RU93483U1 - THERMAL VALVE - Google Patents

Abstract

 A thermal shutoff valve comprising a direct-flow housing with inlet and outlet openings, a spring-loaded locking element and a transverse sprocket, the outer rim of which is fixed in the housing and connected by spokes to the hub, the hub having a guide for the rod of the locking element, characterized in that on the opposite from the locking element to the side in the region of the rod groove, a fusible locking element of conical shape with a taper of 1: 3 and a rounded part along the radius R towards the gas current, the rod diameter of the groove is d = (0,75 ÷ 0,8) D, a groove length L = (1,2 ÷ 1,5) D, where D - diameter of the rod.

Description

The utility model relates to valve engineering.

Known thermal shutoff valve containing a straight-through housing with inlet and outlet openings, located inside it is a spring-loaded locking element and a transverse sprocket, the outer rim of which is fixed in the housing and connected by spokes to the hub, and the hub is provided with a guide for the rod of the locking element, in one of the spokes a through longitudinal channel in which a pressure screw is installed on the rim side and a movable pin is placed that acts on the ball stop located in the rod groove and secures it in the open position, while between the pressure screw and the movable pin there is a fusible insert, moreover, an inner cylindrical bore is made in the housing, mating with the inlet and outlet openings on the conical surfaces, while the locking element in cross section is made in the form of a cylinder with the same conical bevels at the ends (see patent RU 76412, class F16K 17/40, publ. September 20, 2008).

The disadvantages of the known valve is the high complexity of the assembly of the product, the high complexity due to a significant number of parts.

The objective of the utility model is to eliminate these drawbacks. The technical result is to simplify the design and assembly of the device.

The problem is solved, and the technical result is achieved by the fact that the thermal shutoff valve comprises a direct-flow housing with inlet and outlet openings, located inside it is a spring-loaded locking element and a transverse sprocket, the outer rim of which is fixed in the housing and is connected by spokes to a hub equipped with a guide for the rod, on which, in place of the annular groove, a retaining element of a conical shape is soldered with a taper of 1: 3 and a rounded part along a radius R towards the gas flow, while the diameter of avki rod is (0,75 ÷ 0,8) D, groove length L = (1,2 ÷ 1,5) D where D - diameter of the rod. The locking element, made in the form of a conical surfacing, has a low coefficient of local resistance, which reduces the total pressure loss of the valve. The specified dimensional characteristics of the stem grooves ensure reliable fixation of the stem by a fusible insert made, for example, of a Wood alloy.

The drawing shows a cross section of a thermal shutoff valve.

The proposed shut-off valve comprises a housing 1, in the cavity of which a transverse sprocket 2 with a hub is placed, a locking element 4 loaded with a spring 3 and a locking element 5. The outer rim 8 of the sprocket 2 is fixed in the housing 1 and connected by spokes 9 to the hub. The hub is provided with a guide 10 for the rod 11 of the locking element 4. The groove 12 of the rod 11 is filled with a locking element 5 fixing it in the open position.

Thermal shutoff valve operates as follows.

In the initial position, the thermal shutoff valve is open. In this case, the spring 3, located between the locking element 4 and the sprocket 2, is in a compressed state and is held by the locking element 5. In an emergency, for example, when the temperature rises in or around the valve, the locking element 5 is melted. As a result, the rod is released and under the action of the loading spring, the locking element 4, 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 automatic blocking of the passage section of pipelines is required, in particular gas pipelines in emergency situations, for example during fires.

Claims (1)

A thermal shut-off valve comprising a direct-flow housing with inlet and outlet openings, a spring-loaded locking element and a transverse sprocket, the outer rim of which is fixed in the housing and connected by spokes to the hub, the hub having a guide for the rod of the locking element, characterized in that on the opposite from the locking element to the side in the region of the rod groove, a fusible locking element of conical shape with a taper of 1: 3 and a rounded part along the radius R towards the gas current, the rod diameter of the groove is d = (0,75 ÷ 0,8) D, a groove length L = (1,2 ÷ 1,5) D, where D - diameter of the rod.