DE2320679A1 - CHANGEOVER SLIDER - Google Patents

Description

21,839

PARKEH-HAUIOi ¹ IN CORPORATION Cleveland, Ohio (V.St.A.)

Reversing spool

The invention relates to reversing valves, in particular to a pressure-compensated reversing piston valve.

Pressure-compensated flow control valves are known which have a compensation piston which is acted upon by the pressures prevailing upstream and downstream of a metering throttle opening provided in the slide. At a . an undesirably large pressure gradient at the metering throttle opening moves the compensation piston in such a way that the flow rate passing through the metering throttle opening is kept constant at the desired value. There are different types of these pressure-compensated flow control valves, namely a valve with a throttling effect, in which the movement of the compensation piston progressively blocks the outflow cross-section, so that the flow passing through the valve is throttled, and a valve with an overflow effect, in which the movement of the compensation piston is added leads that 'the excessive flow passed through the metering acting throttle opening to the

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Container 'is returned, and a valve with throttle -, and overflow effect, in which as a result of the movement of the Compensation piston both the excess flow returned, as well as the "emerging from the valve" Flow throttled wirα.

The known pressure-compensated flow control valves can of course be used in different circuits use, e.g. for metering the pressurization flow in 'a system with closed in the zero position Slide, the valve being arranged between the piston drive and the container, or for Control, pressurizing flow or back flow in a system with the slide valve open in the zero position, with the valve between the control slide valve and the piston drive is arranged.

The invention now creates a pressure-compensated reversing piston valve with a housing that at points distributed along its axis from a pressurization channel for connection to a pressure medium source, a piston drive duct for connection to a Piston drive and a return flow channel for connection to a container is cut, furthermore with a ScMe- -ber flask, which can be moved back and forth in the bore and from an envelope position in which it makes the connection between the piston drive duct and the pressure relief and the return flow channel blocks, can be moved into switching positions in which he can selectively the piston drive channel connects to the pressure application channel or the return flow channel, the slide piston and the Housing 'limit a metering throttle opening, which has a variable flow cross section that on the extent of the movement of the spool-out of the The zero position is dependent on a switching position,

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and in the housing there is a pressure-compensated flow control device is arranged, the prevailing with aen upstream and downstream of said throttle opening Pressure medium pressure is applied and a predetermined one Druekgeftille on the metering acting throttle opening and thus maintaining a preselected flow rate of the pressure medium through the cbieoer.

The invention also provides a pressure-controlled reversing spool valve with a housing that has several bores, each of which is distributed along its axis at otellen of a common pressurization channel for connection to a pressure medium pressure source, a piston drive duct for connection to a ' Piston drive and a common return flow channel for connection to a container is cut, furthermore with a sliding piston that is in each. one of the holes and can be moved - and each of which comes from a position, in which it establishes the connection between the associated piston drive duct and the pressurization duct and blocks the return flow channel, can be moved into switching positions in which it blocks the associated piston drive channel optionally with the inlet duct or the return flow duct connects, with each spool having a metering throttle opening limits the housing, which has a variable flow cross-section 'which depends on the extent of the movement of the spool' from the neutral position to a holding position is dependent, and a single pressure-compensated flow control valve is provided in the housing, which with the pressure medium pressures prevailing upstream and downstream of each of the metering throttle openings is acted upon and therefore regardless of which of the slide pistons to a stop position

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has been moved, a preselected flow rate of the Maintains pressure medium through the slide.

Exemplary embodiments of the invention are described below with reference to the accompanying drawings. In these shows

S ¹ Ig. 1 in longitudinal section a pressure-compensated reversing slide valve according to an embodiment of the invention,

Fig. 2, also in longitudinal section, a pressure-compensated reversing slide valve according to another embodiment the invention,

Mg. 5 in longitudinal section a pressure compensated Reversing slide according to a further embodiment of the invention and

. 4 shows in longitudinal section a part of a pressure-compensated reversing slide which has a pressure compensation piston possesses, which is used to regulate the pressurization flow between a piston drive and the The spool of the reversing spool is arranged.

The in ^ 'ig. 1, the pressure-compensated reversing slide 1 shown is, for example, a four-way slide that is closed in the zero position, the housing 2 having a bore 3 in which a slide piston 4 can be moved back and forth. The bore is distributed along its axis, from its longitudinal center successive γ points of the centrally arranged branch 5 of a feed channel, two pressurization channels 6 arranged on both sides of the branch 5, two

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Forward ducts 7 arranged on both lines of the pressure loading ducts 6, two piston drive ducts 8 situated on both lines of the local duct ducts 7 and two return flow ducts 9 arranged on both sides of the piston drive ducts. A load check valve 10 is arranged in branch 5, through which pressurized pressure medium flows to one of the transfer channels 7, depending on the position of the slide piston 4. In the in- ^x 'ig. 1, a center web blocks the connection between "the pressurization channels 6 and the supply branch 5", webs 12 block the connection between the pressure application channels 6 and the adjacent -B'ortleitungskanalen 7 and webs 14 block the connection between the Koloentriebkanalen 8 and the neighboring conduit channels 7 and return flow channels 9

The housing 2 has an inlet connection 15 which is in communication with a pump P, a piston drive connection 16 which is in connection with a piston drive 18, and a backflow connection 17 which is in connection with a container 19, as shown in the drawing . A conventional centering spring arrangement 20 holds the slide piston 4 in its zero position. When the slide piston 4 is shifted to the right from its zero position, pressurized pressure medium flows through the left set of metering, cross-sectional variable slots or throttle openings 21, the load check valve 10, the right transfer channel 7 and the right piston drive channel 8 to the piston drive 18 , and pressure medium flowing back from the piston drive 18 is conducted into the container 19 via the left piston drive channel 8 and the left return flow channel 9. If, on the other hand, the spool 4 moves from the zero position to the left

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is shifted, pressurized pressure medium is fed to the piston drive 18 via the right-hand oatz of variable cross-section throttle openings 21, the ¹ load check valve 10, the left forwarding duct 7 and the left piston drive duct 8, and pressure medium flowing back from the piston drive 18 is supplied via the right piston drive duct 8 and the right return channel 9 is directed into the container 19.

The flow rate of the pressure medium supplied to the piston drive 18 depends on the position of the slide piston 4 in the housing 2 dependent. This position determines the flow cross-sections of the sets of variable-cross-section throttle openings 21.

For pressure compensation, the housing 2 has a pressure compensation piston 23 which acts on the pressure gradient responds to both sets of the variable cross-section throttle openings 21. The compensation piston is on the one & nde over channel 24 with the upstream Pressure and at the other end 'via the channel 25 leading from the supply branch 5 to a downstream space 26 leads at the other end of the compensation piston 23, acted upon by the downstream pressure. A feather seeks to move the compensation piston 23 in the position shown in which the connection between the Inlet connection 15 and the return flow duct section 28 · is interrupted. The space 26 ateht with the return flow channel 28 via a 'tiny throttle opening 29 in connection, those when the slide cages are in the cover position 4 prevents the pressure in the space 26 from rising to a high value, for example as a result of an overflow of some pressure medium past the web 11 into the feed branch 5. If the pressure differential is on one of the sets

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of the variable cross-section throttle openings 21 exceeds a predetermined value and is thereby displayed is that the flow rate exceeds a predetermined value to which the spool 4 is set has been, the pressure in the downstream space drops

26 under the pressure in a downstream space 30, so that the compensation piston 23 against the force of the spring

27 printed progressively to the left and excess Fluid is diverted into the return flow duct section 28 and thereby independent of the loading pressure The flow rate of the fluid supplied to the piston drive 18 is kept approximately constant.

If the in ^ 'ig. 1 shown slide 1 a or several additional slide pistons 4 ·, the single compensation piston 23 can control the flow rate control des.jedem of the piston drives 18 supplied pressure medium, if you also have a channel 25 or several Provides channels 25, the or to 'each one of the feed branches 5 leads or lead. For arrangements in which several slide pistons 4 are actuated at the same time can be used, for example, the arrangements shown in Figures 2 and 3, in which a compensation of the different., load-dependent pressure medium requirements of the pressurized at the same time Piston drives are possible which are each assigned to one of the slide pistons.

In the zero position 'of the in ^£ ± g. 1, essentially the backflow channel pressure is transferred to the downstream space 26 via the throttle opening 29, so that the delivery pressure of the pump transferred into the upstream space 30 moves the compensation piston 23 into an overflow position and therefore the delivery flow of the pump into the container 19

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is returned. When in the neutral position of the Spool the flow of the pressure medium from the Feed channel 5 to the forwarding channels 7 blocked is, therefore the Kompensatipnskolben 23 acts essentially as an overflow valve. When the spool moves 4 in a switching position, however, immediately increases the pressure in the downstream space 26, so that the Compensation piston 23 moved into a corresponding position, those of the - ^ relapse on the left or right Set of variable cross-section throttle openings 21 prevails.

The one in ^x 'ig. The pressure-compensated reversing slide 35 shown in FIG. 2 has a housing 36 with three bores 37, 38 and 39, in which the slide pistons 40, 41 and the pressure compensation piston 42 can be moved back and forth. The bores 37, 38 and 39 are cut by a pressurization channel 43 and a return flow channel 45 which has branches 46 and 47 which also intersect the bores 37 and 30. The bores 37 and 38 are also cut by piston drive ducts 48 and 49, which are each connected to a piston drive 50 and 51, and by a measuring duct 52 which, via a ..., throttle opening 53 with a downstream pressure chamber 54 at one end of the compensation piston 42 is in connection. The upstream pressure is applied to the piston 42 via a throttle opening 56 which is connected to a space 57 on the other i-end of the compensation piston 42. The measuring channel 52 is connected to the return flow channel 47 through a further throttle opening 58.

Each spool 40 and 41 has two sets of variable cross-section throttling points, whose cross-sectional area depends on the position of the slide piston 40 or 41 in its bore 37 or 38 relative

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is dependent on the pressurizing cylinder 43. Each slide piston 4-0 and 41 furthermore contains a secondary compensation piston 50 which is movable in the slide piston 40 or 41 and delimits a variable cross-section secondary throttle opening with the openings 61 of the slide piston. When the piston slide 40 or 41 is in a switching position, the pressure present downstream of the two cross-sectional throttle openings 59 and 61 causes a check valve 62, which is located in the secondary compensation piston 60, and weu this pressure via the Batz the transmitted associated with the measurement channel 52 in the downstream ports 63 bearded pressure chamber 54 so that the compensation piston 42 either held in the position shown or in - ¹¹ Xg. 2 is moved to the right and a part of the supply flow of the pump flows over from the pressurization duct 43 via openings 64 in the compensation piston 42 into the return flow duct 45 when the pressure gradient acting on the compensation piston 42 is less than or greater than the predetermined pressure gradient at the Cross-sectionally variable jjross el opening 59 of the slide piston and the cross-sectionally variable, secondary throttle opening 61.

If the two ^ chieberkclben 40 and 41 according ^£ ig. 2 are in the cooler position, essentially the backflow pressure is transferred into the downstream space 54 on the compensation piston 42 via the throttle openings 53 and 58, so that the pressure prevailing in the upstream space 57 pushes the compensation piston 42 to the right against the action of a control spring 65 and therefore the delivery flow of the pump flows over from the pressurization channel 43 .to the return flow channel 45 and the container 67, so that the compensation piston acts as an overflow valve

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• Slide piston 40 and 41 to the right or left is the Throttle opening 59 set to a cross section that depends on the position of the spool in its bore and a predetermined flow rate of the the associated piston drive 50 and 51 supplied pressure medium adjusts, whereby the secondary compensation piston 60 moved into a position corresponding to this flow rate. "The downstream pressure opens that up Check valve 62 and is via the openings 65 of the slide piston and the measuring channel "52 in the downstream Transfer space 54, so that the compensation piston 60 moves from its overcurrent division to the left and thereby reduces the overflowing amount if that prevailing at the throttle opening 59 that is variable in cross section Pressure gradient is below the desired <Vert. If the pressure drop at the variable cross-section Throttle opening 59 increases so far that the flow rate corresponds to that of the position of the spool 40 or 41 Exceeds the value, they cause the compensation piston 42 applied pressures that this moved to the right and the excess flow rate from the pressurization channel 43 into the return flow channel 45 overflows.

When both slide pistons 40 and 41 are moved into switching positions at the same time, the specific ones Flow rates correspond, a pressure equalization takes place between the secondary chambers 68 via the measuring channel 52, when the highest load pressure is effective and also in the downstream Druckreum 54 is present. The secondary compensation piston 60 set the pressure drop-dependent flow forces at the cross-section variable throttle opening 59 of the slide piston. The check valves 62 cause an adjustment to the maximum load when both slide pistons 40 and 41 are moved into the switching position at the same time.

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Another feature of the slide according to ^ ig. 2 is that the downstream space 54 is associated with a pilot closure member 69, causes that the Kompensationskolbeη 42 as the closure member of a Raupt-Druckentlastmvjsventils acts when the pressure in the downstream ⁿ aum 54 exceeds a predetermined maximum value. In this case, the pilot control closure piece 69 opens a connection between the - "- aum 54 · and the return flow channel 45» so that more pressure medium emerges from the as.um 54 than can enter it via the throttle opening 55, so that the - Upressure in the space 54 is reduced and the higher pressure in the upstream pressure space 57 can push the compensation piston 42 to the right.

The one in i'ig. The pressure-controlled reversing valve 75 shown in FIG. 3 is generally similar to that in FIG. ^{11 except for the general arrangement of the channels.} 2 shown. Corresponding parts and channels are therefore denoted by the same reference numerals as in. 3 with a dash (') added sina. In FIG. 3, the channel 76 effects a pressure equalization between the secondary chambers 68 'via the openings 63' in the slide pistons 40 'and 41' when both slide pistons are in a switching position.

In i'ig. 3 are the ^ spool pistons 40 'and 41' provided with check valves 78, which allow an outflow from the downstream nozzle 54 'on the compensation piston 42', but so that the throttle opening 53 'in the space 54' a corresponding to the highest load jerk Pressure is maintained when both spools 40 'and 41' are at the same time in a bchalt-

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position, as shown in """Fig Spaces 6ö 'on the secondary compensation piston 6C ¹ connects to one another. The slide according to ^x ig. 3 also has a pre-tax connection piece 69 ', which has a similar effect to that in ^x ' ig. 2, so that the main irouipent, aLion & piston 42 'acts as a pressure relief valve when the pressure in the' downstream i-aum 54- 'exceeds a predetermined value to which the pilot control plug 69' is set.

In the in ^£ ig. 4, a pressure compensation valve 87 that controls the return flow is fastened to the "changeover slide 85" shown in FIG of the slide piston 94. If the pressure gradient at this cross-section variable throttle opening 90 exceeds a predetermined value, the compensation piston 89 is moved progressively to the right, so that the return flow is throttled, which is fed from a piston drive 95 via channels 97 to the return flow channel 96 of the housing 86 The pressures upstream and downstream of the orifice 90 are measured in spaces 98 and 99 which are provided at opposite ends of the compensation piston 89.

When the slide piston 94 has been pushed to the right, the pressurized pressure medium is fed to the piston drive 95 via that in the slide piston

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arranged load check valve 100, the J) Iu t 101 in the slide piston, the piston drive xani.l 9'1 and the check valve 102 moved past the xiilfs compensation piston 89. The xtückstromumr of the piston drive 95 is then through the piston drive channel 103 and the groove 104 of the The valve piston is fed to the return flow channel 105.

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Claims (3)

Patent claims: - ^ s riy'Druckkompensierter ümsteuer-piston valve with a housing, which is cut at points distributed along its axis from a - ^ ruckbeauf scblagungskanal for connection to a pressure medium source, a piston drive channel for connection to a piston drive and a üüekströmkanal for connection to a container, also with a slide piston, which can be moved back and forth in the bore and can be moved from a zero position, in which it blocks the connection between the piston drive channel and the pressurization and return flow channel, into switching positions in which it can drive the piston channel as desired veruindet with the pressurizing passage and the return flow channel, wherein the bchieberkulben and the housing defining a dosing acting throttle opening, which has a variable flow cross-section from the ^a usmaß the movement of the spool from the neutral position to a shift position towards dependent, characterized in that in the enclosure use (2) a pressure compensated flow control valve (23). is arranged, which is acted upon by the pressure medium pressures prevailing upstream and downstream of said throttle opening and maintains a predetermined pressure gradient at the metering throttle opening (21) and thus a preselected flow rate of the pressure medium through the slide (1). 2. Slide according to claim 1, characterized in that the flow control valve has a compensation piston (25) which is movable in another bore of the housing (2) and with the stronmufwartü and downstream from the throttle opening (21) press is acted upon, so that calibrated under the effect-one to 309847/0379 high pressure difference the piston moves into a position in which he has an overflow of excess fluid from the iruckbeaufschlagungskanal (6) into the Return canal ^ 9) permitted. 3. Slider according to claim 2, characterized by a spring arrangement (27) which the compensation piston (23) moves into a position in which he connects the connection between the pressurization channel (6 ') and the return flow channel C9) blocks when the difference between the upstream and the downstream Pressure falls below a predetermined value. 4. Slider according to claim 1, 2 or 3, characterized characterized in that the metering throttle opening (21) between the slide piston (4) and the housing (2) is present when the spool is in a switching position in which it the ^ ruckbeaufschlagungskanal (6) lüit connects the KoIb ent drive duct (8). 5. Slider according to claim 4 »characterized in that that the slide piston (4) in its zero position essentially closes the throttle opening (2.1), so that in the - ^ ruckbeaufschlagungskanal (6) the upstream fluid pressure present at the throttle opening compared to the downstream of the throttle valve-> The existing fluid pressure increases so that the compensation piston (23) moves into the aforementioned position in which he is an overflow of pressurized fluid from the ^ ruckbeaufschlagungskanal in the return flow channel (9) allowed and therefore as Overflow valve for relieving the pressure source connected to the pressurization channel during operation (P) works. 309847/0379 6. Slider according to claim 2, characterized in that in the housing (36) downstream of the dosed opening (59) a pressure relief valve (69) is arranged, which when the downstream pressure rises above one of the Relief valve set, predetermined maximum value opens and thereby reduces the downstream - ^ jerk compared to the upstream ^ jerk, so that the Lcompensation piston (42) is moved to a position in the case of the excess pressure medium pressure a pressure relief from the ^ ruckbeaufschlagungskänal (43) takes place in the return flow channel (45). 7 * slider according to claim 1, d _a düreh in that the dosing acting throttle opening (90) is limited by the Kolbentriebkenal ^ 91) and the Rückströmkänal (96) and the St-romregelventil has a compensating piston (89), the other in a "Bore of the housing (86) is movable and is acted upon by the pressure medium pressure prevailing in the piston drive channel upstream of the throttle opening and 'with the pressure medium pressure prevailing in the return flow channel downstream of the throttle opening and moves under the effect of an excessively high pressure difference into a position in which it throttles the flow rate of the pressure medium flowing in the piston drive duct to the value corresponding to the set cross section of the metering flow rate. 8, slide according to claim 7, characterized by a spring arrangement, the compensation piston (89) moved into a position in which the pressure medium from the piston drive duct (91) through the throttle opening (90) can flow into the return channel (96) if the difference between the upstream and downstream 309847/0379 water pressure falls below a predetermined value. 9. Pressure-controlled reversing piston valve with a housing that has several bores from each of which at points distributed along its axis of a common pressurization channel for connection to a pressure medium pressure source, a piston drive duct cut for connection to a piston drive and a common Hiickström'mkanal for connection to a container is, furthermore with a spool that is in each one of the holes are reciprocable and from each aenen from a zero position, in which it establishes the connection between the assigned piston drive duct and the The pressurization channel and the Hückstromkanyl blocks, can be moved into switching positions in which it can selectively connect the associated piston drive duct to the .üintrittskanal or the Buckströmkanal connects, each Slide piston with the housing has a metering effect Drosselcfinung limited, which a variable flow cross-section that depends on the extent of the movement of the Spool from the neutral position is dependent on a shift position, characterized in that there is a single pressure in the housing (36) -. compensated Flow control valve (42) is provided, which acts with the upstream and downstream of each of the metering Throttle openings (59) prevailing - pressure on the back is acted upon and therefore regardless of which of the sliding pistons (40, 41) moves towards a switching position has been maintained, a preselected flow rate of the pressure medium through the slide (55). 10. Slider according to claim 9, characterized in that because the flow control valve has a compensation piston (42) which is inserted in another bore (59) 30984 7/03 79 .The housing (36) is movable and at one end with the prevailing upstream of the throttle openings (59) Pressure medium pressure is applied so that the housing has a channel arrangement (52) through which the Compensation piston on its opposite unde. with the one downstream from the Drosoelöf. conditions prevailing Druckraitt is applied, and that under the effect too high a difference between the upstream and downstream of the metering effects Throttle openings prevailing pressure of the compensation piston is moved into a position in which it flows over of excess fluid from the print beaufschlagung-skan & l (4: 0 in the rucks ür ^ mlcaual ('{-5} allowed. 11. shifter for - "- nsuruch 10, characterized ciur -.- h a spring arrangement (65) which moves the Ouipensaticnskolben ^ (42) in a position la cex he ter- the bond between the Druckbe & ufschla ^ .unrs'can- '1 (4i) and the Eückströmkaiiäl (45) blocks until the difference between the compensation piston at its discharge law in the pressurized blade ends is sufficient to, overcoming the force of the spring arrangement, the compensation piston into the compensation piston To move position in which it allows an overflow of excess fluid. 12. öchiebex according to claim 'IC or 11, characterized in that a üücksclrilä, -; venti ± (62) is provided, which has the effect that only the higher downstream, ) act-k'-nn when iLebrere sliding ex pistons (40 * 41) are at the same time. in a switching position; - ^; are located" 3098 4 7/03 79 13 · Slide according to ^ nsprucb 10, 11 or 12, thereby characterized in that the slide (35) is provided with at least one bicker opening (5ö), via which the channel arrangement (52) with the backflow channel (45) in Connection is to reduce the downstream jerk, when the spool pistons (40, 41) are in their normal position. 14 · Slider according to one of claims 10 to 13, characterized by one arranged in the G housing (36) Pressure relief valve (69), which with regard to too high a pressure medium pressure at the opposite end of the compensation piston (42) in the -Rückstrcmkanal (45) cause so that the then predominant Pressure medium pressure on the first-mentioned end of the compensation piston moves this into a position in with regard to this predominant pressure medium pressure, a pressure relief from the pressurization channel (43) takes place in the Eückströmkanal. 15 · slide according to one of claims 10 to 14, characterized in that each slide piston (40, 41) a spring-loaded secondary compensation piston (60), which has a variable cross-section, secondary throttle point (61) limited by the pressure medium from the metering throttle point (59) to the Piston drive duct '(48, 49) flows when the slide piston establishes a connection between the JJruckbeaufsehlagungskanal (43) and the piston drive channel assigned to it, and that in each secondary compensation piston a check valve (62) is arranged, which a pressure medium flow from the downstream side of the variable cross-section secondary throttle opening the opposite end of the compensation piston (42) allowed that with the one on the opposite end 309847/0379 acting »downstream pressure also the secondary compensation piston acted upon sin.a, and that the check valve is a return flow of -druckmittel in prevents the piston drive duct, which is under a lower load pressure, when the slide piston at the same time have been moved into positions in which they establish a connection between the - ^ ruckbeauf impact channel and establish the piston drive channels so that the higher downstream pressure tends to be the variable cross-section Throttle opening of the lower load pressure associated slide piston to close. 3 09847/037 9 Blank page