RU2646253C1 - Explosive-proof valve with the emergency situation notification system - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building and can be used for explosion protection of process equipment. Explosion-proof valve with emergency annunciation system includes a valve body, a gate valve, heat-insulating and rupture elements, and a lined load gate valve, movably connected to the valve body. Attachment assembly of the blast element is fixed with its upper part on the lever and with its lower part on upper cylindrical part of the valve body. Rupture element mounting assembly consists of wire, locking bolt, fork, valve cover lever, nuts, two drums, located respectively in fork of valve cover plate lever and in upper cylindrical part of valve body. Lined load gate movable connection with valve body base is made in form of three rods vertically installed in the holes made in the peripheral part of the body of the lined load gate. Inside the resilient elements, coaxial to them, there are additional resilient elements, for example, made in the form of cylindrical helical springs. Their upper end is connected to the damping device base, and the lower one is in a free (non-pressed) state and protrudes beyond resilient elements bottom plane at distance defined by force, generated with impact blast wave. In the damping device, coaxially embracing the resilient spring elements and not protruding beyond their lower surface, to the base of the damping device, made of rigid vibration damping material such as "Agate", bushing is attached, made of fast-breaking material, such as glass of "triplex" type. To the outer surface of this bushing a safety indicator is attached, which responds to the occurrence of the emergency situation, for example, in the form of a responsive to deformation sensor, such as a strain gage, which output is connected to a signal amplifier, for example a strain gage amplifier. Strain gage amplifier output is connected to the input of the emergency notification system. Rupture element attachment unit is additionally provided with a backup safety indicator fixed on the wire and responding to the occurrence of an emergency situation, performed in the form of a sensor, responsive to deformation, such as resistive strain gage, which output is connected to the signal amplifier, strain gage amplifier, and the output of the strain gage amplifier is connected to the input of the general emergency situation notification device.

EFFECT: invention makes it possible to increase the process equipment protection efficiency in the event of an emergency (ES).

1 cl, 3 dwg

Description

The invention relates to mechanical engineering and can be used for explosion protection of technological equipment.

The closest technical solution to the claimed object is an explosion-proof valve according to the patent of Russian Federation No. 2379569, F16D 3/04 (prototype), containing a valve body, a shutter, heat insulating and explosive elements.

A disadvantage of the known solution is the relatively low reliability of operation of the lined cargo bolt during the propagation of a shock wave.

The technical result is an increase in the efficiency of protection of technological equipment from an emergency (ES).

This is achieved by the fact that in an explosion-proof valve with an emergency warning system comprising a valve body, heat-insulating and bursting elements, a lined cargo bolt movably connected to the valve body, the fastening element of the bursting element is fastened with its upper part to the lever and the lower to the upper cylindrical parts of the valve body, while the fastening element of the bursting element consists of a wire, a locking bolt, a fork, a valve cover lever, a nut, two drums located respectively in the fork aha of the valve cover, and in the plug of the upper cylindrical part of the valve body, and the movable connection of the lined cargo bolt with the base of the valve body is made in the form of three vertically mounted rods in holes made in the peripheral part of the body of the lined cargo bolt, located inside the elastic elements, additional elastic elements, for example, made in the form of coil springs, with their upper end connected to the base of the damping device, and the lower is in a free (unpressed) state and protrudes beyond the lower plane of the elastic elements by a distance determined by the force developed by the shock wave, while in the damping device, coaxially covering the elastic spring elements and not protruding beyond their lower surface, to the base of the damping device made from a hard vibration-damping material of the Agat type, a sleeve is attached made of rapidly breaking material, for example glass, of the Triplex type, and to the outer surface of this sleeve and attached safety indicator, responsive to occurrence of an emergency, for example made in the form of a sensor responsive to the strain gage type, whose output is connected with a signal amplifier, such as strain amplifier and an output connected to the strain amplifier system input device of the emergency alert.

In FIG. 1 shows a front section of an explosion-proof valve; FIG. 2 - attachment of the bursting element, in FIG. 3 is a diagram of a damping device.

The explosion-proof valve with an emergency warning system contains a housing 3 (Fig. 1), which is made in the form of a lower cylindrical, middle conical and upper cylindrical parts, with a lined cargo lock 2 located in the lower cylindrical part, covering the hole with a diameter of Dy in the housing 1 of the protected object . In the upper cylindrical part of the valve body 3 there is a heat-insulating element 4 and a sealing membrane 5 pressed to the valve body by means of a cover 6, pivotally connected to the lever 8 interacting with the fender 7. The fastening element 9 of the bursting element (wire 18) is mounted with its upper part on the lever 8, and the lower - to the upper cylindrical part of the valve body 3 (Fig. 2). The fastening element of the bursting element consists of a wire 18, a locking bolt 13, a plug 14, a lever 15 of the valve cover, a nut 16 and two drums 17 located respectively in the fork 14 of the lever 15 of the valve cover and in the fork of the upper cylindrical part of the valve body 3. The ends of the wire 18 are inserted into the holes of the drums and then wound on them when they are rotated with a conventional wrench. After sufficient wire tension, the drums 17 are fixed with locking bolts 13. It is important to note that the valve operating pressure depends only on the strength of the wire 18 and does not depend on its tension. So that valve actuation is not preceded by large plastic deformations of the wire, its length and, consequently, the clearance h should be minimal. The gap h should be of the order of (l, 5 ÷ 3) d, where d is the diameter of the wire.

An explosion-proof valve with an emergency warning system is installed on the body 19 of the protected object by means of fasteners 20 and contains a lined cargo gate 2, movably connected to the base 1 of the valve body 3.

The movable connection of the lined cargo bolt 2 with the base 1 of the valve body is made in the form of three vertically mounted rods 10 in the holes made in the peripheral part of the body of the lined cargo bolt 2. The lower part of the rods 10 are fixed in the base 1 of the valve body, and in the upper part a damping device 11, mounted on horizontal bridges 12 of the rods 10, and facing the load gate 2.

Each of the three damping devices 11 (Fig. 3) is mounted on a horizontal jumper 12, rigidly connected to the rod 10 and made in the form of a circular disk, on which the base 21 of the damping device made of a hard vibration-damping material of the Agat type is fixed by screws 22, which is connected to a sleeve 23 of an elastomer having a central hole through which the rod 10 passes. The sleeve has at least three holes 24 coaxial with the rod 10 in which elastic elements 25 are located, for example, indricheskie coil springs, whose upper end by fasteners 26 connected to the base 21 of the damping device, and the bottom - is in the (nepodzhatom) state and protrudes beyond the bottom plane of the sleeve 23 on the distance determined forces developed explosive shock wave.

The explosion-proof valve with an emergency warning system operates as follows.

The pressure in the device to be protected acts on the cover 6, since the shutter 2 closes the inlet and is leaky and can rapidly rise with a rapid increase in pressure, and the insulating layer 4 is porous. When the valve is activated, the cover 6 is thrown as far as it will go into the bumpers 7, the backfill 4 is ejected from the valve cavity by the gas flow, and the shutter 2 is lifted up as far as the length of the holding rods 10 allows, while the partial absorption of explosive energy falls on damping devices 11 mounted on horizontal jumpers 12. In this case, elastic elements 25 are first compressed, for example, cylindrical coil springs, the lower ends of which are in a free (unpressed) state, and then the hubs extinguish the explosion energy 23 from an elastomer, for example injection molded polyurethane together with elastic elements 25, in addition to damping in the material of the bushings 23, there is also dry friction of the elastic elements 25 against the side surfaces of the holes 24 located in the bushings 23 of the elastomer.

Inside the elastic elements 25, additional elastic elements 27 are coaxially located, for example, made in the form of coil springs, while their upper end is connected to the base 21 of the damping device, and the lower end is in a free (unpressed) state and protrudes beyond the lower plane of the elastic elements 25 to a distance determined by the force developed by the shock wave. This allows you to more evenly absorb the energy of the shock wave. The introduction of additional elastic elements 27, for example, made in the form of cylindrical coil springs, allows more evenly absorb the energy of the shock wave.

It is possible that in the damping device 11, coaxially covering the elastic spring elements 25 and 27, and not protruding beyond their lower surface, a sleeve 23 made of quick-breaking material is attached to the base 21 of the damping device made of a rigid vibration-damping material such as “Agate” such as glass, such as triplex. A safety indicator 28 is attached to the outer surface of this sleeve 23, responding to an emergency, made, for example, in the form of a sensor that responds to deformation, such as a strain gauge (strain gauge), the output of which is connected to a signal amplifier, such as a strain gauge 29, and the output of a strain gauge 29 connected to the input of the emergency warning device 30.

A variant is possible when the fastening element of the discontinuous element (Fig. 2) is additionally equipped with a backup safety indicator mounted on the wire 18, responding to an emergency, and made in the form of a sensor that responds to deformation, such as a strain gauge (strain gauge), the output of which is also connected with a signal amplifier, a strain gauge 29, and the output of the strain gauge 29 is connected to the input of the device of the general warning system 30 about an emergency.

The introduction of a duplicate safety indicator significantly increases the safety of technological processes and increases the likelihood of a quick response of the relevant service to an emergency.

For chemical and other related industries, the products of which are valuable and extremely harmful to the environment, the condition of complete tightness should be considered as a priority, largely determining the area of their possible application.

Claims (1)

An explosion-proof valve with an emergency warning system, comprising a valve body, heat insulating and bursting elements, a lined cargo bolt movably connected to the valve body, the fastening element of the bursting element is fixed with its upper part on the lever, and the lower one - to the upper cylindrical part of the valve body, the fastening element of the bursting element consists of a wire, a locking bolt, a fork, a valve cover lever, a nut, two drums located respectively in a valve cover lever fork and in a fork the upper cylindrical part of the valve body, and the movable connection of the lined cargo bolt with the base of the valve body is made in the form of three vertically mounted rods in holes made in the peripheral part of the body of the lined cargo shutter, and additional elastic elements, for example, made in in the form of cylindrical coil springs, while their upper end is connected to the base of the damping device, and the lower one is in free (not volume) and protrudes beyond the lower plane of the elastic elements by a distance determined by the force developed by the shock wave, while in the damping device, coaxially covering the elastic spring elements and not protruding beyond their lower surface, to the base of the damping device made of hard vibration damping material type "Agate", a sleeve is attached made of rapidly decaying material, such as glass, of the type "triplex", and a safety indicator is attached to the outer surface of this sleeve emergency response, made, for example, in the form of a sensor that responds to deformation, such as a strain gauge, the output of which is connected to a signal amplifier, such as a strain gauge, and the output of the strain gauge is connected to the input of the emergency warning system device, characterized in that the assembly the fastening of the discontinuous element is additionally equipped with a backup safety indicator mounted on the wire and responding to an emergency, made in the form of a sensor, a strain gauge, such as a strain gauge, the output of which is connected to a signal amplifier, a strain gauge, and the output of a strain gauge is connected to the input of a general emergency warning system device.

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