阅读说明：本技术 脚手架与脚手板全方位可调式连接结构 (Omnibearing adjustable connecting structure for scaffold and scaffold board ) 是由 郑伟生 于 2019-08-09 设计创作，主要内容包括：本发明公开了脚手架与脚手板全方位可调式连接结构,主要涉及建筑工程领域。包括位移调节机构、万向角度调节机构；所述位移调节机构包括滑轨、滑块、定位机构；所述万向角度调节机构包括连接柱和球面座,所述连接柱底部设有万向转动球,所述球面座顶部设有球面槽,所述万向转动球在球面槽内万向转动；所述球面座底部固定在紧箍的顶部箍圈上。本发明的有益效果在于：本装置是一种安全稳妥的用于脚手架与脚手板连接的全方位可调式连接结构；能够统一性的用于任何建筑方位上脚手架与脚手板的连接,而且结构简单、制作成本低,是建筑领域内革命性的脚手架与脚手板的连接设计,其生产制造后具有广阔的应用市场前景。(The invention discloses an all-dimensional adjustable connecting structure for a scaffold and a scaffold board, and mainly relates to the field of constructional engineering. Comprises a displacement adjusting mechanism and a universal angle adjusting mechanism; the displacement adjusting mechanism comprises a slide rail, a slide block and a positioning mechanism; the universal angle adjusting mechanism comprises a connecting column and a spherical seat, a universal rotating ball is arranged at the bottom of the connecting column, a spherical groove is formed in the top of the spherical seat, and the universal rotating ball rotates in the spherical groove in a universal manner; the bottom of the spherical seat is fixed on the top hoop of the tightening hoop. The invention has the beneficial effects that: the device is a safe and stable omnibearing adjustable connecting structure for connecting a scaffold and a scaffold board; the scaffold board connecting device can be uniformly used for connecting the scaffold and the scaffold board in any building position, is simple in structure and low in manufacturing cost, is a revolutionary scaffold and scaffold board connecting design in the building field, and has wide application market prospect after being produced and manufactured.)

1. Connection structure with adjustable scaffold frame and scaffold board are all-round, its characterized in that: comprises a displacement adjusting mechanism which is adjusted along the length direction of a scaffold board, a tightening ring (1) which is suitable for the diameter of a scaffold and a universal angle adjusting mechanism;

the displacement adjusting mechanism comprises slide rails (2) positioned at two sides of the scaffold board, a slide block (3) sliding along the slide rails (2) and a positioning mechanism, and the positioning mechanism can limit and fix the slide block (3) on the slide rails (2);

the universal angle adjusting mechanism comprises a connecting column (4) and a spherical seat (5), the top of the connecting column (4) is connected with the sliding block (3), a universal rotating ball (6) is arranged at the bottom of the connecting column (4), a spherical groove (7) is arranged at the top of the spherical seat (5), and the universal rotating ball (6) rotates in the spherical groove (7) in a universal manner;

the bottom of the spherical seat (5) is fixed on the top hoop of the hoop (1).

2. The omnibearing adjustable connecting structure for the scaffold and the scaffold board according to claim 1, wherein: scaffold board both sides are equipped with ladder bar hole (8) that the cross-section is the echelonment, displacement adjustment mechanism still includes notch cuttype steel sheet (9) that suits with ladder bar hole (8), detachable fixed connection in ladder shape steel sheet (9) and ladder bar hole (8), both sides slide rail (2) set up on notch cuttype steel sheet (9).

3. The omnibearing adjustable connecting structure for the scaffold and the scaffold board according to claim 2, wherein: the hole width between the slide rails (2) on the two sides is smaller than the width of the slide block (3).

4. The omnibearing adjustable connecting structure for the scaffold and the scaffold board according to claim 1, wherein: the slide rail is characterized in that a plurality of thread grooves (10) are formed in two sides of the slide rail (2), threaded holes (11) corresponding to the thread grooves (10) are formed in the slide block (3), and the thread grooves (10) are fixed through bolts after corresponding to the threaded holes (11).

5. The omnibearing adjustable connecting structure for the scaffold and the scaffold board according to claim 4, wherein: slider (3) central point puts and is equipped with waist shape regulation slide opening (12), waist shape regulation slide opening (12) top still is equipped with waist shape and accepts groove (13), spliced pole (4) top is equipped with overlap joint piece (14) of taking on waist shape accepts groove (13), spliced pole (4) top slides in waist shape regulation slide opening (12).

Technical Field

The invention relates to the field of constructional engineering, in particular to an omnibearing adjustable connecting structure for a scaffold and a scaffold board.

Background

Scaffolding refers to the various supports erected on a construction site for workers to handle and address vertical and horizontal transport. Scaffold frame erects the scaffold board and makes things convenient for constructor's walking about to and the transport of building material. For different building orientations, the relative distance, the relative angle and the height difference between the scaffold and the scaffold board connecting point are different, so that the safe and reliable connecting mode needs to be selected by fully considering the relative distance, the relative angle and the height difference in different building orientations. This just leads to the connected mode between scaffold frame and the scaffold board not to have the uniformity, needs long-time work experience just can remember the main points of chooseing for use connected mode. The design is to solve the above defects and provide a safe and reliable omnibearing adjustable connecting structure for connecting the scaffold and the scaffold board.

Disclosure of Invention

The invention aims to provide an omnibearing adjustable connecting structure for connecting a scaffold and a scaffold board, which is safe and reliable and is used for connecting the scaffold and the scaffold board; the scaffold board connecting device can be uniformly used for connecting the scaffold and the scaffold board in any building position, is simple in structure and low in manufacturing cost, is a revolutionary scaffold and scaffold board connecting design in the building field, and has wide application market prospect after being produced and manufactured.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the omnibearing adjustable connecting structure for the scaffold and the scaffold plate comprises a displacement adjusting mechanism, a tightening ring and a universal angle adjusting mechanism, wherein the displacement adjusting mechanism is adjusted along the length direction of the scaffold plate; the displacement adjusting mechanism comprises slide rails positioned on two sides of the scaffold board, a slide block sliding along the slide rails and a positioning mechanism, and the positioning mechanism can limit and fix the slide block on the slide rails; the universal angle adjusting mechanism comprises a connecting column and a spherical seat, the top of the connecting column is connected with the sliding block, a universal rotating ball is arranged at the bottom of the connecting column, a spherical groove is formed in the top of the spherical seat, and the universal rotating ball rotates in the spherical groove in a universal manner; the bottom of the spherical seat is fixed on the top hoop of the tightening hoop.

Scaffold board both sides are equipped with the ladder bar hole that the cross-section is the echelonment, displacement adjustment mechanism still includes the notch cuttype steel sheet that suits with the ladder bar hole, the detachable fixed connection in ladder shape steel sheet and ladder bar hole, both sides the slide rail sets up on the ladder shape steel sheet

The width of the hole between the slide rails on the two sides is smaller than that of the slide block.

The slide rail is characterized in that a plurality of thread grooves are formed in two sides of the slide rail, threaded holes corresponding to the thread grooves are formed in the slide block, and the thread grooves are connected and fixed through bolts after corresponding to the threaded holes.

The utility model discloses a slide block, including the slider central point, the slider central point puts and is equipped with waist shape regulation slide opening, waist shape regulation slide opening top still is equipped with waist shape and accepts the groove, the spliced pole top is equipped with the overlap joint piece of taking on waist shape accepts the groove, the spliced pole top slides in waist shape regulation slide opening.

Compared with the prior art, the invention has the beneficial effects that:

the displacement adjusting mechanism of the device can realize the adaptive adjustment of the connection part of the scaffold boards according to the distance between the scaffolds at two sides; after the tightening hoop is connected to the scaffold, the slider at the top of the tightening hoop penetrates through a gap between the slide rails at two sides from the lower side of the scaffold board (the hole width between the slide rails at two sides is smaller than the width of the slider, and when the slider penetrates through the gap, the length direction of the slider is parallel to the direction of the slide rails), and the threaded hole in the slider is aligned with the corresponding threaded groove and then fixed through a bolt, so that the fixation between the scaffold and the scaffold board is completed. The universal angle adjusting mechanism can ensure the universal angle adjustment between the connecting column and the tightening hoop, thereby ensuring the universal angle adjustment when the scaffold is connected with the scaffold board. Through the universal angle adjustment of the universal angle adjusting mechanism and the adjustment of the displacement adjusting mechanism along the length direction of the scaffold board, the all-dimensional adjustment of the scaffold in the connection with the scaffold board can be truly realized, so that the all-dimensional adjustable connecting structure of the scaffold and the scaffold board is truly perfected.

Drawings

FIG. 1 is a schematic diagram of a three-dimensional structure of the present invention in a top view.

FIG. 2 is a schematic diagram of the three-dimensional structure of the present invention in a side-up view.

Fig. 3 is a schematic diagram of a three-dimensional structure of the present invention in a side plan view.

Fig. 4 is a schematic structural view of the present invention with the scaffold board and the displacement adjustment mechanism hidden.

FIG. 5 is a schematic structural diagram of the universal angle adjusting mechanism of the present invention.

FIG. 6 is an exploded view of the connection mode structure between the scaffold board, the slide rail, the slide block and the connecting column and a schematic view of the structure after the components are connected. .

Reference numerals shown in the drawings:

1. tightening; 2. a slide rail; 3. a slider; 4. connecting columns; 5. a spherical seat; 6. a universal rotating ball; 7. a spherical groove; 8. a stepped strip-shaped hole; 9. a step-shaped steel plate; 10. a thread groove; 11. a threaded hole; 12. a waist-shaped adjusting slide hole; 13. a waist-shaped receiving groove; 14. and a lapping block.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

For the connection between the scaffold and the scaffold board, based on the inconvenience in use of the prior art mentioned in the background art, the invention provides a connection design for the scaffold and the scaffold board in any building orientation, which has a simple structure and low manufacturing cost and can be unified. The structural content and the beneficial effects of the omni-directional adjustable connecting structure are described in detail below.

The invention relates to an omnibearing adjustable connecting structure for a scaffold and a scaffold board, which comprises a main body structure, a clamping ring 1 and a universal angle adjusting mechanism, wherein the main body structure comprises a displacement adjusting mechanism which is adjusted along the length direction of the scaffold board; through the universal angle adjustment of the universal angle adjusting mechanism and the adjustment of the displacement adjusting mechanism along the length direction of the scaffold board, the all-dimensional adjustment of the scaffold in the connection with the scaffold board can be truly realized, so that the all-dimensional adjustable connecting structure of the scaffold and the scaffold board is truly perfected. The structural features of the displacement adjustment mechanism and the universal angle adjustment mechanism are described below.

Displacement adjustment mechanism:

the displacement adjusting mechanism comprises slide rails 2 positioned on two sides of the scaffold board, slide blocks 3 sliding along the slide rails 2 and a positioning mechanism, the positioning mechanism can limit and fix the slide blocks 3 on the slide rails 2, and the hole widths between the slide rails 2 on two sides are smaller than the width of the slide blocks 3. The slide block 3 is fixed with the slide rail 2 in a threaded connection mode, and the method comprises the following steps: a plurality of thread grooves 10 are formed in two sides of the sliding rail 2, threaded holes 11 corresponding to the thread grooves 10 are formed in the sliding block 3, and the thread grooves 10 are connected and fixed through bolts after corresponding to the threaded holes 11.

Universal angle adjustment mechanism:

the universal angle adjusting mechanism comprises a connecting column 4 and a spherical seat 5, the top of the connecting column 4 is connected with the sliding block 3, a universal rotating ball 6 is arranged at the bottom of the connecting column 4, a spherical groove 7 is arranged at the top of the spherical seat 5, and the universal rotating ball 6 rotates in the spherical groove 7 in a universal manner; the bottom of the spherical seat 5 is fixed on the top hoop of the tightening hoop 1.

After the lock ring 1 is connected on the scaffold, through universal rotation of universal rolling ball 6 in spherical groove 7, make the length direction of lock ring 1 top slider 3 be on a parallel with the direction of slide rail 2, thereby convenient pass the space between the slide rail 2 of both sides from below scaffold board below (thereby the width between the slide rail 2 of both sides is less than the width of slider 3 and guarantees that this space of passing that slider 3 can be convenient), align the screw hole 11 on the slider 3 with corresponding thread groove 10 and pass through the bolt fastening, thereby accomplish the fixed between scaffold and the scaffold board.

The universal angle adjustment between the connecting column 4 and the tightening hoop 1 can be ensured by the arrangement of the universal angle adjusting mechanism, so that the universal angle adjustment when the scaffold is connected with the scaffold board is ensured.

To sum up, through the regulation along scaffold board length direction of universal angle modulation and displacement adjustment mechanism of universal angle adjustment mechanism, all-round adjustable when realization scaffold frame can be true is connected with the scaffold board to really perfect realization scaffold frame and scaffold board all-round adjustable connection structure.

In order to ensure the safety, the practicability and the service life of the device, the all-dimensional adjustable connecting structure is made of steel materials. In order to conveniently and fixedly install the omnibearing adjustable connecting structure on two sides of the scaffold board, the two sides of the scaffold board and the omnibearing adjustable connecting structure need to be designed in a matching type structure with simple structure. The structure design is as follows:

scaffold board both sides are equipped with the ladder bar hole 8 that the cross-section that specification attached drawing 6 is shown is the echelonment, and as specification attached drawing 6 is shown moreover, displacement adjustment mechanism still includes the notch cuttype steel sheet 9 that suits with ladder bar hole 8, notch cuttype steel sheet 9 passes through the detachable fixed connection of bolted connection's mode with ladder bar hole 8, both sides slide rail 2 sets up on notch cuttype steel sheet 9.

In the actual use process, because the adjacent thread grooves 10 on the slide rail 2 are spaced, in a special state, when the tightening band 1 is fixed with the scaffold and then adjusted by the displacement adjusting mechanism, the thread grooves 10 and the thread holes 11 may not be aligned, and the slide block 3 and the slide rail 2 cannot be fixed by the bolts. Therefore, an auxiliary positioning mechanism which is adjusted in a direction parallel to the sliding rail 2 is further arranged, the auxiliary positioning mechanism can overcome the defects of the structure, and the specific structure is as follows:

the central position of the sliding block 3 is provided with a waist-shaped adjusting sliding hole 12, the top of the waist-shaped adjusting sliding hole 12 is also provided with a waist-shaped receiving groove 13, the top of the connecting column 4 is provided with a lapping block 14 lapped on the waist-shaped receiving groove 13, and the top of the connecting column 4 slides in the waist-shaped adjusting sliding hole 12. The waist-shaped adjusting sliding hole 12 and the waist-shaped bearing groove 13 are both parallel to the direction of the sliding rail 2, so that the dislocation between the thread groove 10 and the threaded hole 11 can be compensated by the sliding of the top of the connecting column 4 in the waist-shaped adjusting sliding hole 12, the thread groove 10 and the threaded hole 11 are aligned, and then the sliding block 3 and the sliding rail 2 are fixed through bolts.