SU933632A1 - Hydraulic jack - Google Patents

Description

(54) HYDRAULIC SWITCH

I

The invention relates to lifting equipment and, in particular, to jacks for lifting tons of human equipment and structures during installation and alignment.

A hydraulic jack is known that contains a hollow body and a load-carrying hollow rod moving in its cavity (. The disadvantage of such a jack is that it has large dimensions and weight, which limits its scope and increases the metal content of the structure.

The purpose of the invention is to reduce the metal capacity of the jack by reducing its dimensions and weight.

For this purpose, a hydraulic jack containing a hollow body and a load-carrying rod moving in its cavity has a cup located in the stem cavity with a lid in the bottom of which a central hole is made and located in

The cavity of the cup is a piston, the rod of which is located in the central hole, while in the bottom of the glass there is a channel connecting the central bore with the cavity of the stem and the channels connecting the cavities of the glass with the pressure source.

The drawing shows the hydraulic jack, general view, cut.

The hydraulic jack consists

10 of the base I with the power holes 2 and the drain 3, the hollow body 4 and the hollow load-carrying stem 5. A cup is rigidly mounted on the inner end surface of the base I

"S 6 with the possibility of communication of the internal cavity 7 of the cargo-bearing rod with the cavity 8. Inside the cup 6 there is a piston 9 with a rod 10. The cup is equipped with

20 end K1 11 for separating high and low pressure cavities. In the glass 6, the channels 12 and 13 are filled out for alternately supplying low pressure in the cavity 14 and 15 of the piston connected to the power supply 2 and drain 3, respectively. The opening 16 through the radial channel and the check valve 18 of opposite action with the channel 13. The high-pressure cavities 7 and 8 are connected through the locking element 19 with an oil reservoir. A cover 20 is installed in the upper part of the hollow body 4 to limit the stroke of the hydraulic jack. the jack works as follows. Hydraulic jack is supplied under mounted equipment. The number of jacks is determined depending on the weight and dimensions of the load, as well as on the installation conditions. The working fluid under pressure is fed alternately through the feed ports 2 and 3 and the drain in the low-pressure cavity 14 and 15 of the piston 9, as a result of which the piston 9 with the rod 10 makes a reciprocating motion. When the working fluid is supplied under pressure into the cavity 14 (through the orifice and the channel 12) and the piston 9 is displaced towards the cavity 15, the liquid is pulled out of it through the channel 13 and the orifice 3 into the drain line. The rod 10 is pushed into the hole 16, the liquid is forced out of it through the radial channel and the check valve 17 into the cavity 8 and the internal cavity 7 communicating with it. Since the area of the piston 9 is larger than the area of the rod 10, the pressure in the hole 16 increases in proportion to the ratio their area. Under the action of high pressure in the cavities 7 and 8, the rod 5 moves out of the housing 4 by an amount corresponding to the volume of the working fluid displaced from the hole 16. When the working fluid is fed under pressure into the cavity 15 (through the hole 3 and the channel 13) piston 9 with the rod Ш returns to the initial upper position, the liquid is expelled from the cavity 14 through the channel 12 and the opening 2 into the drain line. The opening 16 is filled with the working fluid under the inlet (supplied) pressure through the non-return valve 18. The non-return valve 17 is closed in this case, since crushed In the cavity: 7 and 8 is greater than the flow in the opening 16, the Reversiu tagam forms the flow of the working fluid supplied under pressure, provides lifting of the load to the desired height. In order to return the rod 5 to its original position (lowering the load), the locking element 19 is opened and the working fluid is drained from the communicating cavities 7 and 8 into the oil reservoir via the drain line. Reversing the flow of the working fluid, under; led alternately through the holes 2 and 3, it is advisable to produce using a spool-type switchgear with hydraulic control, which is separate from the jack, which will greatly facilitate the jack and allow automatic remote control of the latter. The control valve fluid is supplied in turn to its end cavities in turn. Moreover, control functions are supplied to the jack under the working pressure fluid. When the working pressure in one of the cavities (14 or 15) is exceeded by a small amount (5-10 kg / cm), which corresponds to the extreme positions of the piston 9, it through the non-return valve acts on the front surface of the spool and transfers it to the opposite. extreme position. The working fluid is retracted, vozmshsny and other options for reversing the flow of working fluid supplied to the holes 2 and 3 of the jack. The hydraulic jack has a small size and weight and has a large carrying capacity, which allows it to be used when lifting tons of human equipment and metal structures. The hydraulic jack operates at a relatively low pressure (up to 100 kg / cm.}, And high pressure is created only in the pa.6o4 & t cylinder. At the same time, the hydraulic system does not have a single high-pressure hose, which creates the condition of safe servicing of the jack In addition to this, the possibilities of using various power sources of low-pressure working liquids (hydraulic systems of construction, road, agricultural machines) to obtain a large carrying capacity with the compactness of the jack itself are expanding. During the operation of the proposed hydraulic jack

Claims (1)

Formula of the invention A hydraulic jack containing a hollow body and a load-bearing hollow 5 rod moving in its cavity, characterized in that, in order to reduce the metal consumption of the jack by reducing its dimensions and weight, it is equipped with a glass with a lid located in the cavity of the rod, the bottom of which is made the Central hole, and a piston located in the cavity of the glass, the stem of which is located in the Central hole, while in the bottom of the glass there is a channel connecting the central hole with the cavity of the rod, and the channels with Dinh cup cavity with a source of pressure.