RU2149303C1 - Automatic thermal valve - Google Patents

Abstract

FIELD: domestic and industrial gas units; protection of gas supply systems in emergency. SUBSTANCE: automatic thermal valve has body with shut-off member fitted inside it opposite straightway hole. Shut-off member is located with spring and is provided with lock and fuse link. Lock is made in form of washer with spacer tabs on one side and limiting tabs on other side; washer is split. Fuse link is made in form of sleeve with two diametrical slots. Inner cavity of sleeve is filled with easily fusible agent. Rod for fixing the shut-off member is introduced through open end of sleeve. Shut-off member is made in form of ball fitted at eccentricity exceeding or equal to 0.08-0.12 of diameter of ball relative to axis of straightway hole of body. Thickness of easily fusible agent is more than or equal to 0.12- 0.18 of diameter of ball. EFFECT: enhanced accuracy of operation of valve in temperature range. 5 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 safety drive device with a fusible insert (US patent N 4503675, CL F 16 K 17/40, 1985). The known device has an energy storage device and a movable drive element, displaced to a predetermined position by the energy storage device with increasing ambient temperature. The supporting element has a fusible insert made of a material whose temperature is much lower than the melting temperature of the supporting element. The carrier element selectively comes into contact with the drive element and prevents the latter from moving under the action of an energy storage device while the insert is in a solid state. An adjustable member connected to the drive member moves with it from one position in which the drive member mates with the carrier member to another position in which the drive member comes into contact with the stop. The stop limits the movement of the drive element after the insert is melted.

 The known device protects the gas pipeline in case of fire or other emergency situations, however, its design is cumbersome and complex.

 Also known automatic thermal valve according to US patent N 5472008, CL. F 16 K 17/40, 1995. The known automatic thermal valve comprises a housing in the cavity of which, opposite the passage opening, a shutter (locking element) is installed, loaded with a spring and equipped with a stopper and a fusible insert.

 A disadvantage of the known automatic thermal valve is the variation in the valve operating temperature.

 The known automatic thermal valve according to US patent N 5472008 can be adopted as a prototype, since it is the closest in terms of the achieved result to the claimed invention.

 The objective of the invention is to reduce the temperature range for valve actuation.

The technical result is achieved by the fact that in the known automatic thermal valve containing a housing, in the cavity of which, opposite the passage opening, a shutter (locking 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 hand, and a cut, and the fusible insert is in the form of a cup with two diametrically located grooves in which the walls of the washer cut are located, while the inner cavity of the cup is closed filled with a fusible substance, and through its open end a locking shutter (locking element) is withdrawn from the rod, and the shutter (locking element) is made in the form of a ball mounted with an eccentricity ε ≥ (0.08 - 0.12) D _w relative to the axis of the passage opening, and the thickness of the fusible substance in the glass cavity h ≥ (0.12 - 0.18) D _W , where D _W - the diameter of the ball.

 In FIG. 1 shows an automatic thermal valve (sectional view); in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - element of the thermal valve - stopper (in isometry); in FIG. 4 - element of the thermal valve - fusible insert (in isometry); in FIG. 5 is a plan view of FIG. 4.

The automatic thermal valve comprises a housing 1, in the cavity 2 of which, opposite the passage opening 3, a shutter (locking element) is installed in the form of a ball 4. Ball 4 is loaded with a spring 5 and is equipped with a stopper and a fusible insert. The stopper is made in the form of a washer 6 with spacer tabs 7 on one side and restrictive tabs 8 on the other and a cut 9. The fusible insert is made in the form of a cup 10 with two diametrically located grooves 11. In the grooves 11 are the cut walls 9 of the washer 6. The inner cavity of the cup 10 is filled with fusible substance 12, for example, Wood’s alloy, and through its open end 13 a rod 14 is passed, fixing the ball 4 in the open position. The ball 4 is installed in the cavity 2 of the housing 1 with an eccentricity ε ≥ (0.08 - 0.12) D _W relative to the axis of the through hole 3. The thickness of the fusible substance 12 in the cavity of the glass 10 h ≥ (0.12 - 0.18) D _W where D _W - the diameter of the ball. In the casing 1, on the inlet side, coaxial to the bore 3, there is installed a spring compressing element 5. In the casing 1, on the outlet side, and in the pressing element 15, the connecting threads 16 and 17 are made on the inlet side, respectively.

 Automatic thermal valve operates as follows.

In the initial (open position), the ball 4 is located between the rod 14 of the fuse-link and the limiting tabs 8 of the washer 6 with an offset ε ≥ (0.08 - 0.12) D _w relative to the axis of the through hole 3 of the housing 1, without blocking it. In an emergency, for example, when the temperature around the thermal valve rises due to a fire, the fusible insert releases the ball 4. This is because the fusible substance 12 located in the inner cavity of the glass 10 melts and flows out along the annular gap between the rod 14 and the walls of the glass 10. In this case, the rod 14 is included in the spine of the cup 10 and takes the 12th place freed from the fusible substance.This allows the ball 4 to move with a decrease in eccentricity and advance under the action of the spring 5 under the restrictive tabs 8 of the washer 6 until the passage opening 3 of the housing 1 overlaps. washers 6 in the closed position, even if the spring loses its force.

When using the alloy of Wood as the fusible substance, the proposed valve automatically shuts off the gas supply at 68 ^o C and remains practically airtight up to 650 ^o C.

Claims (1)

An automatic thermal valve comprising a body, in the cavity of which a shutter (locking element) is installed opposite the passage opening, loaded with a spring and equipped with a stopper and a fusible insert, characterized in that the stopper is made in the form of a washer with spacer tabs on one side and stop tabs on the other side and cut, and the fusible insert is in the form of a glass with two diametrically located grooves in which the washer cut walls are located, while the internal cavity of the glass is filled with fusible material, and h Res its open end deduced locking bolt (locking element) rod, wherein the bolt (locking member) is designed as a ball mounted eccentrically ε ≥ (0,08-0,12) D _W relative to the axis of the orifice and the thickness of the low-melting substance in cup cavity h≥ (0.12-0.18) D _Ш , where D _Ш - ball diameter.

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