DE2456878B2 - Double-acting pressure-medium-operated cylinder with a piston rod that can be moved longitudinally and rotatably - Google Patents

Description

The invention relates to a double-acting pressure medium-actuated adjusting cylinder according to the Generic term of the claim.

An adjusting cylinder of this type has become known from DE-AS 54 780, in which the auxiliary piston as Piston rod collar is formed. The piston rod has a larger one on one side of the collar Diameter than on the other side of the collar, which makes it effective when pressurized annular piston surface is formed, which, however, in the known adjusting cylinder not for the longitudinal and Rotary movement of the piston rod is necessary

The piston rod of the well-known Stellzylindeq is at Pressurization of the main piston is initially axially displaceable only in one direction of movement and then against the force of a spring in one direction of rotation by a certain angle of rotation rotatable. When the main piston is pressurized in the opposite direction, the piston rod is connected to the relaxing spring can initially be rotated back in the opposite direction of rotation into its original rotational position and then axially displaceable into its starting position. The piston rod is not in both Directions of movement initially axially displaceable and then rotatable.

In the known adjusting cylinder, the main piston is secured against rotation in that the piston rod runs eccentrically to the cylinder axis. This has the difficulty that the main piston on the Screw thread is moved under the pressure of the pressure medium in a Kippsieiiung, which leads to a Jamming of the main piston on the screw thread can result. This Kippstellnng can therefore result because the contact surfaces of the piston on both sides of the eccentric piston rod are of different sizes.

From DE-AS 19 54 780 yet another adjusting cylinder has become known, the piston rod in first twisted in opposite directions in both directions of movement and then axially ίο is moved. To make sure the turning and Longitudinal movements in the specified order and not at the same time are on the piston rod a stop is provided between the main piston and the ends of the cylinder and between each of the stops and the main piston is one that slides on the piston rod and is sealed in the cylinder Auxiliary piston necessary. There are also control ducts in the piston rod that lead from the main piston can be covered and with additional control channels cooperate in the two auxiliary pistons in such a way that the pressure medium pressure of each one Holding the auxiliary piston in its one end position, whereby the piston rod is also held axially while the main piston is displaced axially on the piston rod and this rotates in the process

The arrangement of control channels in the piston rod, which are alternately covered or released by the main piston and which interact with control channels in two auxiliary pistons which are axially displaceable on the piston rod and sealed in the cylinder, represents a considerable structural effort The position of the piston rod is not jam-free on the screw thread.
From US-PS 29 55 579 it is already known to design the cylinder space and piston of an actuating cylinder with a longitudinally and rotatably movable central piston rod with an oval cross section. From US-PS 19 54780 it is known. To provide pistons of actuating cylinders with non-return valves acting in opposite directions in order to avoid impermissibly high pressures.

The object of the invention is to provide an adjusting cylinder of the type specified in the preamble of the claim f) create, the piston rod of which is initially axially displaceable in both directions of movement and then can be rotated and prevents the main piston from jamming on the screw thread will.

w The task is according to the invention with the characterizing Features of the claim solved.

The invention is described in detail with reference to an embodiment shown in the drawing and explained. It shows

^r> ~> Fig. 1 shows a longitudinal section through a jack according to the invention,

2 shows a cross section along the line AA in FIG. 1,

F i g. 3 shows a longitudinal section through a check valve ^"h " which is used in the actuating cylinder according to FIG. 1 and

Fig. 4 to 6 longitudinal sections through the adjusting cylinder according to FIG.) in a second, third and fourth position.

In Fig. 1 to 3 is an adjusting cylinder according to the invention

'"and a check valve shown in the Actuating cylinder is used. The actuating cylinder includes a

Cylinder housing 1 with end walls 25a and 256, two

Pistons 3 and 4 and a piston rod 5 that extends through

the pistons and the end walls extending the cylinder housing 1 of the control cylinder has an oval cross-section as Figure 2 shows Each end wall 25a, and 256 has a Druckmittelansthluß 10a and 106, respectively, which alternately via an unillustrated Sehaltventil, z. B. solenoid valve, can be connected to a pressure medium source, in particular a hydraulic pressure medium, and a pressure medium sink. A section of the piston rod 5 is provided with an external thread 7. The piston rod 5 with the external thread 7 lies centrally in the cylinder housing. The external thread lies within the cylinder that is pressure-tight to the outside. The end walls 25a and 256 of the cylinder serve as bearings for the axially displaceable and rotatable piston rod 5. Two pistons 3 and 4, the circumference of which is tightly connected to the inner wall of the housing, are arranged displaceably in the cylinder housing.The two pistons 3 and 4 subdivide the cylinder housing in three chambers 8, 9 and 11. The auxiliary piston 3 is provided with two check valves 12a and 126 , which extend through the piston 3 in opposite directions of action. The auxiliary piston 3 is rotatably mounted on the piston rod 5, but not axially displaceable. For this purpose, two ring disks 19, 19 are arranged on the piston rod 5, between which the piston 3 is held axially immovable on the piston rod 5. The other piston, referred to as the main piston 4, is provided with an internal thread 6, into which the external thread 7 of the piston rod engages. The check valve 12a or 126 according to FIG. 3 consists of a housing 13 with a valve seat 17, a spring 14, an adjusting screw 15 with a continuous central opening 18 and a valve ball 16. The pressure in the chamber 11 between the two pistons 3 and 4 is determined by the setting of the check valves 12a and 126. Two stop rings 20, 20 are located on the piston rod 5 at the two ends of the external thread 7, through which the rotary movement of the piston rod 5 is determined. The pressure medium connection 10a in the end wall 25a creates a connection to the chamber 8, which is delimited by the end wall 25a and the auxiliary piston 3. The chamber 8 is connected to the middle chamber 11 between the two pistons 3 and 4 via the check valves 12a and 126. The other line connection 106 in the end wall 256 creates a connection to the chamber 9 between the end wall 7.56 and the main piston 4. The two opposite ends of the piston rod 5 outside the cylinder housing 1 form connection ends 21 and 22 for machine parts (not shown) that are in opposite directions Directions are to move.

The actuating cylinder according to the invention according to FIG. 1 works as follows: At the beginning of a movement of the actuating cylinder, a switching valve (not shown) -, -, is actuated, connection 10a is released and connection 106 is blocked. In this way, a pressure medium such. B. air, oil, water or the like, via the connection 10a, the chamber 8 and the check valve 126 into the chamber 11. In the chamber 11, a pressure is established which is determined by the two check valves 12a, 126 is. Essentially no pressure medium reaches the chamber 9 via the thread 6, 7 and vice versa.

The first step of the movement cycle of the actuating cylinder according to the invention is initiated by that the switching valve, not shown, acts on the actuating cylinder via the connection 106 with pressure medium.

while pressure medium can flow out via the connection 10a. The pressure medium reaches the chamber 9 via the connection 106, pressure being exerted on the main piston 4. The pressure in the chamber 9 is transmitted to the central chamber 11 via the main piston 4 on the axially displaceable piston rod 5. The check valve 12a is set so that it remains closed up to a certain counter pressure on the main cylinder 4 while the pressure medium in the chamber 8 is able to flow off via the connection 10a. When the check valve 12a is closed, the piston rod 5 is therefore displaced by the pressure force on the main piston 4 in the direction of the arrow 23 into the position shown in FIG. 4 without the piston rod being rotated. The distance between the two pistons 3 and 4 remains unchanged

The second step of the movement cycle of the actuating cylinder according to the invention begins when this the in F i g. The position shown in FIG. 4 is taken up. The pressure in the chamber 9 is increased further until finally the back pressure in the chamber 11 becomes one The non-return valve 12a opens, whereupon the pressure medium flows out of the chamber 11 into the chamber 8 can cross and flow off from there via the connection 10a. As a result, the main piston becomes 4 shifted with simultaneous rotation of the piston rod in the direction of the auxiliary piston 3, since the The piston rod cannot be further axially displaced in the same direction.

The angle of rotation that the piston rod 5 executes depends on the thread 6, 7. A certain pressure medium pressure is maintained in the middle chamber 11, which is dependent on the setting of the check valve 12a. After completing the second movement step, the actuating cylinder takes the position shown in FIG. 5 a position shown in which the main piston 4 has been moved on the external thread 7 of the piston rod 5 in the drawing from the right to the left end of the thread.

For the third step of the movement cycle of the actuating cylinder according to the invention, that is not shown Switching valve switched, after which the connection 10a is now pressurized with pressure medium, while pressure medium can escape from the chamber 9 via the connection 106. It now arrives Pressure medium in the chamber 8, in which a pressure builds up against the auxiliary piston 3 on the axial displaceable piston rod 5 acts. The check valve 126 is also set so that it is up to one certain back pressure on the auxiliary piston 3 remains closed while the pressure medium in the Chamber 9 can flow out via the connection 106. When the check valve 126 is closed, the Piston rod 5 from piston 3 in the direction of arrow 24 into the position shown in FIG. 6 position shown moved, without the piston rod 5 being rotated. The distance between pistons 3 and 4 they end up of the second movement step is retained.

The fourth and last step of the movement cycle of the actuator according to the invention begins when these in F i g. 6 has taken up the position shown. The pressure in the chamber 8 is now increased further until it rises above the pressure in the chamber 11 and that Check valve 126 opens. The pressure which then rises in the chamber 11 acts on the main piston 4 and moves this to the one in K i g. 1 shown

Starting position while turning the piston rod back, as the piston rod is in the same direction cannot be shifted any further.

The angle of rotation made by the piston rod 5 is equal to the angle of rotation made by the piston rod had previously carried out in the second movement step, but the rotation takes place in the opposite direction Direction of rotation. After that, the piston rod takes off at the end of the fourth step of the movement cycle again with regard to their axial position and their rotational position

dre in fig. 1 starting position shown.

By appropriate actuation of the switching valve, not shown, the movement cycle can be repeated as often as desired under the action of the two check valves 12a and 12. Characterized in that the movement of the main piston 4 by the adjustable; Check valves is controllable, the Bewegungszy cycle of the actuating cylinder according to the invention runs with great accuracy.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Double-acting pressure-medium-operated actuating cylinder with a longitudinally and rotatably movable piston rod, which is connected to a sealed guided and axially displaceable main piston secured against rotation in the cylinder via a screw thread, by means of which the movement of the main piston in part of its stroke can be converted into a rotary movement of the piston rod and the longitudinal movement of the piston rod, which is separated in time from the rotary movement, is limited by a stop, the stroke of the main piston being greater than the effective length of the screw thread by the length of the longitudinal movement of the piston rod, with an axially non-displaceable auxiliary piston being provided on the piston rod outside the screw thread and wherein each cylinder end wall has a pressure medium connection and the two pressure medium connections can be alternately connected to a pressure medium source and to a pressure medium sink, characterized in that the auxiliary piston (3) is removed Seals guided in the cylinder (1) and rotatably mounted on the piston rod (5) that two oppositely directed check valves (12a, i2b) are provided in the auxiliary piston (3), which are set so that their opening (18) only after the limitation of the longitudinal movement of the piston rod (5) takes place, and that with a central arrangement of the piston rod (5) the cross-sections of the cylinder (1) and the two pistons (3, 4) are oval.