CN116163497A - Auxiliary device and method for mounting building facing wallboard - Google Patents

Abstract

The invention provides an auxiliary device for installing building facing wallboards, which is characterized by comprising: the device comprises a mounting plate, a driving assembly, a thread moving assembly, a limiting connecting assembly, a lifting assembly and a supporting connecting assembly; the upper end part of the mounting plate is provided with a long slot hole extending in the horizontal direction; the screw thread moving assembly comprises a screw rod arranged in the long slot hole and a moving block which is arranged on the screw rod in a threaded connection manner, and one end of the screw rod is connected with the driving assembly and is driven to rotate by the driving assembly; the limiting connecting assembly is connected with the moving block, and limiting rods are arranged in the limiting connecting assembly; the lifting assembly is positioned at the lower end part of the mounting plate and comprises a fixed bottom plate which is horizontally arranged and fixedly connected with the mounting plate, a lifting mechanism is arranged on the fixed bottom plate, a placing plate is arranged at the top of the lifting mechanism, and a placing groove for placing a facing wallboard is formed in the upper surface of the placing plate; the support connection assembly comprises a vertical support plate and a horizontal connecting rod.

Description

Auxiliary device and method for mounting building facing wallboard

Technical Field

The invention relates to the technical field of building decoration, in particular to an auxiliary device for mounting a building facing wallboard and a mounting method.

Background

In the building wall decoration engineering, wall boards are used for decorating the outer wall of a building or the inner wall of the building. The light aluminum plate has the advantages of light weight, high strength, smooth and flat surface and the like, and is widely applied to the wall surfaces of a plurality of buildings.

The single aluminum plate wall decoration plate is large in area, the width can reach one to three meters, the height can reach one to two meters, when the aluminum plate is used for making integral wall decoration for the inner wall surface of a common building or the outer wall surface of a building with lower height, the aluminum plates with two heights are usually installed in the height direction, the aluminum plate at the bottom of the wall surface does not need hoisting operation, and the aluminum plate above the wall surface needs hoisting operation. The general operation of the aluminum plate wallboard above the wall surface in the construction process of the upper wall is to weld and pre-install a fixed connecting piece on the surface of the plate, generally install and fix a connecting piece with holes on the surface of the plate, bind and lift the wallboard to a preset installation height position through an electric hoist and a rope, then perform the wall-mounting operation, detach and remove the connecting piece after the wall is mounted, and polish the surface of the whole plate.

Because aluminum plate veneer wallboard's area is very big, can't the workman hand aluminum plate go up the wall operation, even when the inside wall of building or the high lower building outer wall face carry out veneer fitment, also need realize wallboard and go up the wall operation with the help of lifting means. However, the potential safety hazards that people are injured due to inclination of the plates and the ropes are broken and fall down to hurt the people are strictly avoided in the hoisting process; in addition, in the hoisting process, the plate is stressed intensively at the position of the hoisting point, the rest positions are not supported correspondingly, the stress is very uneven, and the aluminum plate is easy to deform to a certain extent; in addition, the wallboard is suspended all the time in the construction preamble process before the upper wall is fixed in place, and is not stable enough, if workers collide with the board, the board can shake, special care is needed during construction, and a certain safety risk exists.

In view of the above, the invention particularly carries out intensive research on the board installation condition of the inner wall surface of the building or the outer wall surface of the building with lower height, and aims to solve the problem that the construction of the decorative wallboard with lower height still needs to adopt hoisting operation to bring inconvenience.

Disclosure of Invention

The present invention is directed to an auxiliary device and method for installing building facing wall panels.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the invention provides an auxiliary device for installing building facing wallboards, which is characterized by comprising: the device comprises a mounting plate, a driving assembly, a thread moving assembly, a limiting connecting assembly, a lifting assembly and a supporting connecting assembly; the upper end part of the mounting plate is provided with a long slot hole extending in the horizontal direction; the screw thread moving assembly comprises a screw rod arranged in the long slot hole and a moving block which is arranged on the screw rod in a threaded connection manner, and one end of the screw rod is connected with the driving assembly and is driven to rotate by the driving assembly; the limiting connecting components are connected with the movable blocks, limiting rods are arranged in the limiting connecting components, and the limiting rods are used for being matched and connected with the connecting pieces preassembled on the facing wallboard; the lifting assembly comprises a fixed bottom plate which is horizontally arranged and fixedly connected with the mounting plate, a lifting mechanism is arranged on the fixed bottom plate, a placing plate is arranged at the top of the lifting mechanism, and a placing groove for placing the facing wallboard is formed in the upper surface of the placing plate; the support connecting assembly comprises a vertical support plate and a horizontal connecting rod, the vertical support plate is fixed on the upper surface of the placement plate and positioned between the mounting plate and the placement groove, and the horizontal connecting rod is fixedly connected to the side surface, close to the placement groove, of the vertical support plate

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: wherein, the end of horizontal connecting rod is provided with the sucking disc.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: the driving assembly comprises a driving motor, the output end of the driving motor is connected with a driving shaft, the tail end of the driving shaft stretches into the long slot hole, and a first bevel gear is fixedly arranged at the tail end of the driving shaft; the tail end of the screw rod is fixedly provided with a second bevel gear, and the first bevel gear is vertically meshed with the second bevel gear in an intersecting manner.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: the screw thread moving assemblies are two groups, the two screws are arranged in the long groove holes and are respectively arranged on two sides of the driving shaft, the first bevel gears are respectively and vertically meshed with the second bevel gears at the tail ends of the two screws in an intersecting mode, and the two moving blocks are respectively arranged on the two screws.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: the limiting connecting assemblies are two groups and are respectively connected with the two moving blocks.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: the limiting connecting assembly comprises a connecting block connected with the moving block, a vertical connecting plate connected with the connecting block, a cross rod connected with the vertical connecting plate, a limiting plate connected with the cross rod and a limiting rod fixed on the limiting plate; the limiting rods in the two groups of limiting connecting components are oppositely arranged.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: wherein, vertical spacing groove that vertical direction extends has been seted up to the lower tip of mounting panel, and the tip that places board and be close to mounting panel one side is arranged in vertical spacing groove.

Further, in the auxiliary device for installing building facing wall panels provided by the invention, the auxiliary device can be characterized by comprising the following steps: the lifting mechanism is an X-shaped scissor rod group and is provided with a first rod part and a second rod part which are connected in an intersecting way; the lower surface of the placing plate is provided with a top chute, and the upper surface of the fixed bottom plate is provided with a bottom chute; the upper end of the first rod part is fixed in the top chute, and the lower end of the first rod part is arranged in the bottom chute in a sliding way; the lower end of the second rod part is fixed in the bottom chute, and the upper end is arranged in the top chute in a sliding way; a telescopic rod is arranged in the bottom sliding groove, one end of the telescopic rod is fixed on the side wall of the bottom sliding groove, and the other end of the telescopic rod is connected with the lower end head of the first rod part.

The invention also provides a building facing wallboard installation method which is carried out by adopting the auxiliary device for building facing wallboard installation, and is characterized by comprising the following steps of:

step one, integrally fixing an auxiliary device for installing a building facing wallboard on a static platform or a moving platform;

inserting the lower end part of the facing wallboard to be installed into a placing groove of a placing plate, and supporting and connecting the surface of the facing wallboard through a supporting and connecting assembly;

step three, operating the lifting assembly to work so that the placing plate drives the facing wallboard to be installed to rise to a preset height position;

and fourthly, operating the driving assembly to work so that the limit rod is matched, inserted and connected with the pre-installed connecting piece on the facing wallboard.

The invention has the following functions and effects:

the auxiliary device for installing the building facing wallboard is provided with the driving assembly, the thread moving assembly, the limiting connecting assembly, the lifting assembly and the supporting connecting assembly, the facing wallboard is supported, lifted and limited through the auxiliary device, and lifting operation can be avoided, wherein the placing groove for placing the board is used for supporting and limiting the bottom of the facing wallboard, the supporting connecting assembly is used for supporting the lower end of the facing wallboard, and the limiting connecting assembly is used for providing powerful support and limiting for the middle of the facing wallboard. The invention can effectively prevent the inclination condition in the lifting process, and also ensures that the facing wallboard mainly depends on the bottom to bear force, the force is more reasonable, the surface is not easy to deform, and the construction height requirements of most indoor decorative walls, outdoor enclosing walls and a plurality of low building outer walls can be met.

Drawings

FIG. 1 is a side view of the overall construction of an auxiliary device for use in the installation of building facing wall panels in accordance with an embodiment of the present invention;

FIG. 2 is an upper structural elevation view of an auxiliary device for use in the installation of building facing wall panels in accordance with an embodiment of the present invention;

FIG. 3 is a schematic diagram of the operation of the drive assembly in an embodiment of the invention;

fig. 4 is a side view of the structure of a facing wall panel and preloaded connectors according to an embodiment of the present invention.

Reference numerals: facing wall panel 100; a mounting plate 1; a long slot 11; a vertical limit groove 12; a drive assembly 2; a motor 21; a drive shaft 22; a first bevel gear 23; a second bevel gear 24; a thread moving assembly 3; a screw 31; a moving block 32; a limit connecting component 4; a connection block 41; a vertical connection plate 42; a cross bar 43; a limiting plate 44; a limit lever 45; a lifting assembly 5; a fixed bottom plate 51; a bottom chute 51a; a placement plate 52; placement groove 52a; an X-shaped scissor lever group 53; a fixed block 53a; a slider 53b; a telescopic rod 54; a support connection assembly 6; a vertical support plate 61; a horizontal connecting rod 62; suction cups 63.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement of the purposes and the effects of the present invention easy to understand, the following embodiments specifically describe the technical scheme of the present invention with reference to the accompanying drawings.

As shown in fig. 1 and 2, the embodiment provides an auxiliary device for installing building facing wall boards, which comprises a mounting plate 1, a driving assembly 2, a thread moving assembly 3, a limit connecting assembly 4, a lifting assembly 5 and a support connecting assembly 6.

As shown in fig. 2, the upper end portion of the mounting plate 1 is provided with a horizontally extending long slot hole 11. As shown in fig. 1, a vertical limiting groove 12 extending in the vertical direction is formed in the lower end portion of the mounting plate 1. The mounting plate 1 is fixed on the existing static platform (such as some steel frames, bases and the like existing in the construction site) or the moving platform (such as a moving seat with a bottom wheel, a moving vehicle and the like in the construction site) by means of welding or bolts and the like, and the fixed mounting plate 1 is kept vertically arranged.

As shown in fig. 2, the screw moving assembly 3 includes a screw 31 and a moving block 32. The screw 31 is arranged in the long groove hole 11, one end of the screw 31 is connected with the driving assembly 2 and driven to rotate by the driving assembly 2, and the other end of the screw 32 is rotatably connected with the inner wall of the long groove hole 11 of the mounting plate 1. The moving block 32 is mounted on the screw 31 by screw connection.

As shown in fig. 2, the drive assembly 2 includes a drive motor 21, a drive shaft 22, a first bevel gear 23, and a second bevel gear 24. The driving motor 21 is a stepping motor or a servo motor, the output end of the driving motor 21 is coaxially connected with a driving shaft 22 through a coupler, the tail end of the driving shaft 22 stretches into the long slot 11, and a first bevel gear 23 is fixedly arranged at the tail end of the driving shaft 22. The second bevel gear 24 is fixedly arranged at the tail end of the screw 31, and the first bevel gear 23 is vertically and crosswise meshed with the second bevel gear 24.

In this embodiment the thread moving members 3 are in two groups. As shown in fig. 2, a second bevel gear 24 is fixedly installed at one end of each of the two screws 31, and the other ends of the two screws 31 are rotatably connected with inner walls of both sides of the long slot hole 11. The rotatable connection of the screw 31 with the inner wall of the elongated slot 11 is specifically implemented by: bearing holes are respectively formed in the inner walls of the two sides of the long slot 11, bearings are embedded in the bearing holes, and the screw 31 is connected in a matched mode in the inner ring of the bearings.

As shown in fig. 2, the number of first bevel gears 23 in the driving assembly 2 is one, and the first bevel gears are vertically and alternately meshed with the second bevel gears 24 at the ends of the two screw rods 31, respectively. The first bevel gear 23 drives the two screws 31 to rotate in opposite directions to each other. Two moving blocks 32 are respectively mounted on the two screws 31, the height of the moving blocks 32 is matched with the height of the long slot holes 11, and the moving blocks are limited to be prevented from rotating. The moving block 32 is screw-engaged with the screw 31, and when the screw 31 rotates, the moving block moves in a straight line on the screw due to the screw engagement. Referring to fig. 3, the first bevel gear 23 is vertically engaged with the two second bevel gears 24, and the two second bevel gears 24 are symmetrically disposed, so that the two screws 31 are driven to rotate in opposite directions when the motor rotates, and the moving directions of the two moving blocks on the screws are also opposite, i.e., are shown as approaching or separating from each other. When the steering of the drive motor 21 is changed, the moving direction of the moving block on the screw will also be changed.

The limiting connecting assemblies 4 are two groups and are respectively connected with the two moving blocks 32. Each set of limit connection assemblies 4 comprises a connection block 41, a vertical connection plate 42, a cross bar 43, a limit plate 44 and a limit rod 45. The connecting block 41 is connected with the moving block 32, the vertical connecting plate 42 is connected with the connecting block 41, the cross rod 43 is connected with the vertical connecting plate 42, the limiting plate 44 is connected with the cross rod 43, the limiting rod 45 is connected on the limiting plate, and the connection between all the components in the limiting connection assembly is fixed connection realized by means of welding or bolting. When the moving block 32 moves, the limiting connection assembly 4 is driven to move integrally.

As shown in fig. 2, the limiting rods 45 in the two sets of limiting connection assemblies are disposed opposite to each other. Referring to fig. 4, a limiting hole 101a is formed in a prefabricated connector 101 of a facing wall panel 100 (aluminum plate), which is a structure of the prior art, and is prefabricated according to the wall panel finishing construction specification, and the present invention does not relate to improvement of the structure. The stop lever 45 is used for being connected with the connecting piece cooperation of preassembling on the veneer wallboard, and the mounted position, the size specification and the quantity of stop lever 45 all carry out assorted setting according to the condition of connecting piece in the concrete construction engineering.

As shown in fig. 1, the lifting assembly 5 is located at the lower end of the mounting plate 1. The lifting assembly 5 includes a fixed bottom plate 51, a placement plate 52, and a lifting mechanism. The fixing base plate 51 is horizontally disposed and welded to the mounting plate 1. The lifting mechanism is provided on the fixed bottom plate 51, and the placement plate 52 is provided on the top of the lifting mechanism. The upper surface of the placement plate 52 is provided with a placement groove 52a for placing the facing wallboard. The lower surface of the placement plate 52 is provided with a top chute (not shown in cross section), and the upper surface of the fixed bottom plate 51 is provided with a bottom chute 51a.

The lifting mechanism in this embodiment is an X-shaped scissor lever set 53 having a first lever portion and a second lever portion that are connected in an intersecting manner. The upper end of the first rod portion is fixed in the top chute, and the lower end is slidably disposed in the bottom chute 51a. The lower end of the second rod portion is fixed in the bottom chute 51a, and the upper end is slidably disposed in the top chute. The upper end of the first rod portion and the lower end of the second rod portion are respectively connected with a fixed block 53a, and the fixed blocks are fixedly arranged in corresponding sliding grooves through welding or bolts. The lower end of the first rod portion and the upper end of the second rod portion are respectively connected with a sliding block 53b, and the sliding blocks 53b are arranged in corresponding sliding grooves in a sliding manner, namely, the sliding blocks 53 are not connected with the sliding grooves. A telescopic rod 54 is arranged in the bottom sliding groove 51a, one end of the telescopic rod 54 is fixed on the side wall of the bottom sliding groove 51a, and the other end of the telescopic rod is connected with a sliding block 53b at the lower end of the first rod. The telescopic rod 54 adopts an electric telescopic rod or an electric push rod, works after being connected with a power supply, and the telescopic rod 54 drives the sliding block 53b in the bottom sliding groove 51a to move through telescopic movement, so that the whole X-shaped scissor rod group is driven to expand and contract, and the placing plate 52 is driven to descend or ascend.

The end of the placement plate 52 near the side of the mounting plate 1 is located in the vertical limit groove 12. Preferably, the mounting plate 1 is provided with at least two vertical limiting grooves 12 along its width direction. Preferably, the width of the vertical limit groove 12 is 10cm-20cm. The end of the placement plate 52 near the mounting plate 1 is provided with at least two protruding parts protruding from the rectangular plate of the placement plate 52 (the protruding parts are shown in the area a in fig. 1), and the protruding parts are inserted into the corresponding vertical limiting grooves 12 in a matching manner. When the placement plate 52 is lifted or lowered in the height direction of the vertical limit groove 12, it plays a role of limiting and maintaining stability.

The support connection assembly 6 is provided on the placement plate 52. Preferably, the support connection assemblies 6 may be arranged in groups. Each set of support connection assemblies 6 comprises a vertical support plate 61, a horizontal connecting rod 62, a suction cup 63. The vertical support plate 61 is fixed to the upper surface of the placement plate 52, and the fixing position of the vertical support plate 61 is located between the mounting plate 1 and the placement groove 52a. The horizontal connecting rod 62 is fixedly connected to the side of the vertical support plate 61 near the placement groove 52a. One or more horizontal connecting rods 62 are provided on each vertical support plate 61, and suction cups 63 are provided at the ends of the horizontal connecting rods 62. The suction cup 63 is preferably a plastic suction cup. The support connection assembly 6 is located on the surface of the facing wall panel (the left side surface of the facing wall panel as viewed in fig. 1), the support connection assembly 6 is used to provide support to the surface lower end position of the facing wall panel and the suction cup is sucked on the facing wall panel surface. The sucking disc adsorbs at the veneer wallboard surface can realize connecting the veneer wallboard, and the compliance of sucking disc can alleviate stress concentration in addition, avoids causing the pit to warp to panel surface.

The whole height of the auxiliary device for mounting the building facing wallboard is about 3 meters, the lifting height is set to be 1-1.5 meters according to the requirement, and the construction height requirements of most building indoor decorative walls, outdoor enclosing walls and a plurality of low building outer walls can be met. However, the present invention is not limited thereto, and in other embodiments, some other auxiliary devices with high requirements may be used according to the actual construction situation.

The embodiment also provides a building facing wallboard installation method, which is carried out by adopting the auxiliary device for building facing wallboard installation, and specifically comprises the following steps of:

step one: the auxiliary device for installing the building facing wallboard is integrally fixed on a static platform or a movable platform.

Step two: initially, the elevation height of the elevation assembly is adjusted to the lowest position. The facing wall panel to be installed is then placed on the placement plate 52, specifically, the lower end of the facing wall panel is inserted into the placement groove 52a of the placement plate 52, and the operation support connection assembly 6 is support-connected to the surface of the facing wall panel.

Step three: the telescopic rod of the lifting assembly 5 is operated so that the placement plate 52 drives the facing wall panel to be installed up to a predetermined position.

Step four: the motor of the driving assembly 2 is operated, so that the moving blocks are close to each other, and the limiting rod is matched and inserted with the pre-installed connecting piece on the facing wallboard, so that the limiting on the facing wallboard is realized.

Step five: the worker fixes the veneer on the constructed wall surface mounting keel through the connecting piece and welding operation to the back surface of the veneer wallboard (namely the right side surface of the veneer wallboard shown in fig. 1), and the plate is finished to be on the wall. After the installation of the upper wall is completed, the motor of the driving assembly 2 is operated, the moving blocks are far away from each other, the limiting rod is separated from the connecting piece preassembled on the facing wallboard, and the limiting on the facing wallboard is released.

The auxiliary device and the installation method for installing the building facing wallboard are very suitable for the construction operation of installing the facing wallboard on the wall at the lower position of the auxiliary height, can avoid hoisting, improve stability compared with the prior art, reduce safety risk, and enable the facing wallboard to be stressed more reasonably and not to deform easily.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention are included in the protection scope of the present invention.

Claims (9)

1. An auxiliary device for use in the installation of building facing wall panels, comprising: the device comprises a mounting plate, a driving assembly, a thread moving assembly, a limiting connecting assembly, a lifting assembly and a supporting connecting assembly;

the upper end part of the mounting plate is provided with a long slot hole extending in the horizontal direction;

the screw thread moving assembly comprises a screw rod arranged in the long slot hole and a moving block which is installed on the screw rod through threaded connection, and one end of the screw rod is connected with the driving assembly and driven to rotate by the driving assembly;

the limiting connecting assembly is connected with the movable block, limiting rods are arranged in the limiting connecting assembly, and the limiting rods are used for being matched and connected with the connecting pieces preassembled on the facing wallboard;

the lifting assembly comprises a fixed bottom plate which is horizontally arranged and fixedly connected with the mounting plate, a lifting mechanism is arranged on the fixed bottom plate, a placing plate is arranged at the top of the lifting mechanism, and a placing groove for placing the facing wallboard is formed in the upper surface of the placing plate;

the support connecting assembly comprises a vertical support plate and a horizontal connecting rod, the vertical support plate is fixed on the upper surface of the placement plate and positioned between the mounting plate and the placement groove, and the horizontal connecting rod is fixedly connected with the side surface, close to the placement groove, of the vertical support plate.

2. The auxiliary device for installing building facing wall panels of claim 1, wherein:

wherein, the end of horizontal connecting rod is provided with the sucking disc.

3. The auxiliary device for installing building facing wall panels of claim 1, wherein:

the driving assembly comprises a driving motor, the output end of the driving motor is connected with a driving shaft, the tail end of the driving shaft stretches into the long groove hole, and a first bevel gear is fixedly arranged at the tail end of the driving shaft;

and a second bevel gear is fixedly arranged at the tail end of the screw rod, and the first bevel gear is vertically meshed with the second bevel gear in a crossing manner.

4. An auxiliary device for the installation of building facing wall panels as claimed in claim 3, wherein:

the screw thread moving assemblies are two groups, the two screw rods are arranged in the long groove holes and are respectively arranged on two sides of the driving shaft, the first bevel gears are respectively meshed with the second bevel gears at the tail ends of the two screw rods in a perpendicular intersecting mode, and the two moving blocks are respectively arranged on the two screw rods.

5. The auxiliary device for installing building facing wall panels of claim 4, wherein:

the limiting connecting assemblies are two groups and are respectively connected with the two moving blocks.

6. The auxiliary device for installing building facing wall panels of claim 5, wherein:

the limiting connecting assembly comprises a connecting block connected with the moving block, a vertical connecting plate connected with the connecting block, a cross rod connected with the vertical connecting plate, a limiting plate connected with the cross rod and a limiting rod fixed on the limiting plate;

the limiting rods in the two groups of limiting connection assemblies are oppositely arranged.

7. The auxiliary device for installing building facing wall panels of claim 1, wherein:

the lower end of the mounting plate is provided with a vertical limiting groove extending in the vertical direction, and the end of the placing plate, which is close to one side of the mounting plate, is located in the vertical limiting groove.

8. The auxiliary device for installing building facing wall panels of claim 1, wherein:

the lifting mechanism is an X-shaped scissor rod group and is provided with a first rod part and a second rod part which are connected in an intersecting way;

the lower surface of the placing plate is provided with a top chute, and the upper surface of the fixed bottom plate is provided with a bottom chute;

the upper end of the first rod part is fixed in the top chute, and the lower end of the first rod part is arranged in the bottom chute in a sliding way;

the lower end of the second rod part is fixed in the bottom chute, and the upper end of the second rod part is arranged in the top chute in a sliding way;

the telescopic rod is arranged in the bottom sliding groove, one end of the telescopic rod is fixed on the side wall of the bottom sliding groove, and the other end of the telescopic rod is connected with the lower end head of the first rod part.

9. A method of installing a building facing wall panel using an auxiliary device for installing a building facing wall panel according to any one of claims 1 to 8, comprising the steps of:

step one, integrally fixing the auxiliary device for installing the building facing wallboard on a static platform or a moving platform;

inserting the lower end part of the facing wallboard to be installed into a placement groove of the placement plate, and supporting and connecting the surface of the facing wallboard through a supporting and connecting assembly;

step three, operating a lifting assembly to work, so that the placing plate drives the facing wallboard to be installed to rise to a preset height position;

and fourthly, operating the driving assembly to work so that the limiting rod is matched, inserted and connected with the pre-installed connecting piece on the facing wallboard.

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