CN221567670U - Structure tube sheet convenient to installation - Google Patents

Abstract

The utility model relates to the technical field of building boards, and discloses a structural pipe board convenient to install, which comprises two end welding plates and a plurality of connecting pipes, wherein the two end welding plates are respectively welded and fixed with the two ends of the plurality of connecting pipes, the end parts of the connecting pipes are provided with connecting pieces, the outer walls of the connecting pieces are attached to the inner walls of the connecting pipes, and the middle parts of the connecting pieces are provided with threaded holes; the end welding plate is integrally formed with a first outer side flanging corresponding to the end part of the connecting pipe, the inner side of the first outer side flanging is provided with a first butt joint hole, and the first butt joint hole is attached to the outer wall of the connecting pipe; the structural pipe board convenient to install solves the problems that the existing hollow board cannot be used as a floor slab and a wallboard at the same time, cannot be installed at a plurality of positions and angles, has a single use scene, and is difficult to meet the installation and use requirements of different construction sites.

Description

Structure tube sheet convenient to installation

Technical Field

The utility model relates to the technical field of building boards, in particular to a structural pipe board convenient to install.

Background

The existing hollow pipe plate, such as the hollow plate for plate construction, with the patent name of CN208251444U, is characterized in that the upper layer convex blocks and the embedded grooves between the adjacent hollow plates are matched, so that the concave and convex parts of the two groups of hollow plates are in fit connection and are spliced together, and then the hollow plates are fixed in a concrete pouring mode, so that the structural strength of a building is enhanced. In the concrete construction process, because the design of the connecting structure has certain limitation, the connecting structure cannot be used as a floor slab and a wallboard at the same time, and cannot be installed at a plurality of positions and angles, so that the connecting structure is single in use scene and is difficult to meet the installation and use requirements of different construction sites.

Disclosure of utility model

The present utility model is directed to a structural tube panel that facilitates installation and solves at least one of the above-identified problems of the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a structural pipe panel convenient to installation, includes two tip welded plates and a plurality of connecting pipe, two tip welded plates respectively with the both ends welded fastening of a plurality of connecting pipe, the tip of connecting pipe is equipped with the connecting piece, the outer wall of connecting piece is laminated with the inner wall of connecting pipe, the middle part of connecting piece is equipped with the screw hole; the end welding plate is integrally formed with a first outer side flanging corresponding to the end part of the connecting pipe, the inner side of the first outer side flanging is provided with a first butt joint hole, the first butt joint hole is attached to the outer wall of the connecting pipe, and the first outer side flanging is welded and fixed with the connecting pipe and the outer wall of the connecting piece is welded and fixed with the connecting pipe.

In this technical scheme, connecting pipe and tip welded plate fixed welding, connecting piece and the screw hole setting of connecting pipe tip can conveniently be through the cooperation of bolt and screw hole, realize with the quick stable installation of other supplementary mounting structure, because both ends of connecting pipe all have the connecting piece, then under the panel was in the horizontality, can conveniently carry out stable connection with supplementary mounting structure of below and supplementary mounting structure in top, when two panels were in vertical state and horizontality respectively, can conveniently carry out stable connection through the panel of right angle connecting plate to horizontality and the panel of vertical state. Because the outer wall of connecting piece and the inner wall laminating of connecting pipe, the connecting piece can be realized sealing the connecting pipe port, can provide stable internal support for the connecting pipe from the inboard of connecting pipe, is equipped with the screw hole on the connecting piece, and the connecting piece has certain thickness, and the outer wall of connecting piece also can increase the welding area of connecting piece and connecting pipe inner wall with the inner wall laminating of connecting pipe, and then promotes the steadiness of being connected between connecting piece and the connecting pipe. In addition, the outside that first outside turn-ups can follow the connecting pipe provides stable external support, and because the inboard of first outside turn-ups is first butt joint hole, the outer wall laminating of first butt joint hole and connecting pipe, that is, first outside turn-ups have the height that surpasses the welded plate thickness, can increase the welding area of first outside turn-ups and connecting pipe outer wall, and then promote the steadiness of being connected between first outside turn-ups and the connecting pipe. In addition, the design of the first outer side flanging is equivalent to adding a reinforcing structure on the end welding plate, so that the structural strength of the end welding plate can be enhanced.

To sum up, panel in this technical scheme can select as floor or wallboard use as required, can realize the installation of a plurality of positions and angles, can satisfy different job site installation user demands, and can guarantee connection stability and structural strength between connecting pipe and the tip welded plate.

Further, the welding device also comprises a plurality of structural pipes and an inner side welding piece, wherein the inner side welding piece comprises a supporting plate and an inner side flanging, the inner side flanging is integrally formed on the periphery of the supporting plate, and the outer wall of the inner side flanging is attached to the inner wall of the structural pipe; the end welding plate is integrally formed with a plurality of second outer side flanges corresponding to the structural pipes, the inner sides of the second outer side flanges are second butt joint holes, the second butt joint holes are attached to the outer walls of the structural pipes, and the second outer side flanges are welded and fixed with the structural pipes and the inner side flanges are welded and fixed with the structural pipes.

Because inboard welding spare includes backup pad and inboard turn-ups, inboard welding spare can be realized sealing the connecting pipe port, can provide stable inside support for the structural tube from the inboard of structural tube, and because inboard turn-ups integrated into one piece is in the periphery of backup pad, the outer wall of inboard turn-ups is laminated with the inner wall of structural tube, that is, inboard turn-ups have an extension length, can increase the welding area of inboard turn-ups and structural tube inner wall, and then promotes the steadiness of being connected between inboard welding spare and the structural tube. Because integrated into one piece has the second outside turn-ups on the tip welded plate, the second outside turn-ups can provide stable outside support for the structural tube from the outside of structural tube, and because the inboard of second outside turn-ups is the second butt joint hole, the outer wall laminating of second butt joint hole and structural tube, that is, the second outside turn-ups has the height that surpasses the welded plate thickness, can increase the welding area of second outside turn-ups and structural tube outer wall, and then promotes the steadiness of being connected between second outside turn-ups and the structural tube. In addition, the design of the second outside turn-ups and the inside turn-ups is equivalent to adding a reinforcing structure on the plate surface, and can strengthen the structural strength of the end welding plate and the inside welding piece.

To sum up, this technical scheme is equipped with inboard turn-ups and sets up the second outside turn-ups on the tip welded plate on through inboard welding, can follow the inside and outside of structure pipe and increase the welding area simultaneously, and then guarantees the welding strength between structure pipe and the tip welded plate, promotes the structural stability of panel.

Further, in order to meet the requirements of more flexible connection positions, a plurality of crossed rows are arranged between the two end welding plates, and the structural pipes and the connecting pipes in the crossed rows are arranged at intervals in a crossed mode.

Furthermore, in order to conveniently realize the installation of the upper end, the lower end, the left end and the right end of the plate and the auxiliary connecting structure, and simultaneously in order to ensure the sealing effect of the inside of the plate, the stability of the plate structure is improved, the two ends of the connecting pipe are communicated, and the two ends of the connecting pipe are respectively provided with a connecting piece; the peripheries of the two end welding plates are fixedly connected with side plates.

Furthermore, in order to enable the inner side and the outer side of the end part of the structural pipe to have the same supporting effect, the balance and the stability of the inner side and the outer side of the structural pipe are improved, and the positions of the end welding plate and the inner side welding piece are matched.

Further, for the convenience carries out laser welding fixing from the outside of welded plate simultaneously, promotes welding efficiency, inboard turn-ups, first outside turn-ups and second outside turn-ups all extend towards the outside of tip welded plate.

Further, in order to meet the requirement of higher structural strength of the structural pipe plate, a middle welding plate is arranged between the two end welding plates, and inner side welding pieces corresponding to the butt joint holes in the middle welding plates are arranged in the connecting pipe and the structural pipe.

Further, in order to simplify the structure pipe and connecting pipe shaping structure, make things convenient for simultaneously the installation of structure pipe, connecting pipe and tip welded plate and inboard welding spare, structure pipe and connecting pipe are cylindric pipe, inboard welding spare, connecting piece, first butt joint hole and second butt joint hole are the circular structure with cylindric pipe appearance matching.

Further, in order to better realize the welding at both ends of the structural pipe and reduce welding deformation as much as possible, the end faces of the first outer side flanging, the connecting piece and the end parts of the connecting pipe, which are flush, are first welding surfaces, the second outer side flanging and the inner side flanging are end flanging, the end faces of the end parts of the end flanging and the structural pipe, which are flush, are second welding surfaces, and the first welding surfaces and the second welding surfaces are all fixed by laser welding.

Adopt the laser welding mode, combine outside turn-ups and inboard turn-ups's design, the laser welding process is the melting between the parent metal, need not to add the solder, consequently, for traditional welding, adopt the welding strength of this technical scheme higher.

Furthermore, in order to carry out adaptive selective installation according to a construction site through a specific auxiliary installation structure, the device further comprises a right-angle connecting plate, locking bolts and profile steel, wherein a plurality of first through holes are respectively formed in two end plates of the right-angle connecting plate, and the locking bolts penetrate through the corresponding first through holes and then are in threaded fit with the corresponding threaded holes; and a plurality of second through holes are respectively formed in the end plates of the profile steel, and the locking bolts penetrate through the corresponding second through holes and are in threaded fit with the corresponding threaded holes.

The beneficial effects of the utility model are as follows: in this technical scheme, connecting pipe and tip welded plate fixed welding, connecting piece and the screw hole setting of connecting pipe tip can conveniently be through the cooperation of bolt and screw hole, realize with the quick stable installation of other supplementary mounting structure, because both ends of connecting pipe all have the connecting piece, then under the panel was in the horizontality, can conveniently carry out stable connection with supplementary mounting structure of below and supplementary mounting structure in top, when two panels were in vertical state and horizontality respectively, can conveniently carry out stable connection through the panel of right angle connecting plate to horizontality and the panel of vertical state. Because the outer wall of connecting piece and the inner wall laminating of connecting pipe, the connecting piece can be realized sealing the connecting pipe port, can provide stable internal support for the connecting pipe from the inboard of connecting pipe, is equipped with the screw hole on the connecting piece, and the connecting piece has certain thickness, and the outer wall of connecting piece also can increase the welding area of connecting piece and connecting pipe inner wall with the inner wall laminating of connecting pipe, and then promotes the steadiness of being connected between connecting piece and the connecting pipe. In addition, the outside that first outside turn-ups can follow the connecting pipe provides stable external support, and because the inboard of first outside turn-ups is first butt joint hole, the outer wall laminating of first butt joint hole and connecting pipe, that is, first outside turn-ups have the height that surpasses the welded plate thickness, can increase the welding area of first outside turn-ups and connecting pipe outer wall, and then promote the steadiness of being connected between first outside turn-ups and the connecting pipe. In addition, the design of the first outer side flanging is equivalent to adding a reinforcing structure on the end welding plate, so that the structural strength of the end welding plate can be enhanced.

To sum up, panel in this technical scheme can select as floor or wallboard use as required, can realize the installation of a plurality of positions and angles, can satisfy different job site installation user demands, and can guarantee connection stability and structural strength between connecting pipe and the tip welded plate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a schematic cross-sectional view of the structure at A-A in FIG. 3;

FIG. 5 is a partial enlarged view at B in FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at C;

FIG. 7 is a schematic view of an end weld plate according to the present utility model;

FIG. 8 is a partial enlarged view at D in FIG. 7;

FIG. 9 is a schematic view of the structure of an installation state of the present utility model;

FIG. 10 is a schematic view of the structure from another perspective in an installed state of the present utility model;

Fig. 11 is a schematic structural diagram of another embodiment of the present utility model.

In the figure: an end welding plate 1; a connecting pipe 2; a connecting member 3; a threaded hole 4; a first outer cuff 5; a first docking aperture 6; an inner side welding member 7; a support plate 7.1; the inner side is turned up 7.2; a second outer rim 8; a middle welding plate 9; a first welding surface 10; a second welding surface 11; a right angle connection plate 12; a locking bolt 13; section steel 14; a first through hole 15; a second through hole 16; a structural tube 17; a side plate 18; a second docking aperture 19.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Example 1:

As shown in fig. 1-11, the present embodiment provides a structural pipe board convenient for installation, which includes two end welding plates 1 and a plurality of connecting pipes 2, wherein the two end welding plates 1 are respectively welded and fixed with two ends of the plurality of connecting pipes 2, the end parts of the connecting pipes 2 are provided with connecting pieces 3, specifically, the connecting pieces 3 are columnar, as shown in fig. 5, the outer walls of the connecting pieces 3 are attached to the inner walls of the connecting pipes 2, and the middle parts of the connecting pieces 3 are provided with threaded holes 4; the end welding plate 1 is integrally formed with a first outer side flanging 5 corresponding to the end part of the connecting pipe 2, as shown in fig. 8, the inner side of the first outer side flanging 5 is provided with a first butt joint hole 6, as shown in fig. 5, the first butt joint hole 6 is attached to the outer wall of the connecting pipe 2, and the first outer side flanging 5 is welded and fixed with the connecting pipe 2 and the outer wall of the connecting piece 3 is welded and fixed with the connecting pipe 2.

In this technical scheme, connecting pipe 2 and the fixed welding of tip welded plate 1, connecting piece 3 and the screw hole 4 setting of connecting pipe 2 tip can conveniently be through the cooperation of bolt and screw hole 4, realize with the quick stable installation of other supplementary mounting structures, because connecting pipe 2's both ends all have connecting piece 3, then be in under the horizontality when panel, can conveniently carry out stable connection with supplementary mounting structure of below and the supplementary mounting structure of top, when two panels are in vertical state and horizontality respectively, can conveniently carry out stable connection through the panel of right angle connecting plate 12 to horizontality and the panel of vertical state. Because the outer wall of connecting piece 3 and the inner wall laminating of connecting pipe 2, connecting piece 3 can realize the closure to connecting pipe 2 port, can provide stable internal support for connecting pipe 2 from the inboard of connecting pipe 2, is equipped with screw hole 4 on the connecting piece 3, and connecting piece 3 has certain thickness, and the outer wall of connecting piece 3 also can increase the welding area of connecting piece 3 and connecting pipe 2 inner wall with the inner wall laminating of connecting pipe 2, and then promotes the steadiness of being connected between connecting piece 3 and the connecting pipe 2. In addition, the first outside turn-ups 5 can provide stable external support for the connecting pipe 2 from the outside of the connecting pipe 2, and because the inboard of the first outside turn-ups 5 is first butt joint hole 6, first butt joint hole 6 is laminated with the outer wall of the connecting pipe 2, that is, the first outside turn-ups 5 have the height that surpasses the welded plate thickness, can increase the welding area of first outside turn-ups 5 and connecting pipe 2 outer wall, and then promote the steadiness of being connected between first outside turn-ups 5 and the connecting pipe 2. The first outer flange 5 is designed to increase the structural strength of the end welding plate 1 by adding a reinforcing structure to the end welding plate 1.

To sum up, panel in this technical scheme can select as floor or wallboard use as required, can realize the installation of a plurality of positions and angles, can satisfy different job site installation user demands, and can guarantee connection stability and structural strength between connecting pipe 2 and the tip welded plate 1.

Example 2:

This example was optimized based on example 1 above.

As shown in fig. 6, the inner welding device further comprises a plurality of structural pipes 17 and an inner welding piece 7, wherein the inner welding piece 7 comprises a supporting plate 7.1 and an inner flanging 7.2, the inner flanging 7.2 is integrally formed on the periphery of the supporting plate 7.1, and the outer wall of the inner flanging 7.2 is attached to the inner wall of the structural pipe 17; the end welding plate 1 is integrally formed with a plurality of second outer flanges 8 corresponding to the structural pipe 17, the inner side of each second outer flange 8 is provided with a second butt joint hole 19, the second butt joint holes 19 are attached to the outer wall of the structural pipe 17, and the second outer flanges 8 and the structural pipe 17 and the inner flanges 7.2 and the structural pipe 17 are welded and fixed.

Because inboard welding 7 includes backup pad 7.1 and inboard turn-ups 7.2, inboard welding 7 can realize the closure to structure pipe 17 port, can provide stable inside support for structure pipe 17 from the inboard of structure pipe 17, and because inboard turn-ups 7.2 integrated into one piece is in the periphery of backup pad 7.1, the outer wall laminating of inboard turn-ups 7.2 and the inner wall of structure pipe 17, that is, inboard turn-ups 7.2 have an extension length, can increase the welding area of inboard turn-ups 7.2 and structure pipe 17 inner wall, and then promote the steadiness of being connected between inboard welding 7 and the structure pipe 17. Because there is second outside turn-ups 8 integrated into one piece on the tip welded plate 1, second outside turn-ups 8 can provide stable outside support for structural pipe 17 from the outside of structural pipe 17, and because the inboard of second outside turn-ups 8 is second butt joint hole 19, the laminating of the outer wall of second butt joint hole 19 and structural pipe 17, that is, second outside turn-ups 8 have the height that surpasses the welded plate thickness, can increase the welding area of second outside turn-ups 8 and structural pipe 17 outer wall, and then promote the steadiness of being connected between second outside turn-ups 8 and the structural pipe 17. In addition, the design of the second outer flange 8 and the inner flange 7.2 corresponds to the addition of a reinforcing structure on the plate surface, so that the structural strength of the end welding plate 1 and the inner welding piece 7 can be enhanced.

To sum up, this technical scheme is equipped with inboard turn-ups 7.2 and sets up second outside turn-ups 8 on the tip welded plate 1 through inboard welding piece 7, can increase the welding area simultaneously from the inside and outside of structure pipe 17, and then guarantees the welding strength between structure pipe 17 and the tip welded plate 1, promotes the structural stability of panel.

Example 3:

this example was optimized based on example 2 above.

In order to meet the requirements of more flexible connection positions, a plurality of crossed rows are arranged between the two end welding plates 1, and the structural pipes 17 and the connecting pipes 2 positioned in the crossed rows are arranged at intervals in a crossed mode.

Example 4:

This example was optimized based on example 1 above.

In order to conveniently realize the installation of the upper end, the lower end, the left end and the right end of the plate and the auxiliary connecting structure, and simultaneously in order to ensure the sealing effect of the inside of the plate, the structural stability of the plate is improved, the two ends of the connecting pipe 2 are communicated, and the two ends of the connecting pipe 2 are provided with connecting pieces 3; the periphery of the two end welding plates 1 is fixedly connected with a side plate 18.

Example 5:

This example was optimized based on example 1 above.

In order to make the inner side and the outer side of the end part of the structural pipe 17 have the same supporting effect, the balance and the stability of the inner side and the outer side of the structural pipe 17 are improved, and the positions of the end welding plate 1 and the inner side welding piece 7 are matched.

Example 6:

this example was optimized based on example 2 above.

For the convenience carries out laser welding fixing from the outside of welded plate simultaneously, promotes welding efficiency, and inboard turn-ups 7.2, first outside turn-ups 5 and the outside turn-ups 8 of second all extend towards the outside of tip welded plate 1. The end of the structural pipe 17 is located between the inner flanging 7.2 and the second outer flanging 8, and the welding of the connecting position of the structural pipe 17 and the welding plate can be realized by adopting a traditional welding mode from the outer side of the end welding plate 1, so that the welding cost is reduced.

Example 7:

This example was optimized based on example 1 above.

In order to meet the requirement of higher structural strength of the structural pipe 17, a middle welding plate 9 is arranged between the two end welding plates 1, and inner side welding pieces 7 corresponding to the butt joint holes on the middle welding plate 9 are arranged in the connecting pipe 2 and the structural pipe 17.

Example 8:

this example was optimized based on example 2 above.

In order to simplify the forming structure of the structural pipe 17 and the connecting pipe 2, and simultaneously facilitate the installation of the structural pipe 17, the connecting pipe 2, the end welding plate 1 and the inner welding piece 7, the structural pipe 17 and the connecting pipe 2 are cylindrical pipes, and the inner welding piece 7, the connecting piece 3, the first butt joint hole 5 and the second butt joint hole 19 are circular structures matched with the shapes of the cylindrical pipes.

Example 9:

This example was optimized based on example 5 above.

In order to better realize welding of two ends of the structural pipe 17 and reduce welding deformation as much as possible, the end faces of the first outer side flanges 5, the connecting piece 3 and the end parallel and level of the connecting pipe 2 are the first welding faces 10, the second outer side flanges 8 and the inner side flanges 7.2 are end flanges, the end faces of the end flanges and the end parallel and level of the structural pipe 17 are the second welding faces 11, and the first welding faces 10 and the second welding faces 11 are all fixed by laser welding.

The first welding surface 10 and the second welding surface 11 are far away from the end welding plate 1 and the supporting plate 7.1 and are also positioned at the outermost end of the structural pipe 17, so that the flange guides the welding surfaces to the end far away from the end welding plate 1, the supporting plate 7.1 and the structural pipe 17, the welding temperature does not influence the plate surface of the end welding plate 1 and the structural pipe 17, and the deformation can be controlled at the flange part, so that the welding deformation is reduced. The first welding surface 10 and the second welding surface 11 are fixed by laser welding, and the first outer side flanging 5, the second outer side flanging 8 and the inner side flanging 7.2 are combined, so that the laser welding process is melting among base materials, and welding flux is not required to be added, and compared with the traditional welding, the welding strength is higher by adopting the technical scheme.

Example 10:

This example was optimized based on example 1 above.

In order to carry out adaptive selective installation according to a construction site through a specific auxiliary installation structure, the device further comprises a right-angle connecting plate 12, a locking bolt 13 and profile steel 14, wherein a plurality of first through holes 15 are respectively formed in two end plates of the right-angle connecting plate 12, and the locking bolt 13 is in threaded fit with the corresponding threaded hole 4 after passing through the corresponding first through holes 15; the end plates of the section steel 14 are respectively provided with a plurality of second through holes 16, the locking bolts 13 penetrate through the corresponding second through holes 16 and then are in threaded fit with the corresponding threaded holes 4, and the section steel is H-shaped steel.

It should be noted that, in order to make the inner flange 7.2 and the outer flange both able to be attached to the structural pipe 17 more stably, the welding effect between the three is ensured, the inner flange 7.2 and the support plate 7.1 are perpendicular to each other, and the outer flanges (the first outer flange 5 and the second outer flange 8) are perpendicular to the end welding plate 1. Specifically, the inner flange 7.2 is integrally formed on the periphery of the supporting plate 7.1 in a bending manner, and the outer flange is integrally formed on the end welding plate in a bending manner.

In order to make the inner and outer parts of the structural pipe 17 have the same supporting effect, the balance and stability of the inner and outer side supporting of the structural pipe 17 are improved, and the heights of the outer side flanging and the inner side flanging 7.2 are consistent. In order to improve the structural strength of the welded plate, the thickness of the end welded plate 1 is greater than the thickness of the structural pipe 17 and the connection pipe 2.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The utility model provides a structure pipe panel convenient to installation which characterized in that: the connecting device comprises two end welding plates and a plurality of connecting pipes, wherein the two end welding plates are respectively welded and fixed with the two ends of the plurality of connecting pipes, the end parts of the connecting pipes are provided with connecting pieces, the outer walls of the connecting pieces are attached to the inner walls of the connecting pipes, and the middle parts of the connecting pieces are provided with threaded holes; the end welding plate is integrally formed with a first outer side flanging corresponding to the end part of the connecting pipe, the inner side of the first outer side flanging is provided with a first butt joint hole, the first butt joint hole is attached to the outer wall of the connecting pipe, and the first outer side flanging is welded and fixed with the connecting pipe and the outer wall of the connecting piece is welded and fixed with the connecting pipe.

2. A structural tube panel for facilitating installation as defined in claim 1, wherein: the inner side welding parts comprise a supporting plate and an inner side flanging, the inner side flanging is integrally formed on the periphery of the supporting plate, and the outer wall of the inner side flanging is attached to the inner wall of the structural pipe; the end welding plate is integrally formed with a plurality of second outer side flanges corresponding to the structural pipes, the inner sides of the second outer side flanges are second butt joint holes, the second butt joint holes are attached to the outer walls of the structural pipes, and the second outer side flanges are welded and fixed with the structural pipes and the inner side flanges are welded and fixed with the structural pipes.

3. A structural tube panel for facilitating installation as defined in claim 2, wherein: a plurality of crossed rows are arranged between the two end welding plates, and the structural pipes and the connecting pipes which are positioned in the crossed rows are arranged at intervals in a crossed mode.

4. A structural tube panel for facilitating installation as defined in claim 1, wherein: the two ends of the connecting pipe are communicated, and connecting pieces are arranged at the two ends of the connecting pipe; the peripheries of the two end welding plates are fixedly connected with side plates.

5. A structural tube panel for facilitating installation as defined in claim 1, wherein: the end weld plate and the inner weld are positioned to accommodate.

6. A structural tube panel for facilitating installation as defined in claim 2, wherein: the inner side flange, the first outer side flange and the second outer side flange all extend towards the outer side of the end welding plate.

7. A structural tube panel for facilitating installation as defined in claim 1, wherein: and a middle welding plate is arranged between the two end welding plates, and inner side welding pieces corresponding to the butt joint holes on the middle welding plates are arranged in the connecting pipe and the structural pipe.

8. A structural tube panel for facilitating installation as defined in claim 2, wherein: the structure pipe and the connecting pipe are cylindrical pipes, and the inner side welding piece, the connecting piece, the first butt joint hole and the second butt joint hole are circular structures matched with the shapes of the cylindrical pipes.

9. A structural tube panel for facilitating installation as defined in claim 2, wherein: the end faces of the first outer side flanging, the connecting piece and the end part flush of the connecting pipe are first welding surfaces, the second outer side flanging and the inner side flanging are end part flanging, the end faces of the end part flanging and the end part flush of the structural pipe are second welding surfaces, and the first welding surfaces and the second welding surfaces are fixed by laser welding.

10. A structural tube panel for facilitating installation as defined in claim 1, wherein: the device also comprises a right-angle connecting plate, a locking bolt and profile steel, wherein a plurality of first through holes are respectively arranged on two end plates of the right-angle connecting plate, the locking bolts penetrate through the corresponding first through holes and then are in threaded fit with the corresponding threaded holes; and a plurality of second through holes are respectively formed in the end plates of the profile steel, and the locking bolts penetrate through the corresponding second through holes and are in threaded fit with the corresponding threaded holes.