CN115822228B - Method for using a building component installation mechanism capable of large-space three-dimensional adjustment - Google Patents

Abstract

The invention provides a building member installation mechanism capable of being adjusted in a large space in three dimensions and a use method thereof, relating to the field of high-rise building hanging baskets, wherein a hanging basket system adopts the following scheme: including the hanging flower basket, be provided with the lifting machine and the industrial control case that the electricity is connected in the hanging flower basket, the lifting machine includes the lifting rope, still include the adjustment frame, the height of adjustment frame is the layer height of corresponding floor, the adjustment frame lower extreme is provided with the adjustment roof beam, the wall of staff's operation on the adjustment roof beam perpendicular to building, adjustment roof beam detachably installs on the guide rail and can follow the guide rail and remove, guide rail perpendicular to adjustment roof beam, detachably is provided with the fixed plate on the guide rail, the fixed plate is used for fixing the guide rail subaerial at the building floor, the one end setting of lifting rope is in the adjustment frame upper end, the hanging flower basket can reciprocate in the adjustment frame. The invention can enable the hanging basket to horizontally move according to the operation requirement, and a circle of hanging basket is not required to be arranged on the periphery of the outer vertical surface of the building, so that the cost is low, and the resources are effectively utilized.

Description

Use method of building component mounting mechanism capable of realizing large-space three-dimensional adjustment

Technical Field

The invention relates to the field of high-rise building hanging baskets, in particular to a use method of a building component installation mechanism capable of being adjusted in a large space three-dimensional mode.

Background

The hanging basket is a building tool for high-altitude operation of building engineering, acts on the aspects of curtain wall installation, outer wall cleaning and the like, can replace the traditional scaffold, comprises a lifting machine, a control box, a hanging basket body, a hanging structure and other structures, can lighten labor intensity, improve working efficiency, can be reused, is novel high-altitude operation equipment, has gradually become a trend, is widely accepted in high-altitude operation such as outer wall construction, curtain wall installation and heat preservation construction of high-rise buildings, can be used for operation of engineering such as large tanks, bridges, dams and the like, can avoid scaffold, effectively reduces labor intensity, can move in the using process, can be completed in a period of time by using the hanging basket, can be completed for a few hours, can greatly improve working efficiency, and meanwhile, the construction cost is greatly reduced relative to that of the traditional scaffold, so that the hanging basket is flexible to operate, easy to lift, convenient, practical, safe and reliable.

But under the general condition, one hanging basket can only lift and cannot be constructed along the horizontal direction, the operation range is limited, a plurality of hanging baskets are required to be arranged on the periphery of the outer facade of a building for convenient construction, the cost is high, and on the other hand, on the premise of conventional flow construction, only part of hanging baskets are used at the same time, and part of hanging baskets are idle, so that the resource waste is caused.

Therefore, in view of the current situation in the prior art, developing a method for using a building element installation mechanism capable of being adjusted in three dimensions in a large space is an urgent problem to be solved.

Disclosure of Invention

In order to solve the problem that the hanging basket for the construction operation of the outer wall in the prior art cannot horizontally move, the invention provides the using method of the building component mounting mechanism capable of being adjusted in a large space and three-dimensional mode, the hanging basket can horizontally move according to operation requirements, a circle of hanging basket is not required to be arranged on the periphery of the outer vertical surface of a building, the cost is low, and resources are effectively utilized.

The technical scheme includes that the hanging basket for outer wall construction operation comprises a hanging basket, a hoisting machine and an industrial control box which are electrically connected are arranged in the hanging basket, the hoisting machine comprises a hoisting rope, the hoisting machine further comprises an adjusting frame, the height of the adjusting frame is equal to the layer height of a corresponding floor, an adjusting beam is arranged at the lower end of the adjusting frame and perpendicular to a wall surface of a worker on a building, the adjusting beam is detachably arranged on a guide rail and can move along the guide rail, the guide rail is perpendicular to the adjusting beam, a fixing plate is detachably arranged on the guide rail and used for fixing the guide rail on the floor surface of the building, one end of the hoisting rope is arranged at the upper end of the adjusting frame, and the hanging basket can move up and down in the adjusting frame. The horizontal position of the hanging basket can be adjusted through the functions of the adjusting frame, the adjusting beam and the guide rail, so that the hanging basket can move in the horizontal direction and the vertical direction, the hanging basket can meet the construction operation requirement of the wall surface of each floor, the lifting rope is short, the safety is improved, the installation quantity of the hanging basket is greatly reduced, and the cost is reduced.

Further, two ends of the adjusting frame are respectively provided with two vertical supporting beams oppositely, a transverse supporting beam is arranged between the vertical supporting beams at the same end in parallel, a longitudinal supporting beam is arranged between the vertical supporting beams at different ends, the transverse supporting beams are connected with the adjusting beams at the bottom layer, the transverse supporting beams are connected with the lifting ropes at the top layer, the heights of the vertical supporting beams are the layer heights of corresponding floors, and bearing beams are arranged between the transverse supporting beams at different ends of the bottom layer. The bearing requirements on the hanging basket are met through the functions of various beams, and the hanging basket is driven to horizontally move.

Further, the transverse supporting beams at the top layer are connected with the corresponding adjusting beams through oblique supporting beams, and the transverse supporting beams at the bottom layer and the corresponding adjusting beams are of an integrated structure. The strength of the adjusting frame can be enhanced through the oblique supporting beam, and potential safety hazards caused by breakage are prevented.

Furthermore, lifting lugs I are arranged on the transverse supporting beams on the top layer, and lifting lugs II are arranged on the oblique supporting beams. The adjusting frame is conveniently hoisted through the first lifting lug and the second lifting lug.

Further, the cross section of guide rail is C type structure, movably be provided with T type bolt in the die cavity of guide rail, T type bolt follow the adjustment roof beam stretches out, the end that stretches out of T type bolt is provided with locking nut. The T-shaped bolt is used for conveniently locking and unlocking the adjusting beam, so that the connection is reliable and the operation is convenient.

Further, still include drive assembly, drive assembly includes driving motor, driving motor detachably sets up the one end of guide rail, driving motor is connected with the speed reducer, be provided with driving sprocket on the output shaft of speed reducer, driving sprocket rotationally sets up the one end of guide rail, driving sprocket passes through the drive chain with driven sprocket and is connected, driven sprocket rotationally sets up the other end of guide rail, the both ends of drive chain respectively with the adjustment roof beam that corresponds is connected, driving motor with the industry control case electricity is connected. Through the cooperation of industrial control case, driving motor and chain drive subassembly, can adjust the horizontal position of hanging flower basket automatically as required, save the manpower adjustment, convenient operation practices thrift the manual work.

Further, a sliding rail is arranged on the vertical supporting beam, the extending direction of the sliding rail is the same as the height direction of the vertical supporting beam, a sliding block is arranged at a position corresponding to the hanging basket, and the sliding block can move up and down along the sliding rail. The lifting of the hanging basket is guided by the sliding rail and the sliding block, so that the hanging basket is further fixed, and the potential safety hazard caused by shaking of the hanging basket is avoided.

Further, the vertical supporting beam and the hanging basket are uniformly provided with safety holes at corresponding positions, safety bolts are detachably arranged in the safety holes, safety nuts are arranged on the safety bolts, and the safety bolts can lock the vertical supporting beam and the hanging basket. The position of the hanging basket can be fixed through the safety bolt, and safety guarantee is provided for construction operation.

Further, a protective net is arranged on the circumference of the hanging basket. The safety of the hanging basket system can be further improved.

The invention also provides a use method of the building component mounting mechanism capable of being adjusted in a large space in three dimensions, which is used for the building component mounting mechanism capable of being adjusted in a large space in three dimensions and comprises the following steps:

s01, pre-burying the fixing plate on the ground of each floor of a building when the building is built;

S02, when high-altitude operation is needed, the guide rail is installed on the fixed plate;

S03, assembling the hanging basket with the adjusting frame;

S04, moving the assembled adjusting frame and hanging basket to the guide rail, enabling the adjusting beam to be perpendicular to the guide rail, enabling the T-shaped bolt to pass through the adjusting beam, and enabling the locking nut to be screwed on the T-shaped bolt without screwing down;

s05, respectively connecting a driving assembly with the guide rail and the adjusting beam;

S06, controlling the driving motor, and screwing the locking nut after the adjusting frame is moved to a set position in the horizontal direction;

S07, controlling the lifting machine, and locking the safety bolt after adjusting the height of the hanging basket to a set position in the height direction;

s08, adjusting the position of the hanging basket through an industrial control box according to the operation requirement;

S09, when the operation is required to be carried out on the wall of another floor, the hanging basket is lowered to the bottom of the adjusting frame;

S010, detaching the adjusting frame with the hanging basket and the driving assembly from the guide rail, conveying the adjusting frame with the hanging basket and the driving assembly to corresponding floors, and repeating S04 to S09.

From the above technical scheme, the invention has the following advantages:

The application method of the building member installation mechanism capable of being adjusted in a large space in three dimensions is characterized in that the horizontal position of a hanging basket can be adjusted through the functions of an adjusting frame, an adjusting beam and a guide rail, the hanging basket can move in the horizontal direction and the vertical direction, the hanging basket can meet the construction operation requirements of the wall surface of each floor, the installation quantity of the hanging basket can be greatly reduced, the cost is reduced, the hanging basket is used at the position between the upper layer and the lower layer, lifting ropes are short, the safety is improved, the strength of the adjusting frame can be enhanced through an oblique supporting beam, potential safety hazards caused by breakage are prevented, the adjusting beam is conveniently locked and unlocked through T-shaped bolts, the connection is reliable, the operation is convenient, the automation level can be improved through the cooperation of an industrial control box, a driving motor and a chain transmission assembly, labor is saved, the lifting guide effect of a sliding rail and a sliding block on the hanging basket is achieved, the safety of a hanging basket system can be greatly improved through a safety bolt and a protection network, the personal safety of an operator is ensured, and the hanging basket system moves along with the movement of an operation range.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic diagram of a structure with a driving assembly removed according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a second embodiment of the present invention with the driving assembly removed.

Fig. 4 is an enlarged view at a in fig. 3.

In the figure, 1, floor, 2, guide rails, 3, driving motors, 4, a driving chain, 5, a vertical supporting beam, 6, a hanging basket, 7, a driven sprocket, 8, a fixing plate, 9, a connecting beam, 10, a safety hole, 11, an adjusting beam, 12, an oblique supporting beam, 13, a transverse supporting beam, 14, a longitudinal supporting beam, 15, a lifting rope, 16, a protective net, 17, a lifting lug II, 18, a lifting lug I, 19, a reinforcing beam, 20 and a T-shaped bolt.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions of the present invention will be clearly and completely described below with reference to the drawings in this specific embodiment, and it is apparent that the embodiments described below are only some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, based on the embodiments in this patent, which would be within the purview of one of ordinary skill in the art without the particular effort to make the invention are intended to be within the scope of the patent protection.

As shown in fig. 1 to 4, the present embodiment provides a method of using a large-space three-dimensionally adjustable building element mounting mechanism including a basket 6, an adjustment frame, a guide rail 2, and an adjustment beam 11; the hanging basket 6 comprises a bearing base, protective fences are arranged on four edges of the bearing base, a cross beam is arranged at the lower part of the bearing base, an electrically connected hoisting machine and an industrial control box are arranged in the hanging basket 6, and the hoisting machine comprises a hoisting rope 15; the adjusting beams 11 are perpendicular to the wall surface of the working personnel on the building, at least two adjusting beams 11 are uniformly distributed along the bottom of the adjusting frame, three adjusting beams 11 are arranged in the specific embodiment, one ends of the adjusting beams 11 are arranged at the bottom of the adjusting frame, the other ends of the adjusting beams 11 are connected with the connecting beams 9, two vertical supporting beams 5 are oppositely arranged at two ends of the adjusting frame, a transverse supporting beam 13 is arranged between the vertical supporting beams 5 at the same end, the transverse supporting beams 13 are in the same direction as the adjusting beams 11, the height of the vertical supporting beams 5 is the layer height of the corresponding floor, a plurality of transverse supporting beams 13 are uniformly distributed along the vertical supporting beams 5, three longitudinal supporting beams 14 are arranged between the two vertical supporting beams 5 at different ends, the longitudinal supporting beams 14 are parallel to the guide rails 2, the three longitudinal supporting beams 14 at the same side are connected with the vertical supporting beams 5 through a reinforcing beam 19, the two transverse supporting beams 13 at the bottom are connected with the corresponding adjusting beams 11, the transverse supporting beams 13 at the top layer are connected with the lifting ropes 15, the lifting basket 6 can move up and down in the adjusting frame, the lifting basket 6 can cover the floor in the vertical direction, the lifting basket can lift the bottom layer along the floor, the hanging basket system is flexible and mobile, the length of the lifting ropes 15 is effectively shortened, the safety is improved, bearing beams are arranged between corresponding transverse supporting beams 13 at different ends of the bottom layer and used for bearing hanging baskets 6, adjusting beams 11 are detachably arranged on guide rails 2 and can move along the guide rails 2, two, three or four guide rails 2 can be arranged in parallel according to the operation condition, the supporting strength of the hanging baskets 6 is higher when the number of the guide rails 2 is larger, two guide rails are arranged in the specific embodiment, one guide rail 2 is close to an adjusting frame, the guide rails 2 are perpendicular to the adjusting beams 11, the length of the guide rails 2 meets the operation range of the hanging baskets 6, fixing plates 8 are detachably connected to the guide rails 2 through self-tapping screws, holes are formed in corresponding positions on the fixing plates 8 and are convenient to connect with the guide rails 2, and the fixing plates 8 are used for fixing the guide rails 2 on the floor 1 of a building, and anchor rods are arranged on the fixing plates 8 and are pre-buried on the floor 1 in advance when a building.

As shown in fig. 2 and 3, in order to further enhance the strength of the adjusting frame, the transverse supporting beams 13 at two ends of the bottom layer and the corresponding adjusting beams 11 are in an integrated structure, the transverse supporting beams 13 at the top layer are connected with the adjusting beams 11 at the same end through oblique supporting beams 12, the oblique supporting beams 12 obliquely penetrate through the vertical supporting beams 5, the oblique supporting beams 12, the adjusting beams 11 and the vertical supporting beams 5 form a triangular structure, and the stability and strength of the structure are greatly improved.

As shown in fig. 3 and 4, in order to hoist and mount the adjusting frame and facilitate the disassembly and assembly of the hanging basket system, lifting lugs I18 are arranged on the top-layer transverse supporting beams 13, lifting lugs II 17 are arranged on the oblique supporting beams 12, the cross section of the guide rail 2 is of a C-shaped structure, T-shaped bolts 20 are movably arranged in the cavity of the guide rail 2, the T-shaped bolts 20 extend out of the adjusting beam 11, and locking nuts are arranged at the extending ends of the T-shaped bolts 20.

In order to improve the safety of the hanging basket system and ensure the personal safety of operators, a protective net 16 is arranged on the outer side of a protective fence, sliding rails are arranged on the vertical supporting beams 5, the extending direction of the sliding rails is the same as the height direction of the vertical supporting beams 5, L-shaped steel is arranged at four corners of a bearing base of the hanging basket 6, one side of the L-shaped steel is provided with a sliding block, the sliding block can move up and down along the sliding rails, the hanging basket 6 can be prevented from shaking in the lifting process, the stability of the system is improved, safety holes 10 are formed in corresponding positions of the L-shaped steel at the four corners of the vertical supporting beams 5 and the hanging basket 6, safety bolts are detachably arranged in one group of safety holes 10, safety nuts are arranged on the safety bolts, and the vertical supporting beams 5 and the hanging basket 6 can be locked by the safety bolts to prevent the hanging basket 6 from being separated from an adjusting frame due to accidents.

As shown in fig. 1, in order to improve the automation level of this hanging basket system, use manpower sparingly, this hanging basket system still includes drive assembly, drive assembly includes driving motor 3, speed reducer and chain drive assembly, the one end of guide rail 2 is provided with the mounting panel through T type bolt 20 detachably, be provided with driving motor 3 on the mounting panel, driving motor 3 is connected with the speed reducer, be provided with driving sprocket on the output shaft of speed reducer, driving sprocket passes through the support rotatably to be set up in the one end of guide rail 2, driving sprocket passes through drive chain 4 with driven sprocket 7 to be connected, driven sprocket 7 passes through the support rotatably to be set up at the other end of guide rail 2, the both ends of drive chain 4 are connected with corresponding adjustment roof beam 11 respectively, drive chain 4 adopts the multi-plate hoist chain, driving motor 3 is connected with the industry control case electricity.

The specific implementation method comprises the following steps:

s01, pre-burying a fixed plate on the ground of each floor of a building when the building is built;

s02, when high-altitude operation is needed, the guide rail is arranged on the fixed plate;

s03, assembling the hanging basket with the adjusting frame;

S04, moving the assembled adjusting frame and hanging basket to the guide rail, enabling the adjusting beam to be perpendicular to the guide rail, enabling the T-shaped bolt to pass through the adjusting beam, and screwing the locking nut on the T-shaped bolt without screwing;

S05, respectively installing and connecting the driving assembly with the guide rail and the adjusting beam;

s06, controlling a driving motor, and screwing the locking nut after the adjusting frame is moved to a set position in the horizontal direction;

S07, controlling a lifting machine, and locking a safety bolt after adjusting the height of the hanging basket to a set position in the height direction;

s08, adjusting the position of the hanging basket through an industrial control box according to the operation requirement, unscrewing a locking nut and a safety nut before adjustment, and screwing the locking nut and the safety nut after adjustment in place;

S09, when the operation is needed to be carried out on the wall of another floor, the hanging basket is lowered to the bottom of the adjusting frame;

S010, detaching the adjusting frame and the driving assembly with the hanging basket from the guide rail, conveying the adjusting frame and the driving assembly with the hanging basket to the corresponding floor, and repeating S04 to S09.

From the above detailed description, it can be seen that the present invention has the following advantages:

1. the horizontal position of the hanging basket 6 can be adjusted through the functions of the adjusting frame, the adjusting beam 11 and the guide rail 2, so that the hanging basket 6 has the movement in the horizontal direction and the vertical direction, the hanging basket 6 can meet the construction operation requirement of the wall surface of each floor, the installation quantity of the hanging baskets can be greatly reduced, and the cost is reduced;

2. When the hanging basket system is used, the hanging basket system moves according to the movement of the working range, the hanging basket system is flexible and motorized, the hanging basket 6 only needs to move in the height range of the layer height, the hanging basket system is used between the upper and lower layers of windows, the lifting rope is short, and the safety is improved;

3. the strength of the adjusting frame can be enhanced through the oblique supporting beam 12, so that potential safety hazards caused by breakage are prevented;

4. the T-shaped bolt 20 is used for conveniently locking and unlocking the adjusting beam, so that the connection is reliable and the operation is convenient;

5. the automation level can be improved and the labor is saved by matching the industrial control box, the driving motor 3 and the chain transmission assembly;

6. the lifting of the hanging basket is guided by the sliding rail and the sliding block, and the safety of the hanging basket system can be greatly improved by the safety bolts and the protective net 16, so that the personal safety of operators is ensured.

The terms "upper," "lower," "outboard," "inboard," and the like in the description and in the claims of the invention and in the above figures, if any, are used for distinguishing between relative relationships in position and not necessarily for giving qualitative sense. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The use method of the building component mounting mechanism capable of being adjusted in a large space in three dimensions is characterized by comprising a hanging basket (6), wherein an electrically connected lifting machine and an industrial control box are arranged in the hanging basket (6), the lifting machine comprises a lifting rope (15), an adjusting frame is further arranged, the height of the adjusting frame corresponds to the floor height, an adjusting beam (11) is arranged at the lower end of the adjusting frame, the adjusting beam (11) is perpendicular to a wall surface of a worker on a building, the adjusting beam (11) is detachably mounted on a guide rail (2) and can move along the guide rail (2), the guide rail (2) is perpendicular to the adjusting beam (11), a fixing plate (8) is detachably arranged on the guide rail (2), the fixing plate (8) is used for fixing the guide rail (2) on the floor of the building, one end of the lifting rope (15) is arranged at the upper end of the adjusting frame, and the hanging basket (6) can move up and down in the adjusting frame;

Two vertical supporting beams (5) are oppositely arranged at two ends of the adjusting frame, a transverse supporting beam (13) is arranged between the vertical supporting beams (5) at the same end in parallel, a longitudinal supporting beam (14) is arranged between the two vertical supporting beams (5) at different ends, a bottom layer transverse supporting beam (13) is connected with the adjusting beam (11), a top layer transverse supporting beam (13) is connected with a lifting rope (15), the height of the vertical supporting beam (5) is equal to the layer height of a corresponding floor, and a bearing beam is arranged between the transverse supporting beams (13) at different ends of the bottom layer;

The vertical supporting beam (5) is provided with a sliding rail, the extending direction of the sliding rail is the same as the height direction of the vertical supporting beam (5), the corresponding position of the hanging basket (6) is provided with a sliding block, and the sliding block can move up and down along the sliding rail;

The method comprises the following steps:

s01, pre-burying a fixed plate on the ground of each floor of a building when the building is built;

s02, when high-altitude operation is needed, the guide rail is arranged on the fixed plate;

s03, assembling the hanging basket with the adjusting frame;

S04, moving the assembled adjusting frame and hanging basket to the guide rail, enabling the adjusting beam to be perpendicular to the guide rail, enabling the T-shaped bolt to pass through the adjusting beam, and screwing the locking nut on the T-shaped bolt without screwing;

S05, respectively installing and connecting the driving assembly with the guide rail and the adjusting beam;

s06, controlling a driving motor, and screwing the locking nut after the adjusting frame is moved to a set position in the horizontal direction;

S07, controlling a lifting machine, and locking a safety bolt after adjusting the height of the hanging basket to a set position in the height direction;

s08, adjusting the position of the hanging basket through an industrial control box according to the operation requirement;

S09, when the operation is needed to be carried out on the wall of another floor, the hanging basket is lowered to the bottom of the adjusting frame;

S010, detaching the adjusting frame and the driving assembly with the hanging basket from the guide rail, conveying the adjusting frame and the driving assembly with the hanging basket to the corresponding floor, and repeating S04 to S09.

2. The method for using the installation mechanism of the building element capable of being adjusted in three dimensions in a large space according to claim 1, wherein the transverse supporting beams (13) of the top layer are connected with the corresponding adjusting beams (11) through oblique supporting beams (12), and the transverse supporting beams (13) of the bottom layer and the corresponding adjusting beams (11) are of an integrated structure.

3. The method of using a three-dimensional adjustable building element installation mechanism according to claim 2, wherein the top transverse supporting beams (13) are provided with lifting lugs I (18), and the oblique supporting beams (12) are provided with lifting lugs II (17).

4. The method of using a three-dimensional adjustable building element mounting mechanism in large space according to claim 1, characterized in that the cross section of the guide rail (2) is of a C-shaped structure, a T-shaped bolt (20) is movably arranged in the cavity of the guide rail (2), the T-shaped bolt (20) extends out from the adjusting beam (11), and a locking nut is arranged at the extending end of the T-shaped bolt (20).

5. The method for using the building element installation mechanism capable of being adjusted in three dimensions in a large space according to claim 4, further comprising a driving assembly, wherein the driving assembly comprises a driving motor (3), the driving motor (3) is detachably arranged at one end of the guide rail (2), the driving motor (3) is connected with a speed reducer, a driving sprocket is arranged on an output shaft of the speed reducer and is rotatably arranged at one end of the guide rail (2), the driving sprocket is connected with a driven sprocket (7) through a transmission chain (4), the driven sprocket (7) is rotatably arranged at the other end of the guide rail (2), two ends of the transmission chain (4) are respectively connected with corresponding adjusting beams (11), and the driving motor (3) is electrically connected with an industrial control box.

6. The method for using the building element installation mechanism capable of being adjusted in three dimensions in a large space according to claim 5, wherein safety holes (10) are uniformly formed in the positions corresponding to the vertical supporting beam (5) and the hanging basket (6), safety bolts are detachably arranged in the safety holes (10), safety nuts are arranged on the safety bolts, and the safety bolts can lock the vertical supporting beam (5) and the hanging basket (6).

7. The method of using a three-dimensionally adjustable building element installation mechanism in large space according to claim 6, characterized in that the basket (6) is provided with a protective net (16) around its circumference.