SU1691578A1 - Hydraulic cylinder with damping device - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to a volumetric hydraulic drive and can be used in damping devices of two-rod hydraulic cylinders with relatively high cyclic reciprocating speeds, for example, in hydraulic cylinders of powered roof supports. The aim of the invention is to enhance the functionality by ensuring the formation of specified braking characteristics and load characteristics of sealing units. In the housing 1 of the hydraulic cylinder (L C ON O SL VJ 00 FIG

Description

equipped with an inlet channel 20, a piston 2 with a rod 3 is placed, sealing units 4, 5 and a damping device made in the form of a spring-loaded sleeve 11 with slots 12 and openings 13 for throttling the fluid and the element interacting with W / L 11 ( sleeves) 10 on the piston 2. The element 10 and the sleeve 11 are made in the form of glasses with double concentric walls, which form after cDnpii the coupling of the sleeve 11c of the Grundbuch 6 gri ring cavities: the external cavity (rod) 9, the cavity inside the sleeve 11 and the cavity between the sleeve 11 and stock 3. As n The displacements of the sleeve 11 inside the pressure element 10 in these cavities may vary according to different laws, determined by the dimensions of the slots 12 and the openings 13. 1 Cf f-crystals, 3 sludge.

The invention relates to mechanical engineering, in particular to a hydraulic volume, and can be used in damping devices of double-rod hydraulic cylinders, in particular, with relatively high speeds of cyclic reciprocating movement, for example, in hydraulic cylinders of mechanized supports.

The aim of the invention is to enhance the functionality by ensuring the formation of predetermined braking characteristics and load characteristics of the sealing assemblies.

FIG. 1 shows a hydraulic cylinder with a damping device at the moment of the beginning of damping, general view; Fig 2 shows the same at the end of the damping; in fig. 3 shows section A-A in FIG. 2

A hydraulic cylinder with a damping device consists of a housing 1, a movable working element consisting of piston 2 and rods 3, seal assemblies 4 and 5, respectively, piston 2 and rods 3, grundo vs b with axially arranged holes 7 and annular projections UCLA 8 for supplying the working rod cavity 9 and draining the working fluid from it. On the rod 3, the element 10 is clamped to its axis, clamping the seal assembly 4 of the piston 2.

The element (sleeve) 10 is made in the form of a stanchion with double concentric walls and is installed with the possibility of interaction with a spring-loaded sleeve 11 having a similar cross-section configuration and covered by element 10,

In the sleeve 11 there are radial throttling slots 12 and axial bores 13, connected to each other by an annular groove 14. The diameters of the outer surfaces 15 and 16 of the puller 11 are selected smaller than the diameters of the surfaces 7 and 18 of the element 10,

The sleeve 11 rests on the retaining ring 19, mounted on the rod 3. In the housing 1 there is a channel 20 for supplying and discharging the working fluid from the distribution

device (not shown).

The element 10 is mounted on the rod 3 with a minimum gap relative to the housing 1.

 The hydraulic cylinder with a damping device works as follows

When moving the movable element of the piston 2 with the rods 3 in the direction of the ground book 6, the working fluid from the cylinder 9 cavity through the holes 7, the annular groove 8 and the channel 20 enters the drain. After the stop of the sleeve 11 in the back-up unit 6, the element 10 begins to overlap the slits 12 on the stationary sleeve 11. In this case, the working fluid enters the drain through the holes 13 and 7 connected by an annular groove 14 through the groove 8 and channel 20. Pressure in the cavity and on the seal assemblies 4 and 5 of the piston 2 and the rod 3 gradually increase, reaching a maximum value with the slots 12 completely covered, the pressure depending on the position of the element 10 and the sleeve 11 for the cavity 9, the space inside the sleeve 11 and at the nodes 4 and 5 may be different.

During the reverse, the pressure in the sleeve 1 1 increases sharply, which leads to a change in the direction of movement of the piston 2. Element 10 begins to move relative to the stationary sleeve 11, opening the slot 12. As this happens, the working fluid is throttled, the pressure on the seal assemblies 4 and 5 will increase smoothly. In addition to throttling the working fluid in the slots

12 throttling also occurs in

gaps with which the element 10 is installed

relative to the working surface of the case

1 and packing 6 relative to the rod 3.

The slits 12 can be axially profiled in that

allows you to change the law of pressure increase both when braking the piston 2 and when it accelerates.

Claims (2)

Claim 1. A hydraulic cylinder with a damping device, comprising a housing with channels for supplying and discharging working fluid, a piston with a rod and assemblies for sealing the piston and a rod, and the damping device is designed as at least one spring-loaded relative to the piston and equipped with a travel stop bushings that are installed with the possibility of interaction with the piston element, equipped with radial and axial throttling holes, about tl and h a8 0 In order to expand the functionality by ensuring the formation of predetermined braking characteristics and loading characteristics of the sealing assemblies, the sleeve and the piston element are made in the form of glasses with double concentric walls fitted with axial slots in the rod cavity of the body of the housing. . 2. The hydraulic cylinder according to claim 1, about tl and h a tout, and with the fact that the diameters of the outer surfaces of the sleeve are selected smaller than the diameters of the interacting with them the inner surfaces of the piston element. 2 P YU YU Fig.z