CN219241266U - Rail type integral moving scaffold - Google Patents

Abstract

The utility model relates to a track type integral movable scaffold, which comprises: the scaffold pulley of each side area brake in the bottom of remove the scaffold body corresponds there is the ground slide rail, and every ground slide rail is all fixed in on the terrace, and every foot hand pulley is joined in marriage with corresponding ground slide rail mutually, and the wall side intermediate position department and the top position department of leaning on of remove the scaffold body are fixed with the connecting steel pipe respectively, and every connecting steel pipe is fixed with corresponding finished product slider bolt, and every finished product slider is joined in marriage with corresponding finished product slide rail mutually, and every finished product slide rail is fixed with corresponding L type connecting wall steel pipe bolt, and every L type connecting wall steel pipe is fixed with the built-in fitting that leaves on interlayer and the top parapet wall respectively. Because the ground track is added on the basis of the movable scaffold, the movable scaffold can move in a fixed direction during turnover movement, and the movement efficiency is quickened. The lateral track is added between layers and on the roof to play a role in attaching walls, so that the use height can be increased without worrying about lateral instability, and meanwhile, the construction progress can be ensured by the multi-layer working surface.

Description

Rail type integral moving scaffold

Technical Field

The utility model belongs to a scaffold system, and relates to a movable scaffold with a ground track and a wall surface wall connecting track, which is a product of improving a common movable scaffold by adopting a mode of adding a motion track and the like, is mainly applied to an outer elevation occasion with a certain height, which cannot directly adopt the construction of the common movable scaffold, and is particularly suitable for occasions such as integral slat installation engineering of the outer elevation of a factory building.

Background

For the outer elevation construction engineering, the prior art mainly adopts the following modes:

(1) Building an outer wall scaffold to perform outer elevation construction; (2) For lower floors, directly adopting a simple movable scaffold to perform facade construction; (3) adopting a hanging basket to carry out outer elevation construction; and (4) carrying out outer elevation construction by adopting a climbing vehicle.

The construction techniques have certain application occasions and also have own advantages and disadvantages. The whole scaffold of the outer vertical face is erected and can be generally suitable for most construction occasions, but the material consumption is large, and the cost is high; the cost of the simple movable scaffold is low, but the simple movable scaffold cannot be suitable for outer vertical surfaces exceeding a certain height due to the limitation of the height-width ratio; the hanging basket construction can be applied to a plurality of higher floors, but is not very suitable for the condition that the height is not very high, and meanwhile, the movement of the hanging basket is troublesome; the climbing vehicle is also relatively less in working surface and higher in table class cost.

Disclosure of Invention

The utility model aims to provide a scaffold scheme which can be used when a similar factory building outer vertical surface strip steel plate peripheral retaining wall is constructed, and the scaffold scheme has the following characteristics: 1. the material consumption is relatively small, and the construction cost is reduced; 2. the disassembly and assembly are simple and convenient, and the construction speed is increased; 3. the turnover use and the movement are convenient, and the safety is high; 4. and the multi-layer working surface accelerates the overall construction speed of the outer vertical surface.

The utility model solves the technical problems by the following technical proposal:

the utility model provides a rail type integral movable scaffold which is characterized by comprising a movable scaffold body, wherein a ground sliding rail is correspondingly arranged on each side of a scaffold pulley with a brake at the bottom of the movable scaffold body, each ground sliding rail is fixed on a terrace, each scaffold pulley is in sliding fit with the corresponding ground sliding rail, connecting steel pipes are respectively fixed at the middle position and the top position of the wall side of the movable scaffold body, each connecting steel pipe is fixed with a corresponding finished product sliding block bolt, each finished product sliding block is in sliding fit with the corresponding finished product sliding rail, each finished product sliding rail is fixed with a corresponding L-shaped connecting wall steel pipe bolt, and each L-shaped connecting wall steel pipe is respectively fixed with an embedded part reserved on a parapet between layers and at the top.

Preferably, each of the two sides of the ground slide rail are respectively fixed with an L-shaped connecting flat plate, and each L-shaped connecting flat plate is fixed on the terrace by adopting an expansion screw.

Preferably, each L-shaped connection flat plate is reinforced with a connection sloping plate.

Preferably, the front end and the rear end of the non-wall-leaning side of the movable scaffold body are respectively fixed with a lower supporting diagonal rod.

On the basis of conforming to the common knowledge in the field, the above preferred conditions can be arbitrarily combined to obtain the preferred examples of the utility model.

The utility model has the positive progress effects that:

the utility model increases the ground track on the basis of the movable scaffold, so that the movable scaffold can move in a fixed direction during turnover movement, and the moving efficiency is quickened. In addition, the lateral track is added between layers and on the roof to play a role of attaching walls, so that the use height can be increased without worrying about the problem of lateral instability, and meanwhile, the construction progress can be ensured by the multi-layer working surface.

Compared with the whole scaffold system of the outer wall, the utility model greatly reduces the material consumption and greatly reduces the cost. Meanwhile, compared with the construction methods such as a climbing vehicle or a hanging basket, the construction method can greatly accelerate the construction speed and the turnover moving efficiency.

Drawings

Fig. 1 is an elevation view of a track type integrally movable scaffold in accordance with a preferred embodiment of the present utility model.

Fig. 2 is a partial enlarged view of a in fig. 1.

Fig. 3 is a partial enlarged view of B in fig. 1.

Fig. 4 is a front view of a track type integrally movable scaffold according to a preferred embodiment of the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. 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.

As shown in fig. 1-4, this embodiment provides a track type integral moving scaffold, which comprises a moving scaffold body 1, scaffold pulleys 2 with brakes at each side of the bottom of the moving scaffold body 1 are correspondingly provided with ground sliding rails 3, each of two sides of the ground sliding rails 3 is fixedly provided with L-shaped connecting flat plates 4, each of the L-shaped connecting flat plates 4 is fixed on a terrace by adopting expansion screws 5, each of the L-shaped connecting flat plates 4 is reinforced with a connecting inclined plate 6, and each of the scaffold pulleys 2 is matched with the corresponding ground sliding rail 3. Connecting steel pipes 7 are respectively fixed on steel pipe vertical rods at the middle position of the wall side and the top position of the movable scaffold body 1, each connecting steel pipe 7 is fixed with a corresponding finished sliding block 8 through bolts, each finished sliding block 8 is matched with a corresponding finished sliding rail 9 in a sliding way, each finished sliding rail 9 is fixed with a corresponding L-shaped connecting wall steel pipe 10 through bolts 11, and each L-shaped connecting wall steel pipe 10 is respectively fixed with embedded parts 12 reserved on interlayer and top parapet walls.

The front and rear ends of the movable scaffold body 1, which are not close to the wall, are respectively fixed with a lower supporting diagonal rod 13.

Moving scaffold body 1: the steel pipe vertical rod adopts a socket-type coiled steel pipe with phi 48 multiplied by 3.2mm of Q345B, the diagonal draw bar is a special diagonal draw bar with phi 33 multiplied by 2.3mm of Q195, a standard steel pedal and an internal hanging ladder are adopted, a bottom scaffold pulley adopts a shaping sleeve pulley, and a ground and wall surface track adopts a shaping standard slide rail.

1. Concrete hard terrace construction

And setting up the in-range hardened terrace by adopting the C25 fine stone concrete construction scaffold.

2. Rail arrangement

The ground slide rail 3 is fixed on the terrace by adopting the expansion screw 5, the embedded part 12 is reserved between layers and on the parapet wall at the top, and the interlayer track is formed by adopting the finished slide rail 9 and the finished slide block 8.

3. Movable scaffold building

The wheel type movable operating platform is manufactured by using a field disc-buckling type scaffold steel pipe, the construction scheme of the disc-buckling type scaffold is seen in the erection process, the platform adopts a steel pedal, the step distance of a scaffold cross bar is 2m, the longitudinal distance of a vertical rod is 1.8m, the transverse distance of the vertical rod is 0.9m, a protective railing is arranged according to the requirement of edge operation, and the height of the railing is 1.5m. And is provided with a climbing hanging ladder.

4. Movable scaffold operation

Before operation, the scaffold pulley 2 and the interlayer track slide block are required to be locked, the lower supporting diagonal rod 13 is opened, and after the scaffold pulley is firmly fixed, the scaffold pulley and the interlayer track slide block can be operated by an upper person. After the inner and outer vertical surfaces of the scaffold area are finished, the locking device is released, and the scaffold is moved to the next area section for repeated operation.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (4)

1. The utility model provides a track type integral movement scaffold, its characterized in that includes the removal scaffold body, the scaffold pulley of the bottom each side area brake of removal scaffold body corresponds there is the ground slide rail, each ground slide rail is all fixed in on the terrace, each scaffold pulley is joined in marriage with corresponding ground slide rail mutually, the wall side intermediate position department and the top position department of leaning on of removal scaffold body are fixed with respectively and connect the steel pipe, each connect the steel pipe with correspond finished product slider bolt fastening, each finished product slider is joined in marriage with corresponding finished product slide rail mutually, each finished product slide rail is with corresponding L type connecting wall steel pipe bolt fastening, each L type connecting wall steel pipe is fixed with the built-in fitting that remains on interlayer and the top parapet respectively.

2. The track type integrally movable scaffold according to claim 1, wherein the two sides of each ground sliding rail are fixedly provided with L-shaped connecting flat plates, and each L-shaped connecting flat plate is fixed on the terrace by adopting expansion screws.

3. The track-type integrally movable scaffold of claim 2, wherein each of said L-shaped connection plates is reinforced with a connection sloping plate.

4. The track-type integrally movable scaffold as claimed in claim 1, wherein the front and rear ends of the non-wall-leaning side of the movable scaffold body are respectively fixed with a lower stay diagonal.

Images