CN108385995B

CN108385995B - Site construction safety channel

Info

Publication number: CN108385995B
Application number: CN201810315854.7A
Authority: CN
Inventors: 高贯伟; 张国泉; 梅嵩; 杨阳阳
Original assignee: Second Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Current assignee: Second Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Priority date: 2018-04-10
Filing date: 2018-04-10
Publication date: 2023-12-01
Anticipated expiration: 2038-04-10
Also published as: CN108385995A

Abstract

The invention provides a site construction safety channel, which comprises a ceiling assembly, side plate frame assemblies and connecting plates, wherein the ceiling assembly is connected with the two groups of side plate frame assemblies through a plurality of groups of pull rods, the ceiling assembly comprises a first end face of a ceiling and a second end face of the ceiling, a top plate is arranged on the first end face of the ceiling, the top plate is of a dome-shaped structure, the top plate is connected with a plurality of groups of suspender assemblies, each group of suspender assemblies comprises a top rod, a bottom rod, an adjusting ring, a hook and a clamping ring, each group of side plate frame assemblies comprises side plates, windows, connecting plates, mounting holes b, vertical reinforcing ribs, transverse reinforcing ribs and a bottom plate, and one end of each group of pull rods is provided with a pull rod mounting ring used for being connected with a scaffold. The invention has the advantages of convenient and quick construction and disassembly, reduces construction cost and construction time, effectively improves the construction engineering progress, has the advantage of stable connection, can effectively shield high-altitude falling objects, construction scraps and electric welding splashes, and improves the construction safety.

Description

Site construction safety channel

Technical Field

The invention relates to the field of site construction, in particular to a site construction safety channel.

Background

In the present field construction, the safety channel adopts scaffold frame, steel construction or timber structure etc. material cooperation protection network to build generally, in the build in-process, because the matching factor between the material, manual operation factor influence are great to make the safety channel of building have certain potential safety hazard, if: the people with serious looseness and part falling or even collapse, so that the safety device has great potential safety hazards to people going and going in the safety channel, and particularly in construction, construction scraps, electric welding splashes and the like also have certain harm and influence to people going and going in the whole channel; on the other hand, the present safe passageway is built complicatly, needs extravagantly a large amount of time and manual work to go to build the construction, causes the cost extravagant.

Comparing and searching a Chinese patent, the patent name is: the utility model provides a combined type job site safety passageway (publication No. 104018687 a), discloses a technical scheme that builds the safety passageway through the I-steel, and this technical scheme still does not solve the technical defect that mentions in the above-mentioned technical background to steel construction builds difficulty, can not realize preventing construction debris, electric welding spatter etc. to the harm and the influence of personnel that come and go in the whole passageway.

Therefore, a safety channel which is convenient and quick to build and disassemble, reduces building cost, is stable in connection and effectively shields high-altitude falling objects, construction scraps and electric welding splashes needs to be designed.

Disclosure of Invention

The invention aims to solve the technical problems that: the safety channel for effectively shielding high-altitude falling objects, construction scraps and electric welding splashes is convenient and quick to construct and disassemble, reduces construction cost, is stable in connection.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a site construction safety passageway, including ceiling assembly, curb plate frame assembly and connecting plate, be connected through multiunit pull rod between ceiling assembly and the two sets of curb plate frame assemblies, the ceiling assembly includes ceiling first terminal surface and ceiling second terminal surface, the ceiling assembly becomes dome structure, ceiling first terminal surface installs the top plate, the top plate is dome structure, the top plate is connected with multiunit jib assembly, wherein every set of jib assembly includes ejector pin, sill bar, adjusting ring, couple and snap ring, sill bar one end and adjusting ring threaded connection, ejector pin one end and adjusting ring threaded connection, the ejector pin other end is connected with the couple, the couple is installed on the scaffold frame, the multiunit supporting rib is installed to the ceiling second terminal surface, the sill bar other end passes the top plate of ceiling first terminal surface and the ceiling second terminal surface is connected with the supporting rib through the snap ring in proper order, the ceiling assembly is equipped with two dome ends and two straight ends, ceiling assembly two straight end edges department is equipped with the mounting hole a that is used for installing, the supporting rib is installed along the direction of roof assembly straight end sets; each group of side plate frame assembly comprises a side plate, a window, a side plate connecting plate, a mounting hole b, a vertical reinforcing rib, a horizontal reinforcing rib and a bottom plate, wherein the side plate comprises a side plate first end face and a side plate second end face, the vertical reinforcing rib and the horizontal reinforcing rib are mounted on the side plate first end face, the vertical reinforcing rib and the horizontal reinforcing rib are arranged in a 90-degree crossed mode, the window is further mounted on the side plate first end face, the top end portion of the side plate is provided with the side plate connecting plate used for being connected with the ceiling assembly, the side plate connecting plate is further provided with the mounting hole b connected with the mounting hole a, the bottom plate used for being connected with the ground is arranged at the lower end portion of the side plate, and the bottom plate is provided with a foundation rod mounting hole used for mounting a foundation rod; the connecting plate comprises a connecting plate opening and a mounting hole C, the connecting plate is of a circular arch structure, and the connecting plate is provided with the mounting hole C for being connected with the mounting hole b; one end of each group of pull rod is provided with a pull rod mounting ring which is used for being connected with the scaffold, and the other end of the pull rod sequentially passes through the mounting hole a and the mounting hole b or sequentially passes through the mounting hole C, the mounting hole a and the mounting hole b to be in threaded connection with the pull rod mounting nut.

Preferably, the hook is composed of two groups of semi-arc hook structures with the same radius length, and an angle is arranged at the joint between the two groups of semi-arc hook structures, so that the radius formed by the two groups of semi-arc hook structures is larger than that of one group of semi-arc hook structures.

Preferably, the connecting plate is of an arc structure, the supporting ribs are of arc or polygonal structures, and the length of the radius of the circle center of the connecting plate is not smaller than that of the supporting ribs, so that the connecting plate is completely attached or buckled outside the supporting ribs.

Preferably, the adjusting ring comprises two connecting end parts and a hollow structure, the two connecting end parts of the adjusting ring are communicated with the hollow structure, the two connecting end parts of the adjusting ring are respectively in threaded connection with one end of the ejector rod and one end of the bottom rod, the ejector rod or the bottom rod can be screwed on the adjusting ring, and the ejector rod or the bottom rod can extend into the hollow structure of the adjusting ring.

Preferably, the pull rod comprises a first pull rod and a second pull rod, one end of the first pull rod is provided with a pull rod mounting ring, the other end of the first pull rod is in threaded connection with the pull rod adjusting piece, one end of the second pull rod is in threaded connection with the pull rod adjusting piece, the pull rod adjusting piece comprises two connecting end parts and a hollow structure, the two connecting end parts of the pull rod adjusting piece are communicated with the hollow structure, the first pull rod or the second pull rod can be screwed on the pull rod adjusting piece, and the first pull rod or the second pull rod can extend into the hollow structure of the pull rod adjusting piece.

Preferably, the mounting holes a are arranged at the edges of two straight end parts of the ceiling assembly and on the supporting bone of the second end face of the ceiling, the connecting plate is buckled on the outer side of the supporting bone, and the mounting holes a and the mounting holes b are correspondingly arranged and are connected with the pull rod mounting nuts through the pull rods.

Preferably, the connecting plates are of circular arch structures and are equal to the circular radius of the circular arch structures of the ceiling assemblies, so that the connecting plates can be connected with the ceiling assemblies in a matched mode, the number of the connecting plates is n, n is more than or equal to 0, and the connecting plates are used for connecting a plurality of ceiling assemblies.

Preferably, two arched end parts of the connecting plate are provided with connecting plate openings.

The invention has the advantages of convenient and quick construction and disassembly, reduces construction cost and construction time, effectively improves construction engineering progress, has the advantage of stable connection, prevents the consequences of loosening a safety channel and serious part falling or even collapse, can effectively shield high-altitude falling objects, construction fragments and electric welding splashes, and improves construction safety.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure provided by an embodiment of a site operation safety channel of the present invention;

FIG. 2 is a schematic view of a front view of an embodiment of a safety tunnel for construction in situ according to the present invention;

FIG. 3 is a schematic view of a ceiling assembly provided by an embodiment of a safety tunnel for in-situ construction according to the present invention;

FIG. 4 is a schematic view of a side panel assembly provided by an embodiment of a safety aisle for construction in situ;

FIG. 5 is a schematic view of a construction of a connection board according to an embodiment of the present invention;

in the figure: 100. ceiling assembly 100a, ceiling first end, 100b, ceiling second end, 110, ceiling panel, 111, mounting hole a,120, support bone, 130, boom assembly 131, ejector pin, 132, bottom bar, 133, adjustment ring, 134, hanger, 135, snap ring, 200, side plate frame assembly, 210, side plate, 210a, side plate first end, 210b, side plate second end, 211, window, 220, side plate connection plate, 221, mounting hole b,230, vertical reinforcement bar, 240, horizontal reinforcement bar, 250, bottom plate, 251, foot bar mounting hole, 300, connection plate, 301, connection plate cutout, 302, mounting hole c,400, tie rod, 410, tie rod adjuster, 420, tie rod mounting ring, 430, first tie rod, 440, second tie rod, 500, foot bar, 600, scaffold, 700, tie rod mounting nut.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It is to be understood that these examples are illustrative of the invention and are not intended to limit the scope of the invention. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

1-5, FIG. 1 is a schematic view of the overall structure provided by an embodiment of a site-directed construction safety tunnel according to the present invention; FIG. 2 is a schematic view of a front view of an embodiment of a safety tunnel for construction in situ according to the present invention; FIG. 3 is a schematic view of a ceiling assembly provided by an embodiment of a safety tunnel for in-situ construction according to the present invention; FIG. 4 is a schematic view of a side panel assembly provided by an embodiment of a safety aisle for construction in situ; fig. 5 is a schematic structural view of a connection board provided by an embodiment of a site operation safety channel according to the present invention.

In one embodiment, a site construction safety channel is provided, comprising a ceiling assembly 100, a side plate frame assembly 200 and a connecting plate 300, wherein the ceiling assembly 100 is connected with two groups of side plate frame assemblies 200 through a plurality of groups of pull rods 400, the ceiling assembly 100 comprises a first end surface 100a and a second end surface 100b of the ceiling, the ceiling assembly 100 is in a dome-shaped structure, the first end surface 100a of the ceiling is provided with a top plate 110, the top plate 110 is in a dome-shaped structure, the top plate 110 is connected with a plurality of groups of hanging rod assemblies 130, each group of hanging rod assemblies 130 comprises a top rod 131, a bottom rod 132, an adjusting ring 133, a hook 134 and a clamping ring 135, one end of a bottom rod 132 is in threaded connection with an adjusting ring 133, one end of a top rod 131 is in threaded connection with the adjusting ring 133, the other end of the top rod 131 is connected with a hook 134, the hook 134 is arranged on the scaffold 600, a plurality of groups of supporting ribs 120 are arranged on the second end face 100b of the ceiling, the other end of the bottom rod 132 sequentially penetrates through a top plate 110 of the first end face 100a of the ceiling and the second end face 100b of the ceiling to be connected with the supporting ribs 120 through a clamping ring 135, the ceiling assembly 100 is provided with two arched end parts and two straight end parts, mounting holes a111 for mounting pull rods 400 are arranged at the edges of the two straight end parts of the ceiling assembly 100, and the supporting ribs 120 are arranged along the direction of the straight end parts of the ceiling assembly 100; each group of side plate frame assemblies 200 comprises side plates 210, windows 211, side plate connecting plates 220, mounting holes b221, vertical reinforcing ribs 230, horizontal reinforcing ribs 240 and a bottom plate 250, wherein each side plate 210 comprises a side plate first end face 210a and a side plate second end face 210b, the side plate first end faces 210a are provided with the vertical reinforcing ribs 230 and the horizontal reinforcing ribs 240, the vertical reinforcing ribs 230 and the horizontal reinforcing ribs 240 are arranged in a 90-degree crossed mode, the side plate first end faces 210a are also provided with the windows 211, the top end parts of the side plates 210 are provided with side plate connecting plates 220 used for being connected with the ceiling assemblies 100, the side plate connecting plates 220 are also provided with mounting holes b221 used for being connected with mounting holes a111, the lower end parts of the side plates 210 are provided with bottom plates 250 used for being connected with the ground, and the bottom plates 250 are provided with foot bar mounting holes 251 used for mounting foot bars 500; the connecting plate 300 comprises a connecting plate notch 301 and a mounting hole C302, the connecting plate 300 is of a circular arch structure, and the connecting plate 300 is provided with the mounting hole C302 used for being connected with the mounting hole b 221; one end of each group of pull rods 400 is provided with a pull rod mounting ring 420 for being connected with the scaffold 600, and the other end of each pull rod 400 sequentially passes through the mounting hole a111 and the mounting hole b221 or sequentially passes through the mounting hole C302, the mounting hole a111 and the mounting hole b221 to be in threaded connection with the pull rod mounting nut 700.

Preferably, the hook 134 is formed by two sets of semi-arc hook structures with the same radius length, and an angle is formed at the joint between the two sets of semi-arc hook structures, so that the radius formed by the two sets of semi-arc hook structures is larger than that of one set of semi-arc hook structures, and therefore, one end of the hook 134 can be provided with an opening, and the hook can be used for hanging on the scaffold 600.

Preferably, the side plate connecting plate 220 has an arc structure, the supporting rib 120 has an arc or polygonal structure, and the radius of the center of the side plate connecting plate 220 is not less than that of the supporting rib 120, so that the side plate connecting plate 220 can be completely attached or buckled outside the supporting rib 120, and the connection stability between the ceiling assembly 100 and the side plate frame assembly 200 is improved.

Preferably, the adjusting ring 133 includes two connection ends and a hollow structure, the two connection ends of the adjusting ring 133 are communicated with the hollow structure, the two connection ends of the adjusting ring 133 are respectively connected with one end of the ejector rod 131 and one end of the bottom rod 132 in a threaded manner, the ejector rod 131 or the bottom rod 132 can be screwed on the adjusting ring 133, the ejector rod 131 or the bottom rod 132 can extend into the hollow structure of the adjusting ring 133, and therefore, the length of the ejector rod 131 or the bottom rod 132 extending into the hollow structure of the adjusting ring 133 can be adjusted by screwing the adjusting ring 133, thus, the overall length of the boom assembly 130 can be adjusted, the distance between the scaffold 600 and the ceiling assembly 100 can be adjusted, and the purpose of adjusting and locking the horizontal height of the ceiling assembly 100 can be achieved.

Preferably, the tie rod 400 includes a first tie rod 430 and a second tie rod 440, one end of the first tie rod 430 is provided with a tie rod mounting ring 420, the other end of the first tie rod 430 is in threaded connection with the tie rod adjuster 410, one end of the second tie rod 440 is in threaded connection with the tie rod adjuster 410, the tie rod adjuster 410 includes two connecting ends and a hollow structure, the two connecting ends of the tie rod adjuster 410 are communicated with the hollow structure, the first tie rod 430 or the second tie rod 440 can be screwed on the tie rod adjuster 410, the first tie rod 430 or the second tie rod 440 can extend into the hollow structure of the tie rod adjuster 410, and therefore, the length of the first tie rod 430 or the second tie rod 440 extending into the hollow structure of the tie rod adjuster 410 can be adjusted by screwing the tie rod adjuster 410, thereby achieving the purpose of locking adjustment at the junction of the ceiling assembly 100 and the side plate frame assembly 200 or at the junction of the ceiling assembly 200 and the junction of the side plate frame assembly 200, or the junction of the ceiling assembly 100 and the side plate frame assembly 300, and the junction of the ceiling assembly 200 are more stable.

Preferably, the mounting holes a111 are formed at two straight end edges of the ceiling assembly 100 and on the supporting rib 120 of the second end surface 100b of the ceiling, the side plate connecting plate 220 is fastened on the outer side of the supporting rib 120, the mounting holes a111 are correspondingly formed with the mounting holes b221, and the connecting rod 400 is connected with the rod mounting nut 700, so that the ceiling assembly 100 and the side plate frame assembly 200 can be connected more stably, and the safety is improved.

Preferably, the circular radius of the connecting plate 300 is equal to that of the circular arch structure of the ceiling assembly 100, so that the connecting plate 300 can be connected with the ceiling assembly 100 in a matched manner, the number of the connecting plates 300 is n, n is more than or equal to 0, the connecting plates 300 are used for connecting a plurality of ceiling assemblies 100, and safety channels with different lengths are built according to field use requirements, so that the safety device has more flexibility.

Preferably, the two arched ends of the connecting plate 300 are provided with connecting plate openings 301, so that the weight of the connecting plate 300 is reduced, and meanwhile, the connection between the shielding boom assembly 130 and the ceiling assembly 100 is avoided, and the connecting plate has the advantage of strong practicability.

In the specific working process, firstly, the ceiling assembly 100 is installed on the scaffold 600 through the boom assembly 130, and the horizontal height of the ceiling assembly 100 is adjusted and locked through the boom assembly 130, so that the ceiling assembly 100 is fixedly installed; secondly, the ceiling assembly 100 and the side plate frame assembly 200 are connected through the pull rod 400 and are mounted on the scaffold 600, and the locking adjustment is carried out through the pull rod 400, so that the ceiling assembly 100 and the side plate frame assembly 200 are fixedly mounted; thereby realizing the purpose of quickly constructing a safety channel, and having simple disassembly and strong safety.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims

1. The on-site construction safety channel comprises a ceiling assembly, side plate frame assemblies and connecting plates, and is characterized in that the ceiling assembly is connected with the two groups of side plate frame assemblies through a plurality of groups of pull rods, the ceiling assembly comprises a ceiling first end face and a ceiling second end face, the ceiling assembly is of a dome-shaped structure, a top plate is mounted on the ceiling first end face, the top plate is of a dome-shaped structure, the top plate is connected with a plurality of groups of suspender assemblies, each group of suspender assemblies comprises a top rod, a bottom rod, an adjusting ring, a hook and a clamping ring, one end of the bottom rod is in threaded connection with the adjusting ring, one end of the top rod is in threaded connection with one end of the adjusting ring, the other end of the top rod is connected with the hook, the hook is mounted on a scaffold, a plurality of groups of supporting bones are mounted on the ceiling second end face, the bottom rod other end sequentially penetrates through the top plate of the ceiling first end face and the ceiling second end face to be connected with the supporting bones through the clamping ring, two ends and two straight ends are arranged at edges of the ceiling assembly, and mounting holes a used for mounting the pull rods are arranged along the direction of the straight ends of the ceiling assembly; each group of side plate frame assembly comprises a side plate, a window, a side plate connecting plate, a mounting hole b, a vertical reinforcing rib, a horizontal reinforcing rib and a bottom plate, wherein the side plate comprises a side plate first end face and a side plate second end face, the vertical reinforcing rib and the horizontal reinforcing rib are mounted on the side plate first end face, the vertical reinforcing rib and the horizontal reinforcing rib are arranged in a 90-degree crossed mode, the window is further mounted on the side plate first end face, the top end portion of the side plate is provided with the side plate connecting plate used for being connected with the ceiling assembly, the side plate connecting plate is further provided with the mounting hole b connected with the mounting hole a, the bottom plate used for being connected with the ground is arranged at the lower end portion of the side plate, and the bottom plate is provided with a foundation rod mounting hole used for mounting a foundation rod; the connecting plate comprises a connecting plate opening and a mounting hole C, the connecting plate is of a circular arch structure, and the connecting plate is provided with the mounting hole C for being connected with the mounting hole b; one end of each group of pull rod is provided with a pull rod mounting ring which is used for being connected with the scaffold, and the other end of the pull rod sequentially passes through the mounting hole a and the mounting hole b or sequentially passes through the mounting hole C, the mounting hole a and the mounting hole b to be in threaded connection with the pull rod mounting nut.

2. The site operation safety channel as claimed in claim 1, wherein the hanger comprises two sets of semi-arc hanger structures with the same radius length, and an angle is arranged at the joint between the two sets of semi-arc hanger structures, so that one end of the hanger is provided with an opening, and the hanger can be used for hanging on a scaffold.

3. The site operation safety channel according to claim 1, wherein the connecting plate is of an arc-shaped structure, the supporting ribs are of arc-shaped or polygonal structures, and the radius of the circle center of the connecting plate is not smaller than that of the supporting ribs, so that the connecting plate is completely attached or buckled outside the supporting ribs.

4. A site operation safety tunnel according to claim 1, wherein the adjusting ring comprises two connecting ends and a hollow structure, the two connecting ends of the adjusting ring are communicated with the hollow structure, the two connecting ends of the adjusting ring are respectively connected with one end of the ejector rod and one end of the bottom rod in a threaded manner, the ejector rod or the bottom rod can be screwed on the adjusting ring, and the ejector rod or the bottom rod can extend into the hollow structure of the adjusting ring.

5. The site operation safety channel according to claim 1, wherein the tie rod comprises a first tie rod and a second tie rod, one end of the first tie rod is provided with a tie rod installation ring, the other end of the first tie rod is in threaded connection with the tie rod adjusting member, one end of the second tie rod is in threaded connection with the tie rod adjusting member, the tie rod adjusting member comprises two connecting end parts and a hollow structure, the two connecting end parts of the tie rod adjusting member are communicated with the hollow structure, the first tie rod or the second tie rod can be screwed on the tie rod adjusting member, and the first tie rod or the second tie rod can extend into the hollow structure of the tie rod adjusting member.

6. The site operation safety channel as claimed in claim 1, wherein the mounting hole a is arranged at two straight end edges of the ceiling assembly and on the supporting frame of the second end face of the ceiling, the connecting plate is buckled on the outer side of the supporting frame, the mounting hole a is arranged corresponding to the mounting hole b, and the mounting hole a is connected with the pull rod mounting nut through the pull rod.

7. The site operation safety channel as claimed in claim 1, wherein the connecting plates have a circular arch structure and the roof assembly has a circular arch structure with the same circular radius, so that the connecting plates can be connected with the roof assembly in a matched manner, the number of the connecting plates is n, n is more than or equal to 0, and the connecting plates are used for connecting a plurality of roof assemblies.

8. A site operation safety tunnel as claimed in claim 1, wherein the two arcuate ends of the web are provided with web cutouts.