CN216429137U - Hydraulic pushing device for integral translation of structure - Google Patents

Abstract

The utility model relates to a whole translation hydraulic pressure thrustor of structure belongs to the construction machinery field. The hydraulic pushing device for integral translation of the structure comprises a first track beam, a second track beam, a counter-force structure and a hydraulic pushing mechanism; the first track beam is connected with the second track beam in a sliding manner; the side surface of the first track beam is connected with a first mounting seat, and the side surface of the counter-force structure is connected with a second mounting seat; one end of the hydraulic pushing mechanism is horizontally and rotatably connected with the first mounting seat, and the other end of the hydraulic pushing mechanism is horizontally and rotatably connected with the second mounting seat. Through the utility model discloses an improve, solved "unable nimble adjustment direction that exists among the prior art, realized the nimble problem along the track translation" of structure for the whole translation along the track direction that can follow of structure.

Description

Hydraulic pushing device for integral translation of structure

Technical Field

The utility model relates to a whole translation hydraulic pressure thrustor of structure belongs to the construction machinery field.

Background

The translation modes of the structure are divided into a traction type, a push type and a traction push type. The jacking type is widely used for horizontal displacement of various structures, and a jack is adopted for force application and translation in the jacking process.

During the translation of the whole structure, the translation track is not always vertical, so the direction needs to be adjusted; however, in the prior art, the direction cannot be flexibly adjusted, and the structure can be flexibly translated along the track.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a whole translation hydraulic pressure thrustor of structure.

The utility model provides a pair of whole translation hydraulic pressure thrustor of structure adopts following technical scheme:

a hydraulic thrustor for integral translation of a structure, comprising:

the first track beam is horizontally arranged; the side surface of the first track beam is connected with a first mounting seat; pulleys are arranged on the bottom surface of the first track beam and are positioned on two sides of the first track beam;

the second track beam is horizontally arranged; the second track beam is arranged below the first track beam; the upper surface of the second track beam is provided with a slideway which is positioned at two sides of the second track beam; the pulley is connected with the slideway;

the counter-force structure is arranged on the second track beam and positioned between the slideways; the side surface of the counter-force structure is connected with a second mounting seat; and

one end of the hydraulic pushing mechanism is rotatably connected with the first mounting seat and horizontally rotates along the first mounting seat; the other end of the hydraulic pushing mechanism is rotatably connected with the second mounting seat and horizontally rotates along the second mounting seat.

By adopting the technical scheme, the structure is positioned above the first track beam, and can be pushed by the hydraulic pushing mechanism to be connected with the sliding connection of the sliding groove and the sliding connection of the pulley and the sliding groove and the rotation of the hydraulic pushing mechanism and the first mounting seat and the second mounting seat, so that the whole structure can be translated along the direction of the sliding way, and the thrust direction of the hydraulic pushing structure can be adjusted according to the direction of the track.

Preferably, the hydraulic pushing mechanism is a hydraulic jack; one end of the hydraulic jack is a telescopic end, and the other end of the hydraulic jack is a base end; the telescopic end is rotatably connected with the first mounting seat and horizontally rotates along the first mounting seat; the base end is rotatably connected with the second mounting seat and horizontally rotates along the second mounting seat.

Through adopting above-mentioned technical scheme, work as the utility model is used for when the whole translation of structure, hydraulic jack pivoted direction is the same with orbital direction with the direction of the whole translation of structure.

Preferably, the hydraulic thrustor for integral translation of the structure is provided with a counterforce support; the counter force support is arranged on the second track beam and located between the slideways.

Through adopting above-mentioned technical scheme, the application of force translation of the hydraulic jack of being convenient for.

Preferably, the second track beam is provided with a fixing through hole far away from the slideway; the second track beam is connected with the track foundation through the fixing through holes by pins.

Through adopting above-mentioned technical scheme, when second track roof beam and track basis cooperation use, the installation, fixed and the dismantlement of second track roof beam of being convenient for.

Preferably, the first mounting seat comprises a first base and a first rotating shaft; one end of the first base is connected with the side face of the first track beam; the first rotating shaft is vertically arranged at the other end of the first base;

the second mounting seat comprises a second base and a second rotating shaft; one end of the second base is connected with the side surface of the counter-force support; the second rotating shaft is vertically arranged at the other end of the second base.

By adopting the technical scheme, the direction of the force applied by the hydraulic jack can be conveniently adjusted according to the integral translation direction of the structure and the direction of the track.

Preferably, the second mounting base further comprises a direction limiting screw; the direction adjusting screw is arranged between the telescopic end and the first base.

Through adopting above-mentioned technical scheme, when the whole translation that needs along the straight line of structure, inject hydraulic jack's direction through direction adjusting screw, avoid the whole atress dispersion of structure.

Preferably, the hydraulic jacks are more than 2 in number.

By adopting the technical scheme, the hydraulic jacks with proper quantity can be selected according to the integral volume and shape of the structure.

To sum up, the utility model discloses following useful technological effect has:

1. the utility model can adjust the force application direction of the hydraulic pushing mechanism according to the track direction and the integral translation direction of the structure, and translate the structure along the track direction;

2. the utility model discloses be convenient for install and dismantle.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Description of reference numerals: 1. a first track beam; 2. a second track beam; 3. a pulley; 4. a hydraulic jack; 5. a first mounting seat; 6. a second mounting seat; 7. and a counter-force support.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The embodiment of the utility model discloses whole translation hydraulic pressure thrustor of structure. Referring to fig. 1, the hydraulic thrustor for integral translation of the structure comprises a first track beam 1, a second track beam 2, a counterforce structure and a hydraulic thrusting mechanism; the first track beam 1 is horizontally arranged; the side surface of the first track beam 1 is connected with a first mounting seat 5; the bottom surface of the first track beam 1 is provided with pulleys 3 which are positioned at two sides of the first track beam 1; the second track beam 2 is horizontally arranged; the second track beam 2 is arranged below the first track beam 1; the upper surface of the second track beam 2 is provided with a slideway which is positioned at two sides of the second track beam 2; the pulley 3 is connected with the slideway; the counter-force structure is arranged on the second track beam 2 and is positioned between the slideways; the side surface of the counter-force structure is connected with a second mounting seat 6; one end of the hydraulic pushing mechanism is rotatably connected with the first mounting seat 5 and horizontally rotates along the first mounting seat 5; the other end of the hydraulic pushing mechanism is rotatably connected with the second mounting seat 6 and horizontally rotates along the second mounting seat 6. Under the thrust action of the hydraulic pushing mechanism, the pulley 3 slides along the slide way, the direction of the second track beam 2, the integral translation direction of the structure and the direction of the force applied by the hydraulic pushing mechanism are the same, and the integral translation of the structure is carried out along the direction of the second track beam 2. Specifically, the first track beam 1 and the second track beam 2 are both steel structures, and can be steel plates; the counter-force structure can be a counter-force frame and is connected with the second track beam 2 through bolts and nuts; the hydraulic pushing mechanism can be a hydraulic cylinder, and one end of a telescopic rod of the hydraulic pushing mechanism is rotatably connected with the first mounting seat 5 and horizontally rotates along the first mounting seat 5.

As an embodiment, the hydraulic pushing mechanism is a hydraulic jack 4; one end of the hydraulic jack 4 is a telescopic end, and the other end of the hydraulic jack is a base end; the telescopic end is rotatably connected with the first mounting seat 5 and horizontally rotates along the first mounting seat 5; the base end is rotatably connected with the second mounting seat 6 and horizontally rotates along the second mounting seat 6. Specifically, first mount pad 5 and second mount pad 6 are all vertically provided with the rotary rod, and flexible end and first mount pad 5, base end and second mount pad 6 can be connected through the rotary rod rotation.

As an embodiment, the reaction structure is a reaction support 7; the reaction force support 7 is provided on the second track beam 2 and between the slides.

As an embodiment, the second track beam 2 is provided with a fixing through hole away from the slideway; the second track beam 2 is connected with the track foundation through a pin and a fixing through hole. Specifically, the track foundation is a concrete substrate.

As an embodiment, the first mounting base 5 includes a first base and a first rotating shaft; one end of the first base is connected with the side surface of the first track beam 1; the first rotating shaft is vertically arranged at the other end of the first base; the second mount 6 includes a second base and a second rotation shaft; one end of the second base is connected with the side surface of the counter-force support 7; the second rotating shaft is vertically arranged at the other end of the second base. Specifically, the first base comprises a first upper cross beam, a first lower cross beam and a first vertical plate, the first upper cross beam and the first lower cross beam are respectively welded at two ends of the first vertical plate on the same side, a first rotating shaft is installed between the first upper cross beam and the first lower cross beam, and the first vertical plate is fixed on the first track beam 1 through bolts and nuts; the second base comprises a second upper cross beam, a second lower cross beam and a second vertical plate, the second upper cross beam and the second lower cross beam are respectively welded at two ends of the second vertical plate on the same side, a second rotating shaft is installed between the second upper cross beam and the second lower cross beam, and the second vertical plate is fixed on the counter-force structure through bolts and nuts; the telescopic end is rotatably connected with the first rotating shaft, and the base end is rotatably connected with the second rotating shaft.

As an embodiment, the second mounting seat 6 further comprises a direction-defining screw; the direction limiting screw is arranged between the telescopic end and the first base. Specifically, one end of the direction limiting screw rod is connected with the second mounting seat 6 in an inserting mode, the other end of the direction limiting screw rod is connected with the telescopic end in a clamping mode, and then the direction of the pushing force of the hydraulic jack 4 is limited.

As an embodiment, the number of the hydraulic jacks 4 is more than 2. Because the volume and the shape of the structure are not fixed; therefore, the number of the hydraulic jacks 4 can be adjusted according to actual conditions. Specifically, the number of the cells may be 10.

Above do the preferred embodiment of the present invention, not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model should be covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a whole translation hydraulic pressure thrustor of structure which characterized in that: the method comprises the following steps:

the first track beam (1), the first track beam (1) is arranged horizontally; the side surface of the first track beam (1) is connected with a first mounting seat (5); pulleys (3) are arranged on the bottom surface of the first track beam (1) and are positioned on two sides of the first track beam (1);

the second track beam (2), the second track beam (2) is arranged horizontally; the second track beam (2) is arranged below the first track beam (1); the upper surface of the second track beam (2) is provided with a slide way which is positioned at two sides of the second track beam (2); the pulley (3) is connected with the slideway;

the counter-force structure is arranged on the second track beam (2) and is positioned between the slideways; the side surface of the counter-force structure is connected with a second mounting seat (6); and

one end of the hydraulic pushing mechanism is rotatably connected with the first mounting seat (5) and horizontally rotates along the first mounting seat (5); the other end of the hydraulic pushing mechanism is rotatably connected with the second mounting seat (6) and horizontally rotates along the second mounting seat (6).

2. The structure integral translation hydraulic thrustor of claim 1, wherein: the hydraulic pushing mechanism is a hydraulic jack (4); one end of the hydraulic jack (4) is a telescopic end, and the other end of the hydraulic jack is a base end; the telescopic end is rotatably connected with the first mounting seat (5) and horizontally rotates along the first mounting seat (5); the base end is rotatably connected with the second mounting seat (6) and horizontally rotates along the second mounting seat (6).

3. The structure integral translation hydraulic thrustor of claim 2, wherein: the counter-force structure is a counter-force support (7); the counter force support (7) is arranged on the second track beam (2) and located between the slideways.

4. A structure integral translation hydraulic thrustor according to claim 3, wherein: the second track beam (2) is provided with a fixing through hole far away from the slideway; the second track beam (2) is connected with the track foundation through the fixing through hole by a pin.

5. The structure integral translation hydraulic thrustor of claim 4, wherein: the first mounting seat (5) comprises a first base and a first rotating shaft; one end of the first base is connected with the side surface of the first track beam (1); the first rotating shaft is vertically arranged at the other end of the first base;

the second mounting seat (6) comprises a second base and a second rotating shaft; one end of the second base is connected with the side surface of the counter force support (7); the second rotating shaft is vertically arranged at the other end of the second base.

6. The structure integral translation hydraulic thrustor of claim 5, wherein: the second mounting seat (6) further comprises a direction-defining screw; the direction-defining screw is disposed between the telescoping end and the first base.

7. A structure integral translation hydraulic thrustor according to claim 2, wherein: the number of the hydraulic jacks (4) is more than 2.

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