DE1249620B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

Number:
File number:
Registration date:
Display day:

F16k

German class: 47 g - 29

1 249 620
H 52477 XII / 47g
April 24, 1964
7th September 1967

The invention relates to a four-way control valve, in particular a control slide, driven by a Pressure medium, which can be switched on and off optionally on one of the end faces by means of two auxiliary valves acts by the drive piston driving the closure pieces, as well as sparging agents in the pressure lines from the auxiliary valves to the drive piston.

Such a multi-way control valve is known, it is provided that it is of the pressure medium to be controlled itself or is to be actuated by an external medium. This can both pulse control and electromagnetic control can be used.

In contrast, the four-way valve according to the invention is based on the object of three possible uses to create the same pressure medium operated control valve, namely:

1. Use as a normal valve,

2. Use as a pulse-actuated control valve,

3. Use as a three-position control valve with a locking mechanism for the controlled motor Middle position.

This object is achieved according to the invention in that to change the mode of operation of a two-position control valve into a three-position control valve or a pulse control valve in a manner known per se, each drive piston is assigned an auxiliary piston that can be supported on it whose end faces are exposed to the same pressure medium that the auxiliary valves for the drive pistons release and relieved that the auxiliary piston insides are constantly vented, each auxiliary piston by means of a plunger sealed in the valve housing is supported on its drive piston that each of the Auxiliary piston paths in the working direction are individually divided into two by means of a detachable stop Piston travel can be limited and that the supply of pressure medium to each auxiliary piston can be shut off individually and can be operated individually.

Further features of the invention emerge from the subclaims.

The exemplary embodiments show how the invention can be carried out in detail with the parts essential for it in the drawing, namely

F i g. 1 a longitudinal section through a four-way control valve,

Fig. 2 is a plan view in section according to Fig. 1,

F i g. 3 the same control slide according to FIG. 1 in another position and

Four-way control valve with auxiliary valve release

Applicant:
Erich Herion,

Stuttgart-Frauenkopf, Distlerstr. 22nd Named as inventor: Erich Ruchser, Stetten (Remstal)

F i g. 4 the control spool in section after a changeover to be used as a pulse valve while in the

F i g. 5 and 6 the same control spool after a further conversion as a four-way normal valve in two different positions is shown.

According to the exemplary embodiments, the control slide, which is designed as a flat slide, is in the slide housing 1 provided with its control cross section 3 in the same slide longitudinal axis with the drive piston 4 and 4 ', the pressure chambers 5 and 5 'to the pressure medium line 6 and 6' by means of the magnetically triggered multi-way auxiliary valves 7 and 7 'can be connected alternately.

At the same time, further pressure chambers 8 and 8 'are connected to the pressure medium line 6 and 6', in each of which an auxiliary piston 9 and 9 'is arranged, which are supported by means of the tappets 10 and 10' on the end face of the drive pistons 4 and 4 '. The tappets 10 and 10 'are guided through the valve housing by means of a seal 20 and 20', so that the rear sides of the auxiliary pistons 9 and 9 'are relieved of pressure via bores 11 and 11'. These bores are provided in stops 12 and 12 'which can be screwed in. These stops can be removed as shown in FIG. 5 reveals.

Furthermore, the pressure medium inlet 6, 6 'to the

Pressure chambers 8, 8 'in front of the auxiliary piston 9 and 9' by means of a three-way throttle valve 13 and 13 ' optionally or together lockable, so that it is in

709 640/282

Claims (3)

I the in F i g. 4 position shown a pressure medium outlet in the direction of the arrow into the open on the Ge. wind over allows. Then 'the pressure chamber 8 or 8' in front of the end faces of the auxiliary switching piston 9, 9 'is relieved of pressure. In the exemplary embodiment according to FIG. 1, each of the three-way throttle valves 13, 13 'is opened to release the pressure medium supply into the pressure chambers 8, 8', and the stops 12, 12 'are introduced into the range of movement of the auxiliary switching pistons. If each of the auxiliary valves 7, 7 'is now left in the de-energized position shown, then the control slide 2 takes, as in particular FIG. 2 can be seen in plan view, the middle position in which its inlet 3 is closed off from the two openings 14 and 14 ', so that the two connections 15 and 15' are connected to the pressure consumer with the return 16, while at 17 the main pressure medium inlet is drawn. The inlet 3 of the flat slide is provided with a support edge 21, while on the opposite side a support edge 22 allows the pressure medium transition in the direction of the return 16 and any desired relief according to its diameter. The slide itself is formed from a grindable and lapable plastic compound based on polyamide, while the running surfaces 18 in the slide housing 1 can be used and consist of a ceramic compound that can also be grinded and lapped, preferably on the sintered base. In this way, perfect sealing of the sliding surfaces is guaranteed with a significant increase in service life, even when running dry. In the embodiment in FIG. 3 shows a control position, namely by exciting the auxiliary valve 7 'in front of the pressure chambers 5' and 8 'Dmckabbau via the outlet 19' of the auxiliary valve 7 'takes place, so that the pressure still on the piston face of the drive piston 4 in the pressure chamber S is the Control slide 2 transferred into the position shown without the auxiliary piston 9 being able to follow this path, since it is limited in its range of motion by means of the stop 12. If the auxiliary valve 7 'is switched off, the control slide 2 returns to the starting position according to FIG. 1 back. If the auxiliary valve 7 is actuated on the left-hand side of the valve, the control slide 2 executes the opposite movement. If the same control slide is used as the pulse valve, according to the exemplary embodiment in FIG. 4, the three-way throttle valves 13 and 13 'transferred to the shut-off position, so that the pressure medium lines 6 and 6' to the pressure chambers 8 and 8 'are shut off. The auxiliary pistons 9 and 9 'then move into the initial position shown, since their pressure chambers are vented in the direction of the arrow via the threads of the throttle valves. The transfer into this end position is supported or initiated by the end faces of the drive pistons 4 and 4 '. However, the auxiliary pistons then remain in this end position. With such an easily feasible changeover, the control slide can now be used as a pulse control valve by actuating one of the auxiliary valves, since the control slide 2 remains in its respective end position until the auxiliary valve in question is switched on again. 620 The pressure consumer can be stopped in any intermediate position. If the same valve is now to be converted as a normal valve, then each stop 12, 12 'according to FIG. 5 removed from the range of motion of the auxiliary piston 9, 9 'and at the same time one of the three-way throttle valves, for example 13, used to shut off the line 6 so that the pressure chamber 8 is vented. In this way, by actuating only the auxiliary valve 7 ', the control slide can now become effective as a normal four-way valve, as shown in FIG. 6 shows. When the auxiliary valve T is switched on, both pressure chambers 5 'and 8' in front of the two pistons 4 'and 9' are vented via the return 19 ', so that the pressure still present in front of the drive piston 4 in the pressure chamber 5 pushes the control slide 2 into the position shown in FIG. 6 shown, position transferred without the auxiliary piston 8 in any way comes into effect. At the same time, however, when the auxiliary valve 7 'is switched off, the pressure is applied to the pressure chamber 5, but since at the same time each pressure chamber 5' and 8 'according to FIG. 5 is acted upon by the pressure, there is, for example, double the adjustment force if the same piston cross-sections are selected, and the control slide 2 returns to its other control position, which no longer corresponds to the middle position Stroke 12 'followed the full slide path 2 with. The reverse mode of operation by actuating the other auxiliary valve 7 is possible when the three-way throttle valve 13 'is closed and the throttle valve 13 is opened. Patent claims: 1. Vierwegesteuerventü, in particular control slide, with drive by a pressure medium which acts by means of two auxiliary valves that can be switched on and off selectively on one of the end faces of the drive piston driving the locking pieces, as well as shut-off means in the pressure lines from the HUfsventüen to the drive piston, characterized in that for Changeover of the mode of operation from a two-position control valve to a three-position control valve or a pulse control valve in a known manner, each drive piston (4, 4 ') is assigned an auxiliary piston (9, 9') that can be supported, the end faces of which are loaded and relieved of the same pressure medium that the auxiliary valves (7, 7 ') release for the drive piston, so that the inside of the auxiliary piston is constantly vented, with each auxiliary piston (9, 90) being closed by means of a pin (10 , 10 ') is supported on its drive piston that each of the auxiliary piston paths in the working direction by means of a releasable stop (12, 12 ') individually can be limited in two divided itself piston travels and in that the pressure medium supply (6, 6') on each auxiliary piston (9, 90 can be blocked individually and separately vented (13, 130 i ^st - 2. Valve according to claim 1, characterized in that the releasable stops (12, 120 are designed as inserts that can be screwed in from the outside. 3. Valve according to claim 2. characterized