DE1094065B - Shut-off or control device for gaseous and liquid pressure media - Google Patents

Description

GERMAN

The present invention relates to shut-off or control devices for gaseous and liquid pressure medium, the closure parts of which by the pressure medium to be shut off or controlled a piston od. The like. Be moved, the application of the same by a double-acting electromagnetic auxiliary valve is controlled, which is both under spring pressure on one side the supply of the pressure medium through a in a piston od. The like. Arranged channel, whose the closure part remote end serves as a seat for the auxiliary valve, to which on the back of the piston Od. The like. Located pressure chamber as well as the emptying of the latter controls.

According to a known embodiment, it has been proposed that the double-acting electromagnetic Provide auxiliary valve coaxial with the switching piston and one of its two seats on the same.

It is also known to use a single acting electromagnetic auxiliary valve which is rests on its seat in the event of a power failure due to a spring force.

These known valves have the disadvantage that the electromagnetic forces of the magnet coil Closing piece of the auxiliary valve around its entire stroke, which is at least slightly larger than the stroke of the Main valve must be, must move.

The avoidance of this disadvantage is achieved according to the invention in that the auxiliary valve in on known way when the supply of electric current is interrupted under the spring pressure the seat arranged on the piston or the like closes so that the locking piece of the "HiIfsventiTiTiTiTiTiTiTiTiTiTiTiTiTiTiTs after closing of the piston od. Like. Is taken in the opposite direction.

This ensures that, although the entire stroke of the auxiliary valve is the sum of the for the pilot control The stroke required per se and the stroke required by the drive piston or the like consists of the The stroke to be covered under the effect of the electromagnetic field on the one for the pilot control necessary can be restricted. A small stroke that can be reached electromagnetically makes it possible economical dimensioning of the magnet coil.

The invention is explained in more detail below with reference to two exemplary embodiments.

Fig. 1 shows the longitudinal section of a control device which can be used in particular to control pneumatically operated doors. In the housing 1 there is a piston 2 which, when the control device is de-energized, is pressed to the left by the spring 3 and on the seat 4 of which the closing piece 5 of the auxiliary valve rests with the force of the spring 6. The closure piece 5 is in a shut-off or control device
for gaseous and liquid pressure media

Applicant:

Hardy brothers machine factory

Corporation,

Vienna

Representative: Dipl.-Ing. W. Grämkow, patent attorney,
Stuttgart-Bad Cannstatt, Marktstr. 3

Claimed priority:
Austria from January 30, 1958

Dipl.-Ing. Kuno Skach, Vienna,
has been named as the inventor

Magnetic core 7 stored, which encloses the cap 8, in which the seat 9 is located and the magnetic coil 10, wearing. The compressed air source is connected to the connection 11 of the housing 1, the connections 12 and 13 are connected to the compressed air source The outside air is connected to both sides of a double-acting motor and to connections 14 and 15. The currentless control device is "" in the position shown in FIG.

If the compressed air is applied to the connection 11, it reaches the one via the connection 13 Side of the double-acting motor and via the central bore in piston 2 to seat 4, which, however, is closed by the closure piece 5. The other side of the motor, the one with the connector 12 is in connection, is vented via the connection 14. Through the seals 21, 23 and 24 the compressed air is sealed against the free atmosphere.

If current is applied to the magnetic coil 10 by closing the switch 16, the locking piece 5 only around the small gap between its left end face and the seat 9 due to the magnetic force shifted, whereby the compressed air reaching the space 17 via the seat 4, the piston 2 after shifts right. As a result, the connection 13 is separated from the compressed air source by means of the seal 20 and connected to the outside air via connection 14. At the same time the connection 12 is through the seal 22 separated from the outside air and

009 650/253

ben 2 located central bore and the channel 18 connected to the compressed air source.

If the magnetic field 10 collapses by opening the switch 16, the spring 6 causes the Locking piece 5 moved to the right until it rests on the seat 4. At the same time it flows in the room 17 located compressed air through the channel 19, the seat 9 and the connection 15 to the outside. Well predominates the leftward actuating force, and the piston 2 is together with the closure piece 5 to Hitting the switching piston on the magnetic core 7 is displaced. The valve is now back in Starting position, d. That is, the connection 13 is with compressed air, the connection 12 with the free atmosphere tied together. If the pressure of the compressed air does not drop too much, the spring 3 can be dispensed with.

The embodiment according to FIG. 2 can also be used to control a door drive. Here Designations for the same parts from FIG. 1 have been adopted.

In the de-energized state, the piston 2 is due to the force of the spring 3 and the pneumatic one Positioning force in the left end position. The compressed air applied to port 11 is through the two Seals 24 and 25 and through the locking piece resting on the seat 4 with the force of the spring 6 5 of the auxiliary valve sealed against the connection 12 and against the atmosphere. The connector 12 and thus the space connected there is vented via connection 14.

If a magnetic field is built up by the magnetic coil 10 by closing the switch 16, then the locking piece 5 moved to the left against the force of the spring 6 and pressed against the seat 9, while the space 17 is charged with compressed air via the bore 27 and the seat 4. This results an actuating force which acts on the piston 2 and is directed to the right, which forces the piston up to the stop 28 shifts. As a result, the connection 12 is separated by the seal 26 from the atmosphere and with connected to the compressed air source.

If the magnetic field collapses when the switch 16 is opened, the spring 6 acts as a locking element 5 moved to the plant on the seat 4. At the same time, the room 17 is via the Channel 19, the seat 9 and the bore 15 are vented. The force acting on the piston 2 now has a resultant directed to the left, whereby the same shifted to the stop on the magnetic core 7 will. The valve is now back in its original position.

It is entirely within the scope of the invention, with one auxiliary valve, several according to the stepped piston principle working piston or the like. To control.

Claims (3)

Patent claims: 1. Shut-off or control device for gaseous and liquid pressure medium, which is actuated by the pressure medium to be shut off or to be controlled, with a double-acting electromagnetic auxiliary valve, which on one side is under spring pressure, both the supply of pressure medium through a piston or in a piston. The like. Arranged channel whose end facing away from the closure part serves as a seat for the auxiliary valve, to the pressure chamber located on the back of the piston or the like and controls the emptying of the latter, characterized in that the auxiliary valve (4, 5) in In a manner known per se, when the supply of electrical current is interrupted under the spring pressure (6), the seat (4) arranged on the piston (2) or the like closes so that the closure piece (5) of the auxiliary valve (4, 5) after closing by the piston (2) or the like. Is taken in the opposite direction. 2. Device according to claim 1, characterized in that the movement of the closure piece (5) of the auxiliary valve (4, 5) when the electrical current is switched on through the the piston (2) or the like. Pressure medium flowing into the pressure chamber is supported. 3. Device according to claim 1 or 2, characterized in that the path for the to be controlled Pressure medium leads through holes in the closure part. Considered publications: German patent specifications No. 763 381, 831 787,
969108; German Auslegeschriften Nos. 1 016 086, 1 030 647; French Patent No. 1,058,413; British Patent No. 676,519; USA. Patent Nos. 1,055,161, 2,204,808,
319 578, 2 573 369, 2 694 544, 2 710 162. 1 sheet of drawings © 009 650/253 11.60