CN218933813U - Anti-deformation support frame for building disassembly frame body - Google Patents

Abstract

The utility model discloses an anti-deformation support frame for a building dismantling frame body, which relates to the technical field of building dismantling frames, and is characterized in that: comprises a plurality of splicing frames transversely arranged on a building dismantling frame body; the end parts of two adjacent splicing frames are mutually butted, and a butt joint hole extending towards the butt joint direction and a limiting structure for limiting the two splicing frames to separate towards the opposite direction are formed at the butt joint position; and the butt joint hole is provided with a limiting piece for limiting the two butt joint frames in the butt joint direction perpendicular to the butt joint direction. The utility model is convenient for on-site assembly and use, can form multidirectional limit, prevents shaking after assembly, and has the effect of improving the convenience and stability of installation and use.

Description

Anti-deformation support frame for building disassembly frame body

Technical Field

The utility model relates to the technical field of building dismantling frames, in particular to an anti-deformation support frame of a building dismantling frame body.

Background

When a high-rise building is dismantled, climbing scaffolds (namely, a dismantling frame body) are usually required to be dismantled from the high-rise building layer by layer and descend. And because tear open building frame body and need remove the back one deck down after the top layer, tear open building frame body and remove when moving down and remove the fixed with high-rise wall body for tear open building frame body bottom and need consolidate the frame and stabilize and prevent deformation, and then guarantee the stability of the whole building frame body structure of tearing open of decline process. The reinforcement frame of the existing building dismantling frame body is usually a long-strip-shaped frame body, and is directly installed on the length direction of the building dismantling frame body by bolts, so that the scaffold is prevented from deforming. However, the whole reinforcing frame is too long, the reinforcing frame is difficult to be moved to the site for installation, the installation and the use are more troublesome, if the reinforcing frame is simply divided into a plurality of frame bodies for mutual splicing, the reinforcing frame is only fixed by bolts, and the reinforcing frame is easy to loosen in the vibration of the building disassembly, so that the reinforcing frame shakes, and the support of the building disassembly frame body is not facilitated.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the deformation-preventing support frame for the building disassembly frame body, which is convenient for on-site assembly and use, can form multidirectional limit, prevents shaking after assembly and has the effect of improving the convenience and stability of installation and use.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the deformation-preventing support frame for the building dismantling frame body comprises a plurality of splicing frames transversely arranged on the building dismantling frame body; the end parts of two adjacent splicing frames are mutually butted, and a butt joint hole extending towards the butt joint direction and a limiting structure for limiting the two splicing frames to separate towards the opposite direction are formed at the butt joint position; and the butt joint hole is provided with a limiting piece for limiting the two butt joint frames in the butt joint direction perpendicular to the butt joint direction.

Further set up: the limiting structure comprises a limiting block and a limiting groove; the limiting blocks and the limiting grooves are respectively arranged at two ends of the splicing frame and are mutually embedded.

Further set up: the cross section area of the limiting block is gradually increased from one end of the supporting frame to the butt joint direction; the limit groove is arranged corresponding to the shape and the size of the limit block.

Further set up: the limiting block is arranged in a round shape or a polygonal shape.

Further set up: the limiting piece comprises a limiting bolt inserted into the butt joint hole; one end of the limit bolt is connected with a positioning nut in a threaded manner.

Further set up: the limiting blocks are arranged in a plurality and distributed along the vertical direction of the splicing frame; an alignment groove is formed between two adjacent limiting blocks; the limiting grooves are provided with a plurality of limiting blocks, and an alignment block which is embedded with the alignment grooves is formed between two adjacent limiting grooves.

Further set up: a plurality of threaded holes are formed in the splicing frame; the threaded hole is in threaded connection with a fixing bolt penetrating through the building dismantling frame body.

By adopting the technical scheme, compared with the prior art, the utility model has the following advantages:

1. the support frames are formed by mutually splicing the splicing frames, so that the support frames can be conveniently installed and used on site on the building dismantling frame body, and the convenience in carrying, installing and using is improved;

2. through limit structure and locating part cooperation, can form the spacing of butt joint direction and perpendicular to butt joint direction with two splice framves of mutual concatenation to utilize two cooperation, can realize the steadiness after two splice framves splice, as long as the locating part passes the butt joint hole of two splice framves, even if the locating part is not hard up, also can not influence the steadiness after two splice framves splice, avoid producing and rock, make it install can stably provide the support after tearing open the building frame body, prevent to tear open the deformation of building frame body, improve the steadiness of tearing open the building frame body when using on the high-rise building;

3. through the cooperation of the limit bolts and the positioning nuts, the positioning nuts are only required to be fixed at one end of the butt joint holes of the splicing frames, and the two splicing frames can be conveniently and stably assembled by utilizing the threaded connection of the limit bolts after penetrating through the two splicing frames, so that the convenience and the stability of the assembly and the use of the support frames are improved;

4. the metal frame, the vertical straight rod and the inclined rod are matched, so that a triangular supporting structure can be formed, the structural strength of a single splicing frame is improved, the weight of the splicing frame is reduced, the splicing frame is convenient to carry and assemble and use, the structural strength after assembly is higher, and the stability of the splicing frame on the support of a split-building frame body can be improved;

5. through a plurality of stopper and spacing groove cooperation, can provide the multiple spot spacing, improve the steadiness after two concatenation framves butt joint, and the counterpoint groove that forms between two stoppers can gomphosis in counterpoint piece department simultaneously for the whole mutual gomphosis of side after two concatenation framves concatenation improves the steadiness after the equipment.

Drawings

FIG. 1 is a schematic view of the structure of an anti-deformation support frame of a building dismantling frame body;

FIG. 2 is a schematic view of a structure of the two splice frames of the present utility model after being butt-mounted;

fig. 3 is a schematic view of a part of the split joint frame of the present utility model after being split.

In the figure: 1. a splicing frame; 11. a butt joint hole; 12. a metal frame; 121. a square frame; 13. a vertical upright rod; 14. an inclined lever; 2. a building disassembly frame body; 3. a limit structure; 31. a limiting block; 32. a limit groove; 4. a limiting piece; 41. a limit bolt; 42. positioning a nut; 5. an alignment groove; 6. an alignment block; 7. a threaded hole; 8. and (5) fixing bolts.

Detailed Description

The deformation-preventing support frame of the building dismantling frame body is further described with reference to fig. 1 to 3.

The deformation-preventing support frame is used for supporting the bottom end of the climbing frame of the building dismantling machine, preventing the tail from deforming and improving the stability and safety of operation and use; as shown in fig. 1, the deformation-preventing support frame comprises a plurality of splicing frames 1 transversely mounted on a building dismantling frame body 2, and the splicing frames 1 are mutually spliced and fixed to form an integral support frame to fixedly support the bottom end of the whole building dismantling frame body 2, so that the on-site mounting and use are conveniently carried out on the building dismantling frame body 2, and the convenience of carrying and mounting is improved.

As shown in fig. 1, further, a plurality of threaded holes 7 are arrayed on the splicing frame 1 along the butt joint direction, and fixing bolts 8 are installed on the threaded holes 7; one end of the fixing bolt 8 penetrates through the building dismantling frame body 2 and the threaded hole and then is connected with an upper nut, and the fixing bolt 8 can be matched with the nut to fixedly install the splicing frame 1 on the building dismantling frame body 2 so as to conveniently support the building dismantling frame body 2 and prevent deformation.

As shown in fig. 1 and 2, in particular, the splice rack 1 comprises a metal frame 12, an upright straight bar and two inclined bars 14; the metal frame 12, the vertical straight rod and the inclined rod 14 are made of metal materials such as stainless steel, iron alloy and the like, and have certain structural strength. The metal frame 12 is a rectangular frame 121, and a vertical straight rod is vertically fixed in the middle of the metal frame 12 and symmetrically divides the metal frame 12 into two rectangular or square frames 121; the two ends of the inclined rods 14 are respectively fixed on the rectangular or square frame 121 to provide support for the corners of the wiring, and the opposite ends of the two inclined rods 14 are fixed on the same end of the vertical upright rod 13 so as to be cut into a triangular structure, so that the stability of the structure of the splicing frame 1 is improved, and the stability of the support of the splicing frame to the building dismantling frame body 2 is further improved.

As shown in fig. 2 and 3, each splice rack 1 is spliced with each other along the length direction thereof, that is, the splice rack can be transversely installed on the building disassembly rack body 2, and the end parts of two adjacent splice racks 1 are butted with each other, and a limit structure 3 for limiting the two splice racks 1 to separate towards opposite directions is arranged at the butted part so as to form limit after the butting. Specifically, the limiting structure 3 includes a limiting block 31 and a limiting groove 32; the limiting blocks 31 and the limiting grooves 32 are respectively arranged at two ends of the splicing frame 1 and are mutually embedded; when the two ends of the two splicing frames 1 are spliced, the limiting blocks 31 of one splicing frame 1 are embedded into the limiting grooves 32 of the other splicing frame 1 to form a fit, so that the two splicing frames can be prevented from being separated along opposite directions or opposite directions, and the splicing frames 1 can be conveniently spliced and fixed.

As shown in fig. 2 and 3, the cross-sectional area of the limiting block 31 is gradually increased from one end of the supporting frame to the butt joint direction; the limit groove 32 is arranged corresponding to the shape and the size of the limit block 31; after the limiting block 31 is inserted into the limiting groove 32 to form limiting, the limiting block 31 cannot be separated from the limiting groove 32 towards the butt joint direction of the splicing frame 1, so that the splicing frames 1 spliced by two are fixed conveniently, and convenience and stability of operation and use are improved. In this embodiment, the limiting block 31 is any one of a partial circular or polygonal block, and the shape of the limiting groove 32 is set corresponding to the limiting block 31 to meet the limiting requirement.

Meanwhile, two limiting blocks 31 and two limiting grooves 32 are arranged and distributed along the vertical direction of the splicing frame 1; an alignment groove 5 is formed between two adjacent limiting blocks 31; an alignment block 6 which is embedded with the alignment groove 5 is formed between two adjacent limit grooves 32, so that when the two splicing frames 1 are spliced, the limit blocks 31 are embedded behind the limit grooves 32, and the butt blocks are also embedded in the butt grooves, so that multipoint limit is provided, and the stability of the two splicing frames 1 after being spliced is improved.

As shown in fig. 2 and 3, further, a butt joint hole 11 extending towards the opposite direction of the two splicing frames 1 is formed at the butt joint position of the splicing frames 1; the butt joint hole 11 is provided with a limiting piece 4 for limiting the butt joint of the two splicing frames 1 along the direction perpendicular to the butt joint direction, so that the two splicing frames 1 are matched with the limiting structure 3 to realize the fixation after the butt joint. Specifically, the limiting piece 4 comprises a limiting bolt 41 inserted into the butt joint hole 11; one end of the limit bolt 41 is connected with a positioning nut 42 in a threaded manner; in this embodiment, the positioning nut 42 is welded to one end of the splice frame 1; after the limit bolt 41 passes through the butt joint holes 11 of the two splicing frames 1 from the other end of the other splicing frame 1, the limit bolt 41 is connected to the positioning nut 42 in a threaded manner, and when the limit bolt is locked, a nut of the limit bolt 41 is abutted against the frame body of the splicing frame 1, and then the limit bolt is matched with the positioning nut 42 to realize the fixed installation of the two splicing frames 1, and the limit block 31 is inserted in the direction of the limit groove 32 to form a limit, so that the limit block 31 is prevented from being separated from the limit groove 32, and the stability of the splicing installation of the splicing frames 1 is improved.

Working principle: during installation, one splicing frame 1 is installed at a position to be supported by the building dismantling frame body 2 through a fixing bolt 8, then the other splicing frame 1 and the previous splicing frame 1 form butt joint limit through a limit structure 3, namely a limit bolt 41 can be used to pass through the butt joint holes 11 of the two splicing frames 1 and is connected to a positioning nut 42 through threads of the limit bolt 41 to realize fixation, so that the two splicing frames 1 are fixed through the limit bolt 41 and the positioning nut 42, and the limit direction of the limit structure 3 is perpendicular to the limit direction formed by the limit bolt 41, so that even if the splicing frames are used for a long time, the limit bolt 41 and the positioning nut 42 are slightly loosened, the two spliced frames 1 are still firmly fixed due to the limit of the limit structure 3 and the limit of the limit bolt 41, shaking is avoided, and the stability after splicing of the two splicing frames is improved; so, splice each splice frame 1 in proper order and form the shape support frame of preapring for an unfavorable turn of events to utilize fixing bolt 8 to be fixed in the splice frame 1 on tearing open building frame body 2 in the suitable position after the concatenation, realize the firm installation and the support of shape support frame on tearing open building frame body 2, improve stability and the convenience of installation use.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (8)

1. The deformation-preventing support frame of the building dismantling frame body is characterized by comprising a plurality of splicing frames transversely arranged on the building dismantling frame body; the end parts of two adjacent splicing frames are mutually butted, and a butt joint hole extending towards the butt joint direction and a limiting structure for limiting the two splicing frames to separate towards the opposite direction are formed at the butt joint position; and the butt joint hole is provided with a limiting piece for limiting the two butt joint frames in the butt joint direction perpendicular to the butt joint direction.

2. The deformation-preventing support frame of the building disassembly frame body according to claim 1, wherein the limiting structure comprises a limiting block and a limiting groove; the limiting blocks and the limiting grooves are respectively arranged at two ends of the splicing frame and are mutually embedded.

3. The deformation-preventing support frame for the building disassembly frame body according to claim 2, wherein the cross-sectional area of the limiting block is gradually increased from one end of the support frame to the butt joint direction; the limit groove is arranged corresponding to the shape and the size of the limit block.

4. A deformation-preventing support frame for a building dismantling frame body according to claim 3, wherein the limiting block is circular or polygonal.

5. The deformation-preventing support frame of the building disassembly frame body according to claim 1, wherein the limiting piece comprises a limiting bolt inserted into the butt joint hole; one end of the limit bolt is connected with a positioning nut in a threaded manner.

6. The anti-deformation support frame for a building disassembly frame body according to any one of claims 1 to 5, wherein the splicing frame comprises a metal frame, a vertical upright rod and two inclined rods; the vertical upright rod is vertically fixed in the middle of the metal frame and symmetrically divides the metal frame into two square frames; and two ends of the inclined rod are respectively fixed at corners of the square frame butt-joint line to provide support.

7. The deformation-preventing support frame for the building disassembly frame body according to claim 2, wherein a plurality of limiting blocks are arranged and distributed along the vertical direction of the splicing frame; an alignment groove is formed between two adjacent limiting blocks; the limiting grooves are provided with a plurality of limiting blocks, and an alignment block which is embedded with the alignment grooves is formed between two adjacent limiting grooves.

8. The deformation-preventing support frame of the building disassembly frame body according to claim 1, wherein a plurality of threaded holes are formed in the splicing frame; the threaded hole is in threaded connection with a fixing bolt penetrating through the building dismantling frame body.

Images