CN217557815U - Steel pipe props integrated configuration - Google Patents

Abstract

The utility model relates to a steel pipe props integrated configuration belongs to the technical field of construction, and it includes bearing steel pipe and connection stay pipe, the connection stay pipe is located between the bearing steel pipe, bearing steel pipe with the connection stay pipe combination constitutes lattice structure, lattice structure layering arranges, every layer be provided with flange joint spare between the bearing steel pipe, between flange joint spare and the adjacent layer the bearing steel pipe can be dismantled the connection, be used for with the bearing steel pipe is connected for a whole, flange joint spare with this layer connect and prop a tub fixed connection, this application has the recycle that simplifies the steel pipe and props to the effect of the steel performance of guarantee steel pipe support.

Description

Steel pipe props integrated configuration

Technical Field

The application relates to the technical field of building construction, in particular to a steel pipe support combined structure.

Background

When carrying out steel construction, generally need to set up a large amount of steel pipe props as interim load-carrying members for cooperation follow-up construction.

The steel pipe support for bearing is usually welded and erected on a steel pipe in a construction site, and after the steel pipe support is applied to a project after being manufactured, if the bearing steel pipe which plays a supporting role in the steel pipe support in the project is recycled and applied to other projects, the bearing steel pipe needs to be subjected to dismounting operations such as cutting and the like.

However, the steel performance of the bearing steel pipe is adversely affected by multiple times of cutting, and the recycling of the bearing steel pipe takes time and labor because the dismounting process is tedious.

SUMMERY OF THE UTILITY MODEL

In order to simplify the recycle of bearing steel pipe to the steel performance of guarantee bearing steel pipe, this application provides a steel pipe props integrated configuration.

The application provides a steel pipe props integrated configuration adopts following technical scheme:

the utility model provides a steel pipe props integrated configuration, includes bearing steel pipe and connects the stay tube, connects the stay tube and is located between the bearing steel pipe, and bearing steel pipe and connection stay tube combination constitute lattice structure, and lattice structure layer by layer arranges, is provided with flange joint spare between every layer of bearing steel pipe, and flange joint spare can be dismantled with the bearing steel pipe between the adjacent layer and be connected for connect bearing steel pipe for a whole, flange joint spare with this layer be connected stay tube fixed connection.

By adopting the technical scheme, the bearing steel pipes and the connecting steel pipes are combined into the multi-layer lattice type bearing structure, the flange connecting pieces are detachably connected with the bearing steel pipes between the adjacent layers, when the support strength is guaranteed, when the bearing steel pipes need to be recycled, only the connecting support pipes need to be cut off, and then the connection between the bearing steel pipes and the flange connecting pieces is broken, so that the recycling of the bearing steel pipes is simplified, and the steel performance of the bearing steel pipes is guaranteed.

Optionally, the flange connecting piece is provided with a connecting bolt, and the connecting bolt penetrates through the flange connecting piece and then is in threaded connection with the bearing steel pipe.

Optionally, the connection bracing tube comprises a horizontal bracing tube and an inclined bracing tube, the horizontal steel tube is used for connecting the flange connecting piece in the layer, and the inclined bracing tube is obliquely arranged between the horizontal bracing tubes of adjacent layers.

Through adopting above-mentioned technical scheme, the connection stability between the bearing steel pipe has been strengthened to the setting of horizontal stay tube and bracing tube to one side, with load dispersion transmission simultaneously, has strengthened the support effect of bearing steel pipe.

Optionally, the flange joint spare is fitted with a contraceptive ring and is overlapped and be fixed with the connecting plate, and the spread groove is all seted up at horizontal stay pipe both ends, and the connecting plate inserts and inlays in the spread groove, and horizontal stay pipe and connecting plate welding.

Through adopting above-mentioned technical scheme, the setting of connecting plate and spread groove for horizontal stay pipe changes in the installation location on the flange joint spare.

Optionally, the inserting caulking grooves are formed in two ends of the horizontal supporting pipe, one end of the inclined supporting pipe is inserted into the inserting caulking grooves and then welded with the connecting plate and the horizontal supporting pipe, and the other end of the inclined supporting pipe is welded with the horizontal supporting pipe on the upper layer.

Through adopting above-mentioned technical scheme, the setting of inserting the caulking groove for the bracing pipe can weld simultaneously with connecting plate and horizontal bracing pipe, has strengthened the connection stability of bracing pipe.

Optionally, a plate frame is installed in the circumferential direction of the connecting plate, a guide frame is fixed on the plate frame, and the lower end of the inclined supporting pipe penetrates through the guide frame and then is connected with the connecting plate.

Through adopting above-mentioned technical scheme, the setting of sheet frame and guide frame for the bracing tube makes in order the location in the installation, and simultaneously after the bracing tube installation finishes, reducible horizontal load is to the influence of bracing tube.

Optionally, the connecting bolt is a galvanized bolt.

Optionally, the bearing steel pipe is a stainless steel pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the bearing steel pipes and the connecting steel pipes are combined into a multi-layer lattice type bearing structure, the flange connecting pieces are detachably connected with the bearing steel pipes between adjacent layers, when the bearing steel pipes need to be recycled, only the connecting support pipes need to be cut off, and then the connection between the bearing steel pipes and the flange connecting pieces is disconnected, so that the recycling of the bearing steel pipes is simplified, and meanwhile, the steel performance of the bearing steel pipes is guaranteed because the bearing steel pipes do not need to be cut;

2. the arrangement of the horizontal supporting pipe and the inclined supporting pipe strengthens the connection stability between the bearing steel pipes, and simultaneously disperses and transmits the load, thereby enhancing the supporting effect of the bearing steel pipes;

3. due to the arrangement of the connecting plates and the connecting grooves, the horizontal supporting pipes can be installed and positioned on the flange connecting piece more easily.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a flange connection shown in relief;

FIG. 3 is a schematic view for highlighting the horizontal stay tube.

In the figure, 1, a bearing steel pipe; 2. connecting the stay tube; 21. horizontally bracing the pipe; 211. connecting grooves; 212. inserting the caulking groove; 22. a diagonal bracing tube; 3. a flange connection; 31. a connecting plate; 4. a connecting bolt; 5. a plate frame; 51. and a guide frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses steel pipe props integrated configuration.

Referring to fig. 1, a steel pipe support composite structure includes a bearing steel pipe 1, a connecting support pipe 2 and a flange connecting member 3, the bearing steel pipe 1 and the connecting support pipe 2 are combined to form a lattice structure, and the lattice structure is divided into a plurality of layers along a vertical direction. The bearing steel pipes 1 between adjacent layers are detachably connected with the flange connecting pieces 3 to form an integral structure, and the connecting support pipes 2 are fixedly connected with the flange connecting pieces 3 between each layer.

Referring to fig. 1 and 2, in the present embodiment, the flange connector 3 is a connection structure with two open ends along the vertical direction, and the two load-bearing steel pipes 1 are respectively inserted into and embedded into the two open ends of the flange connector 3. Each flange connecting piece 3 is provided with 2 rows of connecting bolts 4 after galvanization treatment, each row of connecting bolts 4 corresponds to the end part of 1 bearing steel pipe inserted into the flange connecting piece 3, and after penetrating through the flange connecting piece 3, the connecting bolts 4 are in threaded connection with the end part of the corresponding bearing steel pipe 1.

Referring to fig. 1 and 2, a connecting plate 31 is fixed to the middle of each flange connector 3 in a looped manner, and the circumferential connecting line of the connecting plate 31 along the horizontal section is quadrilateral. All be provided with 4 sheet frames 5 on every connecting plate 31, sheet frame 5 all sets up along vertical direction, and sheet frame 5 all is located connecting plate 31 and keeps away from on the lateral wall on ground, and sheet frame 5 sets up along the lateral wall circumference array that locates, and sets up along the 31 sideline length trend of connecting plate that are close to. Each plate frame 5 is fixed with a guide frame 51, the guide frame 51 is an annular frame body, the guide frame 51 and the plate frame 5 are positioned on the same horizontal plane, the outer wall of the guide frame 51 is fixedly connected with the horizontal inner wall of the plate frame 5, and the circle center connecting lines of the opposite guide frames 51 are combined into an orthogonal cross.

Referring to fig. 1 and 3, the connection stay tube 2 includes a horizontal stay tube 21 and an inclined stay tube 22, 1 horizontal stay tube 21 is provided in the same horizontal plane in each layer of structure, connection grooves 211 are provided at both ends of the horizontal stay tube 21, and the connection grooves 211 are provided by the end surface of the horizontal stay tube 21 pointing to the center of the horizontal stay tube 21. The connecting grooves 211 at the two ends of the horizontal supporting tube 21 are respectively embedded on the side walls of the connecting plates 31 which are adjacent to each other on the same layer and close to each other, and the horizontal supporting tube 21 is welded with the connecting plates 31 after the embedding.

Referring to fig. 1 and 3, 2 inclined supporting tubes 22 are arranged in the same horizontal plane in each layer of structure, and one end of each inclined supporting tube 22 passes through the guide frame 51 on one side in the same horizontal plane and is welded with the side wall of the adjacent connecting plate 31. The other ends of the inclined supporting pipes 22 are inclined upwards and welded with the middle part of the upper layer horizontal supporting pipe 21. The two ends of each horizontal supporting tube 21 are provided with inserting caulking grooves 212, the inserting caulking grooves 212 and the adjacent connecting grooves 211 are arranged in the same direction, and are positioned above the end parts of the horizontal supporting tubes 21 and communicated with the connecting grooves 211. When the connecting groove 211 of the horizontal supporting tube 21 is inserted into the connecting plate 31, the inclined supporting tube 22 is inserted into the inserting groove 212, and the inclined supporting tube 22 is welded to the horizontal supporting tube 21.

The implementation principle of the steel pipe support composite structure in the embodiment of the application is as follows: this structure is multilayer lattice formula load-carrying members, and flange joint spare 3 passes through connecting bolt 4 threaded connection with bearing steel pipe 1 between the adjacent layer, connects 3 fixed connection of bracing pipe 2 and every interlaminar flange joint spare, when needing to retrieve and utilize bearing steel pipe 1, only need to amputate each and connect bracing pipe 2, and the back of being connected of disconnection bearing steel pipe 1 and flange joint spare 3 again, can to retrieve bearing steel pipe 1.

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

Claims (8)

1. The utility model provides a steel pipe props integrated configuration which characterized in that: including bearing steel pipe (1) and connection stay pipe (2), connection stay pipe (2) are located between bearing steel pipe (1), bearing steel pipe (1) with connection stay pipe (2) combination constitutes lattice structure, lattice structure layering arranges, every layer be provided with flange joint spare (3) between bearing steel pipe (1), between flange joint spare (3) and the adjacent layer bearing steel pipe (1) can be dismantled the connection, be used for with bearing steel pipe (1) is connected as a whole, flange joint spare (3) with this layer connection stay pipe (2) fixed connection.

2. The steel pipe props integrated configuration of claim 1, characterized in that: the flange connecting piece (3) is provided with a connecting bolt (4), and the connecting bolt (4) penetrates through the flange connecting piece (3) and then is in threaded connection with the bearing steel pipe (1).

3. The steel pipe props integrated configuration of claim 1, characterized in that: connect stay tube (2) including horizontal stay tube (21) and bracing tube (22), the horizontal stay tube is used for connecting this intraformational flange joint spare (3), bracing tube (22) slope is installed in the adjacent layer between horizontal stay tube (21).

4. The steel pipe props integrated configuration of claim 3, characterized in that: the ring cover is fixed with connecting plate (31) on flange joint spare (3), spread groove (211) are all seted up at level prop pipe (21) both ends, connecting plate (31) insert inlay in spread groove (211) is interior, level prop pipe (21) with connecting plate (31) welding.

5. The steel pipe props integrated configuration of claim 4, characterized in that: inserting caulking grooves (212) are formed in two ends of the horizontal supporting tube (21), one end of the inclined supporting tube (22) is inserted into the inserting caulking grooves (212) and then welded with the connecting plate (31) and the horizontal supporting tube (21), and the other end of the inclined supporting tube (22) is welded with the horizontal supporting tube (21) on the upper layer.

6. The steel pipe props integrated configuration of claim 5, characterized in that: a plate frame (5) is circumferentially installed on the connecting plate (31), a guide frame (51) is fixed on the plate frame (5), and the lower end of the inclined supporting tube (22) penetrates through the guide frame (51) and then is connected with the connecting plate (31).

7. The steel pipe props integrated configuration of claim 2, characterized in that: the connecting bolt (4) is a galvanized bolt.

8. The steel pipe props integrated configuration of claim 1, characterized in that: the bearing steel pipe (1) is a stainless steel pipe.

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