RU2659595C2 - Kochetov method for explosion protection with system alerting of initial stage of emergency situations - Google Patents

Abstract

FIELD: explosion protection methods.

SUBSTANCE: invention relates to explosion-proof devices and can be used for explosion protection of process equipment. This method for explosion protection with system alerting of initial stage of emergency situations consists in that the valve body, the lined load gate is movably connected to the valve body by at least three flexible connections, and the rupturing element is made in the form of a membrane safety device, in the valve body, a circular diaphragm is installed having a central hole and with three other holes located in its peripheral part, wherein in the upper part of the lined load gate, which is covered with an armored layer, a rod is arranged axially to the valve body, and between the lower part of the circular diaphragm and the upper part of the lined cargo gate there is a bushing made from of fragile material that is coaxially fixed to the support rod, whose strength is calculated for a certain overpressure in the valve, further, a safety indicator in the form of a strain gage is fixed on the lateral surface of the fast-breaking bushing, signals from the safety indicator is directed to the strain gage, and from the strain gage to the alarm system unit to alert of an emergency.

EFFECT: increased efficiency and reliability of protection of technological equipment from explosions.

1 cl, 1 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. 130657, F16D 3/04 (prototype), comprising a valve body, heat insulating and bursting elements, a lined cargo lock, movably connected to the valve body through at least three flexible connections, for example in the form of chains, one end of which is pivotally connected to the valve body, and the other is pivotally connected to the cargo lock, while the valve body is made in the form of a lower cylindrical, middle conical and upper cylindrical tion portions, wherein the lower cylindrical portion disposed lined cargo gate overlying the opening in the housing of the protected object, and in the upper cylindrical portion of the valve body is placed securing the bursting disc assembly.

A disadvantage of the known solution is the relatively low reliability due to the fact that flexible connections made in the form of chains operate jerkily, with blows, i.e. create additional dynamic loads on the device as a whole, which can lead to their breakdown, as well as that which is not fixed by means of personnel alerts when the initial phase of an emergency occurs.

EFFECT: increased efficiency and reliability of protection of technological equipment from explosions in the event of an emergency by registering the moment of occurrence of the initial phase of emergency situations by means of personnel notification.

This is achieved by the fact that in the explosion protection method with a warning system of the initial phase of an emergency, which consists in the fact that the valve body, the lined cargo bolt are movably connected to the valve body through at least three flexible connections, and the bursting element is made in the form of a membrane safety device, and in the valve body, in its cylindrical part adjacent to the conical part of the valve, a round diaphragm is installed with a central hole and with at least three holes laid in its peripheral part, while in the upper part, covered with an armored layer, the lined cargo bolt axially symmetrically to the valve body, a rod is fixed with its lower part, the upper part of which is located in the central aperture of the diaphragm, and between the lower part of the circular diaphragm and the upper part of the lined cargo bolt, on the support rod, a sleeve of rapidly breaking material, for example, triplex glass, is installed coaxially to it, the strength of which is calculated for a certain excess pressure in the valve, and a safety indicator in the form of a strain gauge is fixed on the side surface of the rapidly collapsing sleeve, and the signal from it is sent through the communication line to the strain gauge, and from the strain gauge to the emergency warning system unit.

The drawing shows a device for implementing the explosion protection method with a warning system of the initial phase of an emergency.

The device for implementing the explosion protection method with a warning system for the initial phase of an emergency is made with a bursting disc 7, which is installed on the housing 1 of the protected object and contains a lined cargo gate 2, movably connected to the valve housing 3 through at least three flexible connections, for example in the form of chains 9, one end of which is pivotally connected to the valve body 3, and the other is pivotally connected to the cargo valve 2. The valve body 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 lock 2 is placed in the lower cylindrical part, covering the hole with a diameter Dy in the body 1 of the protected object. A node 6 of the bursting disc 7 is fastened to the upper cylindrical part 5 of the valve body by means of fasteners 8. The shutter 2 does not provide a tight seal for the discharge opening of the protected apparatus 1, it lies freely on it, and slightly loosened chains 9 serve only to center the shutter 2, t. e. to prevent its large displacements relative to the discharge opening, and the lined cargo lock 2 protects the valve body from burning in case of high temperature in the protected device. To obtain the highest explosion protection efficiency of industrial equipment, the explosion protection valve has parameters that are in the following optimal ranges of values: a = D / Dy = 1.5 ÷ 2.0; where Dy is the diameter of the upper cylindrical part 5 of the valve body, equal to the maximum size of the hole of the body 1 of the protected object; D is the diameter of the lower cylindrical part 3 of the valve body.

In the valve body 1, in its cylindrical part 3, adjacent to the conical part 4 of the valve, a circular diaphragm 10 is installed with a central hole 16 and with at least three holes 11 located in its peripheral part. In the upper part, covered with an armored layer 15, of the lined cargo lock 2, axisymmetrically to the valve body 1, a rod 13 is fixed with its lower part, the upper part of which is located in the central hole 16 of the diaphragm 10.

Between the lower part of the circular diaphragm 10 and the upper part of the lined cargo bolt 2, on the support rod 13, a sleeve 12 of quick-breaking material, for example triplex glass, whose strength is designed for a certain overpressure in the valve, is installed coaxially to it. On the side surface of the rapidly collapsing sleeve 12, a safety indicator 14 is fixed in the form of a strain gauge, the signal from which is transmitted through the communication line 17 to the strain gauge 18, and from it to the emergency warning system unit 19, which allows taking appropriate measures to prevent the initial phase of an emergency .

The method of explosion protection with a warning system of the initial phase of an emergency is as follows.

The pressure in the protected device acts on the shutter 2, which closes the inlet opening leakingly and with a rapid increase in pressure, it can rise up as far as the length of the chains holding it 9 allows.

When the excess pressure in the valve is exceeded, the sleeve 12 loses stability, breaking up into separate parts, and the safety indicator 14 is activated, the signal from which through the communication line 17 enters the strain gauge amplifier 18, and from it to the emergency warning system 19, which allows taking appropriate measures to prevent the initial phase of an emergency.

Bursting membranes 7 are usually made of sheet metal of ductile metals such as aluminum, nickel, stainless steel, brass, copper, titanium, monel.

Claims (1)

Explosion protection method with a warning system for the initial phase of an emergency, which consists in the fact that the valve body, lined cargo gate are movably connected to the valve body through at least three flexible connections, and the bursting element is in the form of a membrane safety device, characterized in that in the case the valve, in its cylindrical part bordering the conical part of the valve, set a circular diaphragm with a Central hole and with at least three holes, located in its peripheral part, while in the upper part covered with an armored layer of the lined cargo lock, the rod is fixed axisymmetrically to the valve body with its lower part, the upper part of which is located in the central aperture of the diaphragm, and between the lower part of the circular diaphragm and the upper part of the lined cargo shutter the support rod is coaxially mounted with a sleeve of rapidly breaking material, for example, triplex glass, the strength of which is calculated for a certain excess pressure a safety indicator in the form of a strain gauge, and the signal from it is sent via a communication line to the strain gauge, and from the strain gauge to the emergency warning system unit.

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