DE19616973C2 - More directional spool valve - Google Patents

Description

The invention relates to a multi-way slide valve with a in a cylinder drische housing longitudinally guided control piston, the positions depending on a control groove penetrating the housing wall Fluid connection with a first or second, also in the housing Connects wall-opening fluid channel, the other fluid-Ka nal through openings in the control piston with the piston interior connected is. The known prior art is only an example referred to DE 42 29 291 A1.

A multi-way slide valve according to the preamble of claim 1 is well known and customary in particular in hydraulic control, and is its basic structure in the accompanying FIG. 2 in a partial longitudinal section above the longitudinal axis designated by the reference number 1 (= line of symmetry ). One recognizes the longitudinally displaceable along the longitudinal axis 1 in the cylindrical housing 2 control piston 3 , in the outer wall of which a control groove 4 is introduced, and which also has a plurality of passage openings 5 a, 5 b, the area outside the control piston 3 with its interior 6 , the Connect the so-called piston interior 6 .

Several bores are also provided in the housing 2 . A central, multiply provided hole distributed over the circumference of the housing 2 serves as a so-called fluid connection 7 , while on both sides its two further fluid channels 8 a, 8 b open into the wall of the housing 2 , penetrate them and thus extend into the Extend interior of the housing to the outer wall of the control piston 3 .

An actuating device for displacing the control piston 3 in or against the arrow direction 9 along the longitudinal axis 1 is not explicitly shown. This actuating device, not shown, can be arranged on the left-hand side of the control piston 3 and can act magnetically in a suitable manner. It can therefore be a magnetic slide valve. If the control piston 3 is now in the position shown, the fluid connection 7 is connected to the fluid channel 8 b via the control groove 4 , while the fluid channel 8 a ver via the passage opening 5 a with the piston interior 6 ver is bound. A control fluid, which is supplied via the fluid connection 7 , can thus be discharged via the fluid channel 8 b into a control room, not shown, while another control room can be emptied via the fluid channel 8 a if the piston Interior space 6 is connected to a tank volume for the control fluid via an outlet opening provided in the end face 3 'of the control piston 3 .

If, starting from the position shown, the control piston 3 is shifted to the right, the fluid connection 7 is connected via the control groove 4 to the fluid channel 8 a, while the fluid channel 8 b is connected via the passage opening 5 b to the piston interior 6 is connected. The via the fluid port 7 zoom out control fluid is thus supplied to the other control space, while can be emptied, the former control chamber via the fluid channel 8b, as well as via the piston interior 6 for not shown tank volume for the control fluid.

The basic structure of this at least internally known prior art multi-way slide valve according to the upper half of FIG. 2 is thus simple and reliable, but for certain applications, a significantly more compact version is desirable. As can be seen, this known slide valve requires a relatively large amount of installation space, in particular in the direction of the longitudinal axis 1 .

The object of the invention is therefore to minimize space tion on a multi-way slide valve according to the preamble of the An point 1.

To solve this problem it is provided that the control piston at least on one end face at least two substantially diametrically opposite one another lying, the guide in the housing webs, the Recesses between the webs the through assigned to this side form openings.

This is explained in more detail with reference to a preferred exemplary embodiment, which is shown on the one hand in a partial longitudinal section in the lower half of FIG. 2, ie lying below the longitudinal axis 1 , and which is also shown in a complete longitudinal section in FIG. 1a. Figs. 1b, 1c show two different embodiments for the end region of the control piston, wherein each of the section BB of Fig. 1a, while the section line AA shown in these Fig. 1b, 1c, which corresponds to the representation according to Fig. 1a ,

As can be seen, the control piston 3 has at least on its end face 3 'or in this end face region 3 ' no peripheral wall, but only at least two webs 10 (see FIG. 1c) or four webs 10 (see FIG. 1b) ), between which there are recesses 11 . While the webs 10 are dimensioned so that they rest with their outside on the inner wall of the housing 2 and thus can also take over the guidance of the control piston 3 in the housing 2 due to their diametrical arrangement, the recesses 11 between the webs 10 take over the function of Through openings 5 a. By comparing the upper and the lower half in Fig. 2 it is clear what enormous space savings result from this design. Supporting in this sense is the fact that a spring element 13 , which is supported on a shoulder 12 in the piston interior space 6 and protrudes beyond the end face 3 ', crosses the webs 10 or the recesses 11 . The purpose of this spring element 13 is on the control piston 3, a restoring force against the direction of arrow 9 act to make, by this spring element rests 13 on a housing cover 2 ', having of course, also opening a corresponding with the outlet opening of the control piston 3 out of 2 ". After this spring element crosses the recesses 11 or through openings 5 a, the fluid brought in via the fluid channels 8 a and the through openings 5 a must pass through this spring element 13 in order to get into the piston interior 6. However , this is not a problem since the fluid only takes this path when the control piston 3 is in the position shown on the left and the spring element 13 thus assumes its partially relaxed position. A sufficient fluid flow can thus pass between the individual turns of the spring element designed as a helical spring.

This spring element 13 was already available in the known prior art according to the upper half of Fig. 2, but here the support paragraph 12 was provided on the right side of the passage opening 5 a, which additionally causes a relatively large amount of space. Overall, the measures described result in an extremely compact design for the multi-way slide valve, it being understood that a large number of details, in particular of a constructive nature, can be designed quite differently from the exemplary embodiment shown, without departing from the content of the patent claims.

Claims (2)

1. Multi-way slide valve with a longitudinally displaceably guided control piston ( 3 ) in a cylindrical housing ( 2 ), the position-dependent via a control groove ( 4 ) penetrating the housing wall fluid connection ( 7 ) with a first or second, also in the Connects to the housing wall opening fluid channel ( 8 a, 8 b), the other fluid channel ( 8 a, 8 b) via passage openings ( 5 a, 5 b) in the control piston ( 3 ) with the piston interior ( 6 ) is characterized in that the control piston ( 3 ) has at least on one end face ( 3 ') at least two essentially diametrically opposed webs ( 10 ) which take over the guidance in the housing ( 2 ), the recesses ( 11 ) between the webs ( 10 ) form the passage openings ( 5 a) assigned to this end face ( 3 '). 2. Multi-way slide valve according to claim 1, characterized by a in the piston interior ( 6 ) on a shoulder ( 12 ) supporting spring element ( 13 ) which protrudes over the webs ( 10 ) having the end face ( 3 ').