CN219863930U - Inclined support structure for building scaffold - Google Patents

Abstract

The utility model relates to the technical field of scaffolds and discloses an inclined support structure for a building scaffold, which comprises a first support column, wherein the upper part of the outer side of the first support column is connected with a second sliding block in a sliding manner, the inner side of the second sliding block is connected with a first support shaft in a sliding manner, the upper part of the first support shaft is provided with a first limiting plate, the left side of the first limiting plate is fixedly connected with a fixed plate, the inside of the fixed plate is connected with a telescopic plate in a sliding manner, the left side of the telescopic plate is fixedly connected with a second limiting plate, the lower part of the second limiting plate is provided with a second support shaft, and the outer sides of two ends of the second support shaft are connected with another second sliding block in a sliding manner. According to the utility model, through the cooperation among the structures such as the first support column, the second sliding block, the first support shaft, the first limiting plate, the fixed plate, the telescopic plate, the second support shaft and the like, the height of the building scaffold can be finely adjusted by the inclined support structure, and the practicability of the building scaffold is effectively improved.

Description

Inclined support structure for building scaffold

Technical Field

The utility model relates to the technical field of scaffolds, in particular to an inclined support structure for a building scaffold.

Background

In the construction industry, in order to enable construction workers to work at corresponding heights, a scaffold is usually built near a building, a bearing platform with corresponding heights is provided for the workers through the scaffold, so that the workers can finish corresponding work on the bearing platform, the existing construction scaffold cannot finely adjust the heights of the scaffold when in use, certain difficulty is caused for construction of the workers, storage space requirements are large, and storage is inconvenient, so that an inclined support structure for the construction scaffold is needed.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides an inclined support structure for a building scaffold.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a bearing diagonal structure for building scaffold, including first support column, first support column outside upper portion sliding connection has the second sliding block, the inboard sliding connection of second sliding block has first back shaft, the upper portion of first back shaft is provided with first limiting plate, first limiting plate left side fixedly connected with fixed plate, the inside sliding connection of fixed plate has the expansion plate, expansion plate left side fixedly connected with second limiting plate, the lower part of second limiting plate is provided with the second back shaft, second back shaft both ends outside sliding connection has another second sliding block, another second sliding block sliding connection is in the second support column outside.

As a further description of the above technical solution:

the utility model discloses a first support column outside lower part sliding connection has first sliding block, first sliding block one side fixedly connected with first installation piece, first installation piece middle part fixedly connected with first connecting axle, first connecting axle outside rotates and is connected with first connecting plate, first connecting plate one end inboard rotates and is connected with the second connecting axle, second connecting axle fixed connection is in second installation piece middle part, second installation piece fixed connection is in second sliding block one side.

As a further description of the above technical solution:

the lower parts of the outer sides of the first support column and the second support column are both in sliding connection with a first sliding block.

As a further description of the above technical solution:

the upper parts of the outer sides of the first support column and the second support column are both in sliding connection with a second sliding block.

As a further description of the above technical solution:

the middle parts of the first support column and the second support column are both in sliding connection with a positioning shaft, the middle parts of the first support column are uniformly provided with first mounting holes, and the middle parts of the second support column are uniformly provided with second mounting holes.

As a further description of the above technical solution:

the middle part of the first connecting plate is rotationally connected with another first connecting plate through a rotating shaft.

As a further description of the above technical solution:

the first installation block is positioned on one side of the first sliding block, which is close to the first sliding block.

The utility model has the following beneficial effects:

1. according to the utility model, through the cooperation among the structures such as the first support column, the second sliding block, the first support shaft, the first limiting plate, the fixed plate, the telescopic plate, the second support shaft and the like, the height of the building scaffold can be finely adjusted by the inclined support structure, and the practicability of the building scaffold is effectively improved.

2. According to the utility model, the building scaffold is convenient to store by matching the structures of the first sliding block, the first connecting shaft, the first connecting plate, the second connecting shaft, the second sliding block and the like, so that the storage space of the building scaffold is reduced.

Drawings

Fig. 1 is a perspective view of a diagonal support structure for a construction scaffolding according to the present utility model;

fig. 2 is a side view of a diagonal support structure for a construction scaffolding according to the present utility model;

fig. 3 is a top view of a diagonal support structure for a construction scaffolding according to the present utility model.

Legend description:

1. a first support column; 2. a first mounting hole; 3. a first slider; 4. positioning a shaft; 5. a first mounting block; 6. a first connecting shaft; 7. a first connection plate; 8. a second connecting shaft; 9. a second mounting block; 10. a second support column; 11. a second mounting hole; 12. a second slider; 13. a second support shaft; 14. a rotating shaft; 15. a first support shaft; 16. a first limiting plate; 17. a fixing plate; 18. a telescoping plate; 19. and the second limiting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, one embodiment provided by the present utility model is: the inclined support structure for the building scaffold comprises a first support column 1, wherein the upper part of the outer side of the first support column 1 is connected with a second sliding block 12 in a sliding way, the inner side of the second sliding block 12 is connected with a first support shaft 15 in a sliding way, the upper part of the first support shaft 15 is provided with a first limiting plate 16, the left side of the first limiting plate 16 is fixedly connected with a fixed plate 17, the inside of the fixed plate 17 is connected with a telescopic plate 18 in a sliding way, the left side of the telescopic plate 18 is fixedly connected with a second limiting plate 19, the lower part of the second limiting plate 19 is provided with a second support shaft 13, the outer sides of the two ends of the second support shaft 13 are connected with another second sliding block 12 in a sliding way, the other second sliding block 12 is connected with the outer side of the second support column 10 in a sliding way, when the height of the building scaffold is required to be adjusted, the first limiting plate 16 is pulled to separate the first limiting plate 16 from the first support shaft 15, the first limiting plate 16 drives the fixed plate 17 to move, the fixed plate 17 drives the telescopic plate 18 to move, the telescopic plate 18 drives the second limiting plate 19 to separate from the second supporting shaft 13, the second supporting shaft 13 and the first supporting shaft 15 are pulled, the second supporting shaft 13 and the first supporting shaft 15 slide out of the second sliding block 12, the positioning shaft 4 is pulled to slide out of the first sliding block 3, the first sliding block 3 is pulled to slide out of the first supporting column 1, the first sliding block 3 drives the first installation block 5 to move, the first installation block 5 drives the first connecting shaft 6 to move, the first connecting shaft 6 pulls the first connecting plate 7 to rotate along the rotating shaft 14, the first connecting plate 7 pulls the second connecting shaft 8 to move, the second connecting shaft 8 drives the second installation block 9 to move, the second installation block 9 drives the second sliding block 12 to move, when the second sliding block 12 moves to the height to be adjusted, the second supporting shaft 13 and the first supporting shaft 15 are pushed, so that the second supporting shaft 13 and the first supporting shaft 15 slide into the second sliding block 12, the positioning shaft 4 is pushed, the positioning shaft 4 slides into the first sliding block 3, the first limiting plate 16 is placed on the upper portion of the first supporting shaft 15, the telescopic plate 18 is pulled, the telescopic plate 18 drives the second limiting plate 19 to move to the upper portion of the second supporting shaft 13, and therefore the height of the building scaffold can be finely adjusted by the inclined supporting structure, and the practicability of the building scaffold is effectively improved.

The lower part sliding connection has first sliding block 3 in the outside of first support column 1, first installation piece 5 of first sliding block 3 one side fixedly connected with, first connecting axle 6 of first installation piece 5 middle part fixedly connected with, first connecting axle 6 outside rotates and is connected with first connecting plate 7, first connecting axle 7 one end inboard rotates and is connected with second connecting axle 8, second connecting axle 8 fixed connection is in second installation piece 9 middle part, second installation piece 9 fixed connection is in second sliding block 12 one side, when needs accomodate the building scaffold, pulling first limiting plate 16 makes first limiting plate 16 break away from first back shaft 15, first limiting plate 16 drives fixed plate 17 and removes, fixed plate 17 drives expansion plate 18 and removes, expansion plate 18 drives second limiting plate 19 break away from second back shaft 13, pulling second back shaft 13 and first back shaft 15, make second back shaft 13 and first back shaft 15 roll out second sliding block 12, pulling locating shaft 4 makes locating shaft 4 roll out first sliding block 3, promote first support column 1 and make first support column 1 and second support column 10 remove relative support column 10, the storage space of having realized so that this scaffold has reduced.

The lower parts outside the first support column 1 and the second support column 10 are both in sliding connection with a first sliding block 3, and the first sliding block 3 is limited through the first support column 1 and the second support column 10.

The upper parts of the outer sides of the first support column 1 and the second support column 10 are both connected with a second sliding block 12 in a sliding manner, and the second sliding block 12 is limited through the first support column 1 and the second support column 10.

The middle parts of the first support column 1 and the second support column 10 are both in sliding connection with a positioning shaft 4, the middle part of the first support column 1 is uniformly provided with a first mounting hole 2, the middle part of the second support column 10 is uniformly provided with a second mounting hole 11, and the positioning shaft 4 is mounted through the first mounting hole 2 and the second mounting hole 11.

The middle part of the first connecting plate 7 is rotationally connected with another first connecting plate 7 through a rotating shaft 14, and the first connecting plate 7 is connected through the rotating shaft 14.

The first mounting block 5 is located on the side of the first slider 3 close to the first slider 3, and the first mounting block 5 is mounted by the first slider 3.

Working principle: when the height of the building scaffold is required to be adjusted, the first limiting plate 16 is pulled to enable the first limiting plate 16 to be separated from the first supporting shaft 15, the first limiting plate 16 drives the fixed plate 17 to move, the fixed plate 17 drives the telescopic plate 18 to move, the telescopic plate 18 drives the second limiting plate 19 to be separated from the second supporting shaft 13, the second supporting shaft 13 and the first supporting shaft 15 are pulled to enable the second supporting shaft 13 and the first supporting shaft 15 to slide out of the second sliding block 12, the positioning shaft 4 is pulled to enable the positioning shaft 4 to slide out of the first sliding block 3, the first sliding block 3 is pulled to enable the first sliding block 3 to slide outside the first supporting column 1, the first installation block 5 is driven to move, the first installation block 5 drives the first connecting shaft 6 to move, the first connecting shaft 6 pulls the first connecting plate 7 to enable the first connecting plate 7 to rotate along the rotating shaft 14, the first connecting plate 7 pulls the second connecting shaft 8 to move, the second connecting shaft 8 drives the second installation block 9 to move, the second installation block 9 drives the second sliding block 12 to move, the second sliding block 12 pushes the second supporting shaft 13 and the first supporting shaft 15 when moving to the height to be regulated, the second supporting shaft 13 and the first supporting shaft 15 slide into the second sliding block 12, the positioning shaft 4 is pushed to slide the positioning shaft 4 into the first sliding block 3, the first limiting plate 16 is placed on the upper part of the first supporting shaft 15, the telescopic plate 18 is pulled to drive the telescopic plate 18 to drive the second limiting plate 19 to move to the upper part of the second supporting shaft 13, thereby realizing that the inclined supporting structure can finely regulate the height of the building scaffold, effectively improving the practicability of the building scaffold, when the building scaffold is required to be stored, the first limiting plate 16 is pulled to separate the first limiting plate 16 from the first supporting shaft 15, the first limiting plate 16 drives the fixed plate 17 to move, the fixed plate 17 drives the expansion plate 18 to move, the expansion plate 18 drives the second limiting plate 19 to separate from the second supporting shaft 13, the second supporting shaft 13 and the first supporting shaft 15 are pulled, the second supporting shaft 13 and the first supporting shaft 15 slide out of the second sliding block 12, the positioning shaft 4 is pulled, the positioning shaft 4 slides out of the first sliding block 3, the first supporting column 1 is pushed, the first supporting column 1 and the second supporting column 10 are pushed to move relatively, and therefore the building scaffold is convenient to store, and the storage space of the building scaffold is reduced.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. Inclined support structure for building scaffold, comprising a first support column (1), characterized in that: the utility model discloses a first support column (1) outside upper portion sliding connection has second sliding block (12), second sliding block (12) inboard sliding connection has first back shaft (15), the upper portion of first back shaft (15) is provided with first limiting plate (16), first limiting plate (16) left side fixedly connected with fixed plate (17), inside sliding connection of fixed plate (17) has expansion plate (18), expansion plate (18) left side fixedly connected with second limiting plate (19), the lower part of second limiting plate (19) is provided with second back shaft (13), second back shaft (13) both ends outside sliding connection has another second sliding block (12), another second sliding block (12) sliding connection is in the outside of second support column (10).

2. The diagonal bracing structure for a building scaffolding according to claim 1, wherein: the utility model discloses a first support column (1) outside lower part sliding connection has first sliding block (3), first sliding block (3) one side fixedly connected with first installation piece (5), first connecting axle (6) of first installation piece (5) middle part fixedly connected with, first connecting axle (6) outside rotates and is connected with first connecting plate (7), the inboard rotation of first connecting plate (7) one end is connected with second connecting axle (8), second connecting axle (8) fixed connection is in second installation piece (9) middle part, second installation piece (9) fixed connection is in second sliding block (12) one side.

3. The diagonal bracing structure for a building scaffolding according to claim 1, wherein: the lower parts of the outer sides of the first support column (1) and the second support column (10) are both connected with a first sliding block (3) in a sliding manner.

4. The diagonal bracing structure for a building scaffolding according to claim 1, wherein: the upper parts of the outer sides of the first support column (1) and the second support column (10) are both connected with a second sliding block (12) in a sliding way.

5. The diagonal bracing structure for a building scaffolding according to claim 1, wherein: the novel support is characterized in that the middle parts of the first support column (1) and the second support column (10) are both connected with the positioning shaft (4) in a sliding mode, the first mounting holes (2) are uniformly formed in the middle part of the first support column (1), and the second mounting holes (11) are uniformly formed in the middle part of the second support column (10).

6. The diagonal bracing structure for construction scaffolding according to claim 2, wherein: the middle part of the first connecting plate (7) is rotationally connected with another first connecting plate (7) through a rotating shaft (14).

7. The diagonal bracing structure for construction scaffolding according to claim 2, wherein: the first mounting block (5) is positioned on the side, close to the first sliding block (3), of the first sliding block.