DE3605312A1 - Spool valve - Google Patents

Abstract

Spool valve for a hydrostatic drive system with a pump which can be adjusted by means of control pressure. Several consumers 6, 7 are each attached via a branch line 8, 9 to the feed line of the pump, the flow through the branch line being controlled by the spool valve. A load-sensing system is provided which, even during different loading of the individual consumers activated simultaneously, enables fluid to be admitted to the consumers according to the activation of the same. A spring-loaded auxiliary piston is provided in the interior of the spool 3, and a change-over switch is provided inside the auxiliary piston. The change-over switch connects the spring space of the auxiliary piston to the consumer or the load-sensing line depending on the pressure ratios between consumer and load-sensing signal passage, a control edge being formed which reduces the pressure in front of the auxiliary piston to the level of the consumer. <IMAGE>

Description

Slide valve

The invention relates to a slide valve according to the preamble of claim 1 for a hydrostatic drive system with demand flow control ("load-sensing") and with parallel-connected throttles in the branch lines leading to the individual consumers, which have the effect that when several consumers are controlled simultaneously, independent of the Pressures acting on individual consumers, the speed of movement is always determined by the opening width of the measuring throttle point, as known from DE-OS 30 44 144. 2 # wherein the measuring throttle point is formed in the bcnieDerventil according to the invention. The invention is based on the prior art known from DE-OS 34 13 866. In this, known from this DE-OS solution, there were still minor disadvantages insofar as the pressure in the common control line ("load sensing signal - LS pressure") when a further, parallel consumer is subjected to higher pressure by the Compression spring, against which the second, the outer end of the main slide facing auxiliary slide is supported according to the aforementioned DE-OS to the outside, is changed, so that the LS signal is not only from the consumer pressure, but also influenced by the force of this spring and is thus falsified by this spring force. In addition, with this known slide valve there is still the possibility of influencing the function through flow forces and pressure differences.

The invention is based on the function of a slide valve to improve according to the preamble of claim 1, in particular by elimination to improve the disadvantages mentioned, and to simplify the valve and thus through a smaller number of individual parts to reduce manufacturing costs.

This object is achieved by the features specified in the characterizing part of claim 1. In simplified terms, this can be stated to the effect that a changeover switch with a reversing piston is provided inside the auxiliary auxiliary piston, this changeover switch defining the pressure space in which the spring is arranged, depending on the pressure conditions between consumer and LS channel with the consumer or with the LS -Channel connects. Furthermore, a control edge is formed on the reversing piston which reduces the pressure in front of the auxiliary piston to the level of the pressure of the consumer. This ensures that the LS line is supplied with energy from the delivery line of the pump at the pressure level of the consumer. This avoids the possible disadvantage with the previously known devices that the consumer can sink back under load due to the extraction of energy from the line leading to the consumer. In contrast, according to the invention, only the pressure signal is taken from the line to the consumer, that is, only the level of pressure is sensed, while no energy is taken from this line.

The drawing shows an embodiment of the subject matter of the invention shown in several switching states.

Figure 1 shows a section through the slide valve in the neutral position of the slide and the position of the auxiliary piston shifted by the force of the spring, wherein on the right side of Figure 1 in the main longitudinal bore of the slide built-in parts are omitted, furthermore, those to a consumer are shown in the figure leading connections and this itself is shown schematically.

Figures 2 to 5 show sectional views through the same Slide valve in other switching positions.

Figure 6 shows a section through the slide valve according to the section line VI-VI in Figure 3.

In the housing 1, a slide bore 2 is provided in which the Slide 3 is displaceable. In the wall of the bore 2 in the housing 1 are different Annular grooves provided, of which the annular groove 4 via the channel 5 with one in the Drawing no longer shown pump is connected. To the two pressure rooms of the cylinder 6 shown as a consumer, in which a piston 7 is displaceable is, the two consumer lines 8 and 9 are connected, of which the consumer line 8 is connected to an annular groove 10 in the wall of the bore 2 and the line 9 is connected to an annular groove 11 in the wall of the bore 2.

Furthermore, two annular grooves 12 and 12 are in the wall of the bore 2 13 provided, both of which have a line 14 with one in the drawing More shown storage tanks for hydraulic fluid are connected. To everyone of the two lines 8 and 9 leading to the consumer 6 is a safeguard used against overload pressure relief valve 15 connected, its drain each with a line 14 (via one of the annular grooves 12 or 13) in connection stands.

Furthermore, two annular grooves 17 and are in the wall of the bore 2 18 are provided, of which the annular groove 17 via a line 19 and the annular groove 18 is connected via a line 20 to the common control pressure line.

In the slide 3 two longitudinal bores 21 and 22 are provided, wherein an auxiliary auxiliary piston 23 in the bore 21 and an auxiliary auxiliary piston in the bore 22 24 is displaceable. Each of these two auxiliary auxiliary pistons is against one Supported spring 74, which in turn is supported against a plug 25 which the Bore 21 or 22 closes.

Radial openings are also provided in the slide 3 namely two openings 26 and 27 in the central area and a little further away two radial openings 28 and 29 from the central area. Between the longitudinal bores 21 and 22, a partition 30 is left in the slide 3. Farthest outside in the slider 3 two radial bores 31 and 32 are arranged.

In the wall of each of the two longitudinal bores 21 and 22 there is one Annular groove 33 and 34 are provided.

On the other hand, each of the auxiliary auxiliary pistons has on its outer periphery four annular grooves, which are designated by 36, 37, 38 and 39.

Furthermore, there is a reversing slide bore in each auxiliary auxiliary piston 23 or 24 41 is provided, in which a reversing slide 42 is displaceable, which is in the middle Area an annular groove 43 between a piston collar part 93 and a second piston collar part 44, which extends towards the center of the slide 3 via the piston collar part 93 a stop extension 142 also extends.

In each auxiliary piston 23 or 24 is a connecting hole 45 is provided, which starts from the bore 41 and extends towards the center, wherein a radial bore 46 opens into this bore 45, one as a throttle point having effective constriction 47. In the middle area of the bore 41 opens a Radial bore 48 which, on the other hand, opens into the annular groove 38. On the side next to this Radial bore 48 is a radial bore on the side facing the center of slide 3 49 is provided, which opens into the annular groove 34, and is on the other side Radial bore 50 is provided which opens into the annular groove 39. The bore 41 is through a plug 51 completed.

A longitudinal bore 52 is provided in each reversing slide 42, Open into the radial bores 53, which on the other hand into the annular groove 43 of the reversing slide 42 flow.

Each reversing slide 23 or 24 has a stop extension 60 on who can lay against the central partition wall 30 of the slide 3 and the front edge 61 of the auxiliary auxiliary piston 23 or 24 at a minimum distance of the middle of the slide 3 holds.

From the radial bore 50 in the auxiliary auxiliary piston 23 or 24 goes one parallel to the longitudinal axis of the auxiliary auxiliary piston 23 and 24, respectively, in which Connecting bore 70 opening towards the center of the slide 3 facing the end face the end.

The annular groove 34 in the wall of the bore 22 in the slide 3, which with the outer annular groove 37 of the auxiliary auxiliary piston 24 is in communication is through an inclined connection hole 73 is connected to the outer periphery of the slider 3 namely in a region of the outer wall, which with the annular groove 12 in the wall of the Bore 2 can come into contact with a corresponding displacement of the slide 3.

By moving the slide 3, the radial opening 26, the interior of the bore 22 and the radial opening 29 a connection between the pump delivery line 5 and thus the annular space 4 and the annular space 11 and thus the line 9 leading to the consumer 6 are produced, with the end edge of the opening 26 together with the edge of the annular groove 4 form a measuring throttle point forms. The opening 26 is shaped such that the free flow cross-section increases with a certain characteristic when the slide 3 is moved. That Flow from the opening 26 to the opening 29 is at the edge of the opening 29 throttled by the edge 61 of the end face of the auxiliary auxiliary piston 24. This auxiliary The additional piston thus acts as a parallel-connected throttle point. It has the function of a pressure compensator. Is the slide 3 according to the drawing shifted to the right, so that the annular grooves 4 and 11 are connected to each other, weighs the pump delivery pressure on the right front side of the auxiliary auxiliary piston 24 and is from the space in the bore 22 in front of this end face via the throttling acting Control edge to the space in the bore 22 in front of the outer end of the main slide assigned end face of the auxiliary auxiliary piston 24, in which the spring 74 is arranged. This spring 74 loads the auxiliary auxiliary piston 24 in the opposite direction its pressure chamber, the one in front of the end face assigned to the center of the slide 3 of the auxiliary auxiliary piston 24 is located. In addition to the bore 71 runs in another Plane the longitudinal bore 70, that of the one annular groove that connects to the LS channel is, leads to the other ring groove. The bore 73 in the slide 3 is used for pressure relief of the outer space, that is, the auxiliary auxiliary piston 24 is directed toward the outer Part of the slide 3 moved when the outer mouth of the channel 73 before the with the container connected annular groove 12 or 13 is located. The reversing slide 42 has a toggle function and also controls the pressure, from which the pressure signal is tapped, at consumer pressure level. The pressure signal is from the consumer pressure given, but the energy is taken from the pump channel, as already stated, so that the consumer does not sink back. That means, depending on the position of the reversing spool 41 is - when the reversing slide 42 in the direction of the outer end of the slide 3 is shifted towards - the respective consumer controlled by this slide 3 connected to the annular groove 17 and thus the common control pressure line 19 or, if due to the fact that another consumer controlled via another slide works with a higher pressure than the consumer controlled by the slide 3 6, this higher pressure, via the line 19, the annular groove 17, the bore 48, the annular groove 43, the bores 53 and the longitudinal bores 52 in the Out pressure chamber in front of the outer end face of the reversing slide 42, so that now The pressure in this pressure chamber is higher than that in the middle of the slide 3 closer pressure chamber with the result that the reversing slide 42 within the bore 41 is shifted towards the center of the slide 3 with the result that the collar part 43 comes into a corresponding position with respect to the radial bore 49. The pressure chamber in front of the auxiliary auxiliary piston 23 or 24, in which the spring 74 is arranged is either with the controlled consumer or with the LS channel 19 or 20 connected, as a result of the switching function of the reversing slide 42. This reversing slide 42 acts on the left radial bore 50, which is arranged further outward, however also as a pressure reducing throttle valve.

The embodiment according to the invention avoids that too For control purposes, a short circuit between the consumer connection and the LS channel arises, whereby energy would be wasted uselessly via this short-circuit connection and there would be a risk that the consumer under load would unintentionally moved under the action of the load. In addition, by the arrangement according to the invention the fine control behavior improved.

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Claims (2)

Claims 1. Slide valve for a hydrostatic drive system with an adjustable pump, the setting lorgan with one in a pump actuator cylinder slidable Pumpenstel ikolben is connected, the position of a control pressure is determined, with the drive system leash a delivery line connected to the pump as well as having a return line and switching elements leading to a container, whereby several consumers via each are connected to the delivery line going out from the pump a branch line are connected and each by means of one in each one Branch line arranged, arbitrarily operable slide valve with the delivery line can be connected, with an adjustable parallel-connected throttle point in each branch line is arranged, the adjusting member of each of these parallel-connected throttle points on the one hand from the pressure in the production branch line and on the other Side is acted upon by a control pressure and a spring and the control pressure at all parallel-connected throttle points each assigned to a consumer together is equal and for this purpose that of this control pressure acted upon side of the adjustment element of the parallel circuit throttle point a control pressure branch line connected to a common control pressure line are, in each of which leads to a consumer delivery pressure branch line an adjustable measuring throttle point is formed in the slide valve and in the direction of flow the control pressure branch line is connected behind this measuring throttle point, wherein a longitudinal bore is provided on at least one side of the slide in this is built into which an auxiliary piston that can be displaced against the force of a spring which, together with part of the slide of the slide valve, forms the parallel-connected throttle point forms, characterized in that a reversing slide bore in the auxiliary auxiliary piston (23 or 24) (41) is provided, in each of which one end face by the application of pressure displaceable reversing slide valve with an annular groove (43) in the middle area (42) is arranged, wherein in the middle area of this reversing slide bore (41) a transverse bore (48) opens which communicates with the common control pressure line (via the Line 19 or 20) is connected and two sides of this transverse bore (48) further transverse bores (49 or 50) are provided, of which the spring-side End of the auxiliary piston (23 or 24) closer to the transverse bore (50) with the one on the spring side End facing away from the end face of the auxiliary auxiliary piston (23 or 24) is connected and the other transverse bore (49) via a nozzle with the spring-side face of the Auxiliary auxiliary piston (23 or 24) is connected and the space in front of this Transverse bore adjacent face of the reversing spool (42) via a bore, those with a cross hole in the slide (3) of the slide valve is in connection, which is in the activated state of the same with that to the consumer leading line (9 or 8) is connected, while the space in front of the spring-side End of the auxiliary auxiliary piston (23 or 24) facing the end of the bore through a Bore (52) in the reversing slide (42) with its provided in its central area Annular groove (43) is connected. 2. Slide valve according to claim 1, characterized in that in the space in front of the end face of the reversing spool piston facing the center of the slide (3) (42! A throttle point (47) is arranged with the bore (46) connecting the consumer (6) is.