DE1650308C - Slide valve for controlling a working device - Google Patents

Description

50

55

The invention relates to a slide valve for controlling a working device that is operated by a hydraulic motor that can be acted upon on one or both sides is driven, each with in the inlet and outlet line to the hydraulic motor arranged relief valve to reduce pressure surges caused by the inertia of the attacking load by opening one normally closed relief channel, the relief valve one in an associated valve housing comprises sliding hollow piston and furthermore a movable one acted upon by a spring in the closing direction Has valve member which is arranged in the hollow piston and its associated seat of a closure piece for the hollow piston which is arranged in the hollow piston and which is adjustable relative to this is carried, on the two end faces of the hollow piston as well as on one side of the closure siicks the pressure prevailing in the relevant motor line acts, the connection to the Closing piece having side of the hollow piston but is formed via a throttle point

For a slide valve tension control of a working device, which is acted upon by a double-sided hydraulic motor is driven is a relief valve with an in an associated Valve housing sliding hollow piston has become known, each in the inlet and outlet line to hydraulic motor is arranged and in the event of pressure surges the relevant motor line via a relief channel connects to the sump of the hydraulic pump. In the valve housing is a second one Hollow piston arranged, which is also slidably movable coaxially to the first hollow piston in the valve housing. There is a spring between the two hollow pistons arranged that the second hollow piston away from the first against a stop of the housing push seeks In a bore of the first hollow piston having the valve member, a plunger is free movably guided, which cooperates with a valve seat of the second hollow piston to one in the Block off the space between the two hollow pistons in the passage in the second hollow piston. the the other side of the passage opens into one at the opposite end face of the hollow piston from the housing and the end face of the hollow piston formed by a throttle with the space relevant motor cable is connected. The hole in the first hollow piston that receives the plunger is also connected to the relevant motor line via openings in the first hollow piston. at If a pressure peak occurs, the second piston is driven against a fixed stop on the valve housing and thereby presses a comparatively weak one; Spring together by a certain amount. The bias of the compressed spring thus determines the response threshold at which the first piston moves when a pressure peak takes effect. Since the threshold of the known Device is always the same height, is an adaptation to different static pressures a hydraulic system is not possible. However, for one and the same hydraulic motor different depending on the operated working device and the mode of operation of the working device static pressures exist, so that with such a relief valve there is a risk of that it either responds too soon or not at all

There is also a slide valve for controlling a working device has become known in which a Relief valve that reduces the pressure surges caused by the inertia of attacking loads opening a normally closed relief channel degrades, also a sliding one Hollow piston encompassed In the hollow piston is a movable one which is acted upon by a spring in the closing direction Valve member arranged the associated seat surface of a closure piece arranged in the hollow piston for the hollow piston is worn. The closure piece is a screwable into the hollow piston Plug. Opens when a pressure peak occurs

jf

3 '4

first the movable valve member against the pressure. An exemplary embodiment of the invention is

the spring, around which the locking piece having following on the basis of a drawing near criaureru

End face of the hollow piston with the interior of the The figure shows a longitudinal section through the en «n- To connect hollow piston. This changes the proper slide valve. Pressure ratios on the hollow piston, whose connection is 5 Reference is now made to the drawing.

end piece on the opposite side also with the. men. The slide valve is with 10 bamcbnet una

When pressure is applied to the relevant motor line, a valve housing 12 with an inlet port

and the hollow piston opens the relief valve. 14 on, the hydraulic fluid from a ««? »

The response threshold at which the opening process is supplied by means of a pump 18. The venu ^ T

of the relief valve begins, is also here unab- io housing 12 also has end plates 19 and ii as well

depending on the static pressure of the hydraulic sy- inlet and outlet openings 20 and 22 aut. uas ven-

stems constant and is controlled by the pre-tensioning of the til is with a double-acting "J ™haben? *" ?;

Spring motor acting on the movable valve element is shown, which has a piston 26 autweisi, aer wc

definitely. This preload can be achieved by twisting the bore of the associated cylinder 24 in _A ^me * j? ™ '

the stopper in the hollow piston changed by hand 15 mer 28 and a chamber 30 divided. / "* * oi ™ "

will. An automatic adjustment of the attachment 26 is attached to a piston rod 32, which oei o * «j

Talking threshold is articulated to different hydraulic a boom 36, which is a. ieu

Pressures is also not possible with this valve. a hoe share is a movement ™haben η £ & ν

It is therefore the object of the invention to provide a slide arm 36 in the counter-clockwise direction that becomes heroogau ω. valve for the control of a working device with so by adding hydraulic fluid via an if ¹ ™ ** ~ ™ "

a relief valve to reduce pressure surge cylinder chamber 30 introduced and flussψϋηι j w »

to create the response threshold of the chamber 28 via a line 40.

actively adapts to differences in static pressures. The movement of the cantilever arm 36 in the V ^ eigcn.

With a slide valve of the type mentioned at the beginning,! «^ Dr ^ ueagtot» J "« J ^ Art, this task is achieved in that the distribution 40 in the Zyjjndejanm «» «mgijrt and

The final piece is a differential liquid sliding in the hollow piston from the cylinder chamber 30 via the lei

is tialkolben, whose tubular KoI- tion 38 is discharged. , v. "* flii" i "ket becomes

rod in the bore of one in the hollow piston before- The direction of flow there-, ⁰ ^ SSSSeTS

viewed intermediate wall is made that the differential τ by a manually operated Kolbensemeoe * rentialkolben at least one throttle opening up 30 determines slidably in a long öonnmg · **

has, which irt from the partition, from the inner of the valve housing 12 ^ Benommeo. U «ΐωι

Shell of the hollow piston, from the outer shell of the slide 42 is with circumferential grooves 46, 48 and 50

tubular piston rod and from the differential piston, while the housing with «« ^ "g"

ben enclosed space with the throttle point 52, the return channels 54 and 56 which ubei ^ Jg * branch having the respective motor lead 35 lines Asked ™ ^"d ^ / umpf 16m vermnau ^ g

connects, and that the seat for the movable stand, and channels 58 and ^ J ^^^^ at

Vent members on the canals mentioned by the partition open into the jBJ'JJJiJJ ⁰ ^ _n

nen end of the tubular piston rod of the dif- ferent liquid, * depending on the dependence -n

rential piston is formed. the position of the piston valve * 42. dermde ^ new In the slide valve according to the invention, the 40 central position is ^% ^ \ ^ι ^^^^ Ζ-

Valve seat for the movable valve member does not flow through the channels. E'n Entlastangskana ^ 6Z vero

solid, but is held by a differential piston in the channels 58 and 6Oi and ^ ™ 2 ^ einaivStil-

its location changed, its position within the on which to end einemι> a site 66 f ^{ur "ηε" νεη} ^.

Hollow piston changes with different static grains 68 of a ^^^^^ S ^ ™ 74 pressures and thus a changed preload 45 ren end a seat Tl ₇ ? ^r _d ^ _de S _h S ^dem

voltage acting on the movable valve member - a relief valve 76, which is identical

causes the spring. In this way, an on-valve 70 is made. Clock

adjustment of the response threshold of the movable valve To the movement of the Auslegerann ⁸ 36 JjOJg ¹ Jj.

K is zeigersmn tilglieds and the relief valve to the JE ^o lbenschieber 42 NaCN ^? ^KS because the prevailing static pressure. At a sudden 50 moves away so that P ™ «^^" ¹ "^^ Ba a den

The differential pressure 14 behaves with a change in pressure via the return valve 78 across the pipe,

piston, however, as if he were with the hollow piston channel * ^ d, e circumferential groove 48, ^ n channel JJ. d

^ mfA ^ rzugtenAusgestaUung derErfin- A = * ^ J ^ J ^ S ^^^

ssa ^: ^ = 5 ⁵⁵ »s-StSSSfs ^1158anddie

connecting channel is. This measure is so far circumferential groove ^ «£ ^d » »"<* £ "^^! ^ 36 im

K ₀ SA = TIASeIT ^ i ₁ = «St = ÄSSasSssÄS

and can cause dangerous swings, ^ ϋ ^ * Λ £ ^. _q ^ ^ _{n oda def} "".

avoided.

The position of the piston slide 42 is a rigid partition 127 and is bounded by the piston 124 High-pressure fluid system and a rigid low-pressure system, a certain static pressure state. From the hydraulic fluid system available. Cavitation is ever- the inner surface of the piston 108 and of the wall 127 but possible, when external forces act on the cantilever, a space is formed which is normally about arm 36 act, for example in such a way that an outer 5 has a radial passage 137, which is connected to an outer ßere is connected to the cantilever arm 36 in the position shown annular groove 139, "and the via the ment counterclockwise force the return line 54 is connected to the sump. Liquid in the cylinder chamber 28 under pressure when a pressure wave is picked up from the channel 58 and the fluid pressure in the cylinder chamber, as is the case when the piston mer 30 decreased, with additional liquid for io slide 42 suddenly after a movement of the Ausdie Cylinder chamber 30 is required. To this casual arm 36 counterclockwise to the neutral Purpose is a cavitation-preventing pendulum valve 80 position is moved back, the pressure wave provided that the low-pressure side hydraulic fluid via the channels 128 and 130 and the throttle point supply. The pendulum valve 80 has a piston 132 on the left end face of the piston 110 over-82 with two spaced 15 gene. The left end face of the piston 110 has a Control surfaces 84 and 86 and an intermediate section with a smaller diameter. The Ko! - de, elongated circumferential groove 88 on. The piston ben 124 is usually represented by a cross 82 is slidably disposed in an axial bore 90 and is held at a distance from the end plate 119 and 138 is net, which is provided in the left end of the piston valve 42 with a throttle opening 140 through which the is seen, the piston 82 being filled by springs 92 ao space 134. When the shock wave hits the and 94 hits the left end face of the piston 110 in its neutral, illustrated position, it migrates will hold. The spring 92 is in a chamber 98 through the arm star 138 and then through the central included that of the plug 96 and the control bore 142 of the piston rod 122. This is area 84 is limited, while the spring 94 in a valve member 114 against the pressure of the spring 116 Chamber 100 is enclosed, lifted by the control 35 from its seat, and liquid surface 86 and the right end of the bore 90 flows into the space 136 and continues through the is bordered. A flow radial passage 137 is back to the sump through radial openings 102. At the The fluid connection between the chamber 98 and the left end face of the piston 110 is based on this circumferential groove 46 created. In the same way, a se is a low pressure zone (compared to the canal Fluid communication between the chamber 100 30 58) created so that the pistons 108 and 110 and move the channel 60 through radial openings 104 to the left as the pressure is on the right create. Front side of the piston 108 exceeds the pressure on the left when the piston slide 42 in the neutral position of the front side of the piston 110 thereby exceeds ment is moved, try inertial forces, the valve body 68 is lifted from its seat, ' To keep the cantilever arm moving, causing 35 and the pressure wave enters the relief channel Pressure surges arise for the hydraulic 62, so that the valve body 74 from its seat Circle are harmful. A damping of the pressure surges 72 is lifted to the pressure wave in the channel can be reached with the help of the two relief valves 70, 76 60, in which the low pressure prevails, and in the. In the following, only the discharge of the low-pressure part of the circuit is to be carried off. Natural valve 70 will be described in detail. 40 borrowed the valve body 68 is only momentarily opened Valve 76 operates in exactly the same way. net, since the valve member 114 only for a short time The relief valve 70 has a hollow piston instantly open and there being a low pressure condition 108 and a second hollow piston 110, which are only parallel to the "left end face of the piston 110" are arranged in abutment against one another in a bore 112 provided in the housing 12 rend of an instant. The 45 when the valve member 114 is attached to its seat Piston 108 is in one piece with valve body 68 120, as is the case when the pressure in the A movable valve member 114 is formed in the channel 58 and the pressure on the other decreases Hollow piston 108 arranged, which by means of an end face of the piston 110 to the pressure in the channel Spring 116 is normally matched to that shown, the pistons 108 move closed position is printed. The valve member 50 and 110 again to the right, around the valve body 68 114 has a projection 118 on the left-hand side, which brings it into the closed position. The piston 124 acts a seat 120 rests, which moves to the right at the right end, since the total area on his a tubular piston rod 122 of a different left side, which is subjected to the pressure, the surface tial piston 124 provided, piston rod 122 is on the right side exposed to the pressure over- and piston 124 are integrally formed. The 55 increases the speed of movement to the right Piston 124 is slidable inside the hollow piston, through which it is made from space 134 via throttle 100 arranged while the piston rod 122 sliding opening 140 to the left side of the piston 124 vertend fluid forced in a central bore 126 in a wall is determined

127 of the piston 110 between the piston 108, 110 when the piston rod 122 is under action

is supported by means of drilled channels 128, 130 and 60 of the static pressure during normal operation

If a fluid connection is moved to a throttle point 132, the valve member 114 is likewise moved

tion between the channel 58 and the bore 112 moved to the right and thus the spring 116 on a

created. In the neutral position of the piston- certain amount compressed, that of the

Slide 42 consists in channel 58, in the channels the level of the static pressure depends.

128, 130, the Drossdstcllc 132 and inside the 65 movement speed of the piston rodc 122 after

Bore 112 including in a space 134 in the right can be changed by the size of the

Inside the piston 110, which is also from the outer throttle opening 140 or the size of the space 134

jacket of the tubular piston rod 122, of which is changed. The valve element 114 is, however, un-

depending on the degree of compression of the spring 116 under the action of pressure locks to open.

The pendulum valve preventing cavitation is continue to be effective to drain excess liquid that may be present in chamber 58 can when the manually operated piston slide 42 after a movement of the boom 36 in the Is moved clockwise back to the neutral position. Under these conditions a high one arises Pressure in channel 60 which opens relief valve 76 and then valve 70. The one from the cylinder chamber 30 displaced amount of liquid is greater than that which the cylinder chamber 28 because of Piston rod 32 can accommodate. Some of this excess liquid wedge is released through the circuit of the relief valve 76 headed to the swamp. Any additional excess fluid is removed by the pendulum vcn-IiI 80 away. In the event of a pressure surge in the duct

60, which passes through the opening 104, moves the pendulum valve 80 to the left and thereby connects the opening 106 with the opening 102. Liquid in the channel 58 can then pass through the opening 102, the groove 88 and the opening 106 into the rear. lauikanal 52 flow. The excess liquid can then pass the check valve 78 in the bypass, by inserting it through a small opening (not shown) at the right end of the non-return valve

le tils 78 flows.

A single pressure release valve is used in place of two valves, if one simple acting hydraulic motor is to be controlled. In this case the load is e.g. B. a vertically arranged Container that returns by gravity. A damping of sloping loads can be achieved be by placing a relief channel between the channel 58 and the sump, for example over the return line 56 is provided.

1 sheet of drawings

209648/180

Claims (2)

Patent claims: 1. Slide valve for controlling a working device, which are driven by a hydraulic motor that can be acted upon on one or both sides is arranged with * in the inflow and outflow line to the hydraulic motor Relief valve to relieve caused by the inertia of the attacking load Pressure surges by opening a normally closed discharge channel, the relief valve a hollow piston sliding in an associated valve housing and further has a movable valve member acted upon by a spring in the closing direction, which in the Hollow piston is arranged and its associated seat of one arranged in the hollow piston opposite this adjustable closure so piece is worn for the hollow piston, with the two end faces of the hollow piston and on one side of the closure piece in the relevant motor line prevailing pressure acts, the connection to the closure piece having side of the hollow piston but is formed via a throttle point, characterized / that the closure piece (124) is a differential piston which slides in the hollow piston (108, 110) and has a tubular shape Piston rod (122) in the bore (126) of one provided in the hollow piston (108, 110) Intermediate wall (217) is guided that the differential piston has at least one throttle opening (140), which from the intermediate wall (127), from the inner jacket of the hollow piston (108, 110), enclosed by the outer jacket of the tubular piston rod (122) and by the differential piston Space (134) connects to the branch of the relevant motor line (58) having the throttle point (132), and that the seat surface (120) for the movable valve member (114) received on the partition (127) End of the tubular piston rod (122) of the differential piston is formed. 2. Slide valve according to claim 1, characterized in that the relief channel (62) is a channel connecting the two motor lines (58, 60).