NL1014077C2 - Hydraulic cylinder with friction clamp arrangement for piston and piston rod, - Google Patents

Abstract

The friction clamp comprises a mantle (14) mounted around the piston-piston rod unit (3, 8) and placed under tension by a spring fitting (15) in order to urge against the inside of the cylinder wall (5).

Description

Short designation: Hydraulic cylinder with friction clamping means.

The present invention relates to a hydraulic cylinder according to the preamble of claim 1.

It is known in hydraulic cylinders to provide friction clamping means for clamping the piston / piston rod assembly with a frictional contact relative to the cylinder housing, for example to hold an object coupled to the cylinder in place when the hydraulic system is turned off and the hydraulic fluid can flow from one or both chambers.

The object of the present invention is to provide a hydraulic cylinder with friction clamping means for the piston / piston rod assembly, wherein the friction clamping means is simply constructed.

Another object of the present invention is to provide a hydraulic cylinder with friction clamping means, the clamping action being within a relatively precisely defined range.

A further object of the present invention is to provide a hydraulic cylinder with friction clamping means, wherein the clamping action is adjustable in the manufacture of the hydraulic cylinder.

Another object of the invention is to provide a hydraulic cylinder with friction clamping means, wherein the clamping action is ensured even after a long and / or intensive use.

The present invention provides a hydraulic cylinder according to claim 1. Further advantageous embodiments and advantages are described in the subclaims and in the following description of exemplary embodiments shown in the drawing. In the drawing: Fig. 1 shows in longitudinal section a part of a first exemplary embodiment of the hydraulic cylinder according to the invention, Fig. 2 shows the friction clamping means of the cylinder of Fig. 1 on a larger scale, and Fig. 3 in longitudinal section a part of another exemplary embodiment of the hydraulic cylinder according to the invention.

Figure 1 shows part of a double-acting linear hydraulic cylinder 1 with an elongated and substantially cylindrical cylinder housing 2. At one end, the cylinder housing 2 is provided with a cylinder bottom and at the other end with a cylinder head. In the cylinder housing 2, a piston 3 is movable to and fro, which piston 3 is provided with a sealing ring assembly 4, which abuts sealingly against the cylinder wall 5 of the cylinder housing 2. Thus, the piston 3 defines a head-side working chamber 6 and a bottom-side working chamber 7 in the cylinder housing 2, which chambers 6, 7 have a volume dependent on the position 15 of the piston 3. A piston rod 8 is arranged on the piston 3, which protrudes outwardly through an associated piston rod bore in the cylinder head.

The cylinder 1 is provided with friction clamping means for clamping the piston / piston rod assembly formed by the piston 3 and the piston rod 8 as a result of frictional contact with respect to the cylinder housing 2. The friction clamping means are designed such that the clamping is in any position the piston / piston rod assembly is realized with respect to the cylinder wall 5.

As is clear from the representation of figure 1, the piston rod 8 is formed at one end thereof with a part 10 of smaller diameter than the diameter of the part of the piston rod 8 moving through the cylinder head. This part 10 is provided with a screw thread onto which the piston 3 is screwed. Between the piston 3 and the shoulder of the piston rod 8, a ring 12 is enclosed with a diameter substantially corresponding to the diameter of the piston 3.

The part of the piston 3 adjacent to the ring 12 has a reduced diameter, so that the piston 3 and the ring 12 form a circumferential groove 13.

The groove 13 houses the friction clamping means, which are visible in detail in figure 2. These 11014 077 -3 clamping means comprise an annular, in this example cylindrical, friction jacket 14 of suitable friction material. In combination with a steel housing 2, for example, a friction jacket of bronze or brass is advantageous.

The friction jacket 14 is expandable in diameter and abuts against the cylinder wall 5 under pretension, thereby providing the friction for holding the piston / piston rod assembly relative to the housing 2.

The friction clamping means further comprise a spring member 15 for providing the bias of the friction jacket 14. The spring member 15 is an elastic resilient sleeve 17 provided here with an axial dividing seam 16, for instance made of (spring) steel. Around the outer circumference of the sleeve 17 is the friction jacket 14, which is thus pretensioned.

Due to the placement of the friction clamping means in the groove 13, the axial position thereof is fixed relative to the piston / piston rod assembly, possibly a certain axial play is present.

20 By dimensioning the friction clamping means and the choice of material, the clamping effect can be adjusted to the requirements.

Figure 3 shows part of a hydraulic cylinder 20 with a tubular cylinder housing 21. At one end, the cylinder housing 21 in this example is provided with a cylinder bottom and at the other end with a cylinder head. In the cylinder housing 21, a piston 23 is movable to and fro, which piston 23 is provided with a sealing ring 24, which seals against the internal cylinder wall 25 of the cylinder housing 21. The piston 23 thus defines a head-side working chamber 26 and a bottom-side working chamber 27 in the cylinder housing 21, which chambers 26, 27 have a volume dependent on the position of the piston 23. A piston rod 28 is arranged on the piston 23, which protrudes outwardly through an associated piston rod bore in the cylinder head.

The cylinder 20 is provided with friction clamping means for clamping the piston / piston rod assembly formed by the piston 23 and the piston rod 28 with respect to the cylinder housing 21. The friction clamping means are such that the clamping in any position of the piston / piston rod assembly 5 with respect to the cylinder wall 25 is realized.

When establishing a frictional clamping between the piston / piston rod assembly and the cylinder wall of a hydraulic cylinder, it plays a role that the frictional contact is realized in an environment with hydraulic fluid, in most cases hydraulic oil. This means that the achievable friction coefficient is low, partly because a rough wall 25 is not permissible due to the passage of the sealing ring (s) 24 arranged around the piston 23, which would then wear excessively. Therefore, under the conditions described above, a friction-based clamping requires a relatively high normal force, with which the friction element is pressed against the cylinder wall 25.

An additional practical problem, which plays a role in particular with a tubular cylinder housing as shown in figure 3, is that the inner diameter of the cylinder wall 25 can vary within certain limits due to manufacturing tolerances. If it is desired that the friction clamping means provide a certain holding force, i.e. the force with which the piston / piston rod assembly can be axially loaded without moving relative to the cylinder wall 25, in practice this variation of the inner diameter of the cylinder wall 25 proves to be a significant influence.

The embodiment of the friction clamping means shown in figure 3 takes into account both the effects described above and makes it possible on the one hand to realize a high normal force, and thus an acceptable holding force, and on the other hand it is possible to provide an accurately adjustable holding force.

1014077 -5-

As can be seen from the representation of figure 3, the piston rod 28 is formed at one end thereof with a part 30 of smaller diameter than the diameter of the part of the piston rod 28 moving through the cylinder head. This part 30 is provided with a screw thread onto which the piston 23 is screwed.

In line with the part 30, a part 31 is present with a smooth outer circumference. Around the part 31 there is an annular cone element 33. The cone element 33 fits slidingly around the part 31 of the piston / piston rod assembly. The cone element 33 has an external cone surface 34 on its outer circumference.

An annular friction element 35 is present between the piston 23 and the cone element 33. The friction element 35 has an expandable diameter. The friction element is preferably not a closed ring, but provided with one or more dividing seams.

In this example, the friction element 35 is composed of two halves. An external circumferential groove in those segments houses an elastic ring 36, which ring 36 serves to hold the halves together during the mounting of the cylinder.

On its inner circumference, the friction element 35 is provided with an internal cone surface 37, which abuts against the outer cone surface 35 of the cone element 33.

The friction element 35 abuts an end face thereof against the piston 23.

The cooperating cone surfaces 33, 37 provide a conversion between an axial contact force with which the cone element 33 is pressed in the direction of the piston 23 and the normal force which the friction element 35 exerts on the cylinder wall 25. Preferably the angle of the cone surfaces 33, 37 such that a strengthening of the contact pressure is achieved.

For providing and adjusting the contact force with which the cone element 33 is loaded, a spring 38 and 1014077 -6- are provided an adjusting means for adjusting the pretension of the spring 38, which are here designed as a nut 39.

The nut 39 is rotatably mounted on a threaded portion 40 of the piston / piston rod assembly, and the spring 38 is located between the nut 39 and the cone element 33. The spring 38 is a cup spring here.

By tightening the nut 39, the spring 38 is compressed, so that the spring 38 can supply a bias, with which the cone element 33 is pressed against the friction element 35.

The nut 39 is such that the nut 39 can be rotated relative to the piston / piston rod assembly when the piston / piston rod assembly with the piston and the friction clamping means is placed in the cylinder housing 21.

Preferably, the cylinder 20 is manufactured as follows.

The piston / piston rod assembly with the friction clamping means is placed in the cylinder housing 21.

Then, by turning the nut 38 relative to the piston / piston rod assembly, the friction element 35 is pressed against the cylinder wall 25. A bias is only built up in the spring 38 when the friction element 35 touches the cylinder wall 25.

In a possible embodiment of the mounting of the cylinder, the nut 39 is then tightened until the generated frictional clamping force meets the stated requirement. For example, for this purpose the tightening torque of the nut 39 can be measured and / or set to a certain maximum value, which is a measure for that clamping force.

Preferably, the nut 39 and / or the cone element 33 is provided with a stop, for instance a collar edge on the nut 39, which stop limits the compression of the spring 38 to a predetermined value, at least such that the maximum permissible bias of the spring is not exceeded.

In the aforementioned embodiment it is then possible to tighten the nut 39 until the stop prevents further tightening. At that time, the spring 38 has a known depression and thus a known bias. Then the nut 39 is turned back, for example a quarter turn, so that the spring 38 is again active between the nut 39 and the cone element 33.

By turning back the nut 39 a predetermined size, the pretension of the spring 38 is therefore known, and thus the clamping action, and thus the holding force, of the friction clamping means.

The nut 39 is preferably self-locking. The mounting method described above can be easily automated. After placing the assembly in the housing 21, the nut 39 is first tightened to the maximum and then turned back by a defined angle. The friction clamping means therefore always have the same holding force regardless of any manufacturing tolerances in the dimensions of the cooperating parts.

.101 * 077

Claims (10)

1 OU077 -9- Hydraulic cylinder (1; 20) comprising a cylinder housing (2; 21) with a first and a second cylinder head, a piston (3; 23) movable back and forth between the 5 cylinder heads in the cylinder housing, sealingly on a cylinder wall ( 5; 2 5) engages a piston rod (8; 28) connected to the piston, thereby forming a piston / piston rod assembly, the cylinder (1; 20) further comprising friction clamping means 10 (14,15,17; 39,38,33,35) for clamping the piston / piston rod assembly relative to the cylinder housing by frictional contact, characterized in that the friction clamping means comprise a friction jacket (14; 35) mounted around the piston / piston rod assembly, which friction sheath abuts against the cylinder wall (5; 25) and thereby provides friction for retaining the piston / piston rod assembly, and the clamping means further comprises a spring member (15; 38) for providing the friction sheath bias. 20 A hydraulic cylinder according to claim 1, wherein the spring member (15) is located between the piston / piston rod assembly and the friction jacket. Hydraulic cylinder according to claim 1 or 2, wherein the spring member (15) is a spring which is substantially expandable in diameter. Hydraulic cylinder according to one or more of the preceding claims, in which the spring member (15) is a sleeve provided with a longitudinal seam. Hydraulic cylinder according to one or more of the preceding claims, wherein the piston (23) is provided with one or more sealing rings (24), which engage sealingly on the cylinder wall. Hydraulic cylinder according to one or more of the preceding claims, wherein adjusting means (39) are provided for adjusting the bias of the friction element (35) supplied by the spring (38). 5 Hydraulic cylinder according to claim 6, wherein the adjusting means (39) are designed such that the preload is adjustable when the piston / piston rod assembly is placed in the cylinder housing (21) and the friction element (35) is in abutment against the cylinder wall. (25). Hydraulic cylinder according to one or more of the preceding claims, wherein the friction element (35) is provided with an internal cone surface (37) and wherein a cone element (33) projects into the friction element and rests with an external cone surface (34) thereof. against the internal cone surface of the friction element, and that the spring (38) presses the cone element and the friction element together. Hydraulic cylinder according to claim 8, wherein adjusting means (39) are provided for adjusting the pressing force supplied by the spring (38). Hydraulic cylinder according to claim 9, wherein the adjusting means comprise a nut (39) rotatable relative to the piston / piston rod assembly. 1 0 14 077