CN216305421U - A mix strutting arrangement for girder steel whole lifting construction - Google Patents

Abstract

The utility model relates to a mixed supporting device for steel beam integral lifting construction, which comprises a supporting base, wherein a placing groove is formed in the top of the supporting base, a placing plate is placed on the supporting base, hydraulic telescopic parts are symmetrically arranged in the placing groove, telescopic ends of the hydraulic telescopic parts are hinged with a moving plate, the other end of the moving plate is hinged with the bottom of the placing plate, and a supporting assembly is arranged on the placing groove; the supporting component comprises a plurality of second hydraulic telescopic parts, a plurality of second placing grooves are formed in the bottom of the inner wall of each placing groove, the second hydraulic telescopic parts are fixed inside the corresponding second placing grooves and are located in the middle of the placing grooves in a centralized mode, ejector rods are fixed to the telescopic ends of the second hydraulic telescopic parts, and the ejector rods are arranged vertically. The utility model relates to the technical field of supporting devices. The utility model has the effect of reducing the occurrence probability of safety accidents.

Description

A mix strutting arrangement for girder steel whole lifting construction

Technical Field

The utility model relates to the technical field of supporting devices, in particular to a hybrid supporting device for integral lifting construction of a steel beam.

Background

In the process of building a factory building, steel beams are needed.

To small-size girder steel, generally use whole promotion strutting arrangement to carry out the construction of girder steel.

Among the current strutting arrangement, when the board motion is placed in the motion board drive, because after repetitious usage, damage appears in motion board self, easily leads to placing the board and state such as slope appears, causes serious building construction incident.

SUMMERY OF THE UTILITY MODEL

According to the defects in the prior art, the utility model aims to provide the mixed supporting device for the integral lifting construction of the steel beam, which has the effect of reducing the occurrence probability of safety accidents.

The technical purpose of the utility model is realized by the following technical scheme:

a mixed supporting device for steel beam integral lifting construction comprises a supporting base, wherein a placing groove is formed in the top of the supporting base, a placing plate is placed on the supporting base, hydraulic telescopic parts are symmetrically arranged in the placing groove, telescopic ends of the hydraulic telescopic parts are hinged to a moving plate, the other end of the moving plate is hinged to the bottom of the placing plate, and a supporting assembly is arranged on the placing groove;

the supporting component comprises a plurality of second hydraulic telescopic parts, a plurality of second placing grooves are formed in the bottom of the inner wall of each placing groove, the second hydraulic telescopic parts are fixed inside the corresponding second placing grooves and are located in the middle of the placing grooves in a centralized mode, ejector rods are fixed to the telescopic ends of the second hydraulic telescopic parts, and the ejector rods are arranged vertically.

Through adopting above-mentioned technical scheme, after the board motion is placed in the motion board drive, and place the position determination after the motion of board, operating personnel starts second hydraulic stretching portion, and second hydraulic stretching portion drives the ejector pin motion, makes the top of ejector pin and the top of placing the board contact, and a plurality of ejector pins play the effect of dispersion motion board bearing capacity, have prolonged the life of motion board, have reduced incident emergence probability simultaneously.

The present invention in a preferred example may be further configured to: the standing groove inner wall both sides have all been seted up the spout, the both sides of motion board are fixed with the sliding block, the one end of sliding block extends to corresponding inside the spout, the vertical section of sliding block is circular, sliding block cross section diameter with the high looks adaptation of spout.

Through adopting above-mentioned technical scheme, through spout and sliding block, further inject the direction of motion of hydraulic telescoping rod pars contractilis.

The present invention in a preferred example may be further configured to: and a first rubber layer is fixed at one end of the ejector rod close to the placing plate.

Through adopting above-mentioned technical scheme, the ejector pin is avoided on first rubber layer in the twinkling of an eye that touches with placing the board bottom, and the ejector pin can not cause the injury to placing the board.

The present invention in a preferred example may be further configured to: the placing plate is provided with a second supporting component;

the second supporting assembly comprises a sleeve, a plurality of third placing grooves are formed in the top of the placing plate, the third placing grooves are obliquely arranged, the interior of the sleeve is arranged in the third placing grooves, a sliding rod is arranged in the sleeve in a sliding mode, a spring is arranged in the sleeve, two ends of the spring are fixed to one side, corresponding to the inner wall of the sleeve, of one end, corresponding to the interior of the sleeve, of the sliding rod, and a roller is arranged at one end, corresponding to the exterior of the sleeve, of the sliding rod;

the rubber block is arranged on the placing plate and is not in contact with the sliding rod, the bearing plate is arranged at the top of the rubber block, and the roller is in point contact with the bottom of the bearing plate.

Through adopting above-mentioned technical scheme, the girder steel is placed on the loading board, and when the loading board downstream, the loading board drives the slide bar motion, and the slide bar drives the spring and is in the compression shape state, because the spring is in the slope and places, has changed the girder steel to the direction of placing the partial force that the board was applyed, the life of whole device that has become looks extension.

In summary, the utility model includes at least one of the following beneficial technical effects:

1. through being provided with supporting component placing on the board, place the top of a plurality of ejector pins in the subassembly and contact with the top of placing the board, a plurality of ejector pins play the effect of dispersion motion board bearing capacity, have prolonged the life of motion board, have reduced the incident probability simultaneously.

2. Through being provided with a plurality of second supporting components on placing the board, the spring slope is placed in the second supporting component, has changed the girder steel to placing the partial force direction that the board exerted, the life of whole device has been prolonged to the change looks.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

fig. 2 is a left-side view of the internal structure of the placement board in this embodiment.

In the figure, 1, a supporting base; 11. a placement groove; 12. placing the plate; 13. a hydraulic telescopic part; 14. a motion plate; 2. a support assembly; 21. a second hydraulic telescopic part; 22. a second placing groove; 23. a top rod; 3. a chute; 31. a slider; 4. a first rubber layer; 5. a second support assembly; 51. a sleeve; 52. a third placing groove; 53. a slide bar; 54. a spring; 55. a roller; 6. a rubber block; 7. a carrier plate.

Detailed Description

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

Example (b):

referring to fig. 1-2, the hybrid supporting device for steel beam integral lifting construction disclosed by the utility model comprises a supporting base 1, wherein a placing groove 11 is formed in the top of the supporting base 1, a placing plate 12 is placed on the supporting base 1, hydraulic telescopic parts 13 are symmetrically arranged in the placing groove 11, telescopic ends of the hydraulic telescopic parts 13 are hinged to a moving plate 14, and the other end of the moving plate 14 is hinged to the bottom of the placing plate 12. When the hydraulic telescopic part 13 works, the telescopic end of the hydraulic telescopic part drives the moving plate 14 to move, and the moving plate 14 is connected with the placing plate 12 and the hydraulic telescopic part 13. The moving board 14 moves while raising the height of the placing board 12.

The sliding grooves 3 are formed in the two sides of the inner wall of the placing groove 11, the sliding blocks 31 are fixed to the two sides of the moving plate 14, one ends of the sliding blocks 31 extend to the corresponding sliding grooves 3, the vertical sections of the sliding blocks 31 are circular, and the diameters of the cross sections of the sliding blocks 31 are matched with the heights of the sliding grooves 3. The sliding groove 3 and the sliding block 31 further limit the moving direction of the telescopic part of the hydraulic telescopic rod.

The placing groove 11 is provided with a supporting component 2, and the supporting component 2 comprises a plurality of second hydraulic telescopic parts 21. A plurality of second standing grooves 22 have been seted up to 11 inner walls bottoms of standing groove, and second hydraulic stretching portion 21 is fixed inside corresponding second standing groove 22, and a plurality of second hydraulic stretching portions 21 are concentrated and are located 11 middle parts of standing groove, and the flexible end of second hydraulic stretching portion 21 is fixed with ejector pin 23, and ejector pin 23 is vertical to be set up. After the motion board 14 drives and places board 12 motion, and the position after the motion of placing board 12 is confirmed, operating personnel starts second hydraulic stretching portion 21, and second hydraulic stretching portion 21 drives ejector pin 23 motion, makes the top of ejector pin 23 and the top of placing board 12 contact, and a plurality of ejector pins 23 play the effect of dispersion motion board 14 bearing capacity, have prolonged the life of motion board 14, have reduced the incident probability simultaneously.

The first rubber layer 4 is fixed to one end of the jack 23 near the placing plate 12. The first rubber layer 4 prevents the top rod 23 from damaging the placing plate 12 at the moment when the top rod 23 touches the bottom of the placing plate 12.

The placing plate 12 is provided with a second support member 52. The second supporting assembly 52 comprises a sleeve 51, a plurality of third placing grooves 52 are formed in the top of the placing plate 12, the third placing grooves 52 are obliquely arranged, the sleeve 51 is arranged inside the third placing grooves 52, a sliding rod 53 is arranged in the sleeve 51 in a sliding mode, a spring 54 is arranged inside the sleeve 51, two ends of the spring 54 are fixed to one side of the inner wall of the corresponding sleeve 51 and one end, located inside the sleeve 51, of the corresponding sliding rod 53, and a roller 55 is arranged at one end, located outside the corresponding sleeve 51, of the sliding rod 53. The placing plate 12 is provided with a rubber block 6, the rubber block 6 is not in contact with the sliding rod 53, the top of the rubber block 6 is provided with a bearing plate 7, and the roller 55 is in point contact with the bottom of the bearing plate 7. The steel beam is placed on the bearing plate 7, the bearing plate 7 drives the sliding rod 53 to move while moving downwards, the sliding rod 53 drives the spring 54 to be in a compressed state, the spring 54 is obliquely placed, the direction of partial acting force applied by the steel beam on the placing plate 12 is changed, and the service life of the whole device is prolonged.

The implementation principle of the above embodiment is as follows:

the operator at first starts hydraulic telescoping portion 13, and hydraulic telescoping portion 13 drives motion board 14 motion, and two motion boards 14 drive place board 12 and slowly upwards move, when placing board 12 and reach suitable height. The operator shuts down the hydraulic telescopic unit 13.

Next, the operator starts the second hydraulic telescopic unit 21. The second hydraulic telescopic part 21 drives the top rod 23 to move upwards, so that one end of the top rod 23 is abutted against the placing plate 12. In this embodiment, the height of the steel beam is not high, and the moving height of the placing plate 12 and the moving distance of the top bar 23 are determined values.

In addition, when the steel beam is placed on the bearing plate 7, the bearing plate 7 is under the action of the gravity of the steel beam, and the bearing plate 7 moves downwards to deform the rubber block 6. The rubber blocks 6 distribute a part of the pressure to which the placing plate 12 is subjected.

Meanwhile, when the bearing plate 7 moves downwards, the bearing plate 7 drives the ejector rod 23 to move downwards. The ram 23 carries the spring 54 in compression. Because the springs 54 are placed obliquely, the direction of partial force exerted by the steel beams on the placing plate 12 is changed, and the service life of the whole device is prolonged due to phase change.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (4)

1. A hybrid supporting device for integral lifting construction of a steel beam comprises a supporting base (1), wherein a placing groove (11) is formed in the top of the supporting base (1), a placing plate (12) is placed on the supporting base (1), hydraulic telescopic parts (13) are symmetrically arranged in the placing groove (11), telescopic ends of the hydraulic telescopic parts (13) are hinged to a moving plate (14), and the other end of the moving plate (14) is hinged to the bottom of the placing plate (12), and is characterized in that a supporting assembly (2) is arranged on the placing groove (11);

support assembly (2) include a plurality of second hydraulic stretching portion (21), a plurality of second standing groove (22) have been seted up to standing groove (11) inner wall bottom, second hydraulic stretching portion (21) are fixed correspond inside second standing groove (22), it is a plurality of second hydraulic stretching portion (21) concentrate and are located standing groove (11) middle part, the flexible end of second hydraulic stretching portion (21) is fixed with ejector pin (23), the vertical setting of ejector pin (23).

2. The hybrid supporting device for steel beam integral lifting construction as claimed in claim 1, wherein: the sliding grooves (3) are formed in two sides of the inner wall of the placing groove (11), sliding blocks (31) are fixed to two sides of the moving plate (14), one ends of the sliding blocks (31) extend to correspond to the inner portions of the sliding grooves (3), the vertical sections of the sliding blocks (31) are circular, and the cross section of each sliding block (31) is matched with the height of each sliding groove (3) in a diameter mode.

3. The hybrid supporting device for steel beam integral lifting construction as claimed in claim 2, wherein: and a first rubber layer (4) is fixed at one end of the ejector rod (23) close to the placing plate (12).

4. The hybrid supporting device for steel beam integral lifting construction as claimed in claim 1, wherein: the placing plate (12) is provided with a second supporting component (5);

the second supporting assembly (5) comprises a sleeve (51), a plurality of third placing grooves (52) are formed in the top of the placing plate (12), the third placing grooves (52) are obliquely arranged, the sleeve (51) is internally arranged in the third placing grooves (52), a sliding rod (53) is arranged in the sleeve (51) in a sliding mode, a spring (54) is arranged in the sleeve (51), two ends of the spring (54) are fixed with one side, corresponding to the inner wall of the sleeve (51), of the sleeve (51) and one end, corresponding to the sliding rod (53), of the sleeve (51), and a roller (55) is arranged at one end, corresponding to the outer portion of the sleeve (51), of the sliding rod (53);

the rubber block (6) is arranged on the placing plate (12), the rubber block (6) is not in contact with the sliding rod (53), the bearing plate (7) is arranged at the top of the rubber block (6), and the roller (55) is in point contact with the bottom of the bearing plate (7).

Images