CN103133733A - Reverse-arched type rupture disc capable of accurately controlling rupture pressure - Google Patents

Abstract

The invention discloses a reverse-arched type rupture disc capable of accurately controlling rupture pressure. The reverse-arched type rupture disc capable of accurately controlling rupture pressure comprises a reverse-arched spherical surface rupture membrane (1). The ratio of the height (H) of the reverse-arched spherical surface to the diameter (D) of the reverse-arched spherical surface is in a range of a quarter to one-sixth, and a triangle conical concave pit (2) is formed in the center structural point of the height rupture membrane arch surface, wherein D is the diameter of the arch surface, and H is the height of the arch surface. According to the reverse-arched type rupture disc capable of accurately controlling rupture pressure, the concave pit is formed in the center structural point at the top of the arched surface of the reverse-arched type rupture disc, and pre-stabilization of pressure is carried out. The maximum allowable deviation, relative to the standardized rupture pressure, of the practical test rupture pressure of the rupture disc, namely rupture pressure allowance deviation, can be less than or equal to 2 percent and meet the national standard that the rupture pressure allowance deviation is less than or equal to 5 percent. Even if slight injuries are generated at any position of the arched surface, the fact that rupture is carried out within the designed pressure range can be ensured. Meanwhile, sensibility of clamp force to the rupture pressure and sensibility of injuries during operation and installation are reduced.

Description

Energy is the counter-arch shaped blasting piece of controlled blasting pressure accurately

Technical field

The present invention relates to a kind of safety installations that is widely used in the devices such as oil, chemical industry, chemical fertilizer, medicine, metallurgy, air-conditioning and fluid pressure device superpressure preventing safety relief.

Background technique

Rupture disk is the important safety of pressurized container, pipeline.It can the regulation temperature and pressure under explosion, relieving pressure, support equipment safety installations.When breaking out of fire or other accidents, after main pressure relief device was opened, available rupture disk was as additional pressure relief device.The working medium that can be used in pressurized container or pipeline has viscosity or is easy to crystallization, polymerization, easily with valve clack of safety valve with base sticks or the place of blocking safety valve; Material chemical reaction in pressurized container may make container inner pressure moment safety valve that sharply rises can not in time open the place of pressure release; Working medium in pressurized container or pipeline is hypertoxic gas or expensive gases, may exist with safety valve and leak the place that causes environmental pollution and waste; The expedite place of milli when pressurized container and pressure piping require all to release or all release, and other are not suitable for safety valve and are applicable to the place of rupture disk.

Rupture disk is divided into four classifications by the difference of failure mode and material: plate, positive arch form, counter-arch shaped and graphite mould.Graphite mould is mainly used in deep-etching and low-pressure occasion.The combination property of plate rupture disk is relatively poor, is mainly used in low pressure and super-low voltage operating mode, especially large-sized silo.Positive arch form and counter-arch shaped application are more.For traditional domed rupture disk, it is the spherical vault of being made with the method for hydraulic pressure or pneumatic forming by ductile metal.Between the arch of rupture disk and flanging, a fillet is arranged, this fillet size is consistent with the fillet on supported flange.When rupture disk was arranged on pressurized container, its concave surface was towards protected container one side, and when system overpressure reached the regulation bursting pressure of rupture disk, rupture disk explosion under two-way action of pulling stress such as axle such as grade was released the pressure of system.Its working principle is to utilize the tensile strength of material to come controlled blasting pressure, and the arch outgoing direction of rupture disk is consistent with the pressure-acting direction.In use find, all there is identical limitation in all domed rupture disks: because the center thickness of rupture disk is weakened intentionally, be easy to shift to an earlier date explosion because of tired; Operation pressure can not surpass 65% of rupture disk minimum burst pressure.Caused thus the appearance of counter-arch shaped blasting piece.Its installation direction of this rupture disk is opposite with domed rupture disk, and the vault convex surface is towards protected container, i.e. the convex surface pressurized.When pressure reached the regulation bursting pressure, the vault warpage unstability of convex surface and upset were in the past.Its working principle is to utilize the compressive strength of material to control its bursting pressure, and explosion mechanism is unstable failure.Than traditional domed rupture disk, a pressurized, not tension during its work, almost there is no permanent deformation before the unstability upset, therefore can bear alternative cycle pressure, have that anti-fatigue performance is good, operation pressure is high, pressure can reach the advantage of its minimum burst pressure more than 90%.The bursting pressure of this rupture disk is also relevant with the radius of curvature of rupture disk vault simultaneously, and the radius of curvature that therefore changes a little vault just can be adjusted the bursting pressure of rupture disk.This is fully impossible to domed rupture disk.Counter-arch shaped blasting piece mainly comprises antiarch band cutter type, antiarch band grooved, antiarch antiarch jaw type etc., and can adopt knife rest, forms bleed outlets along various ways such as score line, band profile of tooth blade annular or combination shapes.

Although counter-arch shaped blasting piece has many advantages, but because its thickness is generally smaller, so its arch face very easily impaired (for example being flattened), rupture disk can shift to an earlier date unstability (namely occur unstability upset) experiment and showed under normal bursting pressure lower than it this moment, and the arch face pit is very large on the buckling pressure impact of counter-arch shaped blasting piece.Rupture disk that diameter is 500mm for example is to shrivel when forming a diameter and being about the pit of 40mm when arch face by the people, and its buckling pressure is down to 0.012MPa by original 0.04MPa.If the counter-arch shaped blasting piece arch face sustains damage, owing to shifting to an earlier date unstability, the energy of rupture disk unstability counter-rotating is reduced, just can not cause brokenly immediately the serious consequence of (medium of namely can not releasing does not reach relieving pressure).The low pressure explosion sheet is affected by clamping force also easily simultaneously, causes bursting pressure unstable.

Summary of the invention

The objective of the invention is for prior art Shortcomings part, even provide a kind of slight injured in its arch face arbitrary position after, all can guarantee explosion in the design pressure scope, and accurate controlled blasting pressure, the bursting pressure franchise can reach≤2% counter-arch shaped blasting piece.

Technical solution of the present invention can reach by following measures: the counter-arch shaped blasting piece of the accurate controlled blasting pressure of a kind of energy, has an antiarch shape sphere rupture disk (1), it is characterized in that, described antiarch shape sphere H/D ratio is 1/4～1/6, antiarch shape sphere rupture disk arch face center is shaped with a triangular pyramidal pit (2), and pit tapering α is 50 ° ~ 90 °, and pit depth h is pit diameter d/4 ~ d/20, wherein, D is that arch face diameter, H are the arch face height.

The present invention has following beneficial effect than prior art.

The present invention adopts the precondition that carries out pressure at antiarch shape rupture disk arch face (the H/D ratio is 1/4～1/6) top center processing one pit, the receptance of having damaged when having reduced clamping force to the receptance of bursting pressure and operation, installation.By adjusting pit diameter d, pit tapering α (controlling by the mould tapering), fillet r and degree of depth h, can realize the accurate control to bursting pressure.Prove by experiment bursting pressure franchise of the present invention can reach≤2%, less than the regulation of NBS≤5%, obviously be better than NBS.Even after adopting the present invention slight injured due to any reason in its arch face arbitrary position, all can guarantee explosion in the design pressure scope.And it is little to have inertia, the advantage that can react rapidly to the pressure that sharply raises.

Description of drawings

Fig. 1 is the accurately plan view of the counter-arch shaped blasting piece of controlled blasting pressure of the present invention.

Fig. 2 is the plan view of Fig. 1.

Fig. 3 is the explosion mechanism figure of antiarch shape rupture disk.

In figure: 1 antiarch shape rupture disk, the system point of 2 rupture disk arch faces.

Embodiment

In the embodiment of the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy that Fig. 1, Fig. 2 describe, the antiarch shape sphere H/D ratio of this antiarch shape rupture disk 1 is 1/4～1/6, and rupture disk arch face division center point is shaped with a triangular pyramidal pit 2.System point is positioned at rupture disk arch face top center.This counter-arch shaped blasting piece can be selected any in antiarch shape rupture disk type, main material: Austenitic Stainless Steel, inconel, Hastelloy, Monel, aluminium, nickel, titanium etc.During the manufacturing, first the ductile metal sheet is made a H/D than the rupture disk of arch face shape that is about 1/4～1/6 height with the method for hydraulic pressure or pneumatic forming, then use mould at convex surface top center position processing one triangular pyramidal pit 2, the rupture disk product of producing like this, bursting pressure is accurate, even arch face is subjected to slight wound, also can guarantees explosion in the design pressure scope, and can reduce clamping force to the receptance of bursting pressure.Load p when upset occurs the rupture disk pressurized is decided by the compressive strength (elastic modulus E) of material, with the close association such as radius of curvature, arch face diameter D, arch face height H, diaphragm thickness δ and edge-restraint condition of tinsel circular arch part, directly relevant with system point pit diameter d, pit tapering α, fillet r and degree of depth h size.Pit tapering α can be 50 ° ~ 90 °, and pit depth h can be pit diameter d/4 ~ d/20.In the situation that the tinsel circular arch is certain, by adjusting accurately controlled blasting pressure of system point pit diameter d, pit tapering α, fillet r and degree of depth h, realized promptly and accurately explosion in the design pressure scope, guarantee the safe operation of pressure system equipment.Because the upset load p of every kind of antiarch shape rupture disk and diaphragm thickness δ and edge-restraint condition have certain proportionate relationship.Generally under diaphragm thickness δ and the certain prerequisite of arch face diameter D, by adjusting the radius of curvature of vault, namely adjust arch face height H value and can control bursting pressure.Under diaphragm thickness δ, arch face diameter D and the certain prerequisite of arch face height H, can control bursting pressure by adjusting vault division center point pit diameter d, pit tapering α, fillet r and degree of depth h.Experiment shows: pit diameter d, pit tapering α, fillet r and degree of depth h value are larger, and the bursting pressure value is less.The pit diameter d adjustment range of system point can be arch face diameter D/5 ~ D/15.System point fillet r adjustment range can be D/2 ~ D/5.

Adjustment for the system point pit, can there be certain potential energy to open after taking into account the rupture disk upset, the medium of can releasing, general pit diameter d can adjust at D/5 ~ D/15, pit tapering α can be 50 ° ~ 90 ° scope adjustment, fillet r can adjust at D/2 ~ D/5, and pit depth h can adjust in d/4 ~ d/20 scope.

Experiment shows: the difference of antiarch shape rupture disk vault construction point groove position is also different on the impact of bursting pressure.If arch face is divided into three parts, at pit diameter d, pit tapering α, fillet r and degree of depth h one regularly, in the diaphragm dome central position, pit is set the bursting pressure value is had the greatest impact.When the vault center was impaired, bursting pressure reduced approximately 50%; Arch face 1/2 place is when impaired, and bursting pressure reduces approximately 40%, and damaged area more the great explosion pressure decreased is larger.Above-mentioned size is take millimeter as unit.

Consult Fig. 3.Counter-arch shaped blasting piece belongs to the compression-type rupture disk, is applicable to mesolow, bears the operating mode of back pressure or pulsating load.The work of counter-arch shaped blasting piece is based on Euler's curved bar principle: they encircle to the pressurized direction.When reaching bursting pressure, vertical curved relieving pressure occurs in rupture disk.The ductile metal thin slice pressurize in advance be arch form and when mounted arch face (convex surface) towards the rupture disk of compression-side.Produce the upset distortion because of unstability during superpressure.Rupture disk is used for preventing that the obturators such as pressurized container, pipe-line system, passage from causing the safety installations of breakage because of overvoltage or negative pressure.On pressurized container and pipe arrangement, setting when interior pressure raises extremely, discharges interior the pressure by destroying this low-intensity part, with protection container and pipe arrangement lower than the part (low intensity points) of pressurized container and pipe arrangement intensity.Rupture disk the pressurized container that prevents the various factories such as chemical plant and nuclear power station, machine, pipe arrangement etc. because of extremely boost or chemical reaction boost etc. identical with safety valve aspect the purposes of causing danger, but have more advantage aspect the danger that causes, viscous fluid bonding preventing that combustibility, toxicity, rare gas and radioactive fluid from leaking.

Claims (5)

1. the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy, has an antiarch shape sphere rupture disk (1), it is characterized in that, described antiarch shape sphere H/D ratio is 1/4～1/6, height rupture disk arch face division center point is shaped with a triangular pyramidal pit (2), and pit tapering α is 50 ° ~ 90 °, and pit depth h is pit diameter d/4 ~ d/20, wherein, D is that arch face diameter, H are the arch face height.

2. the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy as claimed in claim 1, is characterized in that, described rupture disk is any in antiarch shape rupture disk.

3. the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy as claimed in claim 1, is characterized in that, described system point is positioned at rupture disk arch face top center.

4. the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy as claimed in claim 1, is characterized in that, the pit diameter d adjustment range of described system point is arch face diameter D/5 ~ D/15.

5. the counter-arch shaped blasting piece of the accurate controlled blasting pressure of energy as claimed in claim 1, is characterized in that, described system point fillet r adjustment range is D/2 ~ D/5.

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