CN220827960U - Spliced steel beam - Google Patents

Abstract

The utility model provides a spliced steel beam, belongs to the technical field of building materials, and solves the problems that the existing steel beam can only be spliced vertically and the flexibility of splicing use is low. This concatenation formula girder steel, including the girder steel body, two picture peg of rear side fixedly connected with of girder steel body, the linking hole has been seted up on the picture peg, two first slots have been seted up to the front side of girder steel body, first jack has been seted up in the first slot, fixedly connected with first T template on the girder steel body, be provided with first T type on the first T template and insert the post, first location perforation has been seted up on the first T template, first T type is inserted the post and is perforated sliding connection with first location, first T type is inserted the post and is pegged graft with first jack, first T type is inserted the post and is passed through first clamping subassembly and girder steel body coupling, fixedly connected with mount pad on the girder steel body, two second slots have been seted up on the mount pad, the second jack has been seted up in the second slot. The utility model realizes that the steel beam body can be spliced in the horizontal and vertical directions.

Description

Spliced steel beam

Technical Field

The utility model belongs to the technical field of building materials, and relates to a steel beam, in particular to a spliced steel beam.

Background

The steel beams are steel structure beams, crane beams and working platform beams in a factory building, floor beams in a multi-storey building, purlines in a roof structure and the like, and all the steel beams can be adopted; the existing steel beams are transported to a construction site, and the two steel beams are fixed in a welding mode, so that the welding mode is time-consuming and labor-consuming, and the problem of poor fixing convenience exists.

Through searching, for example, chinese patent literature discloses a spliced steel beam [ application number: 201921980574.4; publication No.: CN211058011U ]. The spliced steel beam comprises a steel beam, wherein a mounting block is fixedly connected to the side end face of the steel beam, a limiting chute is formed in the front end face of the mounting block, an inserting block matched with the limiting chute is fixedly connected to the side end face of the steel beam, and two groups of first chutes are formed in the two sides of the limiting chute in the mounting block. According to the utility model, firstly, when the two steel beams are fixed, only the two steel beams are needed to be embedded into the splice in a sliding way, so that the convenience of fixing the two steel beams is improved, secondly, when the two steel beams are fixed, the left side, the right side, the lower side and the rear side of the insert block of the first steel beam are fixed in a limiting way through the limiting chute of the second steel beam, the top of the limiting insert block is fixed through the limiting block, and the insert block is inserted into the limiting first insertion hole to fix the insert block up and down and front and back, so that the two steel beams are stably fixed, and the stable fixing between the two steel beams is realized, and the fixing effect between the two steel beams is good.

When two girder steel are connected fixedly, the spacing chute through the second girder steel is spacing fixed to the left and right sides and below and the rear of the insert block of first girder steel, is fixed to spacing insert block top through the stopper, inserts spacing first jack through spacing insert block and fixes about the insert block to fix two girder steel stability, this kind of connected mode when using, can only carry out perpendicular connection to two girder steel, can't carry out horizontal connection, when the concatenation is used, its flexibility ratio is lower.

Disclosure of utility model

The utility model aims at solving the problems in the prior art, and provides a spliced steel beam, which aims at solving the technical problems that: how to realize that the girder steel body can be spliced in the horizontal and vertical directions.

The aim of the utility model can be achieved by the following technical scheme:

The utility model provides a concatenation formula girder steel, includes the girder steel body, two picture peg of rear side fixedly connected with of girder steel body have been seted up the linking hole on the picture peg, two first slots have been seted up to the front side of girder steel body, first jack has been seted up in the first slot, fixedly connected with first T template on the girder steel body, be provided with first T type and insert the post on the first T template, first location perforation has been seted up on the first T template, first T type insert post and first location perforation sliding connection, first T type insert post and first jack grafting, first T type insert post passes through first clamping subassembly and girder steel body coupling, fixedly connected with mount pad on the girder steel body, two second slots have been seted up on the mount pad, the second jack has been seted up in the second slot, fixedly connected with second T template on the girder steel body, be provided with second T type insert post on the second T template, second T type insert post and second jack grafting, second T type insert post and second card subassembly and girder steel body coupling.

The working principle of the utility model is as follows: when the steel beam body is spliced and installed, two plugboards on the steel beam body are respectively inserted into the two first slots, then the first T-shaped plugboards are pressed to sequentially pass through the first positioning perforation, the first jack and the connecting hole, the first T-shaped plugboards are abutted against the first T-shaped board, so that the plugboards are fixedly connected with the first slots, then the first T-shaped plugboards are clamped and positioned by the first clamping component, the stability of the connected first T-shaped plugboards is improved, and therefore horizontal connection among a plurality of steel beam bodies can be realized; two plugboards on the steel beam body are respectively inserted into two second slots on the mounting seat, then the second T-shaped plugboards are pressed to sequentially pass through the second positioning perforation, the second jack and the connecting hole, the second T-shaped plugboards are abutted against the second T-shaped board, so that the plugboards are fixedly connected with the second slots, then the second T-shaped plugboards are locked and positioned by using the second locking assembly, the stability of the second T-shaped plugboards after being connected is improved, and therefore vertical connection among a plurality of steel beam bodies can be realized; through the principle, the steel beam body can be horizontally or vertically connected, the splicing mode is more flexible, the splicing is convenient, and the stability after the splicing is better.

A plurality of first limit grooves are formed in the first positioning through holes and the first jacks, a plurality of first limit bars are fixedly connected to the first T-shaped inserting columns, and the first limit bars are inserted into the first limit grooves.

By adopting the structure, the first T-shaped inserting column sequentially penetrates through the first positioning perforation, the first insertion hole and the connecting hole, the first T-shaped inserting column is abutted against the first T-shaped plate, and then the first limiting strip is inserted into the first limiting groove, so that the connection stability between the first T-shaped inserting column and the first T-shaped plate is improved, the stability of connection between the inserting plate and the first insertion groove is further improved, and the two steel beam bodies are horizontally connected more stably.

A plurality of second limiting grooves are formed in the second positioning perforation and the second jack, a plurality of second limiting strips are fixedly connected to the second T-shaped inserting column, and the second limiting strips are spliced with the second limiting grooves.

By adopting the structure, the second T-shaped inserting column sequentially penetrates through the second positioning perforation, the second inserting hole and the connecting hole, the second T-shaped inserting column is abutted against the second T-shaped plate, and then the second limiting strip is inserted into the second limiting groove, so that the connection stability between the second T-shaped inserting column and the second T-shaped plate is improved, the stability of connection between the inserting plate and the first inserting groove is further improved, and the two steel beam bodies are enabled to be vertically connected to be more stable.

The first clamping component comprises two telescopic rods, the telescopic rods are fixedly connected with a steel beam body, a spring is fixedly connected to the steel beam body, the other end of the spring is fixedly connected with the telescopic rods, clamping blocks are fixedly connected to the telescopic rods, first clamping grooves are formed in the first T-shaped inserting columns, and the clamping blocks can be inserted into the first clamping grooves.

After the plug board and the first slot are connected and fixed by the first T-shaped plug post, the telescopic rod ejects the clamping block into the first clamping groove under the action of the elastic force of the spring, so that the first T-shaped plug post is clamped and positioned, and the stability of connection of the first T-shaped plug post on the first T-shaped plate is improved.

One side of the clamping block, which is close to the first T-shaped inserting column, is of an inclined surface structure.

By adopting the structure, the first T-shaped inserting column sequentially passes through the first positioning perforation, the first jack and the connecting hole in the process of pressing the first T-shaped inserting column, the inclined surface structure is extruded by the first T-shaped inserting column, so that the telescopic rod drives the clamping block to shrink, the clamping block slides along the periphery of the first T-shaped inserting column, and after the first T-shaped inserting column is abutted against the first T-shaped plate, the clamping block is sprung into the first clamping groove under the action of the spring to fix the first T-shaped inserting column.

And a shifting block is fixedly connected to the telescopic rod.

By adopting the structure, when the steel beam body needs to be disassembled, the poking block is poked to enable the telescopic rod to drive the clamping block to be separated from the first clamping groove, so that the first T-shaped inserting column can be pulled from the first inserting hole, the inserting plate can be pulled out from the first inserting groove, and the disassembly among the plurality of steel beam bodies is completed.

Compared with the prior art, the spliced steel beam has the following advantages:

1. When the steel beam body is spliced and installed, two plugboards on the steel beam body are respectively inserted into the two first slots, then the first T-shaped plugboards are pressed to sequentially pass through the first positioning perforation, the first jack and the connecting hole, the first T-shaped plugboards are abutted against the first T-shaped board, so that the plugboards are fixedly connected with the first slots, then the first T-shaped plugboards are clamped and positioned by the first clamping component, the stability of the connected first T-shaped plugboards is improved, and therefore horizontal connection among a plurality of steel beam bodies can be realized; two plugboards on the steel beam body are respectively inserted into two second slots on the mounting seat, then the second T-shaped plugboards are pressed to sequentially pass through the second positioning perforation, the second jack and the connecting hole, the second T-shaped plugboards are abutted against the second T-shaped board, so that the plugboards are fixedly connected with the second slots, then the second T-shaped plugboards are locked and positioned by using the second locking assembly, the stability of the second T-shaped plugboards after being connected is improved, and therefore vertical connection among a plurality of steel beam bodies can be realized; through the principle, the steel beam body can be horizontally or vertically connected, the splicing mode is more flexible, the splicing is convenient, and the stability after the splicing is better.

2. After the first T-shaped inserting column is connected and fixed with the inserting plate and the first inserting groove, the telescopic rod ejects the clamping block into the first clamping groove under the action of the elastic force of the spring, so that the first T-shaped inserting column is clamped and positioned, and the stability of connection of the first T-shaped inserting column on the first T-shaped plate is improved.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is a block diagram of another view of the present utility model.

Fig. 3 is an enlarged view of the structure at a in fig. 2.

FIG. 4 is a diagram showing the connection between the first positioning assembly and the first locking assembly according to the present utility model.

Fig. 5 is a schematic view of a splice structure of the present utility model.

In the figure, 1, a steel beam body; 2. a first slot; 3. a first jack; 4. a first T-shaped plate; 41. a first positioning perforation; 42. a first limit groove; 5. a first T-shaped post; 51. a first clamping groove; 52. a first limit bar; 6. a telescopic rod; 61. a clamping block; 62. a shifting block; 7. a spring; 8. a mounting base; 9. a second slot; 10. a second T-shaped plate; 11. inserting plate; 111. a connection hole; 12. and a second T-shaped plunger.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1-5, the spliced steel beam comprises a steel beam body 1, two plugboards 11 are fixedly connected to the rear side of the steel beam body 1, a connecting hole 111 is formed in the plugboards 11, two first slots 2 are formed in the front side of the steel beam body 1, a first inserting hole 3 is formed in the first slots 2, a first T-shaped plate 4 is fixedly connected to the steel beam body 1, a first T-shaped inserting column 5 is arranged on the first T-shaped plate 4, a first positioning through hole 41 is formed in the first T-shaped plate 4, the first T-shaped inserting column 5 is slidably connected with the first positioning through hole 41, the first T-shaped inserting column 5 is connected with the steel beam body 1 through a first clamping component, an installation seat 8 is fixedly connected to the steel beam body 1, two second inserting holes 9 are formed in the installation seat 8, a second inserting hole 9 is formed in the second inserting hole 9, the steel beam body 1 is fixedly connected with a second T-shaped plate 10, the second T-shaped plate 10 is provided with a second T-shaped inserting column 12, the second T-shaped plate 10 is provided with a second positioning perforation, the second T-shaped inserting column 12 is inserted into the second inserting hole, the second T-shaped inserting column 12 is connected with the steel beam body 1 through a second clamping component, in the embodiment, when the steel beam body 1 is spliced and installed, two inserting plates 11 on the steel beam body 1 are respectively inserted into two first inserting grooves 2, then the first T-shaped inserting column 5 is pressed to sequentially pass through the first positioning perforation 41, the first inserting hole 3 and the connecting hole 111, the first T-shaped inserting column 5 is abutted against the first T-shaped plate 4, so that the inserting plates 11 and the first inserting grooves 2 are connected and fixed, then the first T-shaped inserting column 5 is clamped and positioned by using the first clamping component, the stability after the first T-shaped inserting column 5 is connected is improved, thereby enabling horizontal connection between the plurality of steel girder bodies 1; two plugboards 11 on the steel beam body 1 are respectively inserted into two second slots 9 on the mounting seat 8, then the second T-shaped plugboards 12 are pressed to sequentially pass through the second positioning perforation, the second jack and the connecting hole 111, the second T-shaped plugboards 12 are abutted against the second T-shaped board 10, so that the plugboards 11 and the second slots 9 are connected and fixed, then the second T-shaped plugboards 12 are clamped and positioned by using a second clamping component, the stability of the second T-shaped plugboards 12 after being connected is improved, and therefore vertical connection among a plurality of steel beam bodies 1 can be realized; through the principle, the steel beam body 1 can be horizontally or vertically connected, the splicing mode is more flexible, the splicing is convenient, and the stability after the splicing is better.

A plurality of first spacing grooves 42 are formed in the first positioning through holes 41 and the first jack holes 3, a plurality of first spacing strips 52 are fixedly connected to the first T-shaped inserting columns 5, the first spacing strips 52 are inserted into the first spacing grooves 42, in the embodiment, the first T-shaped inserting columns 5 sequentially penetrate through the first positioning through holes 41, the first jack holes 3 and the connecting holes 111, the first T-shaped inserting columns 5 are abutted against the first T-shaped plates 4, then the first spacing strips 52 are inserted into the first spacing grooves 42, so that the connection stability between the first T-shaped inserting columns 5 and the first T-shaped plates 4 is improved, the connection stability of the inserting plates 11 and the first inserting grooves 2 is further improved, and the two steel beam bodies 1 are horizontally connected more stably.

A plurality of second spacing grooves have all been seted up on second location perforation and the second jack, fixedly connected with a plurality of second spacing on the second T type inserted bar 12, second spacing is pegged graft with the second spacing groove, in this embodiment, second T type inserted bar 12 makes it pass second location perforation in proper order, second jack and linking hole 111, after the conflict of second T type inserted bar 12 is on second T template 10, the second spacing is inserted in the second spacing groove, thereby improve the connection stability between second T type inserted bar 12 and the second T template 10, further improve the stability that picture peg 11 is connected with first slot 2, make two girder steel bodies 1 carry out perpendicular connection more stable.

The first clamping component comprises two telescopic rods 6, the telescopic rods 6 are fixedly connected with the steel beam body 1, springs 7 are fixedly connected to the steel beam body 1, the other ends of the springs 7 are fixedly connected with the telescopic rods 6, clamping blocks 61 are fixedly connected to the telescopic rods 6, first clamping grooves 51 are formed in the first T-shaped inserting columns 5, the clamping blocks 61 can be inserted into the first clamping grooves 51, in the embodiment, after the inserting plates 11 and the first inserting grooves 2 are fixedly connected through the first T-shaped inserting columns 5, the telescopic rods 6 spring the clamping blocks 61 into the first clamping grooves 51 under the action of elasticity of the springs 7, so that clamping and positioning are conducted on the first T-shaped inserting columns 5, and the stability of connection of the first T-shaped inserting columns 5 on the first T-shaped plates 4 is improved.

The fixture block 61 is close to one side of the first T-shaped inserting column 5 and is in an inclined surface structure, in this embodiment, in the process of pressing the first T-shaped inserting column 5 to sequentially pass through the first positioning perforation 41, the first jack 3 and the engagement hole 111, the first T-shaped inserting column 5 extrudes the inclined surface structure, so that the telescopic rod 6 drives the fixture block 61 to shrink, the fixture block 61 slides along the periphery of the first T-shaped inserting column 5, after the first T-shaped inserting column 5 is in contact with the first T-shaped board 4, the fixture block 61 bounces into the first clamping groove 51 under the action of the spring 7, and the first T-shaped inserting column 5 is fixed.

Fixedly connected with shifting block 62 on telescopic link 6, in this embodiment, when needs dismantle girder steel body 1, stir shifting block 62 and make telescopic link 6 drive fixture block 61 and first draw-in groove 51 separation to can be with first T type inserted bar 5 from first jack 3 pulling, thereby can pull out picture peg 11 from first slot 2, accomplish the dismantlement between a plurality of girder steel bodies 1.

When the steel beam body 1 is spliced and installed, two plugboards 11 on the steel beam body 1 are respectively inserted into two first slots 2, then the first T-shaped plugboards 5 are pressed to sequentially pass through the first positioning through holes 41, the first plugholes 3 and the connecting holes 111, the first T-shaped plugboards 5 are abutted against the first T-shaped plate 4, so that the plugboards 11 are fixedly connected with the first slots 2, the first T-shaped plugboards 5 extrude the inclined plane structures, the telescopic rods 6 drive the clamping blocks 61 to shrink, the clamping blocks 61 slide along the peripheries of the first T-shaped plugboards 5, after the first T-shaped plugboards 5 are abutted against the first T-shaped plate 4, the first limiting strips 52 are inserted into the first limiting grooves 42, so that the connection strength between the first T-shaped plugboards 5 and the first T-shaped plate 4 is improved, the telescopic rods 6 spring the clamping blocks 61 into the first clamping grooves 51 under the elastic action of the springs 7, the clamping blocks 5 are positioned, and the connection stability of the first T-shaped plugboards 5 is improved, and the connection of the steel beam body 1 can be horizontally connected; two plugboards 11 on the steel beam body 1 are respectively inserted into two second slots 9 on the mounting seat 8, then the second T-shaped plugboards 12 are pressed to sequentially pass through the second positioning perforation, the second jack and the connecting hole 111, the second T-shaped plugboards 12 are abutted against the second T-shaped board 10, so that the plugboards 11 and the second slots 9 are connected and fixed, and then the second T-shaped plugboards 12 are clamped and positioned by using a second clamping component, so that vertical connection among a plurality of steel beam bodies 1 can be realized; when the steel beam body 1 needs to be disassembled, the poking block 62 is poked to enable the telescopic rod 6 to drive the clamping block 61 to be separated from the first clamping groove 51, so that the first T-shaped inserting column 5 can be pulled from the first inserting hole 3, the inserting plate 11 can be pulled out from the first inserting groove 2, and the disassembly among the plurality of steel beam bodies 1 is completed.

To sum up, through the cooperation of first slot, first location perforation, first locating component, first T type inserted bar, first card end subassembly, mount pad, second slot, second locating component, second T template and the structure such as second card end subassembly use, realize that girder steel body can carry out the concatenation of horizontal and vertical direction.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (6)

1. The utility model provides a concatenation formula girder steel, including girder steel body (1), a serial communication port, two picture peg (11) of rear side fixedly connected with of girder steel body (1), link up hole (111) have been seted up on picture peg (11), two first slot (2) have been seted up to girder steel body (1) front side, first jack (3) have been seted up in first slot (2), fixedly connected with first T template (4) on girder steel body (1), be provided with first T type jack (5) on first T template (4), first location perforation (41) have been seted up on first T template (4), first T type jack (5) are pegged graft with first location perforation (41) sliding connection, first T type jack (5) are connected with girder steel body (1) through first locking subassembly, fixedly connected with mount pad (8) on girder steel body (1), two second slots (9) have been seted up on mount pad (8), second slot (9) are provided with first location perforation (41) on second T template (10), second T type jack (10) have fixedly connected with second T type jack (10) on second T template, second T type jack (12) are pegged graft, the second T-shaped inserting column (12) is connected with the steel beam body (1) through a second clamping component.

2. The spliced steel beam according to claim 1, wherein a plurality of first limit grooves (42) are formed in the first positioning through holes (41) and the first insertion holes (3), a plurality of first limit strips (52) are fixedly connected to the first T-shaped inserting columns (5), and the first limit strips (52) are spliced with the first limit grooves (42).

3. The spliced steel beam according to claim 1, wherein the second positioning through holes and the second jacks are provided with a plurality of second limiting grooves, a plurality of second limiting strips are fixedly connected to the second T-shaped inserting columns (12), and the second limiting strips are spliced with the second limiting grooves.

4. A spliced steel beam according to claim 3, wherein the second locking assembly has the same structure as the first locking assembly, the first locking assembly comprises two telescopic rods (6), the telescopic rods (6) are fixedly connected with the steel beam body (1), springs (7) are fixedly connected to the steel beam body (1), the other ends of the springs (7) are fixedly connected with the telescopic rods (6), clamping blocks (61) are fixedly connected to the telescopic rods (6), first clamping grooves (51) are formed in the first T-shaped inserting columns (5), and the clamping blocks (61) are spliced with the first clamping grooves (51).

5. A spliced girder steel according to claim 4, wherein the side of the clamping block (61) close to the first T-shaped insert column (5) is in a slope structure.

6. A spliced girder steel according to claim 4, wherein a pulling block (62) is fixedly connected to the telescopic rod (6).