NL1004323C2 - Hydraulic cylinder comprising cylinder body, and connecting rod provided with piston - Google Patents

Abstract

Sealing devices are provided between the packing drum and the connecting rod on the one hand and between the packing drum and the cylinder body on the other hand. The packing drum has a radial external peripheral surface which extends between two head surfaces. The packing drum (5) on the side of the head surface (15) turned away from the piston (7) is provided with a brush. The greatest radial dimension of the brush is so much greater than the inner diameter of a ring (12) that the brush engages around the ring, forming a closed shape connection with it, so that the packing drum (5) in relation to the cylinder body (1) is fixed in both axial directions.

Description

Short designation: Mounting of a stuffing box in a hydraulic cylinder.

The invention relates to a hydraulic cylinder comprising a cylinder body, a piston rod provided with a piston, which divides the interior of the cylinder body in two spaces, a stuffing box arranged in the cylinder body through which the piston rod protrudes, sealing means being provided. between the stuffing box and the piston rod on the one hand and between the stuffing box and the cylinder body on the other hand, the stuffing box having a radial outer circumferential surface extending between two end surfaces and a recess on the transition from the end face remote from the piston to the radial outer peripheral surface and in which a circumferential groove is provided on the inside of the cylinder body in a plane perpendicular to the axis of the cylinder body, in which a ring is provided for fixing the stuffing box relative to the cylinder body in axial direction away from the piston .

Such a hydraulic cylinder is known from German Gebrauchsmuster DE 8817261. Herein a double-acting hydraulic cylinder is described, in which the cylinder body on the side where the piston rod protrudes from the cylinder body has a widening with a larger inner diameter than the diameter of the interior of the cylinder. the cylinder body through which the piston moves. The transition from the small to the large diameter forms a stop against which the stuffing box abuts through an annular disc. A groove is provided at a distance from this stop in the widened part of the cylinder body. After placing the ring disc and the stuffing box against the stop, a ring is placed in the groove. This ring prevents the stuffing box from moving in the axial direction away from the piston.

The drawback of the known hydraulic cylinder is that it is necessary to make a 10043 23 2 stop in the cylinder body in order to prevent the stuffing box from moving in the axial direction towards the piston.

The object of the invention is to fix a packing box with one fastening means such that the packing box can no longer move relative to the cylinder body.

To achieve this object, the present invention provides a hydraulic cylinder according to the preamble of claim 1, characterized in that the stuffing box on the side of the end face remote from the piston is provided with a breast the largest radial dimension of which is so much larger than the inner diameter of the ring, which the chest engages around the ring to form a form-fitting connection with the ring, so that the stuffing box is fixed relative to the cylinder body in both axial directions. This special version of the stuffing box makes it possible to fix the stuffing box with a single ring in the cylinder body. Furthermore, it is not necessary to provide the cylinder body with a widened part to form a stop for the stuffing box, as is the case with the known cylinder.

The present invention also relates to a method for mounting a stuffing box in such a hydraulic cylinder.

A preferred embodiment of a hydraulic cylinder according to the invention and the method for assembling it will be described below with reference to the drawing, in which: fig. 1 is a view, partly in section, of a hydraulic cylinder according to the invention; Fig. 2 is a view of a stuffing box according to the invention; Fig. 3 is a partial cross-sectional view of the ring placed in the cylinder body around which the packing sleeve engages; Fig. 4 is a partial cross-sectional view of another embodiment of the ring placed in the cylinder body 3 around which the stuffing box engages.

The hydraulic cylinder of fig. 1 comprises a cylinder body 1 with two connecting nipples 2, 3 for connecting the hydraulic cylinder to a hydraulic system (not shown). The cylinder body 1 is closed at one end. A fastening eye 4 is present at this closed end. The connection nipples 2, 3 are located at the closed end of the cylinder body 1. The other end of the cylinder body 1 is open. A stuffing box 5 is slid into the open end. Seals 19, 20 are arranged in annular recesses in the stuffing box 5, as usual.

A piston rod 6 protrudes through the stuffing box 5. The end of the piston rod 6, which is located in the cylinder body 15, is provided with a piston 7. At the other axial end of the piston rod 6, a fixing eye 8 is fixed by means of welding. The piston 7 divides the interior of the cylinder body 1 into two spaces 9, 10. These spaces 9, 10 are intended for hydraulic fluid. The space 9 is connected to the connection nipple 3 via a pipe 11. The space 10 is connected to the connection nipple 2. By increasing the pressure of the hydraulic fluid in the space 10, the piston 7 moves in the direction of the stuffing box 5 During this movement, the piston rod 6 exerts a force on the stuffing box 5 in the axial direction due to the friction with the seal 20. To prevent the stuffing box 5 from sliding, a ring 12 is placed in a groove 13 on the inside of the cylinder body 1 near its open end. The groove 13 lies in a plane that is perpendicular to the axis of the cylinder body 1.

In the stuffing box 5, an annular recess 14 is provided on the transition edge region between the end face 15 of the stuffing box 5, which end face 15 is furthest from the piston 7, and a radially outer peripheral surface 16 of the stuffing box 5. The the shape of the recess 14 is substantially complementary to the shape of the ring 12.

10043 23 4

The stuffing box 5 is shown in fig. Annular recess 17 in the outer peripheral surface 16 is intended to receive the seal 19. Furthermore, the stuffing box 5 on the end face 15 facing away from the piston 7 is provided with a breast 18. The breast 18 has in radial direction with respect to the center line of the stuffing box 5 a largest dimension at A which is greater than the minimum inner diameter of the ring 12. As a result, the breast 18 grips around the ring 12 and the stuffing box 5 can no longer move.

Fig. 3 shows a cross-sectional view of a detail of the cylinder body 1, the stuffing box 5 and the ring 12. The ring 12 is placed in the groove 13. The width of the groove 13 corresponds to the diameter of the cross-section of the ring 12. To allow elastic deformation of the ring 12 during the assembly of the hydraulic cylinder, there is some space between the ring 12 and the bottom of the the groove 13. This space may arise, for example, because the ring 12 is not perfectly round 20, as a result of which the ring 12 does not abut the bottom of the groove 13 everywhere, or because the radius of the outer circumference of the ring 12 is somewhat smaller than the distance from the deepest point of the bottom of the groove to the centerline of the cylinder. The stuffing box 5 rests against the ring 12 with the recess 14. The distance from the chest 18 at A to the inner wall of the cylinder body 1 is smaller than the radius of the ring 12. As a result, the stuffing box 5 cannot move in the axial direction away from the ring 13. The recess 14, the groove 13 and the ring 12 together with the chest 18 form a form-fitting connection.

In Fig. 4, another embodiment of the ring 12 is shown, in which the cross-sectional shape of the ring 12 is substantially rectangular, and the radial inner circumference of the ring 12 is formed to form two oblique sides which run outward from the center towards the radial outer circumference of the ring. The recess 14 and the j O π; Chest 18 in the stuffing box 5, like the groove 13 in the cylinder body, have a shape which is substantially complementary to the shape of the ring 12.

It will be clear to the skilled person that other shapes of the ring 12 and the stuffing box chest are also suitable for realizing a form-retaining stuffing box stuffing in both axial directions.

The method for assembling the hydraulic cylinder according to the invention is as follows: 10 The ring 12 and the stuffing box 5 are pushed over the piston rod 6 on which the fastening eye 8 is fitted at one end, after which the other end of the piston rod 6 the piston 7 is attached.

The assembly of piston rod 6, ring 12, stuffing box 5 and piston 7 formed in this way is placed in the cylinder body 1 such that the stuffing box 5 is slid into the cylinder body 1 such that the stuffing box 5 is on the side of the piston 7 is located relative to the groove 13. The ring 12 20 is then placed in this groove 13.

The hydraulic cylinder according to the invention is now connected to a hydraulic system using the connection nipples 2, 3.

After the spaces 9, 10 are completely filled with hydraulic fluid, the pressure in the spaces 9, 10 is increased. When the hydraulic pressure in the spaces 9, 10 is sufficiently high, the chest 18 will pass through the ring 12, elastically deforming the ring 12. The chest 18 now engages around the ring 12 and the ring 12 is held tightly in the recess 14 by the internal elastic restoring forces. The stuffing box 5 is now locked in both axial directions relative to the cylinder body 1.

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Claims (2)

Hydraulic cylinder comprising a cylinder body, a piston rod provided with a piston, whereby the interior of the cylinder body is divided into two spaces, a stuffing box arranged in the cylinder body through which the piston rod protrudes, sealing means being provided between the stuffing box and the piston rod on the one hand and between the stuffing box and the cylinder body on the other hand, the stuffing box having a radial outer circumferential surface which extends between two end surfaces and wherein on the transition from the end face remote from the piston 10 to the radial outer peripheral surface a recess is provided, and a circumferential groove is provided on the inside of the cylinder body in a plane perpendicular to the axis of the cylinder body, in which a ring is provided for fixing the stuffing box with respect to the cylinder body in axial direction away from the piston, characterized in that the stuffing box (5) on d The side of the end face (15) facing away from the piston is provided with a breast (18), the largest radial dimension of which is so much larger than the inner diameter of the ring (12), that the breast (18) surrounds the ring (12 ) to form a form-fitting connection with the ring (12), so that the stuffing box (5) is fixed in both axial directions relative to the cylinder body (1). Method for mounting a stuffing box in a hydraulic cylinder according to claim 1, comprising the following steps: - inserting the piston rod (6) with the piston (7) into the cylinder body (1) and the piston rod (6) 30 packed stuffing box (5); - placing the ring (12) in the groove (13) provided for this purpose in the cylinder body (1); - pressurizing the hydraulic fluid in the hydraulic cylinder, whereby the stuffing box (5) moves in the direction of the ring (12) and the chest (18) grips around the ring (12).