RU2317462C1 - Destructible diaphragm - Google Patents

Abstract

FIELD: fluid-pressure engineering.

SUBSTANCE: destructible diaphragm comprises disk secured over periphery. The disk has a thickening in the central part. The grooves are made over periphery of the thickening and are formed of split rings with straight line end sections that form a flexible radial cross-pieces in the peripheral section of the disk. The cross-pieces are distributed uniformly. The additional straight line grooves connect the ring grooves one to the other through the center of the disk. The diameter and thickness of the disk are determined form the equations proposed.

EFFECT: enhanced reliability.

1 cl, 3 dwg

Description

The invention relates to safety devices and can be used in pneumatic and hydraulic systems in case of emergency pressure increase.

Known analogues, structurally performed in the form of membrane and valve devices that protect the pneumatic and hydraulic systems.

Known safety valve according to the author's certificate of the USSR No. 289245 from 11.28.68, IPC ⁶ F16K 17/40, publication 08.12.70. The valve comprises a metal membrane fixed in the body in the form of a disk, an actuator for its destruction, made in the form of a piston equipped with sealing and heat-shielding elements, a cavity for discharging the working medium in a cage nut, in which a chipper is installed coaxially, and outlet channels for the working medium are made. The design of the device has elements for capturing the cut membrane and piston, as well as damping the impact of the piston.

The disadvantages of the design of this analogue include the unreliability of operation due to the presence of a movable sealed piston, which, in case of accidental impacts along the axis of the device, can spontaneously cut the membrane. When the device is activated, the central part of the membrane is separated from its contour, fixed in the housing to ensure tightness, and forms a splinter that can be deformed and brought into the output channel by the flow of the working medium with further closure of this channel. This result is most likely when using a dense and viscous working environment, such as greases. In addition, the device does not provide a stable pressure for the destruction of the membrane due to the possible slip of the working medium through the sealing elements of the piston, and also due to the dispersion of both the mechanical characteristics of the material used to manufacture the membrane and the force of its compression against the housing. Reliable tightness of the membrane is achieved only if stresses in the area of plastic deformation are realized in places of mechanical contact with the housing and sealing elements in the membrane material. However, for a membrane, this is equivalent to an inconsistent in size incision and thinning, leading to instability of the pressure of its destruction.

Known destructible membrane according to the author's certificate of the USSR No. 496415 from 07.15.74, IPC ⁶ F16K 17/16, publication 12.25.75, B.I. No. 47. The membrane is made in the form of a continuous disk equipped with a localizing pad with an internal cutout in the form of a petal contour, which ensures its local destruction.

The disadvantage of this analogue is also the unreliability of the operation of the structure, caused not only by the possibility of blocking the outlet channel by the central part, which is detached from the membrane contour fixed in the housing to ensure tightness, and the implementation of the same inconsistent in size of its notch and thinning, but also by the complexity of the exact execution of the petal contour in the localizing overlay. In addition, the hole formed during the destruction of the membrane has a shape characteristic of sections with high hydrodynamic resistance. As a result of this, the design does not provide both stability of the membrane destruction pressure and capacity at the expiration of the working medium through this hole.

Devices with membranes that fail without the formation of fragments should be considered more reliable.

Known destructible membrane according to the patent of the Russian Federation No. 2018757 from 11.11.90, IPC ⁶ F16K 17/40, publication 30.08.94, B.I. No. 16. This membrane is made in the form of a disk, fixed along the contour in the cage and provided with a localizing patch in the form of a support ring, while the disk has a groove overlapped by the support ring, the disk is made with a thickening in the central part, and a groove in the form of an incomplete ring is made along the perimeter of the thickening with straight end portions forming a flexible radial jumper in the peripheral part of the disk. When the specified pressure is reached, the membrane breaks through the annular groove, the depth of which forms the necessary degree of reduction in the thickness of the disk, bends along the radial bridge and hangs on it without forming fragments. This quality of the design gives it the main advantage, so it is taken as a prototype.

The disadvantage of the design of the prototype is its complexity due to the presence of a threaded connection, clips and localizing pads. In general, this device is also characterized by low response reliability due to instability of the membrane destruction pressure due to the strong dependence of this value on the dispersion of the mechanical characteristics of the material used to manufacture the membrane and the thickness of the disk, which is realized at the point of thinning along the bottom of the annular groove. In addition, to ensure the possibility of complete deflection of the membrane along the radial bridge, the presence of a free cavity, similar in shape to a cylindrical one, is required for the membrane to break through. The diameter and height of this cavity must exceed the total value of the diameter of the annular groove and the length of the radial bridge. In the absence of such a cavity, the membrane gets stuck in an indefinite position and due to this it does not bend completely. As a result, the design does not satisfy the requirements for reliability of operation, since the stability of the pressure of the destruction of the membrane and the throughput of the formed hole is not ensured.

The technical task of the present invention is to develop a device with a membrane that is destroyed without the formation of fragments from a given pressure and provides a constant throughput of the formed hole.

The technical result consists in increasing the reliability of operation of the device by increasing the stability of the pressure of the destruction of the membrane and the throughput of the hole formed during its destruction, to ensure ease of manufacture and without fragmentation of the membrane, in the compact design of the device.

The technical result is achieved by the fact that in the known destructible membrane, made in the form of a disk, fixed along the contour, the disk is made with a thickening in the central part, and a groove in the form of an incomplete ring with straight end sections forming a flexible radial jumper in the peripheral part is made along the perimeter of the thickening disk according to the invention:

a) on the radius of passage of the annular groove, at least one flexible radial bridge formed by rectilinear end sections is additionally made;

b) jumpers are evenly distributed;

c) additional rectilinear grooves are made connecting the annular grooves to each other through the center of the disk;

d) the diameter and thickness of the disk in its central part and in places of thinning along the bottoms of the annular and additional grooves are selected from the condition of providing a given pressure for the destruction of the membrane and the throughput of the hole formed.

In addition, annular and additional grooves in depth can be made stepwise.

Performing at least one flexible radial jumper formed by rectilinear end sections on the radius of passage of the annular groove, uniform distribution of the jumpers and the execution of additional rectilinear grooves connecting the annular grooves to each other through the center of the disk, together provide for the formation of several identical parts when the membrane is destroyed. of which it bends along its radial jumper and freezes on it without forming fragments.

The presence of annular and additional rectilinear grooves allows you to streamline the process of membrane destruction. In this case, the onset of destruction occurs first along the straight grooves, propagating from the center of the disk, and then along the annular grooves, propagating already from the straight grooves to the radial bridges. It should be noted that after the destruction of the membrane along straight grooves, the resistance of its material to further destruction does not actually increase, but decreases in proportion to the change in the force section area when passing through cracks from straight grooves to radial bridges. This circumstance provides a more stable membrane fracture pressure and a constant throughput of the formed hole.

To ensure the complete deflection of each part of the membrane along the radial jumpers, a free cavity, similar in shape to a cylindrical one, is required for the membrane to break through. However, in this case, the height of this cavity can be reduced in comparison with the prototype almost twice.

The achievement of the specified technical result is also facilitated by the choice of the diameter and thickness of the disk in its central part and in the places of thinning along the bottoms of the annular and additional grooves from the condition of ensuring the specified pressure for the destruction of the membrane and the throughput of the hole formed.

The execution of annular and additional grooves in depth stepwise facilitates their manufacture by stamping. In this case, wider grooves can be made first, but to a lesser depth. After that, narrower grooves in their final form can be made from thickened bottoms of wider grooves with minimum values of both material deformation and spread over the required thickness in places of thinning. Due to this, a more stable membrane destruction pressure and a constant throughput of the formed hole are ensured.

As a result, the design of the proposed device provides increased reliability of operation due to a more stable pressure of membrane destruction without the formation of fragments and maintaining a constant throughput of the formed hole. In addition, the device becomes more simple and compact.

Figure 1 and 2 presents diagrams of embodiments of the inventive device with one additional radial jumper.

In both versions, the membrane 1 is fixed along the contour with the help of elements 2 and 3. Two flexible radial jumpers Ж, И are made on the diameter d, forming annular grooves A and B with straight end sections respectively B, G and D, E. Additionally, two are made rectilinear grooves K connecting the midpoints of the annular grooves A and B to each other through the center of the membrane 1. In this case, the grooves K connecting the midpoints of the annular grooves A and B with the center of the membrane 1, practically form one rectilinear groove having twice the length . Grooves A, B and K are made to provide depth H and thickness h at the points of thinning along the bottoms.

The embodiment of the grooves A, B and K, presented in figure 2, is recommended for their manufacture by stamping. In this case, each annular and rectilinear grooves are made in depth H with one step. In this first performed their wide upper parts respectively secured thickness h _1, and then the narrow lower portion secured final groove depth H and the thickness h in the field of necking bottoms of the grooves.

Figure 3 presents a diagram of an embodiment of the inventive device with two additional radial jumpers.

In this case, three flexible radial jumpers Ж, И, And _{1 are} formed on the diameter d, forming annular grooves A, B, and B ₁ with rectilinear end sections, respectively, B, D, then D, E, and G ₁ , E ₁ . In addition, three straight grooves K are made, connecting the middle of the annular grooves A, B and B ₁ with each other through the center of the membrane 1. The annular and straight grooves are made with depth H and thickness h at the points of thinning along the bottoms.

For all three options presented on figure 1, 2 and 3:

a) the shape of the bottoms in sections at a depth h is depicted simplistically flat across the entire width of the grooves, but can be made with radial rounding or in the form of a wedge;

b) the diameter d, the thickness H of the membrane in its central part and the thickness h at the places of thinning along the bottoms of the grooves are selected from the condition of ensuring the specified pressure for the destruction of the membrane and the throughput of the hole formed;

c) the membrane 1 isolates from each other the cavity L and M;

d) the working medium located in the cavity A and the hole formed during the destruction of the membrane are not shown.

Destructible membranes shown in figures 1, 2 and 3, work as follows.

When exposed to pressure of the working medium in the cavity L to a level less than specified, the membrane 1 isolates the cavity L from the cavity M.

In the case of achieving a given pressure of the working medium, the deflection of the membrane 1 in its central part first leads to destruction along the bottoms of the straight grooves K, and then on the bottoms of the annular grooves. After that, the thickened central parts of the membrane 1 bend each separately along its flexible radial bridge J, I, I ₁ and hang on them without forming fragments.

In the process of testing this device for the manufacture of the membrane, the aluminum alloy AMts GOST 4784-97 was used. All grooves were made by stamping with one step. The mining results confirm the high efficiency and reliability of the device in a temperature difference from minus 60 to plus 60 ° C.

With repeated experiments with the device triggering from the pressure of the working medium in the form of a grease after the destruction of the membrane:

a) confirmed the feasibility and necessity of choosing the diameter and thickness of the disk in its central part and in places of thinning along the bottoms of the annular and additional grooves from the condition of ensuring the specified pressure of the destruction of the membrane and the throughput of the hole formed;

b) the formation of fragments or stuck parts of the membrane in an indefinite position of the output channel is not fixed;

c) the pressure of the destruction of the membrane and the throughput of the formed holes are stable.

Thus, the proposed design allows to solve the task of developing a device with a membrane that is destroyed without the formation of fragments from a given pressure.

The technical result consists in increasing the reliability of operation of the device by increasing the stability of the pressure of the destruction of the membrane and the throughput of the hole formed during its destruction, to ensure ease of manufacture and without fragmentation of the membrane, in the compact design of the device.

Claims (2)

1. Destructible membrane made in the form of a disk mounted along the contour, the disk is made with a thickening in the central part, and a groove in the form of an incomplete ring with straight end sections forming a flexible radial jumper in the peripheral part of the disk is made along the perimeter of the thickening, characterized in that on the radius of passage of the annular groove, at least one flexible radial jumper formed by rectilinear end sections is additionally made, the jumpers are evenly distributed, also completed linear rectilinear grooves connecting the annular grooves to each other through the center of the disk, while the diameter and thickness of the disk in its central part and in the places of thinning along the bottoms of the annular and additional grooves are selected from the condition of providing a given membrane fracture pressure and throughput of the hole formed. 2. Destructible membrane according to claim 1, characterized in that the annular and additional grooves in depth are made stepwise.

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