CN213063214U - Recoverable UV prints scaffold frame and encloses fender - Google Patents

Abstract

The utility model provides a recoverable UV prints scaffold frame and encloses fender, include: the horizontal edge of the plate-shaped component is provided with a first connecting edge, and the first connecting edge is turned over to one side along the edge of the horizontal edge and extends to form a horizontal flanging; the vertical edge of the plate-shaped component is provided with a second connecting edge, and the edge of the second connecting edge along the vertical edge is turned over to one side and extends to form a vertical flanging; the plurality of plate-shaped components are spliced along the horizontal direction and/or the vertical direction, two horizontally adjacent plate-shaped components are connected through a second connecting edge, and two vertically adjacent plate-shaped components are connected through a first connecting edge; the connecting component comprises a horizontal component with a sleeve structure, one end of the horizontal component is detachably connected with the first connecting edge and/or the second connecting edge of the plate-shaped part, and the other end of the horizontal component is detachably connected with the scaffold steel pipe through the sleeve structure. The utility model discloses it is little to the additional load of scaffold, joint strength is high, and the construction is set up conveniently, and the aesthetic property is good, easily on-the-spot materials, but reuse.

Description

Recoverable UV prints scaffold frame and encloses fender

Technical Field

The utility model relates to a green construction field of building specifically relates to recoverable UV prints scaffold frame and encloses the fender.

Background

Along with the continuous construction and development of cities, the market scale of the construction industry is gradually enlarged, more and more construction projects are located in prosperous sections of the cities, and the method is particularly important for effectively reducing the influence of construction sites on the surrounding environment by combining the advocation of the nation on green construction and low-carbon economy. Therefore, the problems of dust emission, noise pollution, adaptability to surrounding environment and appearance, economical efficiency and the like of a construction site need to be solved, and the requirement of green construction is met.

The barrier is traditional green safe dense mesh net to scaffold frame commonly used at present, and the material is the plastics material, and the security is poor, and the sound insulation effect is poor, and materials such as steel pipe, connecting piece break through the plastics net altitude easily and fall, have the potential safety hazard, and the use needs constantly to be maintained, often can not reuse, and can not go into with the surrounding environment check.

Through search and discovery, Chinese patent with application number CN209457368U discloses a combined type external hanging sound insulation structure of a scaffold, and the main purpose is to reduce construction noise pollution, and the corrugated pore plate and the partition plate are connected through bolts to form an external hanging plate, the external hanging plate is directly connected through a U-shaped clamp, and the external hanging plate is connected with the scaffold through an H-shaped clamp. The externally hung plate is a double-layer laminated plate, the structure is complex, the weight is heavy, the externally added load of the scaffold is large, and the construction is inconvenient; secondly, the outer hanging plates and the scaffold are connected through clamping pieces, so that the connection reliability and strength are weak, and potential safety hazards exist particularly in strong wind and rainstorm weather; finally, the partition board is a smooth board without holes, and certain problems exist in field ventilation and lighting.

According to the search, the Chinese patent with the application number of CN110080545A discloses a construction method of a punched steel plate mesh of an external scaffold, square pipes are welded on the periphery of the punched steel plate mesh, then connecting rings are welded on the square pipes on the periphery, meanwhile, connecting fasteners with bolts are installed on cross bars of the scaffold, and finally the bolts are inserted into the connecting rings. The steel plate net adopted in the patent is heavy, so that the external load of the scaffold is large and the construction is inconvenient; secondly, the steel plate net and the square pipe and the connecting ring are directly welded, the steel plate net is connected with the scaffold through a bolt, the connecting structure is complex, the welding quality is unreliable, the strength is weak, and potential safety hazards exist particularly in strong wind and heavy rain weather.

The above two patents have the problems of heavy partition plate mass, weak connection form, and weak adaptability to the surrounding environment and the like.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a recoverable UV prints scaffold frame and encloses fender solves the above-mentioned difficult problem of prior art.

In order to achieve the above object, the utility model provides a recoverable UV prints scaffold frame and encloses fender, include:

the plate-shaped parts are of quadrilateral structures, the horizontal edges of the quadrilateral structures are provided with first connecting edges, the first connecting edges are turned over to one side along the edges of the horizontal edges and extend to form horizontal turned edges, and the horizontal turned edges are perpendicular to the planes of the quadrilateral structures; the vertical edge of the quadrilateral structure is provided with a second connecting edge, the edge of the second connecting edge along the vertical edge is turned towards one side and extends to form a vertical flanging, and the vertical flanging is perpendicular to the plane of the quadrilateral structure;

the plurality of plate-shaped components are spliced into a whole along the horizontal direction and/or the vertical direction, two horizontally adjacent plate-shaped components are connected through a second connecting edge, and two vertically adjacent plate-shaped components are connected through a first connecting edge;

the connecting component comprises a horizontal component, and the horizontal component is provided with a sleeve structure for sleeving the scaffold steel pipe; one end of the horizontal component can be detachably connected with the first connecting edge and/or the second connecting edge of the plate-shaped part, the axial direction of the sleeve structure is parallel to the first connecting edge and/or the second connecting edge, the other end of the horizontal component is detachably connected with the scaffold steel pipe through the sleeve structure, and the plate-shaped part is connected with the scaffold through the connecting component.

Preferably, the first connecting edge is provided with a first screw hole for passing a first bolt, and the first screw hole penetrates through the thickness direction of the first connecting edge; the second connecting edge is provided with a second screw hole used for passing through a second bolt, and the second screw hole penetrates through the thickness direction of the second connecting edge.

Preferably, the first connecting edge and/or the second connecting edge are provided with third screw holes for passing third bolts, and the third screw holes penetrate through the thickness direction of the first connecting edge and/or the second connecting edge.

Preferably, the horizontal member is a sheet-shaped member, one end of the sheet-shaped member is provided with a fourth screw hole for passing the third bolt, the fourth screw hole penetrates through the thickness direction of the sheet-shaped member, and one end of the sheet-shaped member is connected with the first connecting edge and/or the second connecting edge of the plate-shaped member through the third bolt;

the sleeve structure by U type staple bolt with the slice part constitutes, U type staple bolt set up in the below of slice part, the both ends of U type staple bolt with slice part adopts detachable connection to form hollow structure, hollow structure is used for cup jointing the scaffold steel pipe, hollow structure's inner wall with the external diameter phase-match of scaffold steel pipe.

Preferably, the two ends of the U-shaped hoop are respectively provided with a short edge extending towards the two sides along the horizontal direction, the short edge is provided with a fifth screw hole used for passing through a fourth bolt, the fifth screw hole penetrates through the thickness direction of the short edge, and the short edge is connected with the sheet-shaped component through the fourth bolt. The fourth screw hole and the fifth screw hole are round screw holes, and the size of the fourth screw hole is matched with that of the bolt.

Preferably, the plate-shaped component is a rectangular aluminum plate, the aluminum plate is provided with a plurality of through holes which are uniformly distributed, and the through holes penetrate through the thickness direction of the aluminum plate.

Preferably, a coating, a spray painting layer and a protective layer are arranged on the surface of the plate-shaped component to form a UV printing structure, wherein the coating covers the surface of the plate-shaped component, the spray painting layer covers the upper surface of the coating, and the protective layer is arranged on the upper surface of the spray painting layer.

Preferably, the plate-like members are sized to match the scaffolding pitch.

Compared with the prior art, the utility model discloses at least one kind's beneficial effect as follows has:

in the structure of the utility model, a plurality of plate-shaped parts are detachably assembled into an integrated enclosure structure and are fixed with the vertical rods or the longitudinal rods of the scaffold through the connecting members, so that the installation and the disassembly are convenient, the installation can be realized by only one or two workers in the field installation, and the construction and the erection are convenient; the plate-shaped parts, the connecting components and the like are easy to obtain on site and can be recycled, and the economy is good; the plate-shaped component is made of aluminum plates with lighter materials, and the additional load on the scaffold is small.

The utility model discloses above-mentioned structure punches a hole and UV prints through plate-shaped part and can guarantee to ventilate and daylighting, and has certain syllable-dividing effect to can choose for use the pattern or the propaganda picture that suit with all ring edge borders physiognomy as required, the aesthetic property is good and suits with the surrounding environment physiognomy.

The connection between two adjacent plate-shaped parts and the connection between the connecting component and the scaffold can be realized by adopting bolt connection, the connection strength is high, the adaptability to the environment is strong, and the quality is safe, reliable and controllable; and the connection of the two plate-shaped components can realize alignment and flatness adjustment through the oval screw holes.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a three-dimensional schematic view of a recyclable UV printed scaffold enclosure according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the connection of first connecting edges of vertically adjacent plate like members according to a preferred embodiment of the present invention;

FIG. 3 is a schematic view of the connection of second connecting edges of horizontally adjacent plate like members according to a preferred embodiment of the present invention;

FIG. 4 is a front view of a plate like member and connecting member according to a preferred embodiment of the present invention;

FIG. 5 is a right side view of the connection member of a preferred embodiment of the present invention with the steel scaffold tube;

FIG. 6 is a detail view of the sheet member of a preferred embodiment of the present invention;

fig. 7 is a schematic view of the connection between the plate-shaped member at the corner and the connecting member according to a preferred embodiment of the present invention;

FIG. 8 is a three-dimensional schematic view of a plate member according to a preferred embodiment of the present invention;

FIG. 9a is a front view of a plate like member in accordance with a preferred embodiment of the present invention;

FIG. 9b is a side view of a plate like member in accordance with a preferred embodiment of the present invention;

FIG. 9c is a top view of a plate like member according to a preferred embodiment of the present invention;

fig. 10 is a schematic view of a UV printing structure according to a preferred embodiment of the present invention;

fig. 11 is a schematic view of the connection of the recyclable UV printed scaffold fence to the scaffold steel tube according to a preferred embodiment of the present invention;

the scores in the figure are indicated as: 1 is a plate-shaped component, 11 is an aluminum plate, 12 is a first connecting edge, 13 is a second connecting edge, 111 is an aluminum plate raw material, 112 is a punched hole, 113 is a coating, 114 is an inkjet layer, 115 is a protective layer, 121 is a horizontal flanging, 122 is a first screw hole, 123 is a first bolt, 131 is a vertical flanging, 132 is a second screw hole, 133 is a second bolt, 21 is a third screw hole, 22 is a third bolt, 3 is a connecting member, 31 is a U-shaped hoop, 32 is a sheet-shaped component, 33a is a fourth bolt, 33b is a fourth bolt, 321 is a steel sheet, 322 is a fourth screw hole, 323a is a fifth screw hole, 323b is a fifth screw hole, 4 is a scaffold steel pipe, 41 is a vertical rod, and 42 is a vertical rod.

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention. Portions not described in detail in the following embodiments may be implemented using existing components.

Referring to fig. 1, for the utility model discloses a recoverable UV prints scaffold frame and encloses the three-dimensional schematic diagram that keeps off, recoverable UV prints scaffold frame and encloses the periphery that keeps off and install at the scaffold frame, plays the guard action. The figure includes four plate-like members 1 and a connecting member 3, and the plate-like members 1 are fixed to the scaffold steel pipes 4 by the connecting member 3.

The plate-like member 1 has a quadrangular structure. Referring to fig. 1, a first connecting edge 12 is arranged on a horizontal edge of the quadrilateral structure, the first connecting edge 12 is turned over to one side along the edge of the horizontal edge and extends to form a horizontal turned-over edge 121, and the horizontal turned-over edge 121 is perpendicular to the plane of the quadrilateral structure; the first connecting edge 12 can be formed by bending the horizontal edge of the plate-like member 1 toward the inside thereof, i.e., toward the side of the scaffold steel tube 4, by 90 degrees to form a horizontal burring 121. As shown in fig. 1 and 2, two plate-like members 1 arranged vertically adjacent to each other among the four plate-like members 1 are connected by a first connecting edge 12, and the two plate-like members 1 arranged vertically adjacent to each other are integrally joined to each other. As a preferable mode, as shown in fig. 2 and 9c, the first connecting edge 12 is provided with a first screw hole 122, and the first screw hole 122 penetrates through the thickness direction of the first connecting edge 12; the first bolts 123 are respectively passed through the first connecting edges 12 of two adjacent plate-like members 1 to connect the first connecting edges 12 of the two vertically adjacent plate-like members 1. The first bolt 123 hole can adopt an oval screw hole structure, and alignment and flatness adjustment are realized.

Referring to fig. 1, a second connecting edge 13 is arranged on a vertical edge of the quadrilateral structure, the second connecting edge 13 is turned over to one side along the edge of the vertical edge and extends to form a vertical flange 131, and the vertical flange 131 is perpendicular to the plane of the quadrilateral structure; the second connecting edge 13 can be formed by bending the vertical edge of the plate-like member 1 toward the inside thereof, i.e., toward the side of the scaffold steel tube 4, by 90 degrees to form a vertical flange 131. As shown in fig. 1 and 3, two plate-like members 1 horizontally adjacent to each other among the four plate-like members 1 are connected by a second connecting edge 13, and the two horizontally adjacent plate-like members 1 are integrally joined to each other, so that the four plate-like members 1 are integrally fixed. As a preferable mode, referring to fig. 9b, the second connecting edge 13 is provided with a second screw hole 132, and the second screw hole 132 penetrates through the thickness direction of the second connecting edge 13; the second bolts 133 are respectively passed through the second connecting edges 13 of two adjacent plate-like members 1 to connect the first connecting edges 12 of two horizontally adjacent plate-like members 1. The second bolt hole can adopt an oval screw hole structure, and alignment and flatness adjustment are achieved.

Referring to fig. 1, the connecting member 3 comprises a horizontal member provided with a sleeve structure for sleeving the scaffold steel tube 4; one end of the horizontal component can be detachably connected with the first connecting edge 12 of the plate-shaped part 1, the horizontal component and the first connecting edge 12 are positioned in the same plane and arranged at 90 degrees, and the axial direction of the sleeve structure is parallel to the first connecting edge 12. The other end of the horizontal component is detachably connected with the scaffold steel pipe 4 through a sleeve structure, and the sleeve structure covers the vertical rod 41 of the scaffold steel pipe 4 and is fixed, so that the horizontal fixing effect is achieved. Preferably, the first connecting edge 12 is provided with a third screw hole 21, and the third screw hole 21 penetrates through the thickness direction of the first connecting edge 12. One end of the horizontal member of the connecting member 3 is provided with a screw hole matching with the third screw hole 21. The horizontal member of the connecting member 3 and the first connecting edge 12 may be connected by a third bolt 22. The third screw hole 21 may be the same as the first screw hole 122. The connecting member 3 can also be connected with the second connecting edge 13, for example, as shown in fig. 7, when two horizontally adjacent plate-like parts 1 at the corner of the scaffold are connected, the connecting member 3 is connected with the second connecting edge 13 to perform a vertical fixing function. The horizontal component of the connecting component 3 and the second connecting edge 13 are positioned in the same plane and arranged at 90 degrees, and the axial direction of the sleeve structure is parallel to the second connecting edge 13; the sleeve structure is wrapped around the vertical rod 42 of the scaffold steel tube 4 and fixed. The number of the connecting members 3 and the installation positions can be selected according to specific construction conditions. Preferably, the second connecting edge 13 is provided with a third screw hole 21, and the third screw hole 21 penetrates through the thickness direction of the second connecting edge 13. One end of the horizontal member of the connecting member 3 is provided with a screw hole matched with the third screw hole 21. The horizontal member of the connecting member 3 and the second connecting edge 13 may be connected by a third bolt 22. The third screw hole 21 may be the same screw hole as the second screw hole 132.

The plate-shaped part 1 is a prefabricated part in a factory, and can be turned over in the factory and transported to the site. The plate member 1 may be made of a rectangular aluminum plate 11 having a light weight, and may be made of other materials having a light weight, although the load applied to the scaffold is small. The dimensions of the plate-like member 1 can be selected according to the scaffolding interval. The number of the plate-shaped components 1 is set according to the area of the enclosure required by the scaffold. In a particular embodiment, as shown with reference to fig. 8, the following dimensional parameters can be adopted for the plate-like element 1, the first connecting edge 12 and the second connecting edge 13: the plate-like member 1 preferably has a length of 2m and a height of 1 m. The first connecting edge 12 and the second connecting edge 13 are preferably 25 mm.

Above-mentioned recoverable UV prints scaffold frame and encloses the fender, each part adopts detachable assembling to be a whole, and the installation and the dismantlement of being convenient for to recoverable recycling.

In other partially preferred embodiments, the horizontal member is a sheet member 32. The sheet member 32 may be a rectangular steel sheet 321. Referring to fig. 1, 4 and 6, one end of the sheet member 32 is provided with a fourth screw hole 322 for passing the third bolt 22, the fourth screw hole 322 penetrates through the thickness direction of the sheet member 32, and one end of the sheet member 32 is connected to the first connecting side 12 and/or the second connecting side 13 of the plate member 1 by the third bolt 22.

Referring to fig. 4 and 5, the sleeve structure is composed of a U-shaped hoop 31 and a sheet member 32, the U-shaped hoop 31 is disposed below the sheet member 32, two ends of the U-shaped hoop 31 are detachably connected with the sheet member 32 to form a hollow structure, the hollow structure is used for sleeving the scaffold steel tube 4, and the inner wall of the hollow structure is matched with the outer diameter of the scaffold steel tube 4. Preferably, both ends of the U-shaped hoop 31 are provided with short sides extending in the horizontal direction toward both sides, the short sides are provided with two fifth screw holes 323a and 323b for passing the fourth bolts 33a and 33b, respectively, and the fifth screw holes 323a and 323b penetrate in the thickness direction of the short sides. The other end of the sheet member 32 is provided with a fifth screw hole 323a and a fifth screw hole 323b that are matched with the fourth bolt 33a and the fourth bolt 33b, and the short side and the sheet member 32 are connected by the two fourth bolts 33a and the fourth bolt 33b, so that both ends of the U-shaped hoop 31 are fixed to the sheet member 32. The fourth screw hole 322, the fifth screw hole 323a, and the fifth screw hole 323b are circular screw holes, and have sizes matched with the sizes of bolts.

In other partially preferred embodiments, as shown in fig. 9a and 10, the plate-like member 1 is provided with a plurality of through holes uniformly distributed, and the plurality of through holes respectively penetrate through the aluminum plate 11 in the thickness direction. The plate member 1 may be made of an aluminum plate material 111, and all or part of the punched holes 112 may be selected as necessary in the aluminum plate material 111. The plate-shaped component 1 is provided with a through hole for facilitating ventilation and lighting.

In other preferred embodiments, referring to fig. 10, a coating layer 113, a painting layer 114 and a protective layer 115 are disposed on the outer side of the plate-shaped member 1 to form a UV printing structure, wherein the coating layer 113 covers the outer side surface of the plate-shaped member 1, the painting layer 114 is disposed on the upper surface of the coating layer 113, and the protective layer 115 covers the upper surface of the painting layer 114. The coating 113 may be a white coating 113. The spray painting layer 114 can select patterns according to needs, and the protective layer 115 is a waterproof UV gloss oil layer, so that the brightness of pictures can be increased. The plate-shaped component 1 can form abundant patterns through punching 112 and UV printing, and has good outdoor aesthetic property.

The recyclable UV printing scaffold enclosure of the embodiment can adopt the following construction method, and comprises the following steps:

step 1: the plate-shaped component is a factory prefabricated part, the plate-shaped component is made of an aluminum plate raw material, a plurality of through holes are formed in the aluminum plate raw material in a punching mode, and a first screw hole and a second screw hole are formed in the horizontal edge and the vertical edge of the aluminum plate raw material.

Step 2: after the through holes, the first screw holes and the second screw holes are manufactured, flanging is carried out on the aluminum plate raw material by using a flanging machine, horizontal flanging and vertical flanging are prepared, and then the first connecting edge and the second connecting edge of the plate-shaped component are formed.

And step 3: and (3) rolling and coating white on the outer side surface of the aluminum plate raw material to form a bottom coating, then spraying and printing patterns according to the requirement to finish the manufacture of a spray-painting layer, and finally spraying a protective layer to finish the manufacture of the UV printing structure.

And 4, step 4: and transporting the processed plate-shaped parts and the connecting members to the site.

And 5: after 2 steps (generally 1 step is 2m) are set up to on-spot scaffold, can set up the recoverable UV of progress installation and print scaffold in the periphery of scaffold and enclose the fender along with the scaffold. Referring to fig. 11, a connecting member is firstly installed, that is, a U-shaped hoop and a sheet part are installed at the position of the scaffold steel pipe vertical pole 41 corresponding to the screw hole, and both ends of the U-shaped hoop are fastened by bolts.

Step 6: hoisting a first plate-shaped part at the bottom layer and a second plate-shaped part at the 2 nd layer, firstly horizontally fastening the plate-shaped part and the first connecting edge of the upper and lower adjacent plate-shaped parts through a third bolt, realizing the connection of the upper and lower plate-shaped parts and the vertical rod of the scaffold through a connecting member, wherein the mounting interval of the connecting member is preferably 500mm, and then fixing the rest first screw holes of the first connecting edges of the first plate-shaped part and the second plate-shaped part through first bolts to complete the splicing of the upper and lower adjacent plate-shaped parts.

Then a third plate-shaped part and a fourth plate-shaped part are respectively arranged at the adjacent positions of one sides of the first plate-shaped part and the second plate-shaped part; the third plate-shaped part and the fourth plate-shaped part are hoisted to the designated positions, the first connecting edges of the third plate-shaped part and the fourth plate-shaped part are connected with the longitudinal rod of the scaffold through third bolts and connecting members, and the rest first screw holes are fixed through first bolts, so that the splicing of the upper and lower adjacent plate-shaped parts is completed. Connecting the third plate-shaped part with the second connecting edge of the first plate-shaped part through a second bolt, and connecting the fourth plate-shaped part with the second connecting edge of the second plate-shaped part through a second bolt; if horizontally adjacent plate-shaped parts are positioned at the corners, the plate-shaped parts and the adjacent second connecting edges need to be fastened through third bolts, the connection between the adjacent plate-shaped parts at the corners and the scaffold upright rods is realized through connecting members, and the mounting distance of the connecting members is preferably 500 mm.

The installation is sequentially performed alternately according to the vertical direction and the horizontal direction, so that the construction of the enclosure facilities of the multi-layer scaffold is completed, and the method is shown in figure 11. The fastening construction of the bolt is based on the hand feeling of an operator and the appearance control of the connecting joint, and alignment and flatness adjustment are performed in time during the construction of each layer.

And 7: and after the scaffold is used after the engineering is finished, the scaffold is dismantled from top to bottom layer by layer according to the relevant standard requirements, so that the scaffold is recovered.

The above description is only a preferred embodiment of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

All the parts used in this document can be standard parts or common technologies, if not detailed, and can be purchased from the market, the specific connection mode of each part can be conventional means such as bolts, rivets and welding, etc., which are mature in the prior art, the machinery, parts and electrical equipment are conventional models in the prior art, and the circuit connection is conventional in the prior art, which is easy to be realized by those skilled in the art, and no specific description is given here.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (8)

1. The utility model provides a recoverable UV prints scaffold frame and encloses fender which characterized in that includes:

the plate-shaped parts are of quadrilateral structures, the horizontal edges of the quadrilateral structures are provided with first connecting edges, the first connecting edges are turned over to one side along the edges of the horizontal edges and extend to form horizontal turned edges, and the horizontal turned edges are perpendicular to the planes of the quadrilateral structures; the vertical edge of the quadrilateral structure is provided with a second connecting edge, the edge of the second connecting edge along the vertical edge is turned towards one side and extends to form a vertical flanging, and the vertical flanging is perpendicular to the plane of the quadrilateral structure;

the plurality of plate-shaped components are spliced into a whole along the horizontal direction and/or the vertical direction, two horizontally adjacent plate-shaped components are connected through a second connecting edge, and two vertically adjacent plate-shaped components are connected through a first connecting edge;

the connecting component comprises a horizontal component, and the horizontal component is provided with a sleeve structure for sleeving the scaffold steel pipe; one end of the horizontal component can be detachably connected with the first connecting edge and/or the second connecting edge of the plate-shaped part, the axial direction of the sleeve structure is parallel to the first connecting edge and/or the second connecting edge, the other end of the horizontal component is detachably connected with the scaffold steel pipe through the sleeve structure, and the plate-shaped part is connected with the scaffold through the connecting component.

2. The recyclable UV printing scaffold fence of claim 1, wherein the first connecting edge is provided with a first screw hole for passing a first bolt, the first screw hole penetrating through a thickness direction of the first connecting edge; the second connecting edge is provided with a second screw hole used for passing through a second bolt, and the second screw hole penetrates through the thickness direction of the second connecting edge.

3. The recyclable UV-printed scaffold fence as claimed in claim 2, wherein the first connecting edge and/or the second connecting edge is provided with a third screw hole for passing a third bolt, the third screw hole penetrating through a thickness direction of the first connecting edge and/or the second connecting edge.

4. The recyclable UV printed scaffold enclosure of claim 3,

the horizontal component is a sheet-shaped part, one end of the sheet-shaped part is provided with a fourth screw hole for the third bolt to pass through, the fourth screw hole penetrates through the thickness direction of the sheet-shaped part, and one end of the sheet-shaped part is connected with the first connecting edge and/or the second connecting edge of the plate-shaped part through the third bolt;

the sleeve structure by U type staple bolt with the slice part constitutes, U type staple bolt set up in the below of slice part, the both ends of U type staple bolt with slice part adopts detachable connection to form hollow structure, hollow structure is used for cup jointing the scaffold steel pipe, hollow structure's inner wall with the external diameter phase-match of scaffold steel pipe.

5. The recyclable UV printed scaffold fence as claimed in claim 4, wherein the U-shaped anchor ear is provided with short edges at two ends thereof, the short edges extending horizontally to two sides, the short edges are provided with fifth screw holes for passing fourth bolts, the fifth screw holes penetrate through the thickness direction of the short edges, and the short edges are connected with the sheet-shaped component through the fourth bolts.

6. The recyclable UV printed scaffold fence as in claim 1, wherein the plate like member is a rectangular aluminum plate provided with a plurality of evenly distributed through holes running through the thickness of the aluminum plate.

7. The recyclable UV printing scaffold enclosure according to any one of claims 1 to 6, wherein the surface of the plate-like member is provided with a coating layer, a painting layer and a protective layer to form a UV printing structure, wherein the coating layer covers the surface of the plate-like member, the painting layer covers the upper surface of the coating layer, and the protective layer is arranged on the upper surface of the painting layer.

8. The recyclable UV printed scaffold enclosure according to any of claims 1 to 6, wherein the dimensions of the plate like members match scaffold set up spacing.

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