SU1031890A1 - Telescopic hydraulic jack - Google Patents

Abstract

A TELESCOPIC HYDRO DOMESTIC BRANCH, containing an inner stationary hollow cylinder and an outer movable relative to the inner cylinder, characterized in that, with the aim of the Pivotal Element / J (bot) W. with it and having the ability to move along the height of the restrictive ring, and to the underside of the latter are attached the upper ends of the coaxially arranged bellows shells, the lower end of the outer casing is connected to the lower end of the outer cylinder, and the lower end of the outer casing is connected to the bottom of the inner cylinder, the cavity of which is connected to the space between bellows shells. (L 00 CX) QO J 9

Description

The invention relates to lifting mechanisms, namely to telescopic hydraulic jacks. A telescopic hydraulic jack is known, containing an inner stationary cylinder and an outer, movable relative to the inner cylinder 1. A disadvantage of the known hydrojack is that in its manufacture it is necessary to carefully adjust the mating surfaces of the cylinders, as well as the existing grooves of the sealing assemblies. The purpose of the invention is to increase the reliability of sealing, jack and simplify the technology of its manufacture. The goal is achieved by the fact that in a telescopic jack containing an inner stationary cylinder and an outer, movable relative to the inner cylinder, a matching ring is mounted on the outer surface of the movable cylinder and having a height-adjustable restricting ring, and the lower side of the latter is attached with upper ends coaxially arranged bellows, while the lower end of the inner shell is connected to the lower end of the outer cylinder, and the lower end of the outer shell The joints are connected to the bottom of the inner cylinder, the cavity of which is connected with the space between the bellows shells. FIG. 1 shows the hydraulic jack in the initial (free) position, the inner and outer bellows shells are not loaded, and the outer cylinder occupies the middle position of its working stroke, the section; in fig. 2 — node 1 in FIG. 1 (the outer bellows shell is compressed by straps to the calculated allowable amount of elastic compression deformation); in fig. 3 - the same, the inner bellows shell is stretched by the squeezing element (bolt) of the retainer for the calculated allowable amount of elastic deformation of the stretch, the outer cylinder is in the lowest position; in fig. 4 - the same, the outer cylinder is in its highest position. Hydraulic jack contains outer and inner cylinders 1 and 2. Inner cylinder 2 is rigidly connected to the lower base 3. Outer cylinder 1 has a flange 4, which is connected to the inner bellows 5, connected, in turn, to the upper base 6 in the form of a ring. The outer bellows shell 7 is connected to the upper 6 and lower 3 bases. In the lower base 3, mounted on a spherical lining 8, a channel 9 is formed for supplying liquid, and in the upper base 6 and the cylinder 1 channels 10 for exhausting air. Restrictive protrusions 11 are formed on the mating walls of the cylinders 1 and 2, preventing excessive compression of the inner bellows 5 (when raising the cylinder 1). The lower 3 and the upper 6 bases are bound by the limiting straps 12 to the nuts, which prevent more stretching of the outer sheath 7 (when lifting cylinder 1). The upper base 6 is removably fitted with squeezing devices — clamps 13 (2-3 cm. Evenly around the circumference) of the outer cylinder 1 having slots in which the squeezing elements (for example, bolts) of clamps 13 are placed. In the inner cylinder 2 holes 14 are formed, telling its cavity with the space between both bellows shells. The jack works as follows. When installing a jack under the lifted load, its height is reduced, for which, first, the bolts of the anchors 13 are supplied before they come into contact with the outer cylinder 1 (in its slots). Thereafter, the restrictive straps 12 are tightened with nuts to the calculated allowable value of the elastic deformation of compression of the outer bellows 7 equal to, for example, 0.25 N total. R. x.) while the outer cylinder 1 is moved down (sunk) by the same amount (0.25 N total p. X.), i.e. the value of ng between the limiting protrusions AND increases from 5 to 0.75 N total . R. x In this case, the inner bellows 5 remains in the unloaded (free) position (Fig. 2). Then with the help of squeezing bolts of clamps 13, cylinder 1 is installed (moved down), the inner bellows 5 is stretched to its calculated allowable value of elastic deformation of stretching (equal, for example, also to 0.25 N total. X.). Thus, cylinder 1 is sunk by a value of 0.5 N total. R. x., while the value of h between the restrictive protrusions And is equal to H total. about. x., i.e. the total working stroke of cylinder 1 (Fig. 3). In this case, the cylinder 1 is in its lowest position when only the openings 14 for the passage of fluid are left free. After placing the jack with the spherical gasket 8 under the load, it is necessary to fit and install compensating elements (for example, spacers, installation gaskets), etc.). between the bearing surface of the outer cylinder 1 and the load. Then, squeezing bolts of clamps 13 are retracted from cylinder 1 and the latter are removed. Unscrewing the nuts of the strut 12 from the base 3, extend the latter by 0.5 N total. R. X. (the sum of the calculated allowable values of the elastic deformations of compression and tension of the outer bellows 7) to enable the subsequent movement of the upper base 6 in the upward direction when the cylinder 1 rises under fluid pressure;

The channel 9 supplies fluid to the cavities of the cylinders 1 and 2, as a result of which the outer cylinder 1 rises under pressure from the fluid until the restricting protrusions 11 touch each other, as well as the nuts of the struts 12 with the lower base 3 (fig: 4). At the same time, the inner bellows 5 is compressed and the outer bellows 7 is stretched to their calculated permissible values of elastic deformations.

The manufacturing of the proposed jacks is cheaper due to a reduction in the thoroughness of the fitting of the mating surfaces and the absence of sealing assemblies. At the same time, in the process of work, the jack does not require the replacement of sealing assemblies and its leakage is significantly reduced, reducing resource. The use of the invention improves labor conditions, eliminates leakage, reduces labor intensity and maintenance costs, increases reliability and improves ease of operation.

J-f, Zolt

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Installation gasket

Fig.Z

FIG A

Claims (1)

TELESCOPIC HYDRAULIC JACK, containing an internal fixed hollow cylinder and an external movable relative to the internal cylinder, characterized in that, in order to improve the reliability of the sealing of the jack and simplify the technology of its manufacture, a restrictive mating with it and having the ability to move along the height is installed ring, and to the lower side of the latter, coaxially located bellows shells are attached by the upper ends, while the lower end of the inner olochki connected to the lower end of the outer cylinder and the lower end of the outer shell is connected to the bottom of the inner cylinder, a cavity which communicates with the space between the bellows membranes. Press Elephant a FIG. 1 3 9