CN114961217A

CN114961217A - Connection construction method between scaffold bodies

Info

Publication number: CN114961217A
Application number: CN202210697463.2A
Authority: CN
Inventors: 刘定武; 张云; 田钦先; 郁健; 田伟; 李勇; 程龙; 杨庆祝; 魏新山; 谢博章; 刘哲睿; 聂志平; 陈钰汶
Original assignee: No 1 Construction Engineering Co Ltd of Guizhou Construction and Engineering Group
Current assignee: No 1 Construction Engineering Co Ltd of Guizhou Construction and Engineering Group
Priority date: 2022-06-20
Filing date: 2022-06-20
Publication date: 2022-08-30
Anticipated expiration: 2042-06-20
Also published as: CN114961217B

Abstract

The invention discloses a connection construction method for a connection construction structure between scaffold bodies, which comprises the following steps: the safety net and the quick installation of second scaffold frame body and the safety net and the quick two steps of dismantling of second scaffold frame body. Because quick release damping axle can rotate quick clearance that goes on in page or leaf A and the quick detach rotation page or leaf B to the quick detach and insert or break away from, it can increase the cost and increase the problem of construction to environmental pollution to have solved current plastics ribbon and cut off the plastics ribbon that uses new, does benefit to green construction.

Description

Connection construction method between scaffold bodies

Technical Field

The invention relates to a connection construction method between scaffold bodies, belonging to the technical field of scaffolds.

Background

When a high-rise building is built, a liftable attached scaffold needs to be used as a construction operation protection platform on the building outer vertical surface, when the building outer vertical surface is in an irregular shape, the liftable attached scaffold needs to be disassembled into a plurality of frame bodies to be correspondingly installed on the building outer vertical surface, and the frame bodies are in protection connection.

In a construction scheme of an attached lifting scaffold with Chinese patent publication No. CN103362297B, the disclosed adopted technology is as follows: use the plastics ribbon to tie up the safety net at support body fracture department and protect, when the support body on different building faces need go up and down, because the plastics ribbon relieves the too little inconvenient dismantlement of mouthful, often cuts the plastics ribbon between, realizes that safety net one side is dismantled from support body on one side. Although, use the plastics ribbon can be with the dismantled and assembled installation of safety net on the support body, there is the plastics ribbon to cut off and use new plastics ribbon can increase the cost and increase the problem of construction to environmental pollution, is unfavorable for green construction.

Disclosure of Invention

In order to solve the technical problems, the invention provides a connection construction method between scaffold bodies.

The invention is realized by the following technical scheme.

The invention provides a connection construction method for a connection construction structure between scaffold bodies, which comprises the following steps:

the safety net and the quick installation of second scaffold frame body and the safety net and the quick two steps of dismantling of second scaffold frame body.

Safety net and the quick installation step of second scaffold frame body do: the safety net is provided with a quick-release rotating blade A corresponding to a quick-release rotating blade B on a second scaffold frame body, a quick-release damping shaft is inserted into the quick-release rotating blade A and the quick-release rotating blade B at intervals for quick installation, a middle damping section is positioned at a contact section of the quick-release rotating blade B and the quick-release rotating blade A, a pressurizing bolt is screwed upwards on a threaded blind hole of an action rod, and liquid in a containing space is filled into a hollow space of the middle damping section;

safety net and the quick dismantlement step of second scaffold frame body do: the pressurizing bolt is screwed out downwards on the thread blind hole of the action rod to control liquid in the accommodating space to discharge a hollow space of the middle damping section, the gap of the quick-release damping shaft is quickly and completely separated from the quick-release rotating blade B, and the safety net drives the quick-release rotating blade A to be separated from the quick-release rotating blade B on the second scaffold body.

The utility model provides a connection construction structure between scaffold frame body, includes:

the scaffold comprises a first scaffold frame body and a second scaffold frame body, wherein the first scaffold frame body and the second scaffold frame body are distributed at intervals;

a safety net for protection is arranged on the outer side edges of the fractures of the first scaffold frame body and the second scaffold frame body, and the safety net is a flexibly deformable net body; safety net one side rotatable hinge is on first scaffold frame body, but safety net opposite side quick detach subassembly quick assembly disassembly installs on second scaffold frame body.

One side of the safety net is rotatably hinged on the first scaffold frame body through a hinge.

The scaffold comprises a first scaffold body and a second scaffold body, and is characterized by further comprising a rigid scaffold board, wherein the scaffold board is installed on the middle parts of fracture bottom surfaces of the first scaffold body and the second scaffold body to form a channel.

The quick release assembly comprises:

the quick-release rotating blade A is fixedly connected with the safety net and is provided with a through hole;

the quick-release rotating blade B is fixedly connected with the second scaffold body and is provided with a through hole;

the quick-release damping shaft penetrates through the through hole of the quick-release rotating blade A and the through hole of the quick-release rotating blade B in a clearance fit manner; the quick-release damping shaft is formed by fixing an upper rigid section, a middle damping section and a lower rigid section, the middle damping section is a damping body to generate damping force, and the middle damping section is located at a contact section of the quick-release rotating blade B and the quick-release rotating blade A.

The middle damping section is made of hard elastic rubber.

The quick detach subassembly still includes: the action rod is fixedly connected with the bottom of the lower rigid section through the switching block;

the clamping plate is fixedly connected to the action rod, and a clamping through hole is formed in the clamping plate;

the clamping rod is in clearance sliding fit with the clamping through hole of the clamping plate;

be equipped with the screens cooperation through-hole that corresponds with the screens through-hole on the second scaffold frame body, screens cooperation through-hole is two of interval distribution.

The middle part of the middle damping section is provided with a hollow space; the bottom of the action rod is provided with a thread stuffy hole, a pressurizing bolt and the thread stuffy hole are hermetically screwed in the thread stuffy hole to form a containing space, the containing space is communicated with the hollow space, and the pipeline penetrates into the middle damping section from the lower rigid section.

The accommodating space is communicated with the hollow space through a pipeline.

The invention has the beneficial effects that: because quick release damping axle can rotate quick clearance that goes on in page or leaf A and the quick detach rotation page or leaf B to the quick detach and insert or break away from, it can increase the cost and increase the problem of construction to environmental pollution to have solved current plastics ribbon and cut off the plastics ribbon that uses new, does benefit to green construction.

Drawings

FIG. 1 is a schematic view of the present invention in use;

FIG. 2 is a schematic view of the quick release assembly of the present invention in a second scaffold body;

FIG. 3 is a schematic view of the quick release assembly of the present invention;

in the figure: 1-building; 2-a first scaffold body; 3-a second scaffold body; 4-safety net; 41-hinge; 5-scaffold board; 6-a quick release assembly; 61-quick release rotary blade A; 62-quick-release rotary blade B; 63-quick-release damping shaft; 631-an upper rigid section; 632-middle damping section; 633-lower rigid section; 64-a transfer block; 65-an action lever; 66-a clamping plate; 67-a detent lever; 68-compression bolts; 69-pipeline.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

As shown in fig. 1-3.

The application discloses a connection construction structure between scaffold frame body includes:

the first scaffold frame body 2 and the second scaffold frame body 3 which can be lifted and attached to the building 1 are distributed at intervals;

a safety net 4 for protection is arranged on the outer side edge of the fracture of the first scaffold frame body 2 and the second scaffold frame body 3, and the safety net 4 is a flexibly deformable net body; safety net 4 one side is rotatable to be articulated on first scaffold frame body 2 through hinge 41, but safety net 4 opposite side quick detach subassembly 6 quick assembly disassembly install on second scaffold frame body 3.

After the first scaffold frame body 2 and the second scaffold frame body 3 are lifted and attached to the building 1, one side of a safety net 4 rotates with the first scaffold frame body 2, and the other side of the safety net 4 is quickly installed with the second scaffold frame body 3 through a quick-release assembly 6, so that the safety net 4 can perform safety protection on the outer side edges of fractures of the first scaffold frame body 2 and the second scaffold frame body 3; when first scaffold support body 2, second scaffold support body 3 go up and down on building 1 as required, 4 opposite sides of safety net are dismantled with second scaffold support body 3 fast through

quick detach subassembly

6, and 4 one sides of safety net are accomodate on first scaffold support body 2 around rotating with first scaffold support body 2, have solved the plastics ribbon and have cut off the problem that uses new plastics ribbon can increase cost and increase construction to environmental pollution, realize green construction.

Still include rigid scaffold board 5, scaffold board 5 is installed and is formed the passageway on first

scaffold frame body

2 and 3 fracture bottom surface middle parts of second scaffold frame body. Scaffold board 5 one end through hinge rotatable hinge on first scaffold frame body 2 bottom surface middle part, scaffold board 5 other end demountable installation is on second scaffold frame body 3.

The quick release assembly 6 comprises:

the quick-release rotating blade A61 is fixedly connected with the safety net 4, and a through hole is arranged on the quick-release rotating blade A61;

the quick-release rotating blade B62 is fixedly connected with the second scaffold frame body 3, and a through hole is formed in the quick-release rotating blade B62;

the quick release damping shaft 63 is in clearance fit with and penetrates through the through hole of the quick release rotating blade A61 and the through hole of the quick release rotating blade B62; the quick release damping shaft 63 is fixedly formed by an upper rigid section 631, a middle damping section 632 and a lower rigid section 633, the middle damping section 632 is a damping body formed by hard elastic rubber to generate damping force, and the middle damping section 632 is located at a contact section of the quick release rotating blade B62 and the quick release rotating blade a 61.

When the quick-release damping shaft 63 penetrates through and is inserted into the through hole of the quick-release rotating blade A61 from the through hole of the quick-release rotating blade B62, the other side of the safety net 4 is quickly installed on the second scaffold frame body 3 through the quick-release assembly 6, the middle damping section 632 is located at the contact section of the quick-release rotating blade B62 and the quick-release rotating blade A61, the upper rigid section 631 is located in the quick-release rotating blade A61, the middle damping section 632 of the quick-release damping shaft 63 provides damping force for installation and connection of the safety net 4 and the second scaffold frame body 3 to overcome vibration displacement generated by operation between the scaffold frame bodies, and the safety net 4 is prevented from being easily torn and damaged by displacement of the first scaffold frame body 2 and the second scaffold frame body 3; when the quick release damping shaft 63 with the quick release rotary blade a61 of the upper rigid section 631 completely penetrates through the through hole and breaks away from the through hole, the other side of the safety net 4 is quickly detached from the second scaffold body 3 through the quick release assembly 6.

The quick release assembly 6 further comprises: an action rod 65 fixedly connected with the bottom of the lower rigid section 633 through a switching block 64;

a clamping plate 66 fixedly connected to the action rod 65, wherein a clamping through hole is arranged on the clamping plate 66;

a clamping rod 67 in clearance sliding fit with the clamping through hole of the clamping plate 66;

be equipped with the screens cooperation through-hole that corresponds with the screens through-hole on the second scaffold frame body 3, screens cooperation through-hole is two of interval distribution.

When the action rod 65 pushes against the quick-release damping shaft 63 through the lower rigid section 633 to move upwards, and the quick-release damping shaft 63 penetrates through the through hole of the quick-release rotating blade B62 and is inserted into the through hole of the quick-release rotating blade A61, the clamping rod 67 penetrates through the clamping through hole of the clamping plate 66 to the clamping matching through hole above the second scaffold body 3 in a clearance manner to be matched, so that the quick-release damping shaft 63 is pushed against the quick-release rotating blade B62 and the quick-release rotating blade A61;

when action bars 65 pull quick detach damping axle 63 through rigidity section 633 down and move down, quick detach damping axle 63 takes rigidity section 631 to rotate a page or leaf A61 through-hole from quick release and runs through completely and break away from, realizes safety net 4 opposite side through quick detach subassembly 6 and dismantles on second scaffold body 3 fast, screens pole 67 runs through to the cooperation of screens cooperation through-hole of second scaffold body 3 below from the screens through-hole clearance of screens board 66, and quick detach subassembly is located second scaffold body 3.

A hollow space is arranged in the middle of the middle damping section 632; the bottom of the action rod 65 is provided with a thread blind hole, a pressurizing bolt 68 and the thread blind hole are hermetically screwed in the thread blind hole to form an accommodating space, the accommodating space is communicated with the hollow space through a pipeline 69, and the pipeline 69 penetrates into the middle damping section 632 from the lower rigid section 633; when the middle damping section 632 is located at the contact section between the quick release rotating blade B62 and the quick release rotating blade a61, the pressing bolt 68 is screwed in or out from the threaded blind hole of the actuating rod 65 to control the liquid in the accommodating space to be filled into or discharged out of the hollow space of the middle damping section 632, so as to adjust the damping force provided by the middle damping section 632 for the installation and connection of the safety net 4 and the second scaffold frame body 3.

Can set up quick detach subassembly 6 on the first scaffold frame body 2 and come to install with 4 opposite side quick assembly disassembly of safety net, be convenient for accomodate the installation after safety net 4 is dismantled from second scaffold frame body 3.

A connection construction method for a connection construction structure between scaffold bodies comprises the following steps:

step one, safety net 4 and the quick installation of second scaffold frame body 3: the safety net 4 is provided with a quick-release rotating blade A61 corresponding to a quick-release rotating blade B62 on the second scaffold body 3, a quick-release damping shaft 63 is inserted into the quick-release rotating blade A61 and the quick-release rotating blade B62 in a clearance manner for quick installation, a middle damping section 632 is positioned at a contact section of the quick-release rotating blade B62 and the quick-release rotating blade A61, a pressurizing bolt 68 is screwed upwards on a thread blind hole of an action rod 65, and liquid in a containing space is filled into a hollow space of the middle damping section 632;

step two,

safety net

4 and 3 quick dismantlements of second scaffold frame body: the pressure bolt 68 is screwed out from the threaded blind hole of the actuating rod 65 to control the liquid in the accommodating space to discharge out of the hollow space of the middle damping section 632, the gap of the quick-release damping shaft 63 is quickly and completely separated from the quick-release rotary blade B62, and the safety net 4 drives the quick-release rotary blade a61 to be separated from the quick-release rotary blade B62 on the second scaffold body 3.

Because the quick release damping shaft 63 can insert or break away from the quick gap between the quick release rotating blade A61 and the quick release rotating blade B62, the problems that the cost is increased and the construction is increased due to the fact that the existing plastic binding belt is sheared to use a new plastic binding belt are solved, and the construction is beneficial to green construction.

Claims

1. A connection construction method between scaffold bodies is characterized by comprising the following steps: safety net (4) and second scaffold frame body (3) quick installation and safety net (4) and second scaffold frame body (3) quick dismantlement two steps.

2. The connection construction method between scaffold bodies according to claim 1, wherein the rapid installation steps of the safety net (4) and the second scaffold body (3) are: safety net (4) are taken quick detach to rotate page or leaf A (61) and the quick detach on the second scaffold frame body (3) and are rotated page or leaf B (62) and correspond, quick detach damping shaft (63) clearance inserts quick detach and rotate page or leaf A (61) and quick detach and rotate the quick installation that goes on in page or leaf B (62), well damping section (632) are located quick detach and rotate page or leaf B (62) and quick detach and rotate page or leaf A (61) contact segment, pressure bolt (68) upwards precession on action bars (65) screw thread stifle, the liquid in the accommodation space fills in well damping section (632) hollow space.

3. The connection construction method between scaffold bodies according to claim 1, wherein the quick detachment of the safety net (4) from the second scaffold body (3) comprises the steps of: the pressurizing bolt (68) is screwed out downwards on a thread blind hole of the action rod (65) to control liquid in the accommodating space to discharge a hollow space of the middle damping section (632), the quick-release damping shaft (63) is separated from the quick-release rotating blade B (62) quickly and completely in a clearance mode, and the safety net (4) drives the quick-release rotating blade A (61) to be separated from the quick-release rotating blade B (62) on the second scaffold body (3).

4. The method of connection construction between scaffold bodies according to claim 1, wherein the structure of connection construction between scaffold bodies comprises:

the scaffold comprises a first scaffold frame body (2) and a second scaffold frame body (3), wherein the first scaffold frame body (2) and the second scaffold frame body (3) are distributed at intervals;

a safety net (4) for protection is arranged on the outer side edge of the fracture of the first scaffold body (2) and the second scaffold body (3), and the safety net (4) is a flexible deformable net body; one side of the safety net (4) is rotatably hinged on the first scaffold frame body (2), and the other side of the safety net (4) can be quickly assembled and disassembled through the quick disassembling component (6) and is installed on the second scaffold frame body (3).

5. The scaffolding frame body-to-frame connection construction method according to claim 4, wherein one side of the safety net (4) is rotatably hinged to the first scaffolding frame body (2) via a hinge (41).

6. The method of claim 4, wherein the quick release assembly (6) comprises:

the quick-release rotating blade A (61) is fixedly connected with the safety net (4), and a through hole is formed in the quick-release rotating blade A (61);

the quick-release rotating blade B (62) is fixedly connected with the second scaffold body (3), and a through hole is formed in the quick-release rotating blade B (62);

a quick-release damping shaft (63) which is in clearance fit with and penetrates through the through hole of the quick-release rotating blade A (61) and the through hole of the quick-release rotating blade B (62); the quick-release damping shaft (63) is formed by fixing an upper rigid section (631), a middle damping section (632) and a lower rigid section (633), the middle damping section (632) generates damping force for a damping body, and the middle damping section (632) is located at a contact section of a quick-release rotating blade B (62) and a quick-release rotating blade A (61).

7. The method for connecting and constructing scaffold frames according to claim 6, wherein the middle damping section (632) is hard elastic rubber.

8. The method for connecting and constructing scaffold frames according to claim 6, wherein the quick release assembly (6) further comprises: an action rod (65) fixedly connected with the bottom of the lower rigid section (633) through a transfer block (64);

a clamping plate (66) fixedly connected to the action rod (65), wherein a clamping through hole is arranged on the clamping plate (66);

a clamping rod (67) in clearance sliding fit with the clamping through hole of the clamping plate (66);

be equipped with the screens cooperation through-hole that corresponds with the screens through-hole on second scaffold frame body (3), screens cooperation through-hole is two of interval distribution.

9. The connection construction method of scaffold frames according to claim 8, wherein a hollow space is provided in the middle of the middle damping section (632); action pole (65) bottom is equipped with screw thread stifle hole, and airtight the closure has in the screw thread stifle that pressurizing bolt (68) constitutes accommodation space with the thread stifle hole, and accommodation space and cavity space intercommunication, pipeline (69) run through in well damping section (632) from lower rigidity section (633).

10. A method of jointing construction between scaffold bodies according to claim 8, wherein the receiving space communicates with the hollow space through a pipe (69).