RU2652011C1 - Explosion-proof device - Google Patents

Abstract

FIELD: explosion-proof devices.

SUBSTANCE: invention relates to explosion-proof devices and can be used for explosion protection of process equipment in the event of an emergency. Explosion-proof device with a rupture disk contains a body, a rupture element of the membrane type, lined load trim, movably connected to the body of the object to be protected. Movable connection of the lined load trim with the body of the object to be protected is made in the form of at least three guide rods, the middle part of which is movably disposed in the sleeves, fixed in the lined load trim, and the lower end of each of which is rigidly connected to the body by means of a flange. At the other end of the rods are fixed thrust plates, on which the explosion-proof elements of the explosion-proof device are fixed, damping effects of a shock blast coming through a hole of diameter Dy in the body of the protected object, in the event of an emergency. Body of the explosion-proof device is made in the form of a lower cylindrical part, an average conical part and an upper cylindrical part, and in the lower cylindrical part there is placed a lined load trim covering an opening with a diameter Dy in the body of the object to be protected, and a bursting disc assembly with a sealing gasket is secured to the upper cylindrical part of the explosion-proof device body by means of fastening elements. Lined load trim protects the explosion-proof unit from burning out in the event of a high temperature in the protected object. Between the explosion-proof elements and the lined load trim, fast-disintegrating elements, under the action of the primary impulse of the blast wave, made in the form of bushings that cover the guide rods. On the elements that are rapidly destroyed under the action of the primary impulse of the blast wave, sensors of the early warning phase warning system are fixed, made in the form of strain gages, the signals from which along the communication line enter the strain gage, and from it through the communication line to the warning system of the initial phase of the emergency. Explosion-proof element of the explosion-proof device is made in the form of an element which is fixed on the support rods to the stop plate by means of a damping base with screws, and a single-action bushing made of brittle, collapsible material is attached to the base, coaxially with the stem, by means of screws, for example porcelain, while the resilient part of the element is made in the form of at least three leaf springs, facing their convex part towards the axis of the rod, on which there is a threaded portion for fastening the clamping element of the bushing type with the grooves for fixing one of the ends of leaf springs, the other end of which is fixed in the damping base by means of injection polyurethane.

EFFECT: invention makes it possible to increase the efficiency and reliability of protection of technological equipment from explosions.

1 cl, 3 dwg

Description

The invention relates to explosion-proof devices and can be used for explosion protection of technological equipment in the event of an emergency.

The closest technical solution to the claimed object is an explosion-proof device according to the patent of the Russian Federation No. 2549751, F16D 3/04 (prototype), comprising a valve body, heat insulating and bursting elements, a lined cargo bolt, movably connected to the valve body, which is made in the form of a lower cylindrical, middle conical and upper cylindrical parts, and in the lower cylindrical part there is a lined cargo bolt covering the hole in the body of the protected object, and in the upper cylindrical part The valve mustache has a bursting disc fastener.

A disadvantage of the known solution is the relatively low reliability due to the fact that the flexible connections of fastening the lined cargo bolt to the housing of the explosion-proof device, made in the form of belts, work jerkily, with impacts, i.e. create additional dynamic loads on the device as a whole, which can lead to their breakdown.

The technical result is an increase in the efficiency and reliability of protection of technological equipment from explosions by attaching the lined cargo bolt to the body of the protected object by means of guide rods, which contribute to a more reliable and soft (without jerking and bumps) centering the shutter relative to the discharge opening.

This is achieved by the fact that in an explosion-proof device containing a housing, a bursting element of a membrane type, a lined cargo gate, movably connected to the housing of the protected object, the valve housing is made in the form of a lower cylindrical, middle conical and upper cylindrical parts, and in the lower cylindrical part a lined cargo lock is placed, covering the hole in the body of the protected object, and in the upper cylindrical part of the valve body there is a fastening element for the bursting element of the membranes of this type, the movable connection of the lined cargo bolt with the body of the protected object is made in the form of at least three guide rods, the middle part of which is movably placed in the bushings fixed in the lined cargo bolt, and the lower end of each of which is rigidly connected to the body via a flange, with on this other end of the rods are fixed thrust plates on which the explosion-proof elements of the explosion-proof device are fixed, damping the effects of the shock wave entering through a hole with a diameter of Dy in the body of the protected object, in case of emergencies, while the body of the explosion-proof device is made in the form of a lower cylindrical part, a middle conical part and an upper cylindrical part, and a lined cargo lock is placed in the lower cylindrical part, covering the hole with a diameter of Dy in the case protected object, and to the upper cylindrical part of the housing of the explosion-proof device is attached a bursting disc assembly with a sealing gasket by means of fasteners, while the lined cargo gate protects the housing of the explosion-proof device from burning out in case of high temperature in the protected object, and between the explosion-proof elements and the lined cargo gate fast-breaking elements are installed under the influence of the initial impulse of the blast wave, made in the form of bushings covering the guide rods, and quickly breaking under the impact of the primary impulse of the blast wave elements are fixed sensors of the warning system of the initial phase of emergency in the form of strain gages, the signals from which are transmitted via the communication line to the strain gauge, and from it via the communication line to the warning system unit of the emergency emergency phase, according to the invention

the explosion-proof element of the explosion-proof device is made in the form of an element that is attached to the support rods to the thrust plate by means of a damping base with screws, and a disposable sleeve made of brittle, collapsing material, such as porcelain, is elasticly attached to the base, coaxially with the rod, by screws part of the element is made in the form of at least three leaf springs facing their convex part towards the axis of the rod, on which there is a threaded section for cre Lenia clamping sleeve-type element with grooves for fixing one end of the leaf spring, the other end of which is fixed to the base by injection-damping polyurethane.

In FIG. 1 shows a general view of an explosion-proof device with a lined cargo bolt fastened to the body of the protected object by means of guide rods, FIG. 2, 3 - embodiments of the explosion-proof element of the explosion-proof device.

An explosion-proof device (Fig. 1) with a bursting disc 7 is mounted on the housing 1 of the protected object and contains a lined cargo gate 2, movably connected to the housing 1 of the protected object by means of at least three guide rods 10, the middle part of which is movably placed in the bushings 16 fixed in the lined cargo lock 2, and the lower end of each of which is rigidly connected to the housing 1 by means of a flange 11, while on the other end of the rods are fixed thrust plates 12, on which the explosion is fixed shield elements 13 of the explosion-proof device, damping the effect of the shock wave entering through the hole 9 with a diameter Dy in the housing 1 of the protected object, in case of emergency.

The housing of the explosion-proof device is made in the form of a lower cylindrical part 3, a middle conical part 4 and an upper cylindrical part 5, and a lined cargo gate 2 is placed in the lower cylindrical part, covering the hole 9 with a diameter Dy in the housing 1 of the protected object. A bursting disc assembly 7 with a sealing gasket 6 is fastened to the upper cylindrical part 5 of the housing of the explosion-proof device by means of fasteners 8. In this case, the lined cargo gate 2 protects the housing of the explosion-proof device from burning in case of high temperature in the protected object. Between the explosion-proof elements 13 and the lined cargo lock 2, elements 14 are made that quickly collapse under the influence of the primary impulse of the blast wave. They are made in the form of bushings covering the guide rods 10. Porcelain, triplex glass and other brittle materials are used as the sleeve material, the strength of which is calculated to the primary impulse of a blast wave. Sensors 15 of the emergency phase warning system, made in the form of strain gauges, are fastened to elements 14 that quickly decay under the influence of a primary pulse of a blast wave and are made in the form of strain gauges, signals from which are sent through strain-line amplifier 18 to voltage amplifier 18, and from it through communication line 19 to block 20 of the initial phase warning system Emergency.

Bursting membranes are usually made from sheet metal of ductile metals such as aluminum, nickel, stainless steel, brass, copper, titanium, monel, as well as asbestos, etc. The use of asbestos is justified by the high temperature inside the equipment, i.e. in case of explosion protection of furnaces, furnaces and other high temperature reactors.

Explosion-proof device with a bursting disc operates as follows.

Emergency explosive pressure in the protected object acts on the lined cargo lock 2 through an opening 9 of diameter Dy in the housing 1 of the protected object. In this case, the lined cargo lock 2 is lifted along the guide rods 10 and the emergency phase warning system is activated due to rapidly breaking elements 14. At explosive pressure, the bursting membrane 7 also experiences tensile strains and ruptures, thereby ensuring a full opening of the bore 9 of the diameter Dy in the housing 1 protected object and the release of high pressure into the atmosphere, which protects the object from destruction.

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 scope of their possible application.

In FIG. 2 shows an embodiment of an explosion-proof element 13 of an explosion-proof device.

The explosion-proof element 13 of the explosion-proof device (Fig. 2) is made in the form of a package of plate-shaped elastic elements 22, movably based on the guide rods 10 and mounted on the thrust plate 12. The package of plate-shaped elastic elements contains a round base 21, which by means of at least two pins 23 is movable located on the rod 10, while one end of the pin 23 is rigidly fixed to the thrust plate 12, and the other enters with a gap in the hole 24, made in the base 21, and is fixed by means of a nut 25. To the bottom of the base 21 rigidly and coaxially attached to it is a cylindrical cup with a cavity and a hole through which the rod 10 passes with a gap. The rod 10 movably enters the sleeve 16 installed in the lined cargo bolt 2, and into the cavity of the cylindrical glass with a hole through which the gap passes rod 10. The cavity of the cylindrical glass is filled with vibration damping material with a stiffness less than the stiffness of the package of disk-shaped elastic elements 22, for example, polyurethane.

The pack of disk-shaped elastic elements 22 is located, with slight compression, between the thrust plate 12 and the round base 21. On the outer surface of the pin 23, a sleeve 26 (Fig. 2) is mounted coaxially and axisymmetrically from a rapidly breaking material, such as glass, such as triplex, which the duplicating function of the "weak link" in the security system and on which a sensor in the form of a strain gauge is also fixed, which is part of the emergency phase warning system (not shown).

A variant is possible (Fig. 3) when the explosion-proof element 13 of the explosion-proof device is made in the form of an element that is mounted on the support rods 28 to the thrust plate 12 by means of a damping base 29 with screws 30. To the base 29 coaxially to the rod 28 is attached via a flange 33 with screws 34 a sleeve 32 single-use action made of brittle, collapsing material, such as porcelain. The elastic part of the element is made in the form of at least three leaf springs 31 facing their convex part towards the axis of the rod 28, on which there is a threaded section 37 (thread with a small pitch) for fastening the clamping element 35 of the sleeve type with grooves 36 for fixing one of ends of leaf springs 31, the other end of which is fixed in the damping base 29 by injection molding polyurethane.

Claims (1)

An explosion-proof device comprising a housing, a membrane-type bursting element, a lined cargo gate, movably connected to the body of the protected object, while the valve body is made in the form of a lower cylindrical, middle conical and upper cylindrical parts, and a lined cargo gate is located in the lower cylindrical part, overlapping a hole in the body of the protected object, and in the upper cylindrical part of the valve body there is a mounting unit for the breaking element of the membrane type, a movable joint The lining of the lined cargo bolt with the body of the protected object is made in the form of at least three guide rods, the middle part of which is movably placed in the bushings fixed in the lined cargo bolt, and the lower end of each of which is rigidly connected to the housing by means of a flange, while on the other end thrust plates are fixed on which the explosion-proof elements of the explosion-proof device are fixed, damping the effect of the shock wave entering through an opening with a diameter of Dy in the case of the protected object, in the event of an emergency, the case of the explosion-proof device is made in the form of a lower cylindrical part, a middle conical part and an upper cylindrical part, and a lined cargo lock is placed in the lower cylindrical part, covering the hole with a diameter of Dy in the body of the protected object, and a bursting disc assembly with a sealing gasket is fastened to the upper cylindrical part of the housing of the explosion-proof device by means of fasteners, while the lined load a howling shutter protects the housing of the explosion-proof device from burning out in case of high temperature in the protected object, and between the explosion-proof elements and the lined cargo gate fast-breaking elements are installed, made in the form of bushings covering the guide rods, and quickly breaking under the influence of the primary pulse blast wave elements are fixed sensors of the emergency phase warning system, made in the form of strain gages, signal the channels from which are fed through the communication line to the strain gauge, and from it via the communication line to the emergency phase warning system unit, characterized in that the explosion-proof element of the explosion-proof device is made in the form of an element that is mounted on the support rods to the thrust plate by means of a damping base with screws, and to the base, coaxially to the rod, a single-use sleeve made of brittle collapsing material, such as porcelain, is attached by means of a flange with screws to the rod, while the elastic part of the element is made in the form of at least three leaf springs facing their convex part towards the axis of the rod, on which there is a threaded section for fixing the clamping element of the sleeve type with grooves for fixing one of the ends of the leaf springs, the other end of which is fixed in the damping base by injection molding polyurethane.

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