CN114718291B - Easy-to-disassemble automatic lifting scaffold - Google Patents

Abstract

The invention discloses an automatic lifting scaffold easy to disassemble and assemble, which comprises at least one unit scaffold assembly body, wherein the scaffold assembly body comprises a multi-layer pavement plate, a plurality of lifting assemblies corresponding to the multi-layer pavement plate, a driving assembly, a main climbing frame and a plurality of wall fixing assemblies, one end of each wall fixing assembly is fixed on a building wall, the other end of each wall fixing assembly is fixedly connected with the main climbing frame, the main climbing frame is arranged on two sides of the pavement plate to provide a moving track for lifting of the pavement plate, the lifting assemblies are vertically distributed on the main climbing frame at intervals and are in sliding connection with the main climbing frame, one side of each pavement plate is fixed on the lifting assembly corresponding to the pavement plate, the driving assembly is fixed on a building wall above the uppermost lifting assembly, and the driving assembly is connected with the lifting assemblies through the same rope, and the lifting assemblies can lift on the main climbing frame under the driving of the driving assembly, so that the lifting assemblies can lift on the main climbing frame, and the pavement plates are driven to lift.

Description

Easy-to-disassemble automatic lifting scaffold

Technical Field

The invention relates to the technical field of building construction equipment, in particular to an easy-to-disassemble automatic lifting scaffold for high-rise building construction.

Background

The scaffold is a working platform erected to ensure that each construction process is smoothly carried out, and is one of the most common construction equipment in the building field. The scaffold is erected on the periphery of a main structure of a building to perform construction operation when in use, and a plurality of sets of scaffolds are generally required to be hung outside in super high-rise buildings. At present, the traditional scaffold is generally composed of all-steel climbing frame pavement plates, and the manufacturing process is that a frame is made of square tubes, and then pattern steel plates are paved on the frame. The requirement of the climbing frame pavement board in the use of high-rise buildings is huge, the climbing frame pavement board is limited by space positions during installation, and the climbing frame pavement board is carried by manpower and is heavy during installation; the disassembly and assembly processes are more, the pattern steel plates and the square tubes are required to be disassembled or assembled one by one, the disassembly difficulty is high, the tower crane is required to be used for repeatedly hoisting and lifting the externally hung scaffold, and the potential safety hazard is high; meanwhile, the labor intensity of the installer is also high, the labor consumption is high, and the construction safety is greatly influenced.

Disclosure of Invention

The invention aims to provide an easy-to-disassemble automatic lifting scaffold for high-rise building construction, which is characterized in that a pavement plate is integrally designed so that the scaffold can be moved integrally when lifting without splicing and installing the pavement plate again, thereby being convenient for disassembly and assembly, reducing the labor intensity of installers and reducing the potential safety hazard in the construction process.

In order to achieve the technical purpose, the invention provides an automatic lifting scaffold easy to disassemble and assemble, which comprises at least one unit scaffold assembly body, wherein the scaffold assembly body comprises a plurality of layers of pavement plates, a plurality of lifting assemblies corresponding to the pavement plates, a driving assembly, a main climbing frame and a plurality of wall fixing assemblies, one end of each wall fixing assembly is fixed on a building wall, the other end of each wall fixing assembly is fixedly connected with the main climbing frame, the main climbing frame is arranged on two sides of the pavement plates, a moving track is provided for lifting of the pavement plates, a plurality of lifting assemblies are vertically distributed on the main climbing frame at intervals and are in sliding connection with the main climbing frame, one side of each pavement plate is fixed on the lifting assembly corresponding to the pavement plate, the driving assembly is fixed on the building wall above the uppermost lifting assembly, the driving assembly is connected with the lifting assemblies through a rope, and the lifting assemblies can lift on the main climbing frame under the driving of the driving assembly, so that the plurality of pavement plates can be driven to lift.

Preferably, the pavement plate comprises a working surface and connecting surfaces arranged on two sides of the working surface, the pavement plate is fixedly connected with the lifting assembly through the connecting surfaces on one side, and the two connecting surfaces and the working surface are of an integrated structure.

More preferably, the working surface of the pavement plate is provided with a plurality of protrusions and a plurality of grooves for ensuring the anti-skid effect, the grooves are arranged along the length direction of the pavement plate, and two sides of the grooves penetrate through two ends of the working surface of the pavement plate.

More preferably, the two connecting surfaces of the pavement plate are provided with connecting holes, the bottom of the pavement plate is provided with a supporting plate, at least one side of the supporting plate is connected with one connecting surface of the pavement plate through the connecting holes, and one side of the supporting plate, which is close to the lifting assembly, is fixed on the lifting assembly.

Preferably, each lifting component comprises two sliding blocks, a cross beam and fixed square steel, wherein the sliding blocks are connected to the main climbing frame in a sliding mode, the cross beam is arranged between the two sliding blocks, two ends of the fixed square steel are fixed between the two sliding blocks above the cross beam, and lifting lugs used for penetrating through ropes are arranged in the middle of the fixed square steel.

Preferably, the main climbing frame comprises at least three upright posts, wherein two upright posts are arranged on one side of the pavement plate, which is close to the lifting assembly, and are slide rails matched with the slide blocks, the other upright post is arranged on the other side of the pavement plate, the slide blocks matched with the upright posts are also connected on the upright posts in a sliding manner, and the slide blocks are fixedly connected with the pavement plate.

More preferably, a connecting plate is fixed on one upright post positioned at one side of the lifting assembly, two U-shaped steel are fixedly connected through the connecting plate, and the other side of the two U-shaped steel is fixedly connected with the wall body fixing assembly.

Preferably, the wall fixing assembly comprises a fixing plate and connecting rods arranged at two ends of the fixing plate, wherein the fixing plate is provided with mounting holes for connecting building walls, and the connecting rods are fixed on the two U-shaped steel.

Preferably, the driving assembly is an electric hoist, the electric hoist is fixed on a building wall, and a plurality of lifting assemblies are connected together by ropes of the electric hoist.

Preferably, the scaffold assembly further comprises an auxiliary supporting assembly, wherein the auxiliary supporting assembly comprises a plurality of first inclined struts fixedly connected to the top of the main climbing frame, a plurality of second supports fixedly connected between two adjacent pavement plates and a plurality of Z-shaped steel fixedly connected between the main climbing frames.

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

The invention provides an easy-to-disassemble automatic lifting scaffold, which is a working platform for high-rise building construction, wherein a plurality of integrally designed pavement plates are fixedly connected to lifting assemblies, the number of the lifting assemblies is multiple, the lifting assemblies are vertically and slidingly connected to a main climbing frame at intervals, a sliding block is matched with the main climbing frame to form a sliding block and a sliding rail, the lifting assemblies are connected together through the same rope, the top ends of the ropes are connected to a driving assembly, and thus, when the driving assembly is started, the ropes can be driven to drive the lifting assemblies to move up and down, so that the integral lifting of a plurality of layers of pavement plates on the main climbing frame is realized. The technical scheme of the invention firstly realizes the integral lifting of the multi-layer pavement plate, and improves the construction efficiency of lifting in a small range of height; secondly, if the lifting of the height of the main climbing frame is exceeded, only the driving assembly, the wall fixing assembly and the main climbing frame are required to be dismounted and lifted and then reinstalled, the pavement plate and the lifting assembly are assembled, the main climbing frame is integrally installed on the main climbing frame after being installed, materials and manpower are saved, the independence is strong, the rigidity is good, the difficulty in mounting and dismounting the pavement plate and the difficulty in lifting are reduced, the risk is reduced, the construction efficiency and the quality are improved, and meanwhile the construction cost is also reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the scaffold according to the present invention;

Fig. 2 is a rear view of the scaffold of the present invention;

fig. 3 is a side view of the scaffold of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 2;

FIG. 6 is a schematic view of the structure of the walkway plate according to the present invention;

FIG. 7 is a schematic view of a lifting assembly according to the present invention;

fig. 8 is a schematic structural view of the wall fixing assembly according to the present invention.

The figure shows:

The device comprises a 1-pavement plate, a 11-working surface, a 111-bulge, a 112-groove, a 12-connection surface, a 121-connection hole, a 2-lifting assembly, a 21-sliding block, a 22-cross beam, a 23-fixed square steel, a 3-driving assembly, a 4-main climbing frame, a 41-upright post, a 42-connection plate, a 43-U-shaped steel, a 5-wall fixing assembly, a 51-fixing plate, a 511-installation hole, a 52-connection rod, a 6-supporting plate, a 7-lifting lug, an 8-auxiliary supporting assembly, 81-first diagonal braces 81, 82-second supports and 83-Z-shaped steel.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The invention aims at the problems that the prior scaffold is formed by splicing square pipes with larger number and pattern steel plates, the lifting is required to be disassembled again, time and labor are wasted, and potential safety hazards are larger, and an easy-to-disassemble automatic lifting scaffold is designed, the structure of the scaffold is shown in figures 1-5, the scaffold assembly comprises at least one unit of scaffold assemblies, the pavement plates 1 between the scaffold assemblies are correspondingly welded together layer by layer, each scaffold assembly comprises a plurality of layers of pavement plates 1, a plurality of lifting assemblies 2, a driving assembly 3, a main climbing frame 4 and a plurality of wall fixing assemblies 5, one end of each wall fixing assembly 5 is fixed on a building wall, the other end of each wall fixing assembly is fixedly connected with the main climbing frame 4, the main climbing frame 4 is arranged on two sides of the pavement plates 1, a moving track is provided for lifting of the pavement plates 1, the lifting assemblies 2 are vertically distributed on the main climbing frame 4 at intervals, the number and positions of the pavement plates 1 correspond to the lifting assemblies 2, one side of each pavement plate 1 is fixed on the same lifting assembly 3 through the driving assembly 2, and the lifting assembly 3 is fixedly connected with the lifting assembly 2 on the lifting assembly 2.

According to the technical scheme, the pavement slab 1 is fixedly connected to the lifting assembly 2, the lifting assembly 2 is connected to the main climbing frame 4 in a sliding manner, the lifting assemblies 2 are connected together through the ropes of the driving assembly 3, and the driving assembly 3 is started to drive the lifting assemblies 2 to integrally lift or descend on the main climbing frame 4, so that the pavement slab 1 is driven to integrally lift, the scaffold is not required to be disassembled and assembled in the lifting of a small range of height (the height range of the main climbing frame 4), the working efficiency is improved, and the potential safety hazard is reduced.

In the concrete implementation, as shown in fig. 4, the pavement plate 1 is connected with the lifting assembly 2 through a supporting plate 6, the supporting plate 6 is an L-shaped steel plate or a U-shaped steel plate, one or two vertical surfaces of the supporting plate 6 are provided with mounting holes, and when the supporting plate 6 is an L-shaped plate, the supporting plate 6 is connected with the sliding block 21 of the lifting assembly 2 through the mounting hole on one vertical surface; when the supporting plate 6 is a U-shaped steel plate, the mounting hole on one vertical surface is connected with the sliding block 21 of the lifting assembly 2, the mounting hole on the other vertical surface is connected with the sliding block 21 on the main climbing frame 4, and then the pavement plate 1 is paved on the supporting plate 6 and fixedly connected with at least one end and the supporting plate 6. So, when the scaffold needs wholly to go up and down, only need with wall body fixed subassembly 5, drive assembly 3 and main frame 4 of climbing dismantle again install can, and lifting assembly 2 and pavement board 1 need not dismouting and reinstallation for the assembly body that is fixed together, compare with current scaffold frame pavement board, practiced thrift the dismouting time greatly, reduced workman's operation volume, also reduced the potential safety hazard that the workman faced in the construction operation in-process.

Further, as shown in fig. 6, the pavement plate 1 includes a working surface 11 and connection surfaces 12 disposed on both sides of the working surface 11, and the two connection surfaces 12 and the working surface 11 are integrally formed. Preferably, in order to ensure the anti-slip effect, a plurality of protrusions 111 and a plurality of grooves 112 are provided on the working surface 11, the grooves 112 are arranged along the length direction of the pavement plate 1, and two sides of the grooves 112 penetrate through two ends of the working surface 11; the two connecting surfaces 12 are provided with connecting holes 121, the pavement plate 1 is fixedly connected with the supporting plate 6 through the connecting holes 121, the supporting plate 6 is fixedly connected with the sliding block 21, and the pavement plate 1 is fixedly connected with the lifting assembly 2.

Further, as shown in fig. 7, the lifting assembly 2 includes two sliding blocks 21 slidably connected to the main climbing frame 4, a cross beam 22 disposed between the two sliding blocks 21, and a fixed square steel 23, two ends of the fixed square steel 23 are fixed between the two sliding blocks 21 above the cross beam 22, and a lifting lug 7 for passing through a rope of the driving assembly 3 is disposed in the middle of the fixed square steel 23. Preferably, the sliding blocks 21 are U-shaped steel, the cross beams 22 are i-shaped steel, square steel, channel steel or other shaped steel, the number of the cross beams 22 can be flexibly set according to the needs, the supporting needs of the two sliding blocks 21 can be met, the fixed square steel 23 is fixed on the sliding blocks 21 above the uppermost cross beam 22, the fixed square steel 23 is arranged for installing the lifting lug 7, and therefore the lifting lug 7 needs to be fixed at the middle position of the fixed square steel 23.

Further, referring to fig. 4, the main climbing frame 4 includes at least three upright posts 41, wherein two upright posts 41 are disposed on one side of the pavement slab 1 near the lifting assembly 2, and are slide rails adapted to the sliding blocks 21, the other upright post 41 is disposed on the other side of the pavement slab 1, the upright posts 41 are also slidably connected with the sliding blocks 21 adapted thereto, and the sliding blocks 21 are fixedly connected with the pavement slab 1. Preferably, the upright posts 41 are square tubes, the outer walls of the upright posts 41 are slidably connected with the inner walls of the sliding blocks 21, a connecting plate 42 is fixed on one upright post 41 positioned on one side of the lifting assembly 2, two U-shaped steel 43 are fixedly connected on the other side of the connecting plate 42, and openings of the two U-shaped steel 43 are opposite to each other so as to be fixedly connected with the wall fixing assembly 5.

Further, as shown in fig. 8, the wall fixing assembly 5 includes a fixing plate 51 and connecting rods 52 disposed at two ends of the fixing plate 51, the fixing plate 51 is provided with mounting holes 511 for connecting a building wall, and the connecting rods 52 are fixed on the two U-shaped steel 43.

Further, referring to fig. 5, the driving assembly 3 is an electric hoist, the electric hoist is fixed on a building wall, and a rope of the electric hoist passes through lifting lugs 7 of the lifting assemblies 2 to connect the lifting assemblies 2 together.

In addition, in order to ensure the stability of the whole scaffold, as shown in fig. 1, the scaffold assembly further comprises an auxiliary support assembly 8, wherein the auxiliary support assembly 8 comprises a plurality of first diagonal braces 81 fixedly connected to the tops of the upright posts 41, a plurality of second supports 82 fixedly connected between two adjacent pavement plates 1, and a plurality of zigzag steel 83 fixedly connected between the upright posts 41.

When the automatic lifting scaffold easy to disassemble and assemble is used, the fixing plate 51 of the wall fixing assembly 5 is firstly fixed on a building wall, then the two U-shaped steel 43 are installed on the connecting rods 52, the connecting plates 42 and the upright posts 41 are sequentially fixed on the wall fixing assembly 5, then the sliding blocks of the lifting assembly 2 are connected onto the upright posts 41 in a sliding manner, finally the pavement plate 1 is fixed on the lifting assembly 2 through the supporting plates 6, the driving assembly 3 is fixed on the building wall above the upright posts 41, and then the ropes of the driving assembly 3 are connected onto the lifting assembly 2, so that the lifting assembly 2 can be driven to slide up and down on the upright posts 41 through the driving assembly 3, and the pavement plate 1 can be lifted up and down on the upright posts 41, thereby realizing an automatic lifting process.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any other corresponding changes and modifications made in accordance with the technical idea of the present invention shall be included in the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an easy dismouting automatic lifting type scaffold, its characterized in that includes the scaffold assembly of at least one unit, the scaffold assembly is including multilayer pavement board, with multilayer a plurality of elevating module, drive assembly, main climbing frame and a plurality of wall body fixed subassembly that correspond of pavement board, wall body fixed subassembly's one end is fixed on the building wall body, the other end with main climbing frame fixed connection, main climbing frame is arranged in the both sides of pavement board, for the lift of pavement board provides the removal track, a plurality of elevating module interval vertical distribution is in on the main climbing frame, and with main climbing frame sliding connection, every one side of pavement board is all fixed on the elevating module corresponding with this pavement board, drive assembly is fixed on the building wall body more than the last elevating module, just drive assembly is through same rope and a plurality of elevating module is connected, a plurality of elevating module can be in the main climbing frame is gone up and down to drive a plurality of pavement boards,

Each lifting assembly comprises two sliding blocks, a cross beam and a fixed square steel, wherein the two sliding blocks are connected to the main climbing frame in a sliding mode, the cross beam is arranged between the two sliding blocks, two ends of the fixed square steel are fixed between the two sliding blocks above the cross beam, and a lifting lug for penetrating through a rope is arranged in the middle of the fixed square steel;

The main climbing frame comprises at least three upright posts, wherein two upright posts are arranged on one side of the pavement plate, which is close to the lifting assembly, and are slide rails matched with the slide blocks, the other upright post is arranged on the other side of the pavement plate, the slide blocks matched with the upright posts are also connected onto the upright posts in a sliding manner, and the slide blocks are fixedly connected with the pavement plate.

2. The automatic lifting scaffold easy to disassemble and assemble according to claim 1, wherein the pavement plate comprises a working surface and connecting surfaces arranged on two sides of the working surface, the pavement plate is fixedly connected with the lifting assembly through the connecting surface on one side, and the two connecting surfaces and the working surface are of an integrated structure.

3. The automatic lifting scaffold easy to disassemble and assemble as claimed in claim 2, wherein a plurality of protrusions and a plurality of grooves for guaranteeing the anti-slip effect are arranged on the working surface of the pavement plate, the grooves are arranged along the length direction of the pavement plate, and two sides of the grooves penetrate through two ends of the working surface of the pavement plate.

4. The automatic lifting scaffold easy to disassemble and assemble according to claim 3, wherein the two connecting surfaces of the pavement plate are provided with connecting holes, the bottom of the pavement plate is provided with a supporting plate, at least one side of the supporting plate is connected with one connecting surface of the pavement plate through the connecting holes, and one side of the supporting plate, which is close to the lifting assembly, is fixed on the lifting assembly.

5. The automatic lifting scaffold easy to disassemble and assemble according to claim 1, wherein a connecting plate is fixed on one upright post positioned at one side of the lifting assembly, two U-shaped steel are fixedly connected through the connecting plate, and the other side of the two U-shaped steel is fixedly connected with the wall fixing assembly.

6. The automatic lifting scaffold easy to disassemble and assemble according to claim 5, wherein the wall fixing assembly comprises a fixing plate and connecting rods arranged at two ends of the fixing plate, mounting holes for connecting building walls are formed in the fixing plate, and the connecting rods are fixed on two U-shaped steel.

7. The automatic lifting scaffold easy to disassemble and assemble according to claim 1, wherein the driving assembly is an electric hoist, the electric hoist is fixed on a building wall, and a plurality of lifting assemblies are connected together by ropes of the electric hoist.

8. The automatic lifting scaffold easy to disassemble and assemble according to claim 1, wherein the scaffold assembly further comprises an auxiliary supporting component, the auxiliary supporting component comprises a plurality of first diagonal braces fixedly connected to the top of the main climbing frame, a plurality of second supports fixedly connected between two adjacent pavement plates and a plurality of Z-shaped steel fixedly connected between the main climbing frames.