DE1808882A1 - Check valve with additional actuation device - Google Patents

Description

Check valve with additional actuator Dic invention relates to a check valve with an additional actuating device. That Check valve described is known between a pressure or vacuum generator and a pressure or vacuum consumer and / or a pressure or vacuum collector arranged. It causes the generation of pressure or negative pressure in the event of failure or interruption pressure relief or venting or ventilation in the connection system on the generator side (inflow side), while in the consumer-side system (outflow side) the existing Pressure ratios are maintained.

In the case of portable and mobile small compressors, this is done economically and weight reasons, own low design of the used drive means power. Therefore, the low drive torque is usually not enough, a compressor or vacuum unit against an existing pressure in the line system to the consumer or collector or To start the vacuum again. It is known that this difficulty can be eliminated by venting the outflow side of the check valve. With this relief of the system through ventilation on the consumer side, the stored pressure or negative pressure energy lost, resulting in an uneconomical loss of power and time means. One solution, while retaining the stored pressure energies, would be a venting of the consumer side of the compressor by installing an electro-magnetic Valve between pressure generator and check valve. For reasons of price increase and increased susceptibility to failure of small units, however, in practice this will result mcistens refrain.

The subject of the invention described below allows on to dispense with the attachment of such a complex additional part.

With the basic operation of the present check valve, for the Illustration of the open flow path in the line system between Pressure generator and consumers, a secondary operation is coupled.

This secondary control works in the open, i.e. working position of the valve body (3) the closure of a ventilation channel, however, in the rest position (Fig. 1) of the valve body (3) one or more ventilation channels or outflow bores (6a) can be opened.

In the first embodiment shown in FIG. 1, the movable Valve body (3) and its piston-like guide part (8a) have a through-channel (4), which opens into the outflow space (5). The Abatrömraum (5) is through the hole (7) in the piston guide part (2) and the outflow bore (6a) with the non-system space, e.g. connected to the free atmosphere.

opens the valve to take its working position, so is through the sliding piston guide part (8a) the outflow hole (7) closed. When the pressure generation ceases, the valve body (3) goes into the rest position return. There is initially the same high pressure in and outflow until through the open discharge hole (7) and hole (6a) the pressure-relieving vent becomes effective, and only on the inflow side. The delivery rate-dependent response threshold of the valve and the speed of the venting process is determined by the dimensioning the constriction (12) or the calibration of one of the bores (7) or (6a) determined. This also applies mutatis mutandis to the following exemplary embodiments.

Another embodiment is shown in FIG. 2. The piston-like Guide part (8b) carries the pushed-on sealing ring (10), which when the valve is at rest does not cover the outflow bore (6b), but it does so when the valve is in the working position locks. The piston-like guide part (8b) has a bearing surface (9) by means of that the loose sealing ring (10) is sufficiently removed from the discharge hole when the valve is at rest (6b) is lifted, while on the other hand the spring device (11) for fixed and tight fit of the sealing ring (103 when the valve is in the working position.

Another exemplary embodiment can be seen in FIG. 3. Serves here again the piston-like sliding guide part (8e) for covering or releasing the Drain hole (6c). The area of the piston-like guide part (8c) that is not when closing the outflow bore (6c) is effective, has a reduction in the Outside diameter, whereby the space (14) is formed. This annular space (14) with the cavity (15) and one or more transverse openings (16) or recesses form the normal flow path in the working position of the valve body (3).

The previous three explanations show examples when using one Printing mcdiums. The following are two versions for cases where negative pressure prevails on the producer side, described. Even when creating a vacuum can in the connection system between the pump unit and consumer at standstill of the pump drive prevent high negative pressure from restarting the system. Fig. 4 shows an embodiment for the ventilation of the vacuum system on the generator side, while maintaining the high negative pressure prevailing on the consumer side.

There is a slight modification to this exemplary embodiment in FIG. 4 the example from FIG. 1 is the basis. The working vacuum has been reached in the valve; the valve body (3) is lifted to open and the guide part (8d) holds the ventilation opening (6d) closed. If the vacuum generation fails and the valve body decreases (3) In the rest position, the ventilation opening (6d) is exposed.

A modification of the Fig. ' 3, in the event that there is negative pressure, shows the embodiment in Fig. 5. In the slide for the piston-like One or more small ventilation openings (6e) are attached to the valve guide part (8e). The dimensioning of these openings is chosen so that when the pump set is started up the creation of the negative pressure is not prevented. The valve speaks when it is reached of the intended negative pressure values, then with the lifting valve body (3) and the associated guide part (8e), the ventilation openings (6e) closed0 The annular space (14) and in the guide part (8 () the transverse openings (16c) and the cavity (15e) form the path for the extracted Nedica.

Claims (7)

P a t e n t a n 8 p r ü c h e 1. Check valve with additional actuating device, the particular in the rest position phase, the pressure equalization between the upstream pressure or vacuum system and the non-system space, e.g. the free atmosphere, without Influencing the outflow-side system, characterized in that the movable Valve body (3) or a part (8a, Sb, 8c) connected to it in valve rest position a venting path, e.g. a hole (6a, 6b, 6c) keeps open, but this closes in valve working position. 2. Check valve according to claim 1, characterized thereby, - that the valve body (3) and its piston-like guide part (8a) have a through-channel - (4) hst, which ends in an abatrom space (5). 3. Check valve according to claim 1 and 2, characterized in that that the outflow space (5) via the outflow bore (7) in the piston guide insert (2) and the bore (6a) in the valve housing (1) to the free atmosphere Has. 4. Check valve according to claim l to 3, characterized in that that the piston-like guide part (8a) (8c) of the valve body (3) directly as sliding closure part for the outflow bore (7) and (6c) is used. 5. Check valve with additional actuator according to claim 1, characterized in that the piston-like guide part (8b) is a pushed-on Sealing ring (10) carries with which the opening or closing of the discharge hole (6b) takes place. 6. Check valve according to claim 1 and 5, characterized in that that the piston-like guide part (8b) on the one hand has an annular bearing surface (9) has with which the loose sealing ring (10) from the outflow bore (6b); opening this, is lifted and on the other hand, the spring device (11) carries, which is in the open Working position of the valve body (3) the sealing ring (10) on the outflow hole (6b), this closing, presses. - 7. Check valve according to claim 1 to 6, characterized in that the through channel (4) in the valve body (3) a constriction (12) and / or the outflow bore (6a, 6b, 6c) have a calibration, both the response threshold of the valve and the speed of the pressure equalization process allow to begin. 8. Check valve according to claim 1 to 6, characterized in that that through one or more passages (13) in the piston guide insert (2) or the normal check valve flow path is obtained in the valve housing middle part (la) remain. 9. Check valve according to claim 1, 4 and 7, characterized in that that the piston-shaped guide part (8c) in the area that does not open and The purpose of closing the discharge hole is to reduce the diameter of the ring-shaped one Space (14) can arise and also through the cavity (15) and by one or several transverse openings (16) in the guide part (8c) the normal valve flow path manufactures. 10. Check valve according to claim 1, 4 and 8, characterized in that that to eliminate a negative pressure in the generator-side system space (17) in Rest position going valve guide part (8d) one or more ventilation openings (6d) is uncovered, but when the vacuum generation is restored, the in working position Pulled valve body (3) with the guide part (8d) the ventilation openings leading into the free space (6d) closes. 11. Check valve according to claim 1, 4 and 9, characterized in that that the ventilation openings opened to eliminate the vacuum in the valve rest position (6e) when the valve body (3) is sucked into the working position by its guide part (8e) are closed. Considered publications: German Patent Specifications No. 48 105, 218 715, 563 434, 571 874, 576 771, 619 162, 659 838, 640 408, 661 271, 715 978, 853 135 ,. 938 888, 1 130 656, 1 198 629, 1 222 750 French patents British Patent Nos. 347 338, 458 640, 1 044 128, 1 056 163, 1 142 080 No. 278,634, 643,262 U.S. Patent Nos. 1,288,097, 1,428,399, 1,981,230, 2 028 581, 2 352 642, 2 369 005, 2 397 269, 2642259, 2 644 663, 2646063, 2 670 757