DE1750822B2 - Safety valve for compressed air systems - Google Patents

Description

The invention relates to a safety valve for compressed air systems, with one with the atmosphere in unrestricted connection standing outside air chamber, to which a through one in this chamber displaceably mounted valve closure body loaded by a control spring and belonging to a shut-off valve closable compressed air supply duct opens, the mouth of the compressed air supply duct of two concentrically arranged, belonging to the shut-off valve and a common one Flat valve seal made of elastic material surround cooperating valve seats is and in the annular surface between the two valve seats a throttled vent channel for Atmosphere.

Safety valves are already known which have a differential piston designed by the control spring have switching element acted upon against the pressure to be monitored. These safety valves are with a gate valve for monitoring the outlet and an auxiliary valve for controlling a Change of the pneumatic pressure surface of the differential piston in a certain stroke position fitted.

At the beginning of an opening stroke, the gate valve only gives one in these safety valves small outflow cross-section free; if this is not sufficient to blow off the excessive pressure, then after the opening stroke has been increased, the auxiliary slide is reversed and thereby an enlargement the impact surface of the differential piston acting in the opening direction. Of the The gate valve is then opened by a large stroke against the force of the control spring shifted and releases a large outflow cross-section. However, these safety valves are with suffers from the defect that the gate valve has to perform long strokes and therefore the control spring to to keep their strength fairly constant, to be soft and long. Furthermore are in the production difficult tolerance dimensions to be precisely adhered to, since the spatially far apart control edges of the Gate valve and the auxiliary valve on both the movable and the safety valve parts fixed to the housing in their relative position to each other

Determine the switching behavior of the safety valve.

There are also safety valves (DTPS 7 27 415 and 9 16 171) known with two concentric valve seats; in these arrangements, the valve seat and valve seal of the inner and outer valves are located in different heights, which is why the safety valve works precisely during production Such constructions several tolerance dimensions must be adhered to very precisely. This leads to additional Difficulties in manufacturing.

Also known are safety valves (FR-PS 14 (X) 811), which two with an elastic sealing surface have cooperating valve seats. Deformations occur here that are not in the construction are taken into account and therefore disadvantages due to the leakage of the inner valve under pressure medium load such as greater switching hysteresis, switching inaccuracy and susceptibility to hum.

Based on this, the object of the invention is to provide a safety valve of the type mentioned at the beginning to create, in which the control spring can be made relatively hard and short and in which Manufacturing only a single tolerance dimension has to be observed in a simple manner.

The solution to this problem is characterized in that the inner valve seat in the outer valve seat Direction to the valve seal protrudes.

The two valve seats can be moved in one operation and therefore with very precise relative positions produce each other in a simple manner; because the other parts of the safety valve in their tolerance dimensions are not critical, a simple and inexpensive manufacture of the safety valve is possible. Since then the shut-off valves to their full opening only a relatively small stroke of the inside of the The valve closure body located in the safety valve can require a hard and therefore short control spring can be used so that the whole safety valve can be made small in size

The extent to which the inner valve seat moves the outer valve seat towards the valve seal towers above, depends on structural or operational conditions, such as the response pressure of the safety valve, of the desired throttling effect, of which influencing the blow-off characteristics Compressed air volume, the choice of rubber-elastic material, etc.

The invention is described below using an exemplary embodiment with reference to the drawing explained.

F i g. 1 is a longitudinal sectional view of the safety valve;

F i g. 2 is an enlarged detail view of the two valve seats showing the one on the valve seal inner valve seat applied in contact;

F i g. 3 is one of the F i g. 2 comparable single view showing the valve seats at atmospheric pressure and

4 is a FIGS. 2 and 3 comparable Individual view showing the valve seats at increased pressure within the compressed air supply channel.

The generally cylindrical safety valve has a bottom section 1, which is centered by a compressed air supply duct to be connected to the compressed air system to be monitored (not shown) 2 is interspersed. The mouth of the compressed air supply channel 2 inside the valve is made up of two concentrated

Irish arranged valve seats 3 and 4 surrounded. The inner valve seat 3 protrudes beyond the outer valve seat 4 surrounding it by a small amount A (FIGS. 2 to 4). In the annular surface 5 between the two valve seats

3 and 4 opens a small cross-section and therefore throttling ventilation duct 6, which leads to one of the Valve interior facing, with some distance lying radially outside of the outer valve seat 4 point of the bottom section 1 leads and don opens into the valve interior. The two valve seats 3 and

4 faces a common valve seal 7 in the form of a sealing ring. The one made of rubber-elastic The sealing ring made of material is on the outer bottom surface of a cup-shaped valve closure body 8 attached. The valve closure body is axially displaceable in a cylindrical housing part 9 stored. At the level of the valve seats 3 and 4, the cylindrical housing part 9 has a large cross-section Opening 10, which connects the Ventiiinnenraum with the atmosphere. The floor section 1 remote end of the housing part 9 is provided with an external thread 11, with which a pot-like Closure cap 12 is screwed. The bottom of the valve closure body 8 is with a in the direction of Closure cap 12 provided protruding mandrel 13 on which a spring plate 14 rests. Between the Spring plate 14 and the bottom of the cap 12, a control spring 15 is clamped. The rule pen 15 receiving space 16 is through the closure cap 12 penetrating openings 17 with the atmosphere tied together.

The mode of operation of the safety valve is as follows: If there is atmospheric pressure inside the compressed air supply channel 2, then the state shown in FIG is pressed into the rubber-elastic valve seal 7 and this is not deformed. The outer valve seat 4 protruding by the dimension A from the inner valve seat 3 is pressed into the valve seal to a lesser extent than the valve seat 3.

If the pressure on the valve closure body 8 increases in the compressed air supply channel 2, they are on the valve closure body acting forces increasingly balanced, resulting in a reduced contact pressure of the valve seal. The figures shown in FIG. 4 illustrated relationships. The immediate The annular indentation point of the valve seat 3 exposed to the increasing air pressure into the rubber-elastic one Valve seal 7 is pressed, which results in a leak at this point. It will only a small amount of compressed air through the leaking shut-off valve 3.7, via the space 5 'above the Annular surface 5, over the small cross-sectional ventilation channel 6, the annular valve interior 10 "and over the opening 10 is blown into the atmosphere.

This amount of compressed air, which is blown off by the shut-off valve 3, 7 (Fig. 4), which is becoming leaky at high pressure, reaches the space 5 'with a pressure loss, so that the shut-off valve 4, which has a seat height that is lower by the dimension A, remains tight , 7

ίο initially no compressed air can escape.

As a result of the exhaust air volume throttled by the small cross-sectional ventilation duct 6, builds up due to a slight, further increase in pressure: in space 5 'a dynamic pressure that begins Valve closure body 8 against the force of the control spring 15 in the opening direction of the shut-off valves 3, 7 and 4, 7 to raise. The shut-off valve 3, 7 and the effective pressure application area then open is around the ring surface 5 opposite

increasing area of the valve seal, so that the valve closure body 8 against the force of the Control spring 15 quickly until the shut-off valve 3, 7 and also the shut-off valve 4, 7 open completely is raised.

The shut-off valves 3, 7 remain due to the back pressure that persists below the valve closure body 8 and 4.7 open. If the air pressure in the compressed air supply duct 2 falls below the response pressure of the safety valve, then the force of the control spring 15 and the valve closure body predominates slowly pressed in the closing direction of the shut-off valves 3, 7 and 4, 7. Initially, through the almost closing shut-off valve 3, 7 (Fig. 2) a strong throttling of the outflowing amount of compressed air causes a reduction in the dynamic pressure in space 5 '. Through this Reduction of the back pressure caused by the ventilation duct 6 and the shut-off valve, which is still slightly open 4, 7 is reduced, and by the reduction associated with the closing of the shut-off valve 3, 7 the application area between the two valve seats 3 and 4, the control spring 15 is capable of Valve closure body 8 also to close the shut-off valve 4, 7, the valve seat 3 being stronger than the tight adjacent valve seat 4 is pressed into the rubber-elastic valve seal 7. This is the initial state according to FIG. 3 reached again.

The degree A of the slight elevation of the inner valve seat 3 compared to the outer valve seat 4 depends on structural conditions or given operating conditions, such as the response pressure of the safety valve, the desired throttling effect, the compressed air volume influencing the blow-off characteristics and similar factors.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Safety valve for compressed air systems, with an outside air chamber in unthrottled connection with the atmosphere, at which opens a compressed air supply channel which can be closed by a valve closure body which is displaceably mounted in this chamber and which is loaded by a control spring and which belongs to a shut-off valve, with the opening of the compressed air supply channel being two concentrically arranged valve seats belonging to the shut-off valve and working together with a common flat valve seal made of rubber-elastic material is surrounded and a throttled ventilation duct opens into the atmosphere between the two valve seats, characterized in that the inner valve seat (3) the outer valve seat (4) protrudes towards the valve seal (7).