DE830442C - Telescopic shock absorbers - Google Patents

Description

Telescopic shock absorber The subject of the invention is a telescopic shock absorber, in which the sealing and the volume compensation of the piston rod by an under Spring action of standing sealing element takes place.

Telescopic shock absorbers are known and are now preferred for use in automobiles because of their simplicity and strong damping force. You do not need lever arms, rods, shafts with control thumbs, pressure blocks and other drive elements because their installation creates a direct connection from the vehicle axle to the body, whereby the entire shock absorber performance of the damping is retained. These shock absorbers have the disadvantage that if the overpressure occurs, it cannot be held by the seal. The resulting leakage causes the telescopic shock absorber to perform well and has to be refilled at ever shorter intervals. The filling -is very cumbersome and time-consuming and can rm, r from; a specialist aws @, since the sensing must be precisely matched in terms of quantity. , With a large filling z. B. an overpressure is generated by the penetration of the piston guide rod, which cannot be held by the seal and damages it, so that it remains leaky even with normal filling.

The previous night oaths become through the subject of the present Invention eliminated. The novelty of the invention is a * rear damper with an axial Slidable sealing element, such as a cuff or the like. Seal, which element is resiliently supported on one or more sides, so that the through the The pressures arising from the piston movement are elastically absorbed and the respective volume changes, which are caused by the movement of the piston rod without the formation of an air cushion be smoothed out.

A major advantage is that .by the use and special arrangement of the sealing element also gives the possibility of a Telescopic shock absorber with only one working cylinder (to be manufactured, whereby the Dii2htungsetem2nt at the same time replaced the bottom valve.

Ici of the drawing is -the invention through two embodiments illustrated. FIG. 1 shows a section through a shock absorber and FIG. 2 a section through another possible embodiment.

The telescopic shock absorber according to FIG. I has a cylindrical housing part a, which is connected to the vehicle, vehicle structure and a cylindrical housing part b, which is connected to the vehicle axle. A package rod is located in the housing part 3 attached to a working piston 2, which in a filled with liquid Printing cylinder is displaceable. The printing cylinder i eats at one end with a disc-shaped partition .1 firmly connected. Starting from this partition an extension 17. The outer cylinder 22 i, st attached to the housing part 1 b. The Kollwn 2 is provided with bores 5 and 12, which of valves 6 and 14, respectively are controlled. The valve 6 is under the influence of a spring 7, is a high pressure valve dimensioned and opens towards the space 8, which is below the piston 2 is located. The valve 14, dimensioned as a low pressure valve, is below the Influence of a spring 13 and opens. Against the cylinder space above the piston 2.,: The space 9 located between the cylinder i and the cylinder 22 eats a reserve space for hydraulic fluid and is available through a channel 18 and valves io and 15 with the space 8 present under the piston 2 in connection.

On the opposite side of the partition 4 from the cylinder i a spring 16 is arranged, which and'erends against a disk-shaped sealing element i i supports which can be moved. Between the sealing element i i and the partition 4 is bounded by another reserve room, which is connected to the room 9 communicates. The sealing element i i is supported on its the spring 16 opposite side against a guide 21, which by means of a. Stronger spring 19 is pressed against the sealing element i i. The pressure of the weaker spring 16 on the sealing element i i takes place with the interposition of an annular disk2o with a curved surface. This washer 20 is held by the spring 16 against lips of the sealing element i i pressed in such a way that these sealing lips seal against the piston rod 3 and the cylinder 17 are pressed.

The operation of the shock absorber according to Fig. I is as follows: If the working piston 2 located in the pressure cylinder i filled with liquid is pulled by the piston rod 3 against the partition 4, inuß which is in front of the Liquid located in the piston inevitably flow through the Bohriv.ngen 5, wherein the flow from the high pressure valve 6, which is loaded by the spring 7, ge, throttled will. -, which causes a strong damping. The three of this process in room 8 displaced liquid can not be sufficient to fill the space 8, since the The liquid corresponding to the volume of the piston rod 3 is missing. This must have the Valve io can be sucked in from the reserve space 9. At the same time, the Voluni, ° n the reserve space above the partition 4 with relaxation of the compression spring i9 and Lowering of the pipe element ii according to the amount of liquid sucked in reduced: When the piston 2 is actuated in the direction of the Piston from space 8 through the bore in the piston, en 12 via (read from the spring 13 loaded low pressure valve 14 at, displaced lower damping. The piston rod 3 penetrates the cylinder i again and displaces it at the same time the amount of liquid corresponding to its volume via the valve 15 d'urc'h den Channel 18 back via the reserve room 9. According to those pushed back into the reserve space 9 The space above the partition wall 4 becomes liquid, with the spring giving way 19 and back of the sealing element ii enlarged again. It thus finds a respective fluid exchange takes place in both processes.

A home working occurs: the overpressure is released from the sealing element ii resiliently absorbed as a result of the yielding of the spring i9.

The spring 16 is matched to the spring i9 so that the seal of the piston rod 3, as well as the changing activity of the I) iclitungselementes i i l.eic'lit and reliably done.

In Fig. 2 is another embodiment of a shock absorber shown, which in contrast to Fi; g. In only one work cylinder without Has reserve spaces.

The shock absorber hesitzt eheufallis a housing part a, and a housing part b arranged coaxially finitely di.2 °. In the housing part a , a piston rod 3 is fastened with a working piston 2, which is interlocked in a working cylinder i, d, - r is fastened to the housing part b.

In the upper part of the cylinder i adjacent to the housing part a a partition wall 4 is arranged, which has bores, by means of which the over the partition 4 lying space 23 with the cylinder space i in Verliitiditin.g. In the space 23 a sealing element i i is arranged, its downward Lips by means of a curved ring disk 2o and a spring 16 on the piston rod 3 and vain part 17 of the partition 4 are pressed, whereby the seal is achieved will.

In the piston 2 Bchrusngen 5 and 12 are vorgeselwn, of which the bores 5 through a high pressure valve 6 with the spring 7 are dominated. The bores 12 are provided with a low-pressure valve 13.

Under the piston 2 there is a space 8 which extends downward from a sealing element 24 is completed. This sealing element 24 is below the egg, flow of a spring 25 and is arranged displaceably in the working cylinder i.

The mode of operation of this embodiment is as follows: When the working piston 2 is pulled in the direction against the partition 4, the existing in front of the piston flows Liquid through the bores 5 into the space 8, the damping effect is achieved by the throttling achieved.

However, the liquid displaced into room 8 is not sufficient to fill this. The volume of the space 8 must therefore correspond to the missing Liquid amount can be reduced, and this is done by the fact that the sealing element 24 moves under the action of the spring 25 against the piston 2 liin.

When moving the KollbenS 2 occurs in the opposite direction the liquid through the bores 12 from the space 8 into the cylinder space i the other side of the piston 2, and (the space 8 must be to compensate for the volume enlarge the entering piston rod, which is caused by a movement of the sealing element 24 takes place against the action of the spring 25 and under its tension.

Claims (5)

PATENT CLAIMS: i. Telescopic shock absorber, especially for motor vehicles, characterized by an axially displaceable sealing element (1i, 24), which is resiliently supported on at least one side, in such a way that it elastically absorbs the pressures caused by the piston movement and any volume changes caused by the movement of the Piston rod without the formation of an air cushion can compensate. 2. Telescopic shock absorber according to claim i, characterized in that that the sealing element (i i) serves to seal the piston rod (3) and that it delimits a liquid containing space, which with the cylinder space on the side remote from the piston rod this piston is in connection and which is resiliently supported on both sides. 3. according to claims i and 2, thereby characterized in that the sealing element (i i) from both sides of unequal strength Springs, is supported. . 4. Telescopic shock absorber according to claims i to 3, characterized characterized in that between the element serving to seal the piston rod and a weak spring arranged an annular disc of curved surface which is pressed by the spring on the sealing lips of the sealing element. 5. Telescopic shock absorber according to claim i, dad'urc'h characterized, draß it has only vain working cylinder and that the sealSeleMeant (24) is arranged in the side of the working cylinder remote from the piston rod and supported on its side facing away from the piston by a spring is. Referenced publications: German patent specification No. 642 6o4.