DE2414632C2 - Actuating device for a directional control valve for pressure medium control - Google Patents

Description

The invention relates to an actuating device for a directional control valve for pressure control, in particular of manual transmissions, with a housing in which two valve spindles are arranged to be displaceable are, as well as a cooperating with the valve spindles surrounding the housing switching sleeve, on their Inner surfaces are in contact with the two ends of each valve spindle.

From US-PS 37 77 776 a valve is known in which the valve spindles are reversed with the help of circuit boards.

The US-PS 36 51 000 shows a valve with a switching sleeve surrounding the valve housing, to which Inner surface rests against one end of the valve spindle. The DD-PS 32 384 and DE-AS 12 21 511 show generally positively controlled slide valves.

Compared to this prior art, the subject of the application is based on the task of providing a Actuating device of the type mentioned in such a way that with a spatially narrow design a safe and compulsory reversal of the two valve spindles is made possible.

According to the invention, this is achieved in that one valve spindle is axially displaced along the central axis and the other valve spindle by rotating the switching sleeve around the central axis of the valve housing can be reversed.

Further developments of the invention are given in the subclaims.

An example embodiment of the invention is explained below with reference to the drawing, in which

F i g. I an actuating device for a Wegeven- es til shows in longitudinal section.

FIG. 2 shows a section along line 11-11 of FIG Fig. I.

F ί g, 3 shows a detail of F ί g. %

Fi g, 1 shows a valve 10 with a housing 12, which can be made of metal or a suitable plastic and in which two valve spindles 14, 16 are displaceably arranged and guided. The housing 12 is surrounded by a shift sleeve 18 which is displaceable in the axial direction of the housing and rotatable in the circumferential direction. The housing is also provided with an inlet 20 and a return 22. Four consumer connections 24, 2h, 28 and 30 are connected to the inlet and the return, whereby the lines that lead from the annular spaces 24 to 30 to the consumers are not shown in the drawing for the sake of clarity.

In the in F i g. 1 position of the valve spindles; the inlet 20 is via a line 32 and a Ring channel 38 is connected to the consumer connection 26 and via line 32 and an ring channel 36 with the consumer connection 28. The consumer connection 24 is via an annular channel 40, radial bores 42 and an annular channel 44 with a line 34 connected, which leads to the return 22 and which also the consumer connection 30 corresponding to the return connects By switching over, the individual consumers can, depending on the position of the Valve spindles 14, 16 are connected to the inlet 20 or to the return 22.

In the embodiment shown, the shift sleeve 18 has an insert 60, but it is emphasized that the shift sleeve is also made in one piece z. B. can be injection-molded from plastic. The bet 60 is with two diametrically opposite recesses 62, 64 are provided, of which the recess 62 through an inclined surface 66 and a locking surface 70 running parallel to the longitudinal axis is limited while the Recess 64 through an inclined surface 68 and a latching surface 72 running parallel to the longitudinal axis is limited The inclined surfaces 66 and 68 are, as Fig. I shows, inclined to the central axis of the valve, while it is circular in the circumferential direction in a section perpendicular to the central axis of the valve get lost. In the one shown in FIG. I the axial section shown, the inclined surfaces 68 and 66 are essentially rectilinear and substantially parallel to each other.

The width of the recesses 62 and 64 in the circumferential direction is chosen so that the rotary movement the shift sleeve, which is explained below, is not hindered.

The length of the valve spindles, e.g. B. the valve spindle 14 is larger than the diameter of the housing 12, which is why the valve spindle 14 with its end 78 on the inner circumferential surface 74 of the shift sleeve or of the insert 60 rests, while the end 76 of the Valve spindle 14 on the latching surface 72 of the recess 64 is applied

If now in FIG. 1, the shift sleeve 18 is moved upwards relative to the housing 12, so the valve spindle 14 pressed by the inclined surface 68 in the drawing to the left with its end 76 constantly in contact with the Inclined surface 68 is while at the same time the end 78 of the valve spindle 14 is in constant contact with the The inclined surface 66 of the recess 62 is the diametrical distance between the inclined surfaces 66 and 68 is thus in essentially equal to the length of the valve spindle 14. The latter is therefore during this switching process, d. H. during the displacement of the shift sleeve 18 constantly and positively between the inclined surfaces 66 and 68 out and forcibly to the left

shifted and switched, whereby the consumer connection 28 with the return 22 and the Consumer outlet 30 are connected to inlet 20,

"During this switching movement of the shift sleeve 18 and the switchover of the valve spindle 14, the valve spindle 16 remains in its position in FIG. 1 position shown.

The switching of the valve spindle 16 is now based on FIG. 2 explained

As this figure shows, the shift sleeve 18 that the Housing 12 surrounds, provided with two further recesses 84 and 86, which on its inner circumferential surface 74 are formed diametrically opposite one another. The recess 84 is delimited by an inclined surface 88 and a locking surface 92, while the recess 86 is limited by an inclined surface 90 and a Latching surface 94. The latching surfaces 92 and 94 are circular in the radial section shown, but they can also be straight, while the inclined surfaces 88 and 90 in radial section approximately straight or weak, z. B. run curved in a circular arc, as shown in Fig.2. The locking surfaces run in the axial direction and the inclined surfaces parallel to the central axis of the valve. The axial extent of the recesses 86 and 84, d. H. its height is chosen so that the axial Switching movement of the switching sleeve 18, which is required for switching over the valve spindle 14, is not is hindered.

Like F i g. 2 shows the end 80 of the valve spindle 16 abuts the latching surface 92, while the end 82 of FIG The valve spindle just rests at the starting point of the inclined surface 90. The length of the valve spindle 16 is thus also larger than the diameter of the housing 12. Is now shown in Fi g. 2 the shift sleeve 18 clockwise rotated relative to the housing 12 so the valve spindle 16 is through the inclined surface 88 in the figure pressed to the right, with the end 80 of the valve spindle constantly resting on the inclined surface 88, while the other end 82 of the valve spindle is constantly in contact with the inclined surface 90. The valve spindle 16 is thus {', constant form fit with the boundary surfaces of the recesses 84 and 86 of the shift sleeve 18 and it becomes that way inevitably moved from left to right in the drawing and thus reversed until its end 82 at the Latching surface 94 and its end 80 at the beginning of the inclined surface 88 abiiegL In this way (see F i g. I) the consumer connection 24 with the inlet 20 and the consumer connection 26 with the return 22 tied together.

It has already been mentioned above that the width of the recesses 62 and 64 (Fig. 1) is sufficiently large is selected so that the switching sleeve 18 performs the rotary movement described above for switching the valve spindle 16 can run, while the height of the recesses 84 and 86, as also already mentioned must be large enough to allow the axial movement of the switching sleeve 18 for switching the valve spindle 14 without influencing or hitting the other valve spindle. To Umsleue- eo tion of the valve spindles in the in F1 g. 1 the shift sleeve 18 is correspondingly in the opposite position

20th

25th

30th

35

40 shifted in the opposite axial direction or in the opposite direction Rotated circumferential alignment

For the exact implementation of the switching movements of the shift sleeve 18, the housing 12 is on its Outside with four recesses or notches 110,112, 114 and 116 provided, as shown in FIG. 3, to the Corner points z. B. a square or rectangle are arranged.

As Figure 2 shows, the shift sleeve 18 is with a Approach 100 is provided, in which a radially directed bore 102 is formed, in which a spring 106 loaded pin 104 is guided, which, as shown, engages with its front end in the catch 110. the The tension of the spring 106 can be adjusted by a screw 108.

The shift sleeve 18 can now the in Fi g. 3 perform switching movements shown by the four arrows 120, that is, if the pin 104 is z. B ^.: , n of notch 110, it can be switched axially from there into notch S14, whereby valve spindle 14 is reversed while the other valve spindle 'S is not influenced, or it can be switched from notch 1 * 0 in the notch 112 can be switched, whereby the valve spindle 16 is reversed, while the valve spindle! 14 is not affected by this. The same applies to each of the other notches 112, 114 and 116. In the middle between the four notches, a part 118 of the outer wall 122 is the. Housing 12 stopped so that the pin 104 ζ. B. cannot be switched directly from the notch MO into the notch 116 or from the notch 112 into the notch 114. The switching processes for the two valve spindles 14 and 16 thus run independently of one another. However, should it be necessary, e.g. B. to switch directly from 110 to 116 or from 112 to 114, the part 118 can accordingly be left out or omitted. The notches 110 to 116 are, as in FIG. 2 shows in section, radially somewhat deeper than the unspecified connecting paths between the notches.

As FIG. I shows, the valve spindles 14 and 16 are against the housing 12 and those formed therein Readings sealed by sealing rings 124. The width of the sealing rings 124 or their diameter is now like this selected that when driving over the chambers 24,26,28 and 30 leading to the consumers, the sealing ring 124 already rests against the edge 126 of the chamber 3ü before it exits the edge 128 of this chamber, thereby avoiding intersections, i.e. H. it is ensures that, for example, in the case of chamber 30, the connection to return 22 is closed before the Connection to inlet 20 is opened. The same applies to the other verb connector connections.

With the switching sleeve 18 it is thus possible to switch two valve spindles independently of one another and compulsorily and positively reversed, the one valve spindle by an axial displacement of the Shift sleeve and the other are operated by turning the shift sleeve.

The invention is not limited to two valve spindles, probes .1 it can also with the shift sleeve a larger number of valve spindles can be reversed.

For this purpose 2 sheets of drawings

Claims (3)

Claims; j. Actuating device for a directional control valve Pressure medium control, in particular of manual transmissions, with a housing in which two 5 Valve spindles are arranged displaceably, as well as a cooperating with the valve spindles, the housing surrounding the shift sleeve, on the inner surfaces of each of the two ends of each Valve spindle on Hegen, characterized that the one valve spindle (14) by an axial displacement along the central axis and the other valve spindle (16) by rotating the switching sleeve (18) about the central axis of the valve housing (12) is reversible 2. Actuating device according to claim 1, characterized in that the shift sleeve (18) on its inside with two diametrically opposite, axially inclined control surfaces (66, 68) for one valve spindle (14) and with two diametrically opposed, in the radial direction inclined sealing surfaces (88, 90) for the other Valve spindle (16) is provided 3. Actuating device according to claim 1 or 2, characterized in that the housing (12) has four notches (UO, 112, 114, 116), into which a resilient pin (104) can be latched, and that the two valve spindles (14, 16) can be reversed independently of one another 30th