DE10115374A1 - Blockable piston-cylinder unit has blocking valve with dynamic head relief connection - Google Patents

Abstract

The blockable piston-cylinder unit (1) includes a cylinder (3) filled with blocking fluid in which a piston (6) can move axially on a piston rod (5), forming two working cavities (9, 11) able to be linked arbitrarily by a valve body (21, 23) within a flow connection. There is also a no-return valve in a bypass. The blocking valve (13, 19) has a dynamic head relief connection (47, 49).

Description

The invention relates to a lockable piston-cylinder unit accordingly the preamble of claim 1.

A piston-cylinder unit is known from DE-AS 14 59 182, comprising a valve housing that provides a flow connection to at least one working Has space of the piston-cylinder unit, the flow connection from a valve body depending on the pressure conditions in the flow connection is switched by a pilot valve body from a defined Dynamic pressure a switching force can take effect by means of a locking mechanism nism holds the valve body in an intended valve body position, too when the dynamic pressure has reached a lower level.

DE 42 39 172 C1 describes a lock for holding a wing in different opening positions relative to a frame, such as the  Door of a motor vehicle. Within a flow connection are two ge directionally arranged check valves arranged that have an opening flow affect on a main valve. If a certain back pressure within the Flow connection established, then this opens in a bypass Main valve. If the main valve has opened, then the back impact valves brought back into the closed position by a closing spring. The DE 42 39 172 C1 describes only one valve principle. It does not reveal how to move the step valve back to the full closed position can, if the two check valves are already closed and the stu fenventil has already closed the flow channel. Then there is an closed volume before that the fully closing movement of the stages prevents valve on the seat.

The object of the present invention is to provide a lockable piston To create cylinder unit, especially for the Ausgestal flow paths between the work rooms and those for the blocking a simple solution is found.

According to the invention the object is achieved in that the blocking valve Back pressure relief connection. This complicates currents bypassed. In any case, it ensures that the blocking valve completely close and can reliably perform the intended function.

It has proven to be particularly advantageous if the control room Has dynamic pressure relief connection that included in the control room ne excess blocking medium can flow out.

So you can provide that the valve body of the blocking valve the back pressure has relief connection. With a clever dimensioning you get a dynamic pressure effect on the one hand and one on the other only small and with a low pressure flowing excess reach the blocking medium.  

According to an advantageous subclaim, the valve body is within a Main valve space arranged and the main valve space points independently of the Operating position of the valve body a drain opening to the adjacent Ar working room on. The excess blocking medium can flow through the drain opening be dissipated. This means that no further flow paths are established.

The flow connection is connected to the main valve chamber and the Ab flow opening leads the blocking block flowing in via the flow connection dium off. The drain opening thus has a double function.

Furthermore, the drain opening is in every operating position of the valve body positioned on the back. If the direction of movement changes, this can blocking medium flowing into the main valve chamber the closing movement of the Support the valve body.

In an alternative embodiment, the control room points at least two to one another opening check valves. That towards the control room itself Opening check valve ensures that the valve body is pressurized and the check valve that opens towards a work area ensures the outflow of the excess blocking medium from the control room, so the blocking valve can close completely. With that, too minimal back pressure loss in the control room avoided.

Furthermore, it is advantageously provided that for each direction of movement the piston rod has a separate blocking valve, each with an associated one Control room is used.

It has proven to be advantageous if the blocking valve within the Piston is arranged and the flow connection from a gap between the cylinder and the piston is formed, with a switchable piston ring Gap releases depending on the flow direction.  

Two piston rings that can be switched in opposite directions are used so that the Gap between the cylinder and the piston on a section between the Piston rings are available as a flow connection for both flow directions is available. Overall, the double use of the gap can make it a very large one Flow cross-section can be used.

In addition, the possibility can be used that the in the inflow direction in the control room an opening check valve transverse to the longitudinal axis of the Kol ben rod is arranged and a check valve body in operative connection with a transmission link, which is a function of the cylinder diameter transmits an operating movement to the check valve body. With that leaves there is a stroke-dependent control of the opening force for the blocking valve to reach. If the check valve is only open, then a ver equally small force the blocking valve can be opened. In addition can you can also perform a bypass in the cylinder, which is a complete bypass cover of the blocking valve and thus three holding force levels of the Piston-cylinder unit can be effective. The maximum holding force is reached when the check valve and the blocking valve are closed and a reduced holding force occurs when the check valve is forced se is kept open, based on a lifting movement from standstill, and if the bypass is effective, then only a possibly existing pressure acts tension of the blocking medium as extension force on the piston rod.

So that the diameter changes in the cylinder outside of a bypass can be taken, the switchable piston ring is designed to be radially elastic and biased towards the inner wall of the cylinder.

The invention is to be explained in more detail with the aid of the following description of the figures become.  

The single figure shows a section of an arbitrarily blockable Kol ben cylinder unit 1 , which comprises a cylinder 3 , in which a piston rod 5 is arranged axially movable with a piston 7 . The cylinder is filled with a liquid or gaseous blocking medium, which can optionally be under a prestress, the cylinder being moved from the piston into a first and a second working space 9 ; 11 is divided.

Within the piston 5 , two blocking valves 13 ; 15 executed. Each blocking valve comprises a control chamber 17 ; 19 by a valve body 21 ; 23 to a main valve chamber 25 ; 27 is blocked. Both control rooms have a check valve 29 opening in the direction of the control room; 31 , which has a bypass 33 ; 35 influenced by a flow connection 37 . The flow connection is formed by a gap between the cylinder and the piston.

In the illustrated blocking position of the piston-cylinder unit 1 , both the valve body 21 ; 23 as well as the check valves 29 ; 31 of closing springs 39 , 41 ; 43 ; 45 biased in the closing direction.

The figure contains two design variants to ensure that the valve body 23 , when it is in a passage position, can pass back into the blocking position despite the control chamber 19 filled with blocking medium. So there is the possibility that a dynamic pressure relief connection 47 within the valve body 21 ; 23 is executed, the control room 17 ; 19 with the main valve chamber 25 ; 27 connects. Excess blocking medium can through the very small pressure relief connection in the main valve chamber 23 ; 25 violated.

An alternative variant may consist in the control chamber having a check valve 49 which opens in the direction of the adjacent work chamber or in this case in the direction of the flow connection 37 .

The flow connection 37 is for both blocking valves 13 ; 15 shared. There are also two switchable piston rings 51 ; 53 to use, which are biased towards the inner wall of the cylinder and are in frictional engagement with it. One has a piston ring groove 55 ; 57 provided with a closing surface 59 and an adjacent passage surface 61 . During a relative movement between the piston and the cylinder, the piston ring is moved in a force-controlled manner from the closing surface in the direction of the passage surface or vice versa. The two piston rings 51 ; 53 are arranged in mirror image, so that there is always a piston ring on the closing surface and a piston ring in the area of the passage surface. That is why the flow connection 37 can be used so easily for both flow directions.

Starting from the piston position shown, the piston is moved in the direction of the working space 9 , for example. This inevitably means that the blocking valve 13 remains in the closed position, although the piston ring 51 is moved from the closing surface 59 to the passage surface 61 of the piston ring groove 55 . The blocking medium compressed in the working space 9 flows into the flow connection 37 and rests on the bypass 35 of the check valve 31 and on an inflow opening 63 to the main valve space 27 . The Zuströmöff opening is through two seals 23 a; 23 b in the valve body 23 once in Rich direction of the control chamber 19 and once in the direction of the main valve chamber 27 blocked off. The piston ring 53 , which rests on the closing surface of the piston ring groove 57 , prevents a direct connection between the two working spaces 9 ; 11 .

As soon as a minimum pressure has built up within the flow connection 37 , a check valve body 65 opens against the force of the closing spring 45 in the control chamber 19 . If a correspondingly high dynamic pressure has also built up in the control chamber, then the valve body 23 moves against the force of the closing spring 41 in the main valve chamber 27 . The areas on the check valve body 65 and on the valve body 23 are dimensioned such that a greater force is required for the opening movement of the check valve body than for the opening movement of the valve body 23 . The pressure relief connection 47 in the valve body 23 is practically negligible with respect to the dynamic pressure loss on the valve body 23 .

The valve body 23 has reached its open position when the seal 23 b in the direction of the main valve chamber 27 in the valve body 23 overlaps with a pocket 67 and is thereby bridged. The seal 23 a in Rich direction of the control room is bridged by this in the area of the inflow opening 63 . Blocking medium can then flow into the control chamber 19 on the one hand and hold the valve body in the passage position bypassing the check valve 31 and on the other hand pass from the flow connection into the work chamber 11 via a drain opening 69 . The check valve 31 can go back into the closed position and seal the bypass 35 .

If the piston is brought into a rest position with respect to the cylinder together with the piston rod, then all back pressures are reduced and only the forces of the closing springs 41 ; 45 of the blocking valve 15 are effective. The closing spring 41 presses the valve body 23 again in the direction of the control chamber 19 , alternatively excess blocking medium flows directly through the dynamic pressure relief connection 47 into the main valve chamber 27 or is displaced by the check valve 49 in the direction of the flow connection 37 .

Optionally it can be provided that a bypass 71 is embodied in the cylinder, the length of which is greater than the distance between the two piston rings 51 ; 53 . So that regardless of the direction of movement of the piston rod, an area is defined in which both blocking valves 13 ; 15 can be bridged.

Furthermore, as shown in the figure, the check valves 29 ; 31 transversely to the longitudinal axis of the piston rod and each in operative connection with a transmission member 73 ; 75 put. As soon as the transmission element enters a section 77 of the cylinder with a smaller diameter, the diameter reduction has an effect on the check valves 29 ; 31 as an operating movement from which the bypass in the direction of the control rooms 17 ; 19 open and to open the valve body 21 ; 23 drastically reduces the necessary force, since the otherwise necessary force for moving the piston rod in order to create a sufficiently large dynamic pressure in front of the check valves 29 ; To build 31 is superfluous.

For the sake of completeness, the possibility is also shown that one can additionally use a resilient stop 79 , which allows the external force required to open the blocking valve 13 to rise again on the piston rod when the piston is out of the rest position within the stroke range of the valve must be moved.

Claims (12)

1. Lockable piston-cylinder unit, comprising a cylinder filled with a blocking medium, in which a piston is axially movably guided on a piston rod, the piston separating the cylinder into two working spaces, which are arbitrarily connected via a blocking valve by means of a valve body within a flow connection The blocking valve is assigned at least one non-return valve in a bypass and there is a control chamber between the non-return valve and the blocking valve, characterized in that the blocking valve ( 13 ; 19 ) has a dynamic pressure relief connection ( 47 ; 49 ). 2. Piston-cylinder unit according to claim 1, characterized in that the control chamber ( 17 ; 19 ) has the dynamic pressure relief connection ( 47 ; 49 ) which allows the excess blocking medium enclosed in the control chamber ( 17 ; 19 ) to flow out. 3. Piston-cylinder unit according to claim 1, characterized in that the valve body ( 21 ; 23 ) of the blocking valve ( 13 ; 15 ) has the back pressure connection ( 47 ). 4. Piston-cylinder unit according to one of claims 1 to 3, characterized in that the valve body ( 21 ; 23 ) is arranged within a main valve chamber ( 25 ; 27 ) and the main valve chamber ( 25 ; 27 ) regardless of the operating position of the valve body ( 21 ; 23 ) has a drain opening ( 69 ) to the neighboring work space ( 9 ; 11 ). 5. piston-cylinder unit according to claim 4, characterized in that the flow connection ( 37 ) to the main valve chamber 21 ; 23 ) is connected and the drain opening ( 69 ) discharges the blocking medium flowing in via the flow connection ( 37 ). 6. Piston-cylinder unit according to claims 4 or 5, characterized in that the drain opening ( 69 ) is positioned on the rear side of the valve body ( 21 ; 23 ) in each operating position. 7. piston-cylinder unit according to claim 2, characterized in that the control chamber ( 17 ; 19 ) has at least two oppositely opening check valves ( 31 ; 33 ; 49 ). 8. Piston-cylinder unit according to one of claims 1 to 8, characterized in that for each direction of movement of the piston rod ( 5 ), a separate blocking valve ( 13 ; 15 ) with an associated control chamber 17 ; 19 ) is used. 9. piston-cylinder unit according to one of claims 1 to 8, characterized in that the blocking valve ( 13 ; 15 ) is arranged within the piston ( 7 ) and the flow connection ( 37 ) from a gap between the cylinder ( 3 ) and the piston ( 7 ) is formed, a switchable piston ring ( 51 ; 53 ) releasing the gap ( 37 ) depending on the flow direction. 10. Piston-cylinder unit according to claim 9, characterized in that two oppositely switchable piston rings ( 51 ; 53 ) are used, so that the gap ( 37 ) between the cylinder ( 3 ) and the piston ( 7 ) on a section between the piston rings ( 51 ; 53 ) is available for both flow directions as a flow connection. 11. Piston-cylinder unit according to one of claims 1 to 10, characterized in that in the direction of flow into the control chamber ( 17 , 19 ) an opening check valve ( 31 ; 33 ) is arranged transversely to the longitudinal axis of the piston rod ( 5 ) and a Check valve body ( 65 ) is operatively connected to a transmission member ( 73 ; 75 ) which, depending on the cylinder diameter, transmits an operating movement to the check valve body ( 65 ). 12. Piston-cylinder unit according to claims 9 or 10, characterized in that the switchable piston ring ( 51 ; 53 ) is radially elastic and is biased in the direction of the inner wall of the cylinder ( 3 ).