 - Valve with thermally activated closure member - Google Patents

Abstract

FIELD: safety valves.

SUBSTANCE: valve has straight-flow housing. The housing is provided with seat, guiding bushing, and closure member mounted for sliding along the bushing. The closure member is spring-loaded with respect to the bushing toward the seat. The closure member is provided with a unit for keeping it in open position. The device has thermosensitive member arranged along the axis of the housing. The unit is made of at least two rods. The rods pass through the diametrically opposite openings. The openings are made in the guiding bushing . The closure member is hollow and fitted on the guiding bushing for permitting locking the rods in the initial position.

EFFECT: reduced cost and simplified assembling.

2 cl, 2 dwg

Description

The invention 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.

Known thermal shutoff valve containing a housing in the cavity of which there is a transverse sprocket, the outer rim of which is fixed in the housing by a retaining ring and is connected by spokes to a hub provided with a rod guide loaded with a spring of the locking element, and in one of the spokes a through longitudinal channel is made in which from the side the rim is equipped with a pressure screw and in which a movable pin is placed, acting on a ball stop located in the groove of the rod and fixing it in the open position, while between with a screw and a movable pin, a fuse-link is placed, characterized in that the fuse-link is made in the form of a heat-sensitive balloon, and holes perpendicular to the axis of the balloon are made in the wall of the spoke, in the zone of placement of the heat-sensitive balloon (see patent RU 2189515 C1, IPC 7 F 16 K 17/40, 09/20/2002).

This valve has a number of disadvantages, which are related to the fact that it consists of many elements, which complicates its assembly, and the radial spokes located in the passage channel with a thermosensitive balloon increase the coefficient of hydraulic resistance of the valve.

The closest to the invention in technical essence and the achieved result is a thermal shut-off valve containing a direct-flow housing in which a seat is made and a guide sleeve is mounted and the shutter can slide along it, the shutter being loaded with a spring relative to the sleeve towards the saddle and provided with means for holding it in open position and containing a heat-sensitive element located along the axis of the housing (see GB 1521718 A, class F 16 K 17/40, 08/16/1978).

The main disadvantage of this valve is the complexity of its assembly, requiring special equipment for fixing the heat-sensitive element, which increases production costs for its manufacture.

The problem to which the present invention is directed, is to reduce production costs, simplify installation of the valve and reduce its size, while due to the fact that the proposed valve uses a heat-sensitive element in the form of a heat-sensitive balloon - "thermobulbs", increases resistance to vibration, overload and shock loads on the valve.

The technical result is achieved in that in a thermal shut-off valve containing a direct-flow housing in which a saddle is made and a guide sleeve is mounted and the shutter can slide along it, the shutter being loaded with a spring relative to the sleeve toward the saddle and provided with means for holding it in the open position and containing a heat-sensitive element located along the axis of the housing, the specified tool is made in the form of at least two rods passed through diametrically located holes made in n guide sleeve to the stop in the heat-sensitive element, and the shutter is hollow, is worn on the guide sleeve with the possibility of fixing the rods in the initial position. In this case, for example, a conical bore can be made in the shutter cavity, which ensures the fixation of the rods in the initial position. In addition, to facilitate the installation of the rods in the valve shutter, holes for mounting the rods are made.

The invention is illustrated in the drawing, where in Fig.1 shows a longitudinal section of a thermal shutoff valve, in Fig.2 - section aa in Fig.1.

The thermal shut-off valve comprises a direct-flow housing 1, in which a saddle 2 is made and a guide sleeve 3 and a shutter 4 are mounted, which can slide along it. The shutter 4 is loaded with a spring 5 relative to the sleeve 3 towards the seat 2. In the open position, the shutter 4 is held by a locking means. The specified tool is made in the form of at least two rods 6, passed through diametrically located holes 7, made in the guide sleeve 3, all the way into the heat-sensitive element 8. The heat-sensitive element 8 is located along the axis of the housing 1 and is installed inside the guide sleeve 3 using a special mandrel . The thermosensitive element 8 can be made, for example, in the form of a thermosensitive balloon - “thermal bulbs”. The shutter 4 is hollow and is worn on the guide sleeve 3 with the possibility of fixing the rods 6 in the initial position.

To simplify installation work on fixing the heat-sensitive element 8 in the cavity of the shutter 4, for example, a conical bore 9 can be made, which fixes the rods 6 in the initial position of the shutter 4, and holes 10 for mounting the rods 6 are made in the shutter 4 itself.

In the initial position, the valve is in the open position. In this case, the spring 5, located between the end of the guide sleeve 3 and the hollow shutter 4, is in a compressed state. In the initial (open) position, the hollow shutter 4 is held by means of a heat-sensitive element 8, fixed by rods 6, passing through diametrically located holes 7 and abutting against the conical bore 9 of the shutter 4.

In an emergency, for example, when the temperature rises in or around the valve, the heat-sensitive element 8, located along the axis of the housing 1 and having the temperature of the passing medium, is destroyed (melted). In this case, the rods 6 exit the conical bore 9 of the hollow shutter 4 and, under the action of the spring 9, the shutter 4, moving to the extreme right position, interacts with the sealing surface of the seat 2 and overlaps the passage section of the housing 1, moving the valve to the closed position.

The present invention can be used wherever it is required to automatically close the flow area of pipelines, in particular gas pipelines in emergency situations, for example during fires.

Claims (3)

1. The valve is a thermal shut-off valve, comprising a direct-flow housing, in which a saddle is made and a guide sleeve is installed and the shutter can slide along it, the shutter being loaded with a spring relative to the sleeve toward the saddle and equipped with a means for holding it in the open position and containing a heat-sensitive axis an element, characterized in that the said means is made in the form of at least two rods passed through diametrically located holes made in the guide sleeve to time to a temperature sensing element, wherein the bolt is hollow, is put on the guide bush with the possibility of fixing the rods in an initial position. 2. The valve according to claim 1, characterized in that a conical bore is made in the shutter cavity to secure the rods in the initial position. 3. The valve according to claim 1 or 2, characterized in that the valve has openings for mounting the rods.

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