DE102005048942A1 - Piston cylinder unit for motor vehicle seat, has piston with valve unit blocking overflow of fluid when motion speed of piston is above limited speed, which can move damping unit relative to piston rod in plastically deformable manner - Google Patents

Abstract

The unit has a cylindrical pressure pipe, and a piston (5), which is movably guided in the pipe and separates workspaces (3,4) in the pipe. The piston has a valve unit (14) to block the overflow of fluid from one workspace into the other workspace when a motion speed of the piston is above a limited speed. The piston with the blocking valve unit can move a damping unit (16) relative to a piston rod (10) in a plastically deformable manner.

Description

The The invention relates to a piston-cylinder unit with a cylindrical pressure tube, with a displaceable in the pressure tube out and a first working space of a second working space in the Pressure-tube separating piston, wherein the piston with one on one Front side of the pressure tube led out of the pressure tube piston rod is connected and wherein at one of the first working space decreasing Movement of the piston a fluid from the first working space in the second workspace over the piston can be overflowed, and with a plastically deformable damping element for receiving of kinetic energy of the piston rod and the piston.

A The aforesaid piston-cylinder unit is known for use a seat of a motor vehicle, wherein the damping element provided for this purpose is a high occurring in an impact of the motor vehicle To dampen motive power in such a way that on a user of the seat only transmit the lowest possible residual power becomes. The damping element is here as narrowing in the direction of movement of the piston Funnel trained. When retracting the piston with the piston rod in the funnel is the damping element under conversion of kinetic energy of the piston rod and the piston, which results from the force of movement occurring during the impact, permanently deformed, at the same time a deceleration of pistons and piston rod takes place. The effecting the deformation of the damping element Deformation force reduces the transmitted to the user Proportion of original Moving force. Due to the funnel-shaped damping element, the Piston-cylinder unit a comparatively long length.

Of the present invention is based on the object, a piston-cylinder unit of the type mentioned above, in which a motor energy peak the piston rod and the piston is reliably damped and the same time has a compact structure.

These Task is inventively characterized solved, that at a piston-cylinder unit of the aforementioned type of piston, the overflow of fluid from the first Working space in the second working space at a movement speed the piston above a limit speed blocking valve element and that the Piston with blocking valve element plastically deforming the damping element is movable relative to the piston rod.

Of particular advantage in the invention is the relative movement of the piston and piston rod with simultaneous deformation of the damping element. As a result, the piston-cylinder unit according to the invention can have unchanged outer dimensions compared with a piston-cylinder unit having no corresponding damping element. A reduction in the kinetic energy of the piston rod, which kinetic energy is due, for example, to an impact of a motor vehicle having the piston-cylinder unit according to the invention, is achieved by converting at least a part of the kinetic energy into the damping element in permanently deforming deformation energy. Important in the invention is that the damping element is not elastically deformed, but undergoes plastic deformation; a spring-back of the damping element, which could also be referred to as an impact element or crash element, for example, is reliably excluded in this way, so that with the invention, a good damping and a reliable reduction of the kinetic energy is ensured. The piston-cylinder unit according to the invention also has the very great advantage that an occurring force peak, which manifests itself in a significant increase in the speed of the piston rod and the piston, regardless of the position of the piston in the pressure tube is immediately reduced. An idle stroke, as it is known from a piston-cylinder unit according to the prior art, in which piston-cylinder unit of the piston depending on its current position in the pressure tube regularly first has to travel a certain way until he the funnel-shaped damping element achieved, is omitted in the inventive piston-cylinder unit. In regular operation of the piston-cylinder unit according to the invention, the valve element is open for an overflow of fluid through the piston, so that the fluid contained in the pressure tube from the first working space can flow into the second working space, wherein the damping element, the component of the unit from piston and piston rod, can flow through and / or. Only in the case of a high speed of movement of the piston can no sufficient overflow of fluid through the piston take place, so that a pressure in the reducing in its volume working space arises, which pressure acts on the valve element in a closing direction. Thus, the piston is blocked in this, its current position. A further movement of the piston rod is then under plastic deformation of the damping element and thus under conversion of kinetic energy of the piston rod in deformation and heat energy. The fluid in the pressure tube is preferably a liquid, in particular a hydraulic fluid. The limit speed of the piston for the locking of the valve element can for Example be specified by selecting a specific valve element. But it is also conceivable that the limit speed is changeable and adjustable.

you could For example, imagine that the damping element is a deformable Honeycomb structure has. On the other hand, the structure of the piston-cylinder unit considerably simplified if, according to a advantageous development of the invention, the damping element a plastic deformable bellows is.

there can have a particularly high damping effect be achieved when according to an advantageous Development of the invention of the bellows of a metallic Material exists. In particular, the bellows is a metal bellows.

According to one Another advantageous embodiment of the invention has an overflow of Fluid provided in the piston flow opening on a throttle element. In this way, already a movement of the piston with a speed below the limit speed For example, be damped comfort increasing. In this case, the flow opening, for example, due to a small flow cross-section or a labyrinthine design of the flow opening, even the throttle element form.

The Valve element can with high reliability and durability have a simple structure, if according to another advantageous development the invention, the valve element closable by a leaf spring flow opening in the piston is.

For a high Efficiency and short response time of the valve element is there particularly advantageous if according to a Development of the invention, the leaf spring in by means of the valve element lockable overflow direction arranged the fluid in front of the flow opening is.

One Leakage fluid flow in Range of the piston can be reliable be minimized if according to a another advantageous embodiment of the invention radially between the piston and the inner wall of the pressure tube, a sealing element is arranged.

alternative or additionally a leakage fluid flow may be beneficial be reduced if, according to a Another embodiment of the invention radially between the piston and the piston rod is arranged a sealing element.

Basically you could Imagine that one in both possible Uberströmrichtungen of the fluid, that is both from the first working space to the second working space vice versa, above a limit speed blocking valve element is provided when a recording of kinetic energy in both Einfahr- as well as in the extension of the piston rod should be possible. It is particularly advantageous, however, if, according to another development the invention of the piston is a first piston and a first piston corresponding, in the opposite direction of the first piston acting second piston is provided. This can be easy on Way a damping effect not only at a kinetic energy peak in one direction of movement the piston rod, for example, when retracting the piston rod in the pressure tube, but also in the opposite direction of movement the piston rod, that is for example, when extending the piston rod from the pressure tube, respectively. In terms of design, the second piston corresponds to the first one Piston. It is therefore in this embodiment of the invention a second slidably guided in the pressure tube, with the piston rod connected piston provided, it is at a smaller the second working space Movement of the second piston fluid from the second working space in the first working space over The second piston can be overflowed, the second Piston has the overflow of Fluid from the second working space in the first working space at a movement speed of the second piston above a second limit speed blocking second valve element, and the second piston is in the blocking second valve element damping element plastically deforming displaceable relative to the piston rod. The for the valve element the first piston applicable first limit speed and that for the valve element the second piston applicable second limit speed can have the same size; however It may be advantageous if the valve elements are so different are designed that give different limit speeds. Then you can at one Retraction of the piston rod a lock at one example lower kinetic energy peak than in an extension movement the piston rod. For example, in such a case Use of the piston-cylinder unit on a vehicle seat of a motor vehicle a force acting on a user of the seat in a frontal impact of the motor vehicle the structure of the human body bill carrying another size as in a rear impact.

According to an advantageous embodiment of the invention, the piston-cylinder unit may have a particularly compact structure and consist of comparatively few components, when the damping element is a common damping element for the first piston and the second piston and is disposed between the first piston and the second piston. In this case, the damping element preferably hold the two pistons at a distance and bias against each other, so that an additional noise reduction in the operation of the piston-cylinder unit is to be achieved.

According to one Another advantageous embodiment of the invention is the pressure tube springy opposite the piston rod supported, causing a dampening Suspension of the piston-cylinder unit as a whole he follows.

Especially economical with reliable spring properties it is there if, according to a favorable Development of the invention, the pressure tube by means of a coil spring across from the outside the pressure tube arranged free end of the piston rod is supported.

embodiments the invention are shown schematically in the drawing and will be closer in the following explained. Show it

1 a section of a piston-cylinder unit in a sectional view and

2 : another piston-cylinder unit in a sectional view.

Corresponding elements are provided in all figures with the same reference numerals. In 1 is a piston-cylinder unit 1 with a cylindrical pressure tube 2 and with one in the pressure tube 2 slidably guided and a first work space 3 from a second workroom 4 in the pressure tube 2 separating the first piston 5 shown. The piston 5 is with a piston rod 10 connected.

The pressure tube 2 , whose first working space 3 and second workspace 4 is filled with an incompressible fluid formed by a hydraulic fluid, in particular a hydraulic oil, is at a first end face 6 closed and on one of the first end face 6 opposite second end face 7 with respect to the central axis 8th the piston-cylinder unit 1 centric opening 9 Mistake. Through the opening 9 is the piston rod 10 , and sealed by means of a seal 11 , from the pressure tube 2 led out. One from the second end 7 of the pressure pipe 2 spaced constriction 12 of the pressure pipe 2 put the seal 11 against a frontal flanging 13 and thus against the second end face 7 firmly.

At one the first workroom 3 decreasing movement of the piston 5 That is, in this embodiment, when retracting the piston rod 10 in the pressure tube 2 (It could also be an extension of the piston rod from the pressure tube in another embodiment), is fluid from the first working space 3 in the second workspace 4 over the piston 5 überströmbar.

The piston 5 indicates this at the retraction of the piston rod 10 in the pressure tube 2 Successful overflow of fluid from the first working space 3 in the second workspace 4 at a moving speed of the piston 5 above a limit speed blocking valve element 14 on and is in the retraction of the piston rod 10 axially on a heel 15 the piston rod 10 at. In the opposite direction, ie in the direction of the second working space 4 in the first workroom 3 according to an extension of the piston rod 10 from the pressure tube 2 , is at all movement speeds of the piston 5 an overflow of fluid possible.

With blocking valve element 14 That is, at a moving speed of the piston 5 above the aforementioned limit speed, the piston moves 5 relative to the further retracting piston rod 10 with simultaneous plastic deformation of a piston kinetic energy 5 and piston rod 10 at least partially absorbing damping element 16 , The damping element 16 has a plastically deformable bellows 17 made of sheet metal.

The valve element 14 has several flow openings 18 in the piston 5 on top of a leaf spring 19 can be closed, which in by means of the valve element 14 lockable overflow of the fluid in front of the flow openings 18 is arranged. The flow openings 18 additionally form a throttle element for overflowing fluid. At a movement speed of the piston 5 up to the limit speed is the leaf spring 19 from the flow holes 18 spaced, and fluid can flow therethrough; above the limit speed, the leaf spring sets 19 due to back pressure from the first working space 3 to the flow openings 18 on, so that these of the leaf spring 19 getting closed.

Radial between the piston 5 and the inner wall 20 of the pressure pipe 2 is an example having an O-ring, with the piston 5 movable sealing element 21 arranged. Another, also with the piston 5 movable, for example, an O-ring having sealing element 22 is radial between the piston 5 and the piston rod 10 arranged.

Further shows 1 in that in a symmetrical construction another, second piston 23 is provided, which in the opposite direction of the first piston 5 acts. The second piston 23 structurally corresponds to the first piston 4 with acting in the opposite direction valve element and is in the extension direction of the piston rod 10 axially at a second paragraph 24 the piston rod 10 at.

It can be seen that the damping element 16 a common damping element 16 for the first piston 5 and the second piston 23 is. The damping element 16 is in the axial direction of the piston-cylinder unit 1 between the first piston 5 and the second piston 23 arranged, wherein in the unloaded state of the first piston shown 5 and the second piston 23 the two pistons 5 . 23 and the damping element 16 forming a unit on the piston rod 10 arranged and between paragraphs 15 . 24 the piston rod 10 are fixed. Preferably, the damping element biases 16 the pistons 5 . 23 against the heels 15 . 24 for noise reduction.

Another piston-cylinder unit 1 is in 2 shown. This piston-cylinder unit 1 corresponds in its internal structure of the piston-cylinder unit according to the first embodiment described above, differs from that but in that a pressure tube 2 resilient against a piston rod 10 , by means of a coil spring 25 opposite one outside the pressure tube 2 arranged free end 26 the piston rod 10 , is supported.

The coil spring 25 is between a radially projecting edge 27 a pot-like, about an opening 9 for the piston rod 10 having front side 7 of the pressure pipe 2 pulled sleeve 28 and one at the free end 26 the piston rod 10 arranged stop plate 29 clamped.

1

Piston-cylinder unit

2

pressure pipe

3

working space

4

working space

5

piston

6

front

7

front

8th

central axis

9

opening

10

piston rod

11

poetry

12

constriction

13

flanging

14

valve element

15

paragraph

16

damping element

17

bellow

18

flow opening

19

leaf spring

20

inner wall

21

sealing element

22

sealing element

23

piston

24

paragraph

25

coil spring

26

The End

27

edge

28

shell

29

stop plate

Claims (12)

Piston-cylinder unit with a cylindrical pressure tube, with a slidably guided in the pressure tube and a first working space of a second working space in the pressure tube separating piston, wherein the piston is connected to a led out at one end of the pressure tube from the pressure tube piston rod and wherein In the case of a movement of the piston which reduces the first working space, a fluid can be flowed over the piston from the first working space into the second working space, and with a plastically deformable damping element for receiving kinetic energy of the piston rod and the piston, characterized in that the piston ( 5 ) the overflow of fluid from the first working space ( 3 ) into the second workspace ( 4 ) at a speed of movement of the piston ( 5 ) above a limiting speed blocking valve element ( 14 ) and that the piston ( 5 ) with blocking valve element ( 14 ) the damping element ( 16 ) plastically deforming relative to the piston rod ( 10 ) is movable. Piston-cylinder unit according to claim 1, characterized in that the damping element ( 16 ) a plastically deformable bellows ( 17 ). Piston-cylinder unit according to claim 2, characterized in that the bellows ( 17 ) consists of a metallic material. Piston-cylinder unit according to one of the preceding claims, characterized in that an overflow of fluid in the piston ( 5 ) provided flow opening ( 18 ) has a throttle element. Piston-cylinder unit according to one of the preceding claims, characterized in that the valve element ( 14 ) one of a leaf spring ( 19 ) closable flow opening ( 18 ) in the piston ( 5 ). Piston-cylinder unit according to claim 5, characterized in that the leaf spring ( 19 ) in by means of the valve element ( 14 ) lockable overflow direction of the fluid in front of the flow opening ( 18 ) is arranged. Piston-cylinder unit according to one of the preceding claims, characterized in that radially between the piston ( 5 ) and the inner wall ( 20 ) of the pressure tube ( 2 ) a sealing element ( 21 ) is arranged. Piston-cylinder unit according to one of the preceding claims, characterized in that radially between the piston ( 5 ) and the piston rod ( 10 ) a sealing element ( 22 ) is arranged. Piston-cylinder unit according to one of the preceding claims, characterized in that the piston ( 5 ) a first piston ( 5 ) and that a first piston ( 5 ), in the opposite direction of the first piston ( 5 ) acting second piston ( 23 ) is provided. Piston-cylinder unit according to claim 9, characterized in that the damping element ( 16 ) a common damping element ( 16 ) for the first piston ( 5 ) and the second piston ( 23 ) and between the first piston ( 5 ) and the second piston ( 23 ) is arranged. Piston-cylinder unit according to one of the preceding claims, characterized in that the pressure tube ( 2 ) resiliently with respect to the piston rod ( 10 ) is supported. Piston-cylinder unit according to claim 11, characterized in that the pressure tube ( 2 ) by means of a coil spring ( 25 ) compared to the outside of the pressure tube ( 2 ) arranged free end ( 26 ) of the piston rod ( 10 ) is supported.