RU106890U1 - BILATERAL HYDRAULIC JACK - Google Patents

Abstract

 1. A double-acting hydraulic jack, consisting of a cylinder body, in which two piston rods, a jack body, a control unit with a handle, a stop and a support element are located, characterized in that the cylinder body is made of two parts, and the jack body is made in the form a sleeve connecting the two parts of the cylinder body. ! 2. The jack according to claim 1, characterized in that the supporting element is made in the form of a supporting heel having the shape of a truncated cone and the area of the supporting surface, providing a specific load of at least the calculated load when lifting from the ground. ! 3. The jack according to claim 1 or 2, characterized in that the grooves are made on concentric circles on the supporting surface of the support element.

Description

The utility model relates to the field of mechanical engineering, in particular, to hydraulic jacks designed to lift cargo, expand the aperture between objects during emergency rescue operations in areas of emergency, accidents, disasters, fires, natural disasters, as well as during construction and installation dismantling in various industries.

A hydraulic jack is known from the description of the patent of the Russian Federation 2254289, published on 10.06.2005, which contains a housing in which a piston with a hollow rod is placed, a locking mechanism made in the form of two coaxial, interconnected screw pairs of equal pitch with non-self-braking and self-braking threads. The jack also contains an additional piston and a support mounted in the hollow rod and interacting with the output element. An additional piston is installed with the housing covering outside and the ability to move the hollow rod through the support and is the mentioned output element.

The disadvantage of this hydraulic jack is the inconvenience of operation and lack of reliability due to the complexity of the design.

Closest to the claimed utility model is a double-acting hydraulic jack, known from the description of the utility model to RF patent 54028, published June 10, 2006, which consists of a jack body, a cylinder body, in which two piston rods are installed in the hole of the jack body, control unit equipped with a handle, connecting, persistent and supporting elements. The cylinder body is made in the form of a pipe, and the body of the jack is in the form of a cylindrical glass with a blank bottom, made in the form of a shaped surface formed by a combination of flat and curved surfaces. The control unit with a handle are perpendicular to the cylinder body. The connecting elements are made in the form of high and low pressure hoses located in the central hole of the handle of the control unit.

The disadvantages of the prototype are the high cost of manufacturing a jack and low reliability, the cause of which are:

- the need to use complex technological equipment in the manufacture of the cylinder body from a long pipe with a given accuracy (tolerances on the shape and purity of the inner surface), ensuring reliability;

- the complex geometric shape of the jack body increases the complexity of manufacturing;

- the implementation of the protrusions in the form of spots on the supporting surface of the heel increases the complexity of manufacturing, and also reduces the area of the supporting surface, worsening the stable position of the jack during operation and its reliability.

The inventive utility model solves the problem of reducing the cost of manufacturing a jack and improving reliability.

To achieve the technical result, a double-acting hydraulic jack is proposed, which, like the one closest to it, consists of a cylinder body, in which two piston rods, a jack body, a control unit with a handle, a support and a stop element are placed, in contrast to the prototype the cylinder body is made of two parts, and the jack body is made in the form of a sleeve connecting the two parts of the cylinder body.

The proposed hydraulic double-acting jack is illustrated by the drawings shown in figures 1-2.

Figure 1 presents a General view of the jack.

Figure 2 is a longitudinal section of a jack without a control unit and hydraulic connectors.

The jack consists of a cylinder body made of two parts 1 and 2 (Fig. 1), in which the piston rods 3 and 4 (Fig. 2), a control unit 5 with a handle 6 (Fig. 1), and a body 7 of the jack are placed , plate 8, pressure head 9 and drain 10 of hydraulic connectors, support element 11 and support element 12. Support element 11 is made in the form of a support heel having the shape of a truncated cone and the area of the supporting surface, providing a specific load of at least the calculated load when lifting from the ground. Grooves 17 are made on the supporting surface of the supporting element 11 along concentric circles, having, for example, a trapezoidal shape that improves adhesion to the ground. The thrust element 12 is made in the form of a combed heel.

Parts 1 and 2 of the cylinder body are made in the form of a pipe and are located coaxially relative to each other in the body 7 of the jack, made in the form of a sleeve, and connected to it by means of a threaded connection.

The piston rods 3 and 4 are made with an axial channel 13, in which a tube 14 is provided with a gap relative to the inner surface of the rod part for supplying the working fluid to the stock cavity or draining the working fluid from the stock cavity of each cylinder. An opening 15 is made in the wall of the rod portion of the rod-pistons 3 and 4, connecting the rod cavity with the axial channel 13.

The cavity of the tubes 14 and the piston cavity are connected through channels (not shown), made in the housing 7 of the jack and in the plate 8, with a control unit 5, which is connected to the pressure 9 and drain 10 hydraulic connectors.

In the axial channel 13 of the rod-piston 3 from the side of its exit from the cylinder body, a plug 15 is mounted on which the thrust element 12 is fixed by means of a threaded connection.

In the axial channel 13 of the rod-piston 4 from the side of its exit from the cylinder body, a plug 16 is mounted on which the supporting element 11 is fixed by means of a threaded connection.

The handle 6 is mounted parallel to the longitudinal axis of the cylinder body on the control unit 5, to which the pressure connectors 9 and drain 10 are hydraulically connected, and the hydraulic connectors are mounted rotatably 180 ° about the axis on which they are placed.

The control unit 5 includes hydraulic locks and a hydraulic distributor (not shown in the drawing).

The jack works as follows.

Pressure 9 and drain 10 hydraulic jack connectors are connected to the corresponding hydraulic hoses of the pressure source. When working with a jack, the operator turns the handle 6 to one of the extreme positions and the hydraulic distributor of the control unit 5 directs the working fluid from the pressure source connected to the hydraulic connectors to the piston or rod cavities of the cylinder.

When the working fluid enters the piston cavities, rod cavities are connected to the drain line, of which the working fluid through the hole 15, the axial channel 13, the pipe cavity 14, the channels made in the jack body, and the drain channel made in the plate 8 enter the control unit 5, from which there is a hydraulic connector in the drain 10 and along the drain sleeve of the pressure source into the tank. The rod-piston 3 with the stop element 12 and the piston rod 4 with the support elements 11 are extended.

When the working fluid enters the rod cavities through the pressure hose of the pressure source, pressure head 9 hydraulic connector, control unit 5, pressure channel made in plate 8, channels made in the jack body, tube cavity 14, axial channel 13 and hole 15, the simultaneous the displacement of the working fluid from the piston cavities, which flows through the channels made in the jack housing, the drain channel, made in the plate 8, into the control unit 5, from which into the drain 10 a hydraulic connector and along the source drain sleeve pressure enters the tank. As a result, the rod pistons 3 and 4 are moved into the cylinder body 1.

When installing the handle 6 in the middle position, the jack holds the load, because hydraulic locks of the control unit 5 lock the loaded cavity.

The release by the operator of the handle 6 leads to its automatic return to its original position and the cessation of the movement of the piston rods 3 and 4.

The implementation of the cylinder body in two parts allows to reduce the length of the workpiece by half, which eliminates the need for complex technological equipment in the manufacture of the cylinder body and leads to lower manufacturing costs, as well as to improve the quality of the processed inner surface, affecting reliability.

The execution of the housing of the jack in the form of a sleeve allows you to reduce the complexity of manufacturing and reduce costs.

The implementation of the support element in the form of a support heel, having the shape of a truncated cone, on the supporting surface of which grooves are made along concentric circles can reduce the complexity of manufacturing and reduce costs, as well as increase reliability.

In the prior art, no solutions have been identified that have features that match the distinguishing features of the claimed technical solution, which indicates its compliance with the criterion of "novelty."

Claims (3)

1. A double-acting hydraulic jack, consisting of a cylinder body, in which two piston rods, a jack body, a control unit with a handle, a stop and a support element are located, characterized in that the cylinder body is made of two parts, and the jack body is made in the form a sleeve connecting the two parts of the cylinder body. 2. The jack according to claim 1, characterized in that the supporting element is made in the form of a supporting heel having the shape of a truncated cone and the area of the supporting surface, providing a specific load of at least the calculated load when lifting from the ground. 3. The jack according to claim 1 or 2, characterized in that the grooves are made on concentric circles on the supporting surface of the support element.