CN210138953U

CN210138953U - Frame type hydraulic correction equipment utilizing large-scale steel structure

Info

Publication number: CN210138953U
Application number: CN201822191417.7U
Authority: CN
Inventors: 宋占军
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-12-26
Filing date: 2018-12-26
Publication date: 2020-03-13
Anticipated expiration: 2028-12-26

Abstract

The utility model discloses an utilize frame-type hydraulic pressure correction equipment of large steel construction, a serial communication port, include: the bottom platform and the upright posts of the steel structure, the frame vertically installed and connected between the upright posts, and the lifting frame arranged at the top of the upright posts are simple to use and convenient to move, concrete is not used for pouring a ground anchor, the frame structure is connected by bolts, the site does not need to be changed, and the frame is convenient to disassemble and reuse; the large-scale steel structure and the large-scale vehicle enter the platform to be corrected once, the position repair is not required to be replaced twice, the engineering machinery is difficult to correct, the correction efficiency is greatly improved, the large-scale steel structure and the large-scale vehicle engineering machinery are solved, and the correction efficiency is greatly improved.

Description

Frame type hydraulic correction equipment utilizing large-scale steel structure

Technical Field

The utility model relates to an utilize large steel construction's frame-type hydraulic pressure correction equipment.

Background

The gantry hydraulic correction equipment with a large steel structure, which is commonly used at present, needs to pour concrete, has the length of about 15 meters, is not easy to transport large vehicles, is not easy to disassemble and change positions, corrects structures such as a girder, a large compartment, an industrial and mining machine frame, a large steel beam, a longer roller, a roller and the like of a truck, and commonly adopts methods of fixing on other supporting points, pushing by a hydraulic pump, knocking by a pulley block or a hammer after heating and smashing and the like. The method is suitable for the traditional press method individually, but the vehicle must be disassembled completely, only the bare beam is left for operation, complete equipment is not provided, and the process is complex.

Disclosure of Invention

To the weak point among the prior art, the utility model discloses with a frame-type hydraulic pressure correction equipment who utilizes large-scale steel construction, solved foretell difficult problem.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a frame type hydraulic correcting apparatus using a large steel structure, comprising: the steel structure comprises a bottom platform, upright columns, a frame and a lifting frame, wherein the frame is vertically installed and connected between the upright columns;

a plurality of ground anchors used for fixing the corrected object are arranged on the bottom platform;

a vertical hydraulic cylinder with a downward telescopic rod is arranged on the lifting frame;

a slideway is arranged on the upright post;

the frame is arranged between the two upright posts and comprises a cross beam, a sliding seat, a horizontal hydraulic cylinder and a mounting frame, wherein the horizontal hydraulic cylinder is arranged in a manner that telescopic rods are opposite to each other, and the mounting frame is arranged between the cross beams;

the sliding seat is arranged on the frame and connected with the slide way on the upright post, so that the frame can slide along the slide way on the upright post, and the sliding seat is in transmission connection with an output shaft of a lifting motor arranged on the lifting frame through a first transmission piece;

two opposite slide rails are arranged on two adjacent cross beams of the frame, and an installation frame capable of sliding along the slide rails is arranged between the two slide rails;

the mounting rack is provided with a vertical hydraulic cylinder with an upward telescopic rod, and the mounting rack is driven to slide by a screw rod arranged between two vertical plates of the slide rail;

and the outer extending end of one end of the screw rod is in transmission connection with a horizontal motor arranged outside the sliding rail through a second transmission piece.

The lifting motor, the horizontal hydraulic cylinder and the vertical hydraulic cylinder are all in control connection with a controller arranged on an upright column on one side of the frame.

The lower end of the frame is joined to the bottom platform by welding.

The first transmission piece is an electric hoist and/or a hydraulic cylinder.

The second transmission piece is a chain transmission piece and/or a gear transmission piece.

Has the advantages that: the utility model relates to a frame type hydraulic correction device using a large steel structure, which solves the difficult problem of correction of the large steel structure, large vehicle engineering machinery and greatly improves the correction efficiency; the device is simple to use and convenient to move, concrete pouring ground anchors are not needed, the frame structure is connected by bolts, the field does not need to be replaced, and the device is convenient to disassemble and reuse; the large-scale steel structure and the large-scale vehicle enter the platform to be corrected once, the position repair is not required to be replaced twice, the engineering machinery is difficult to correct, the correction efficiency is greatly improved, the large-scale steel structure and the large-scale vehicle engineering machinery are solved, and the correction efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the ground anchor structure of the present invention;

fig. 4 is a schematic view of a partial structure of the present invention.

As shown in fig. 1-3: 1-bottom platform, 2-frame, 3-lifting frame, 4-cross beam, 5-vertical hydraulic cylinder, 6-left horizontal hydraulic cylinder, 7-right horizontal hydraulic cylinder, 8-controller, 9-ground anchor, 10-left sliding seat, 11-sliding rail, 12-screw, 13-mounting frame, 14-second transmission piece, 15-horizontal motor, 16-right sliding seat, 17-lifting motor, 18-first transmission piece, 19-upright post and 20-slideway.

Detailed Description

The present invention is described below with reference to specific examples. It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention in any way.

As shown in fig. 1-3: a frame type hydraulic correcting apparatus using a large steel structure, comprising: the hydraulic lifting device comprises a bottom platform (1), a frame (2), a lifting frame (3), a cross beam (4), a vertical hydraulic cylinder (5), a left horizontal hydraulic cylinder (6), a right horizontal hydraulic cylinder (7), a controller (8), a ground anchor (9), a left sliding seat (10), a sliding rail (11), a screw rod (12), a mounting frame (13), a second transmission piece (14), a horizontal motor (15), a right sliding seat (16), a lifting motor (17), a first transmission piece (18), a stand column (19) and a slide way (20).

A frame type hydraulic correcting apparatus using a large steel structure, comprising: the bottom platform (1), the upright post (19) and the vertical installation of the steel structure are connected with the frame (2) between the upright posts (19), and the lifting frame (3) is arranged at the top of the upright post (19).

The bottom platform (1) is provided with a plurality of ground anchors (9) for fixing the corrected object.

And a vertical hydraulic cylinder (5) with a telescopic rod downward is arranged on the lifting frame (3).

The upright post (19) is provided with a slideway (20).

The frame (2) is arranged between two upright posts (19) and comprises a cross beam (4), a sliding seat (10), a horizontal hydraulic cylinder (6) arranged in a manner that telescopic rods are opposite to each other, and a mounting rack (13) arranged between the cross beams (4).

Slide (10) are installed on frame (2), and are connected with slide (20) on stand (19), make frame (2) can be followed slide (20) on stand (19) slide, just slide (10) are through first driving medium (18), and are connected with the output shaft transmission of the elevator motor (17) of setting on crane (3).

Two opposite sliding rails (11) are arranged on two adjacent cross beams (4) of the frame (2), and an installation rack (13) capable of sliding along the sliding rails (11) is installed between the two sliding rails (11).

The hydraulic support is characterized in that an upward vertical hydraulic cylinder (5) with a telescopic rod is arranged on the mounting rack (13), and the mounting rack (13) is driven to slide by a screw rod (12) arranged between two vertical plates of the sliding rail (11).

And the outer extending end of one end of the screw rod (12) is in transmission connection with a horizontal motor (15) arranged outside the sliding rail (11) through a second transmission piece (14).

The lifting motor (17), the horizontal motor (15), the horizontal hydraulic cylinder (6) and the vertical hydraulic cylinder (5) are connected with a controller (8) arranged on an upright post (19) on one side of the frame (2) in a control mode.

The lower end of the frame (2) is combined with the bottom platform (1) in a welding mode.

The first transmission piece (18) is an electric hoist and/or a hydraulic cylinder.

The second transmission element (14) is a chain transmission element and/or a gear transmission element.

The utility model relates to a frame (2) bottom platform (1) of frame-type hydraulic pressure correction equipment using large-scale steel structure is steel structure, ground anchors (9) are welded at different positions on the bottom platform (1) to facilitate the longitudinal movement of the corrected object, the distances between the ground anchors (9) and the frame (2) are different, thereby ensuring that the corrected objects with different lengths and different longitudinal positions can be effectively fixed; as long as the deformation point is in the frame (2), no matter the deformation point is up, down, left or right, the left horizontal hydraulic cylinder (6), the right horizontal hydraulic cylinder (7) and the vertical hydraulic cylinder (5) can always find a proper jacking position. The corrected object is fixed on the ground anchor (9). The corrected object which is bent and deformed leftwards and rightwards can be extruded and stretched by a left horizontal hydraulic cylinder (6) and a right horizontal hydraulic cylinder (7); the corrected object bent downwards is extruded and stretched by a vertical hydraulic cylinder (5); the corrected object deformed by twisting up, down, left and right can be corrected by simultaneously adopting a method of simultaneously working the left horizontal hydraulic cylinder (6), the right horizontal hydraulic cylinder (7) and the vertical hydraulic cylinder (5).

Bearing: the utility model relates to a frame type hydraulic correction device using large steel structure, which is simple and convenient to use, does not need to disassemble the corrected object completely, and can correct the object only by exposing the deformation position; the problem of the correction of large-scale steel construction is solved for correction efficiency is by a wide margin improved.

Claims

1. The utility model provides an utilize frame-type hydraulic pressure correction equipment of large-scale steel construction which characterized in that includes: the device comprises a bottom platform (1) with a steel structure, upright posts (19), a frame (2) vertically installed and connected among the upright posts (19), and a lifting frame (3) arranged at the top of the upright posts (19);

a plurality of ground anchors (9) for fixing the corrected object are arranged on the bottom platform (1);

a vertical hydraulic cylinder (5) with a downward telescopic rod is arranged on the lifting frame (3);

a slideway (20) is arranged on the upright post (19);

the frame (2) is arranged between two upright posts (19) and comprises a cross beam (4), a sliding seat (10), a horizontal hydraulic cylinder (6) which is oppositely arranged and a mounting rack (13) which is arranged between the cross beam (4);

the sliding seat (10) is arranged on the frame (2) and is connected with a slideway (20) on an upright post (19), so that the frame (2) can slide along the slideway (20) on the upright post (19), and the sliding seat (10) is in transmission connection with an output shaft of a lifting motor (17) arranged on the lifting frame (3) through a first transmission part (18);

two opposite sliding rails (11) are arranged on two adjacent cross beams (4) of the frame (2), and a mounting rack (13) capable of sliding along the sliding rails (11) is arranged between the two sliding rails (11);

the mounting rack (13) is provided with a vertical hydraulic cylinder (5) with an upward telescopic rod, and the mounting rack (13) is driven to slide by a screw rod (12) arranged between two vertical plates of the sliding rail (11);

2. A frame type hydraulic correcting apparatus using a large steel structure according to claim 1, wherein the elevating motor (17), the horizontal motor (15), the horizontal hydraulic cylinder (6) and the vertical hydraulic cylinder (5) are in control connection with a controller (8) provided on a side post (19) of the frame (2).

3. A frame type hydraulic correcting apparatus using a large steel structure according to claim 1, wherein the lower end of the frame (2) is combined with the bottom platform (1) by welding.

4. A frame type hydraulic correcting apparatus using a large steel structure according to claim 1, wherein the first transmission member (18) is an electric hoist and/or a hydraulic cylinder.

5. A frame hydraulic calibration arrangement using large steel structures according to claim 1 characterized in that the second transmission (14) is a chain transmission and/or a gear transmission.