CN219790484U - Novel ten thousand power presss from both sides springboard - Google Patents

Abstract

The utility model relates to the field of components or accessories of scaffolds, and particularly discloses a novel universal force clamping springboard, which comprises an end socket, a springboard panel, universal force clampable supports and footings arranged on two sides of the springboard panel; the footing is of a tubular structure and is formed by bending the edge of the springboard panel, the edge of the hem of the footing is clung to the springboard panel and is riveted by a rivet-free way, and joints formed by the rivet-free way are protruded on the front surface of the springboard panel and are positioned on two sides of the clampable universal force support; the clampable force support is of a square tube or rectangular tubular structure and is perpendicular to the length direction of the springboard panel, and a plurality of clampable force supports are arranged at intervals in the length direction of the springboard panel; the seal heads are arranged at two ends of the springboard panel. The utility model has the advantages of increasing the overall bearing capacity of the gangboard, saving the cost, improving the manufacturing and mounting efficiency, and rapidly determining the position of the clampable ten-thousand-force support on the back of the gangboard on the premise of not damaging the surface of the board, thereby improving the operation efficiency.

Description

Novel ten thousand power presss from both sides springboard

Technical Field

The utility model relates to the field of components or accessories of scaffolds, in particular to a novel universal clamping springboard.

Background

The scaffold is used for auxiliary facilities in the building construction process, and a working platform which is erected in the construction process is ensured to be carried out smoothly. The scaffold is also used for the construction of large ships in shipbuilding factories, but the difference is that the construction of large ships is performed in a modularized mode, and each module forming the ships is firstly constructed independently, then combined and spliced. The scaffold is erected by taking each module as a working object. And, the module undergoes a plurality of processes such as welding forming, sand blasting, paint spraying and the like during the construction, wherein the process sites also comprise outdoor open-air and indoor closed sites, and the module also needs to be turned over during the construction so as to work on each part.

The springboard, also called pedal, is a part of the scaffold for the constructors to walk and stand. The spring board with the universal force clip is a spring board, is usually made of a board material by bending, is fixed by the universal force clip when in use, has the characteristics of firm and convenient fixation, and has some defects. The clamping universal force support is positioned on the back surface of the gangboard, and cannot be seen from the front surface of the gangboard, so that the clamping position cannot be quickly determined when the gangboard is fixed by the universal force clamp; after the plate is bent, the parallel surfaces are not firmly attached, and the plate is easy to slide in use, so that the bearing capacity of the springboard is reduced.

Disclosure of Invention

In view of the shortcomings of the background technology, the utility model provides a novel universal force clamp springboard, which comprises an end socket, a springboard panel, universal force clamps and footings arranged on two sides of the springboard panel;

the foot is of a tubular structure and is formed by bending the edge of the springboard panel, the edge of the hem of the foot is clung to the springboard panel and is riveted by a rivet-free joint, and the joint formed by the rivet-free joint is protruded on the front surface of the springboard panel and is positioned at two sides of the clampable universal force support;

the clampable universal force support is of a square tube or rectangular tubular structure and is perpendicular to the length direction of the springboard panel, and a plurality of clampable universal force supports are arranged at intervals in the length direction of the springboard panel;

the seal heads are arranged at two ends of the springboard panel.

According to the technical scheme, when the jump board is used, the jump board can be quickly fixed and overlapped by clamping the universal force support through the universal force clamp, and compared with the traditional universal force clamp jump board, in the scheme, the hem edge of the foot and the jump board panel are firmly fixed through rivet-free riveting, so that the problems of sliding, translation and dislocation of the foot and the jump board panel in use are solved, and based on the problem, the bearing capacity of the jump board is improved, namely, the bearing capacity of the jump board is improved; based on the method, the springboard with the same or higher bearing capacity than the thick board can be achieved by using the board with the thinner thickness, so that the cost is saved, the weight of the board is reduced, and meanwhile, the labor consumption of workers in manufacturing and using the board is reduced due to the weight reduction of the board, and the working efficiency is further improved; compared with other connection modes, the rivet-free riveting is used in the scheme, so that the surface of the plate is prevented from being damaged, such as screws or connection in a punching mode, the surface of the plate can be damaged, once the surface of the plate is damaged, the corrosion resistance of the plate is reduced, and the plate is extremely easy to corrode under coastal or offshore severe weather conditions; the joint formed by rivet-free connection indicates the position of the clampable universal support on the back of the gangway, the gangway can be positioned and fixed quickly when the gangway is used, the gangway is not required to be turned over, physical strength is saved, the installation and fixing efficiency is improved, and compared with other mode marks such as paint, the mark formed by the joint in the scheme is a permanent mark, is not easy to eliminate and can not naturally fall off, multiple functions are realized by one action, and the cost is saved.

Preferably, the 4 joints on two sides of each clampable ten-thousand-force support are connected into a rectangle, so that the position of each clampable ten-thousand-force support can be determined more clearly and accurately through the joints.

Preferably, the joints at two sides of each clampable universal force support are symmetrically distributed along the clampable universal force support.

Preferably, the vertical distance between the connector and the nearest clampable ten-thousand-force support is 2-20mm, so that the position of the clampable ten-thousand-force support can be determined more clearly and accurately through the connector.

Preferably, the height of the clampable support is consistent with the height of the foot.

Preferably, the width of the clampable support is at least 40mm.

Preferably, the plurality of clampable ten-thousand force struts are uniformly arranged at intervals.

Preferably, the front surface of the springboard panel is provided with an anti-slip strip and a drain hole.

Preferably, the anti-slip strips are perpendicular to the length direction of the springboard panel, and the anti-slip strips are protruded on the springboard panel and are formed by a plurality of evenly arranged twills.

Preferably, the width of the foot is no more than 30mm.

Compared with the prior art, the utility model has the advantages of increasing the overall bearing capacity of the gangboard, saving the cost, improving the manufacturing and mounting efficiency, and rapidly determining the position of the clampable ten-thousand-force support on the back of the gangboard on the premise of not damaging the surface of the board, thereby improving the operation efficiency.

Drawings

The utility model has the following drawings:

FIG. 1 is a schematic front view of the present utility model;

FIG. 2 is a schematic back view of the present utility model;

FIG. 3 is a schematic cross-sectional view of A-A of FIG. 2;

fig. 4 is an enlarged schematic view of B in fig. 3.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

As shown in fig. 1-4, the novel universal force clamp springboard comprises a seal head 1, a springboard panel 2, a clampable universal force support 3 and bottom feet 4 arranged on two sides of the springboard panel 2; the footing 4 is of a tubular structure and is formed by bending the edge of the springboard panel 2, the edge of the hem of the footing 4 is tightly attached to the springboard panel 2 and is riveted by a rivet-free joint, and the joint 5 formed by the rivet-free joint is protruded on the front surface of the springboard panel 2 and is positioned at two sides of the clampable universal force support 3; the clampable ten-thousand-force support 3 is of a square tube or rectangular tubular structure and is perpendicular to the length direction of the springboard panel 2, and a plurality of clampable ten-thousand-force supports 3 are arranged at intervals in the length direction of the springboard panel 2; the seal heads 1 are arranged at two ends of the gangway panel 2.

According to the technical scheme, when the jump board is used, the jump board can be quickly fixed and overlapped by clamping the universal force support through the universal force clamp, and compared with the traditional universal force clamp jump board, in the scheme, the hem edge of the foot and the jump board panel are firmly fixed through rivet-free riveting, so that the problems of sliding, translation and dislocation of the foot and the jump board panel in use are solved, and based on the problem, the bearing capacity of the jump board is improved, namely, the bearing capacity of the jump board is improved; based on the method, the springboard with the same or higher bearing capacity than the thick board can be achieved by using the board with the thinner thickness, so that the cost is saved, the weight of the board is reduced, and meanwhile, the labor consumption of workers in manufacturing and using the board is reduced due to the weight reduction of the board, and the working efficiency is further improved; compared with other connection modes, the rivet-free riveting is used in the scheme, so that the surface of the plate is prevented from being damaged, such as screws or connection in a punching mode, the surface of the plate can be damaged, once the surface of the plate is damaged, the corrosion resistance of the plate is reduced, and the plate is extremely easy to corrode under coastal or offshore severe weather conditions; the joint formed by rivet-free connection indicates the position of the clampable universal support on the back of the gangway, the gangway can be positioned and fixed quickly when the gangway is used, the gangway is not required to be turned over, physical strength is saved, the installation and fixing efficiency is improved, and compared with other mode marks such as paint, the mark formed by the joint in the scheme is a permanent mark, is not easy to eliminate and can not naturally fall off, multiple functions are realized by one action, and the cost is saved.

In this scheme, 4 joints 5 that can press from both sides ten thousand force props 3 both sides are connected into the rectangle and along can press from both sides ten thousand force props 3 symmetric distribution, and every joint 5 is 10mm apart from nearest perpendicular distance that can press from both sides ten thousand force props 3, like this, 4 joints 5 more clearly accurate confirm can press from both sides the position that ten thousand force propps 3.

In this scheme, can press from both sides ten thousand power and prop 3 highly unanimous with footing 4, can press from both sides ten thousand power and prop 3's width and be 50mm, and can press from both sides ten thousand power and prop 3 interval evenly setting.

In this scheme, be equipped with antislip strip 6 and wash port 7 on the gangway panel 2 openly, antislip strip 6 sets up in gangway panel 2 length direction perpendicularly, and antislip strip 6 is protruding in the gangway panel and comprises a plurality of twills of evenly setting, and the width of footing 4 is 20mm.

The present utility model has been made in view of the above-described circumstances, and it is an object of the present utility model to provide a portable electronic device capable of performing various changes and modifications without departing from the scope of the technical spirit of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (10)

1. The utility model provides a novel ten thousand power presss from both sides springboard which characterized in that: comprises an end socket, a springboard panel, a clampable force support and bottom feet arranged at two sides of the springboard panel;

the foot is of a tubular structure and is formed by bending the edge of the springboard panel, the edge of the hem of the foot is clung to the springboard panel and is riveted by a rivet-free joint, and the joint formed by the rivet-free joint is protruded on the front surface of the springboard panel and is positioned at two sides of the clampable universal force support;

the clampable universal force support is of a square tube or rectangular tubular structure and is perpendicular to the length direction of the springboard panel, and a plurality of clampable universal force supports are arranged at intervals in the length direction of the springboard panel;

the seal heads are arranged at two ends of the springboard panel.

2. The novel power clamp springboard of claim 1, wherein: and 4 joints on two sides of each clampable ten-thousand-force support are connected into a rectangle.

3. The novel power clamp springboard of claim 2, wherein: the joints at two sides of each clampable universal force support are symmetrically distributed along the clampable universal force support.

4. The novel power clamp springboard of claim 1, wherein: the vertical distance between the joint and the nearest clampable ten-thousand-force support is not more than 30mm.

5. The novel power clamp springboard of claim 1, wherein: the height of the clampable universal force support is consistent with the height of the foot.

6. The novel power clamp springboard of claim 1, wherein: the width of the clampable ten-thousand-force support is at least 40mm.

7. The novel power clamp springboard of claim 1, wherein: the clamping ten-thousand force struts are uniformly arranged at intervals.

8. The novel power clamp springboard of claim 1, wherein: the front surface of the springboard panel is provided with an anti-slip strip and a drain hole.

9. The novel power clamp springboard of claim 8, wherein: the antiskid strips are perpendicular to the length direction of the springboard panel, and are protruded on the springboard panel and are formed by a plurality of evenly arranged twills.

10. The novel power clamp springboard of claim 1, wherein: the width of the foot is 20mm.