DE1800524A1 - Spring-loaded pressure relief valve, especially for pressure rooms - Google Patents

Description

Spring-loaded pressure relief valve, especially for pressure rooms

The invention relates to a spring-loaded pressure relief valve, especially for pressure chambers, with a locking piece designed as a differential piston, its in the closing direction pressurizable 'differential surface delimits a room, which is connected to the pressure chamber via at least one control line.

According to the regulations of the safety authorities, the pressure in pressure accumulators must not exceed the operating pressure by more than $ 10 increase if, in the event of a failure of the device connected to the pressure accumulator, such as a hydraulic control device, the full delivery of the pressure medium pump must be discharged via the pressure relief valve.

Experience has shown that with the usual known spring-loaded safety valves, the closing bodies of which are equipped with a throttle cone to achieve stable behavior up to full opening, a pressure increase of significantly more than 10 $> of the operating pressure occurs.

Spring-loaded poppet valves without a throttle cone, if the clear width of the through ' opening the mentioned, linked to the pressure increase Condition, however, impermissible vibrations occur with these valves, which lead to dangerous pressure fluctuations and lead to unbearable noise.

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So-called pilot operated safety valves have also become known, which do not have the disadvantages of the aforementioned normal safety valves. The pilot operated safety valves are e.g. equipped with a differential piston, the larger piston area of which in normal operating conditions is in a so-called back pressure chamber is acted upon by the pressure of the pressure medium in the closing direction ("Konstruktions", 1961, page 381). By means of an auxiliary control mechanism that responds to the desired overpressure, for example a small indicator piston or a ball valve, is either the connection to the counter-pressure chamber interrupted or the counter-pressure chamber connected to the drain or both measures carried out at the same time, so that only the smaller piston area of the differential piston, specifically in the opening direction, is acted upon and thus the valve completely opens.

However, it has been shown that. the relatively small auxiliary control unit tends to malfunction even with the slightest soiling.

It is also a safety valve equipped with a differential piston known, in which iron provided with a throttle line is provided, on the one hand with the pressure chamber, on the other hand with the space delimited by the differential area of the closure piece in through the control edge controlled or in constant communication, the space in turn via a throttle hole in constant or in through the control edge controlled connection with a space lower pressure than in that limited by the differential areas Space is available (German patent specification 1 254 925).

With such safety valves it is possible to keep the pressure increase below the officially prescribed maximum value. However, the softer the spring is ^l formed with the aim to further reduce the resultant of the pressure increasing pressure difference, the more prone the valves sum platters when the inlet and Abströmungsöffnungen in. Eggs are open equilateral by the controlled differential area limited space and especially if they are also used as a poppet valve

009820/0277,

are designed without a throttle cone or as a piston slide valve.

The present invention is based on the object of creating a pressure relief valve in which the pressure increase in the pressure chamber when the pressure pump is fully supplied by the pressure relief valve alone does not amount to more than 10 i » and which does not have the disadvantages of the known valves, such as the tendency to chatter having.

The invention solves the problem that in an initially the valve described, the space limited by the differential area is only in connection with the pressure space and the or each control line opens on the pressure chamber side in an area in which the greatest outflow velocity when the valve responds from the pressure chamber prevails.

When the valve is closed, there is a difference in area limited space the same pressure as in the pressure space. This pressure acts in addition to the springs in the closing direction the differential piston, now opens with a corresponding Pressure increase in the pressure chamber of the differential piston a little, initially like a normal valve with stable characteristics, then the medium begins to flow out of the pressure chamber through the released gap. Since, according to Bernoulli, the sum of the kinetic and potential energy always remains constant, the potential energy is converted into velocity energy and it If the pressure drops at the end of the control line on the pressure chamber side and thus the pressure on the differential area, whereby the The differential piston suddenly opens completely. After the impermissible overpressure has been released and there is pressure in the pressure chamber below the pressure corresponding to the spring force, the valve begins to close until the outlet opening again is closed and no operating medium is flowing out. At this moment the operating pressure of the medium is fully up again the differential area is effective, the valve closes tightly. The behavior of the valve is completely stable at every operating point and there is no vibration or flutter. By

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Appropriate dimensioning of the differential area in coordination with the spring constant of the compression spring makes it easy to keep both the pressure increase and the pressure decrease below 10 $> the response pressure until the valve closes.

The control line can be arranged in the valve housing or in the closure piece. Generally it is for manufacturing reasons an arrangement of the control line in the locking piece is preferable. In the case of a closure piece designed as a seat valve, the Control line expediently directly within the interior | edge of the substantially circular or the lateral surface of a truncated cone forming sealing surfaces between the housing and the closure piece. If the closure piece is a cup-shaped, with its cavity facing the pressure vessel piston valve with essentially radial outflow openings, such as holes, slots or the like. formed, then each opens according to a very advantageous development of the invention Control line on the pressure chamber side in the wall of an outflow opening which runs essentially radially to the piston valve, namely preferably in the wall area that first reaches the outflow channel in the valve housing when the valve is opened. Usually it is sufficient if a single control line is provided.

\ The invention is explained in more detail below with reference to two exemplary embodiments shown in the drawing.

In it shows

Pig. 1 designed as a seat valve in longitudinal section Pressure relief valve and

Fig. 2 in longitudinal section the lower part of a with

a pressure relief valve equipped with a piston valve.

In the exemplary embodiment according to FIG. 1, a closure piece 2 designed as a differential piston is longitudinally displaceable in the valve housing 1 stored and is by means of a compression spring 3 against

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she pressed 4 of the locking piece.

the annular seat 4 of the locking piece pressed. The tension of the spring 3 can be changed by the screw 5. The space 6 is in direct connection with the pressure space to be secured, not shown. The annular differential surface 7 of the differential piston 2 delimits a cylinder space 8 in the housing, from which a control line 9 leads, which opens into space 6 within the inner edge of the seat 4. When the valve is closed, the cylinder space 8 is therefore under the same pressure as the space 6, ie as the pressure space to be protected, so that the differential surface 7 is pressurized with pressure medium in the closing direction. This closing force complements that of the spring 3 to form the response pressure. If the closure piece 2 is now raised when the response pressure in the pressure chamber is exceeded, the pressure medium flows out of the pressure chamber via the chamber 6 into the outflow annulus 10 and further into the outflow channel 11. The greatest outflow velocity occurs at the transition from the space 6 to the annular space 10, i.e. in the area of the sealing surface 4 and the mouth of the control line 9 The stopper suddenly opens completely. During the closing process, on the other hand, the pressure in the annular space 8 builds up again immediately after the valve is closed, which results in a very stable valve characteristic. In the control line 9 there is preferably a throttle point 9 ^! provided, which also counteracts flutter.

In the embodiment according to FIG. 2, the differential piston is 12 designed as a cup-shaped piston valve with a cylindrical sealing surface 13. The one from the by the difference area 7 limited cylinder space 8 leading control line 9 is arranged in this variant in the closure piece 12 and opens into the wall area that first reaches the outflow annulus 10 when it is opened of the outflow openings 14 in the closure piece 12. It is the part 9 ″ of the control line is also designed here as a throttle. A stop nut for the locking piece 12 is designated by 15. The area of the greatest outflow velocity is in the upper area of the inner wall of the outflow bore 14, where the control line 9 opens.

Heidenheim ^ en September 25, 1968

JB / Srö Y> j) 009820/0277

Claims (6)

ap / A 2887 J »M. VcfiS password: "Safety valve II" Heidenheim / Brenz patent claims 1. Spring-loaded pressure relief valve, especially for pressure spaces, with a locking piece designed as a differential piston, whose differential area, which can be pressurized in the closing direction, delimits a tree that is connected to the pressure space over at least ^ a control line is connected, characterized in that that the space delimited by the differential area is only connected to the pressure space and the or 3ede control line On the pressure chamber side opens into an area in which the greatest outflow velocity when the valve responds from the pressure chamber prevails. 2. Pressure relief valve according to claim 1, characterized in that the control line runs within the valve housing. 3. Pressure relief valve according to claim 1, characterized in that the control line runs within the closure piece. 4 · Overpressure valve according to one of claims 1 to 3 with a Closure piece designed as a seat valve, characterized in that the control line is located directly inside the inner edge 'The sealing surface which is essentially circular or which forms the outer surface of a truncated cone between Housing and closure piece opens. Q09820 / 0277 5. Overpressure valve after. Claim 3 »whose closure piece as cup-shaped piston valve with its cavity facing the pressure vessel and essentially radially extending Outflow openings, such as bores, slots or the like., Is formed, characterized in that each control line On the pressure chamber side, it opens into the wall of an outflow opening which extends essentially radially to the piston valve. 6. Pressure relief valve according to claim 5, characterized in that the control line on the pressure chamber side in the first reaching the outflow channel iin valve housing when the valve is opened
Wall area of the discharge opening opens into the closure piece. Heidenheiiiii ^ Tten 25.9.1968
JB / Srö \ J < 00 9820/027 7 Lee on the side