DE2706442C2 - Cylinder-piston unit with lockable piston - Google Patents

Description

The invention relates to a cylinder-piston unit with an opposite the cylinder by a Locking device lockable first piston with piston rod and at least one in the same cylinder arranged second piston, both pistons are connected to a device which is in one in a specific direction taking place relative axial movement of the first piston to the second the locking device by means of transmission means arranged between the two pistons and the locking part of the locking device brings into locking position.

Such cylinder-piston units are known (2. B. from DE-OS 25 02 381). With these well-known Cylinder-piston units are arranged between the two pistons or piston halves, the locking means be pressed radially against the inner wall of the cylinder in the event of a failure of the unit, thereby a To achieve locking. Because the inner wall of the cylinder is smooth and the hydraulic oil creates a lubricating film has, the locking means can generate a not very large holding force even with high contact pressure. Furthermore, the pressing force is generated by resilient means due to the small space between the

Pistons must be small and thus can only generate a low contact pressure. Jerky blows, like she z. B. can arise in the event of a break in an associated device part, can through this known units are not caught. In addition, these known locking means can Damage the inner wall of the cylinder or at least cause high wear.

The object of the invention is to provide a cylinder-piston unit to create with lockable piston that absorb large loads in the locked state can.

This object is achieved according to the invention in that at least one holding part in addition on the cylinder The longitudinal direction of the cylinder is rigidly attached to which the locking part attached to the piston rod of the first piston in a form-fitting manner in the locking position or is fixed in a form-fitting manner.

In the case of the cylinder-piston unit according to the invention, the locking means do not work with the inner wall of the cylinder, but with an additional part attached to the cylinder. As a result, these parts can be optimally designed to absorb tensile or compressive forces according to the requirements and thus offer the locking means contact surfaces through which loads can be absorbed that go far beyond the hydraulic performance of the cylinder-piston unit. Damage to or wear and tear on the inner wall of the cylinder is completely avoided. JiI

In order to move the piston towards or from each other, it is proposed that the between the area around the piston via the inside of the piston rod with the atmosphere or another unpressurized medium is connected. By exiting Ji of leakage oil through the hollow piston rod is also an indication of internal leakage oil accumulation created.

Further, the locking device can be arranged inside or outside the cylinder, whereby a ^{4 (>} arrangement charge outside the cylinder, the advantages of easy maintenance, monitoring and a simpler construction.

A particularly simple construction inside the cylinder is achieved in that the two ■ * "> piston rods are disposed coaxially with each other.

As a particularly simple mechanical embodiment it is proposed that the locking part be a Lever is at one end, in particular via transmission parts or linkage, a piston and on the middle area of which is articulated by the other piston, in particular via transmission parts or linkages is, and that at the other Hebelendc the locking piece generating the locking is arranged.

If directional locks are arranged in the cylinder-piston unit, ie locks whose locking effect is greater in one direction than in the other, it is advantageous to arrange a third piston in the cylinder, the first piston being between the second and third pistons , the first and second ^D "pistons are connected to a first locking device and the first and third pistons are connected to a second locking device, and each locking device blocks only one direction of movement.

To achieve a space-saving design is proposed ^h, that the piston rods of the second, third, and piston are contiguous semi-wool. Three exemplary embodiments of the invention are shown in the drawings and are described in more detail below. It shows

Fig. 1 is a partial section through a cylinder-piston unit with a mechanically controlled directional lock;

2 shows a partial section through a second exemplary embodiment with a mechanically controlled one Directional lock in the opposite direction;

Fig. 3 is a partial section duich a third Embodiment with two mechanically controlled directional locks in opposite directions;

4 shows a side view of a fourth exemplary embodiment with one surrounding the cylinder Locking lever.

In the first exemplary embodiment shown in FIG. 1, a piston is located in a cylinder 25, which piston is divided into two piston halves lying one behind the other. The piston half facing the piston rod represents a first piston 1 (working piston) which is connected to a hollow working piston rod 3 which emerges from cylinder 25 through a seal 19 of cylinder head 13 and ends in a forked connection head 4. On the end face of the first piston facing away from the piston rod, a second piston 2a (switching piston) rests with its end face, the piston rod Sa of which extends through the working piston rod 3 and emerges therefrom at the level of the head 4.

For attachment to the working piston rod 3, the connection head 4 forms a perpendicular to the working piston rod fixed plate 33, which projects beyond the diameter of the cylinder 25 at least on one side, in order to provide a fastening point for a rod 8a that is passed parallel on the outside of the cylinder. These Rod 8a slides in a guide 27 which is attached to cylinder head 13. The rod 8a is something longer than the cylinder interior and has an articulation point at the end opposite the head 4 10, to which one end of a two-sided locking lever 9a is articulated.

On the side of the plate 33 facing away from the cylinder 25, a diametrically extends over the plate Lever 6a, one end of which at a pivot point 7 of the plate 33 and the opposite end to a Rod 8a is articulated on the outside of the rod 11 parallel to this up to the locking lever 9.7 out and is hinged in the middle. For adjusting and slightly moving the articulation point 24 between the lever 6a and the rod 8a, the lever 6a is not directly on the rod 8a but on a ring 27 articulated, which is held between two springs 15 located on the rod 8a and from adjustable screws are held.

In order to transmit the movement of the second piston 2a to the locking lever 9a, the sonic piston rod 5a with its part protruding from the working piston rod 3 is articulated to the lever 6a in an eccentric area closer to the point 7. The locking lever 9a has, at its end opposite the pivot point 10, a pin 22 which can be pivoted into a toothed rack 12a by the locking lever 9a. The rack 12a is arranged parallel to the cylinder axis at the level of the rod 8a and has teeth pointing away from the cylinder. In the area of the cylinder head 13, the rack is fastened to the guide 27 and on the opposite cable by a clamp 14 to the cylinder base 26.

The pistons have ring seals 21 and 29, and in addition the / wide piston has one

Gleitripg 16. by a clamping device 17 against the cylinder wall is pressed in order to generate a precisely metered friction which should be greater than that of the first piston 1.

If pulling work is to be carried out by this cylinder-piston unit, the 1 The cylinder chamber 28 located in the cylinder chamber 28 is pressed in and oil is pressed out of the opposite cylinder chamber 30. This is done via the connection points 18 and 23. As long as in the cylinder-piston unit, the There are no leaks in the supply lines or the connected units, pistons 1 and 2a remain close together, and the locking lever 9a moves parallel to the cylinder axis in a perpendicular position the piston. But as soon as a leak occurs, the pressure in the cylinder chamber 28 drops, and so does the first piston 1 moves away from the second piston 2a. The one on the first piston 1 also moves in the same way connected rod 11 so that the lower part of the locking lever 9a to the left and the upper to the right is moved and the pin 22 engages in the rack 12a, so that the piston I at a further Movement is prevented.

As the first piston moves away from the second, the one between the pistons forms Cylinder chamber air is sucked in through an annular chamber 31, which is located between the two piston rods 3 and 5a is located. As soon as the required pressure level has been reached again in the cylinder chamber 28, the first subsides Piston back to the second, and the lock is automatically released.

The second embodiment shown in Fig. 2 differs from the first only in that the piston rod does not do any pulling work but pushing work and for this reason the second Piston 26 lies on the side of the first piston 1 facing the piston rod. The one on the second piston attached piston rod 56 is also in this exemplary embodiment in the interior of the tubular Working piston rod 3 and is connected to the second piston 26 via a bolt which is not in a shown, Langioch the working piston rod 3 out is. While in the first embodiment, the teeth of the rack Ü2a opposite to the pulling direction the force acting on the piston rod are slightly inclined, the teeth of the rack 126 have a Tilt to the other side. to absorb pressure forces with a high level of security.

The in the F i g. Third embodiment shown Figure 3 shows a cylinder-piston unit, the pressure drops on 'both sides of the piston fields and has a three-part piston. The middle piston is the actual working piston, which is connected to the piston rod that leads to the connection head 4. Inside the piston rod 3 are the piston rods 5a and 56 belonging to the second further pistons 2a and 26, each of which has a semicircular cross-section and at the ends of which a lever 6a and 66 is attached, which controls the movements of the piston rods 5a and 56 on rods 8a and 86 ™ to move lock levers 9a and 96.

In addition to these three exemplary embodiments, numerous designs are conceivable. The basic principle of all versions is the arrangement of at least one further piston of the same diameter next to the working piston or the division of the working piston into two or three parts, whereby during a trouble-free In operation, the pistons are adjacent to one another or move synchronously at a distance from one another. Only at; only when a pressure drop caused by a disturbance flows in a cylinder chamber more pressure medium than in the

. opposite cylinder chamber supplied so that the pistons move away from each other. This relative Movement of one piston to the other is sensed by a device located in the cylinder, in the piston, between the pistons or outside the

ι cylinder is arranged. So can in or between the piston can be arranged electrical, hydraulic or pneumatic switches that allow removal of the Register pistons from one another (e.g. through direct perception of the change in distance or through

. Perception of the change in pressure between the pistons) and a mechanical, hydraulic, pneumatic or trigger a magnetic locking device that holds the working piston in place. The locking device can inside the cylinder, e.g. B. in or between the

ι piston are and for example a lock opposite the cylinder wall or one guided through the cylinder and through the hollow piston rods effect a coaxial or offset rod (e.g. toothed rack or perforated rod). The one given by the switch

j signal can also be given to the outside, e.g. B. through the inside of the piston rod, be it. that the tubular piston rod itself acts as a conduit or a line is laid through the piston rod. In this case, one is placed on the outside of the cylinder

■ Locking device triggered by the signal. In the end can also be the medium sucked in through the hollow piston rod, which when the piston from each other between the pistons (or piston parts) occurs, one arranged on the outside of the cylinder, under pressure

■ affect the appropriate device (bellows, membrane), which is connected to the outlet opening of the piston rod and mechanically, electrically, hydraulically or pneumatically actuated the locking device.

The cylinder-piston unit according to the invention can be particularly advantageously positioned between an articulated mast and a work basket articulated thereon to keep it level at all times, with the Cylinder-piston unit is driven by a second cylinder-piston unit, which is located between the lower end of the articulated mast and the articulated mast bearing is located.

In the fourth embodiment shown in FIG the locking lever 9a is made in two parts and includes the cylinder 25 on both sides, whereby a a particularly compact design is created. The rack 12a rests directly on the cylinder 25, and the for The control rod 11 guiding the first piston 1 is articulated approximately centrally on the locking lever 9a and moves thus located approximately in a plane running through the cylinder axis and perpendicular to the rack plane Level. In this case, a rod 11 can be articulated on the locking lever on both sides of the cylinder, which thus diametrically opposite to the cylinder. One diametrically opposite the rack on the cylinder attached flat iron 34 forms an axially parallel slot which serves as a counter bearing for the locking lever. The rods 11 are arranged so that when locked Lock lever the axes of the piston rod 3 and the rod 11 are congruent. Thus the Rod 11 is only subjected to tension or compression and does not need to absorb any bending moment.

For this purpose 4 sheets of drawings

Claims (17)

Patent claims: i. Cylinder-piston unit with a first piston with piston rod, which can be locked with respect to the cylinder by a locking device, and at least one second piston arranged in the same cylinder, both pistons being connected to a device which, when there is a relative axial movement of the first piston in a certain direction secondly, brings the κ locking device into the locking position by means of transmission means arranged between the two pistons and the locking part of the locking device, characterized in that; Cylinder (25) additionally at least one y holding part (12a, \ 2b) is rigidly attached in the longitudinal direction of the cylinder, on which the locking part (9, 9a, 96, 22a, 22b) attached to the piston rod of the first piston in the locking position frictionally or is positively fixed. ;> ( 2. Cylinder-piston unit according to claim 1, characterized in that the transmission means have an electrical connection with a switch, a fluidic connection with a valve or a mechanical connection with a linkage (8,8a, 86,11) and / or a lever (6,6a, 6b) . 3. Cylinder-piston unit according to claim 1 or 2, characterized in that a piston rod (5a, 5b) is also attached to the second piston (2a, 2b) , and the locking part (9, 9a, 9b, 22a, 22b) the «, locking device is connected to the two piston rods (3,5a, 5b) by the transmission means (6, 6a, 6b, 8,8a, Sb, 11). 4. Cylinder-piston unit according to claim 1, 2 or 3, characterized in that the locking device j-> direction is a mechanically operated friction or molded locking mechanism (9a, 9b. 12a, 126, 22a, 22 ^ or a hydraulic, is a pneumatic or magnetic braking or holding device. 5. Cylinder-piston unit according to one of the claims 1 to 4, characterized in that the between the piston (1,2ajbefindliche area via the inside of a piston rod (3) with the atmosphere or another pressureless medium. 6. Cylinder-piston unit according to one of claims I to 5, characterized in that the two piston rods (3, 5a) are arranged coaxially to one another. 7. Cylinder-piston unit according to one of the claims 1 to 6, characterized in that the part fixedly arranged on the cylinder (25) is a rack (\ 2a) parallel to the cylinder axis. 8. cylinder-piston unit according to claim 7, characterized in that the rack (12a,) 5ϊ is attached to the outside of the cylinder (25). 9. Cylinder-piston unit according to claim 7, characterized in that the rack rests in the cylinder. 10. Cylinder-piston unit according to claim 9, t> o characterized in that the rack rests coaxially in the cylinder and of tubular Piston rod is surrounded. 11. Cylinder-piston unit according to one of claims I to 10, characterized in that the »i piston rod (5;),) for controlling the locking part (9a) via a lever (6, (J connected to the locking part) 12. Cylinder-piston unit according to claim 11, characterized in that a transmission rod (Sa) is arranged between the lever (6a) and the locking part (9a). on which the lever (6a) is adjustably attached. 13. Cylinder-piston unit according to one of claims 1 to 12, characterized in that the locking part (9a) is a lever, at the ein.n end or area, in particular via transmission parts or linkage, a piston (1) and the other piston (2a) is articulated to its central region, in particular via transmission parts or linkage, and that the locking piece (22a) producing the blocking is arranged at the other end of the lever or the opposite region. 14. Cylinder-piston unit according to one of claims 1 to 13, characterized in that a third piston (26) is arranged in the cylinder (25), wherein the first piston (1) between the second and third piston (2a. The first and second pistons (1, 2a) are connected to a first locking device (12a, 22a) and the first and third pistons (1, 2b) are connected to a second locking device (12i>, 22b) , and each Locking device locks only one direction of movement. 15. Cylinder-piston unit according to claim 14, characterized in that the piston rods (5a, 5b) of the second and third pistons (2a, 2b) are adjacent half-waves. 16. Cylinder-piston unit according to one of claims 13 to 15, characterized in that the rack (\ 2a ) rests directly on the outer wall of the cylinder (25) or is formed by this, and that the lever (9a) formed Locking part partially or completely laterally covers the cylinder (25). 17. Cylinder-piston unit according to claim 16. characterized in that the locking lever is on is arranged on both sides of the cylinder (25) and a transmission rod on each cylinder side (Ii) is attached to the locking lever (9.ij.