DE2164832C2 - Device for damping the Hübend speed of the piston of a double-acting hydraulic cylinder - Google Patents

Description

üämpfungs- or buffer function by the piston

The invention relates to a device before reaching the cylinder head elastically from to dampen the final stroke speed of the KoI-65 sealing element.

with a double-acting hydraulic cylinder. In this way, damage to the cylinder

The two sides of the cylindrical extensions, especially the piston and cylinder head ends Pistons lying in each cylinder head fes, avoided, so that the possibly in the course

3 4

the time-setting leaks which the valve wall 20 is limited. On the side wall 20 there is

function-exerting sealing edges of the sealing member beyond those assigned to the needle valve 10

as a result of the weaker axial bore 12 caused thereby in the recess 17.

Do not destroy the initial damping of the piston stroke. It should be mentioned that the cylindrical extension 14

can have a detrimental effect on the cylinder. Above 5, as in the exemplary embodiment, an independent sleeve

In addition, it is now possible without risk to use the or socket or even a direct

Increase the throttle opening of the needle valve as part of the piston rod or piston

the energy of the intended and achieved with it.

faster return movement of the piston also In the recess 17 is an elastic ring-shaped

arranged by the end damping of the preceding buffer io ges sealing member 21, which with little

area is destroyed. axial play is held in the annular groove 18 and

The beveled end face expediently ends at one of the bottom surfaces 20 of the recess 17 Via a bead-like rounding into the central turned and conical valve-like with the bottom surface 20 Bore about. In this way, a cohesive sealing surface 22 and a dem a sufficiently deformable buffer edge, whose 15 pistons S facing beveled end face 23 Deformation also has an increase in the closing. The inclined end face 23 merges into a force and thus the sealing of the sealing member on the bead-like rounding 24 of the sealing member 21, which wiedem The cylinder enclosed by the conical bore adjoins a central conical bore Linder-shaped approach causes. 25 of the sealing member 21, which extends to the side of the KoI-

To further simplify the sealing member, 20 bensS is narrowed and its smallest diameter

according to further advantageous refinements, it is substantially smaller than the outer diameter

see that the sealing member with axial passage of the cylindrical projection 14, whose end face

bores is provided, which is beveled over a common hand 27. The larger diameter

men ring channel with a bore of the needle valve ser 28 of the widening to the bottom surface 20

are in communication, the sealing member above 25 bore 25 is substantially the same or something

with little axial play in an annular groove smaller than the outer diameter of the cylindrical

of the cylinder head is held, which is a gene approach 14.

the bottom surface of the recess formed radially. The sealing member 21 is also with axial

extending wall and one of the beveled through bores 29 provided, which over

End face of the sealing member corresponding inclined 30 a common annular channel 30 in the sealing surface

Has side wall. 22 of the sealing member 21 with the cylinder chamber 31

An exemplary embodiment of the invention is the axial bore assigned to the needle valve 10

explained in more detail below with reference to the drawing. 12 connects. This way, between the

The figure shows a longitudinal section through a through-hole 29 or the annular channel 30 double-acting pressure medium-controlled cylinder 35 and the central conical bore 25 of the seal according to the invention. member 21 one with the bottom surface 20 of the cylinder

The pressure cylinder designated 1 has a head 3 cooperating sealing edge 32 formed,

cylindrical shell 2 and a pair of cylinders The following is the mode of operation of the device

heads 3 and 4, the front side with the jacket 2 on the hand of the right side of the double-acting

are bound. In the cylindrical jacket 2, the cylinder 1 is explained.

a piston S and a piston rod 6 are provided. The is in the position shown in the illustration

which is pressurized in a guide bush 7 of the cylinder head connection 16 on the right

fes3 stored and hit by a sealing ring 8 as well, while the corresponding connection 16 '

a scraper ring 9 is sealed from the pressure cylinder is vented from the opposite side of the cylinder.

the 1 is brought out. 45 If the left connection 16 'is now pressurized

The details described below, with which it strikes and the mating connection 16 is vented, then

verse both cylinder heads 3 and 4 in the same way, the piston 5 is moved to the right. Here,

hen are, for the sake of simplicity, each only differs from the one located in the cylinder chamber 31

once designated for the cylinder head 3. Compressed air initially almost unthrottled by the

In the cylinder head 3 there is an adjustable needle valve 50 between the piston rod 6 and the central drilling

10 stored, there- between a radial bore 11 tion 25 of the sealing member 21 formed gap, theBoh-

and an axial 1 bore 12 of the cylinder head 3 tion 15 of the cylinder head 3 and the combined

a variable throttle opening 13 forms. Entry and exit channel 16 to the outside. Towards-

The piston 5 has a pair of axially retracting approximately half the piston path that plunges Device extending, cylindrical lugs 14, 55 cylindrical lug 14 of the piston 5 under Aufvon each of which at the end of the piston stroke in a widening of the sealing member 21 by means of the end face aligned bore 15 of each cylinder head 3.4 inclined end 27 in the central conical bore intervenes. This bore 15 is connected to a combination 25 of the sealing member 21. This encompasses this ned inlet and outlet channel 16 in connection sealing member 21 in particular at the point of the small, which each in the cylinder heads 3, 4 of the smallest diameter 26 of the bore 25 sealing det. The cylinder-shaped projection 14 also opens into the bore 15, so that the pressure needle valve 10 associated radial bore 11. The medium flow from the cylinder chamber 31 into the Bore 15 widens at its bore 15 of the cylinder head 3 facing the piston S at this point The end has broken into an annular ratchet. Thus the compressed air can only tion 17, which in turn expands 65 to form an annular groove 18 via the through holes 29 and the Ringkaisi, which on the piston side of a beveled channel 30 of the sealing member 21 through the between the ten wall 19 and mutually of one of the bottom bores 12 and 11 of the cylinder head 3 is located the recess 17 forming radial side lent, adjusted by means of the needle valve 10 throttle

5 6

Opening 13 escape into bore 15. On this deformed that it deforms the cylindrical projection 14;

Way is the piston movement on the last piston 5 with an even larger enclosure

Stroke damped or slowed down, whereby the force engages around and strengthens the sealing effect,

in the case of dynamic pressure arising in the cylinder chamber 31

in addition to the frictional engagement of the cylindrical 5 loading of the connection 16 is through the

gene approach 14 acts on the sealing member 21 and in the bore 15 of the cylinder head 3 as a result

this with its sealing surface 22 or its sealing the throttle effect which also occurs in this case

edge 32 sealing against the bottom surface 20 of the pressure building up of the needle valve 10 and the

Recess 29 presses, so that at this point also next slowly receding piston 5, there;

no pressure medium can escape. io dichl member 21 by the amount of its axial play bi;

Shortly before reaching the metallic inner wall to the stop on the inclined side wall 19 dei 33 of the cylinder head 3, the piston 5 is displaced from the annular groove 18 so that the sealing surface opposite the cylinder head 3 in the cylinder inner 22 and in particular the sealing edge 32 of the borehole 31 protruding beveled buffer surface 23 denfläche 20 of the recess 17 releases. The pressure brake can be applied by the gap which is elastically captured by the sealing member 21 and created in this way, the bead-like protruding buffer edge first coming into contact with the piston 5 via the 24 with a lesser throttling effect. Annular channel 30 and the axial bores 29 of the sealing In this way, a hard metallic resting member 21 will enter the cylinder space and the inner surface 33 of the Zy piston 5 will act on the inner surface 33 of the piston 5 to a greater extent. After the Ausif Linderkopfes 3 avoided, which is especially with a 20 of the cylindrical extension 14 from the central large throttle opening 12 of the needle valve 10 or hole 25 of the sealing member 21, the entire aerator is released weak initial damping of the piston movement cross-section, so that the piston f movement lead to damage and destruction is subjected to full pressure,
would. The illustrated training and bracket de;

The impact of the piston 5 on the bead-like 25 sealing member 21 is particularly simple and advantageous

Buffer edge 24 of the sealing member 21 is this with regard to the pressure medium flow.

1 sheet of drawings

Claims (5)

arranged chambers, each of which according to dimensional claims: would give the stroke movement of the piston vented or pressurized medium, with one in each 1. Device for damping the stroke end- the cylinder head arranged annular sealing speed of the piston of a double-acting member which is provided with a central conical bore of the piston at the end of the stroke sealingly surrounding it, arranged in each cylinder head, and when the sealing member hits against chambers, each of which ventilates according to the bottom surface of an annular recess of the stroke movement of the piston or with iu chamber the direct path of the pressure medium into this pressure medium is acted upon, with a blocked in each chamber, with the return movement of the KoI-the cylinder head arranged annular ben, however, the sealing member is from the bottom sealing member, which is provided with a central conical surface of the annular recess of the chamber bore that the corresponding zy- solves so that the pressure medium can flow on the sealing member vorlinder-shaped approach of the piston at the end of the stroke 15 and can act on the piston, what sealingly encloses, and when the stop in each cylinder head an adjustable needle sealing member is arranged against the bottom surface of a ring feed valve, with which the degree of -shaped recess of the chamber to direct damping of the piston can be controlled and the path of the pressure medium in said chamber comparable seal member of elastic material is sosperrt, during the return movement of the piston ao hinge as having a beveled end face is provided. gen the sealing member from the bottom surface of the With German Patent 1 601 771 as well ring-shaped recess of the chamber solves, so with the French patent specification 2,062,810 is jedaß the pressure medium past the sealing member because a double-acting cylinder with a one can flow and act on the piston, assigned to each piston side or cylinder head whereby an adjustable sealing member according to the above type has become known in each cylinder head, Needle valve is arranged, with which the which has the effect that just before the end of the The degree of damping of the piston is regulated by the direct piston stroke of the respective piston stroke can and the sealing member made of elastic work- connection to the chamber in the cylinder head both on consists of material and with a beveled end face of the bottom surface of the sealing member receiving surface is provided, thereby marked 30 recess as well as on the cylindrically shaped extension draws that the axial extension of the interrupts, while that located in the cylinder Sealing member (21) is larger than the axial stretching residual air throttled via an adjustable needle valve kung of the sealing member receiving ringför escapes that the desired damping up to moderate recess (17) in such a way that the sealing end stop of the piston is part of the cylinder head with his from the bottom surface (20) of 35 is correct. It has been found to be disadvantageous that facing away from the annular recess, in order to accelerate the return of the piston, inclined end face (23) the cylinder head (3) the throttle opening of the needle valve is not arbitrary protrudes towards the interior of the cylinder (31) if expansion is allowed, otherwise there is a risk of the sealing member on the bottom surface of the ring-shaped that by too strong a stop of the piston gene recess is applied. 40 caused severe damage to the cylinder head. 2. Device according to claim 1, can be called thereby. To such damage indicates that the beveled face can also occur if the cylindrical (23) About a bead-like rounding (24) in the gene approach enclosing sealing member as a result of the central conical bore (25) passes. constant friction at this point over time and 3; Apparatus according to claim 1, characterized in that it is sealed, which likewise does not sufficiently indicate that the sealing member (21) is no longer guaranteed with axial damping.
Through bores (29) is provided, which The invention is based on the object of this to avoid disadvantages via a common ring channel (30) or with simple means a bore (12) of the needle valve (10) in the undamped rest of the piston movement stand. So weaken or make ineffective. 4. Apparatus according to claim 1, characterized in that this object is characterized in accordance with the invention that the sealing member (21) also loosens, that the axial extent of the sealing member is greater axial play in an annular groove (18) of the cylinder than the axial extent of the sealing member Linderkopfes (3) is held. receiving annular recess such that 5. Apparatus according to claim 3, characterized in that the sealing member with its from the bottom surface indicates that the annular groove (18) has a remote through the annular recess, sealed Bottom surface (20) of the recess (17) formed angled end face the cylinder head to the cylinder end radially extending wall and one of the interior protrudes when the sealing member on the beveled end face (23) of the sealing member rests against the bottom surface of the annular recess. (21) corresponding inclined side wall (19) 60 With this design and arrangement, the shows. Sealing member due to the above elastic buffer fer area in addition to its valve function