CN114436134A - Glass vertical hoisting in-place tool capable of being flexibly adjusted and displaced in multiple directions and use method - Google Patents

Abstract

The invention discloses a glass vertical hoisting in-place tool capable of flexibly adjusting and displacing in multiple directions, which comprises a front support and a rear support, wherein the front support and the rear support are arranged on two sides of the upper part of a chassis, a rear suspension arm is arranged between the front support and the rear support, one side of the front support, which is far away from the rear support, is hinged with the front suspension arm, the bottom of the front suspension arm, which is close to the side of the front support, is provided with a front electric hoist, the bottom of the other side of the front suspension arm is provided with a pulley, a front steel wire rope of the front electric hoist penetrates through the pulley, the movable end of the front steel wire rope is connected with an electric glass sucker, the top of the rear suspension arm, which is close to the side of the rear support, is provided with a rear electric hoist, the top of one side, which is far away from the front support, is provided with a connecting member, and the movable end of the rear steel wire rope of the rear electric hoist is fixedly connected with the connecting member.

Description

Glass vertical hoisting in-place tool capable of being flexibly adjusted and displaced in multiple directions and use method

Technical Field

The invention relates to the field of curtain wall construction of constructional engineering, in particular to a glass vertical hoisting in-place tool capable of being flexibly adjusted and displaced in multiple directions and a using method thereof.

Background

The facade decorative glass is a beautiful and novel building wall decorative material, and is widely used for the decoration of peripheral walls such as outer walls of high-rise buildings, indoor patios and the like. The design of the part of the wall surface facing the edge area is a glass curtain wall, the size of the glass is large, the glass is in the decoration construction stage, the glass cannot be lifted through the traditional vertical transportation equipment such as an elevator and a tower crane, the large glass cannot be installed through the mechanical assistance of the traditional equipment such as a tower crane, and the construction difficulty and the safety management risk are increased.

The Chinese patent with the publication number of CN105152052B discloses a lifting device and an installation method for a glass curtain wall component, which comprises a support frame, a power system, wheels and a balance weight, and is characterized in that the support frame is formed by assembling an upright post, a rear support, a first connecting piece, a motor fixing frame, a second connecting piece, a brake fixing frame, a third connecting piece, a front support, a pulley fixing frame, a balance weight frame, a front support frame, a first pull rope and a second pull rope, wherein the lower part of the upright post is buckled on the front support through a channel steel, the lower part of the rear support is spliced in a square steel tube at the center of the balance weight frame and is fastened through a bolt, the upper part of the rear support is spliced with the first connecting piece and is fastened through a bolt, the other end of the first connecting piece is spliced with the motor fixing frame and is fastened through a bolt, one end of the second connecting piece is spliced with the motor fixing frame and is fastened through a bolt, the other end of the third connecting piece penetrates one end of the square steel tube at the upper part of the front support and is spliced with the brake fixing frame and is fastened through a bolt, The other end of the first pull rope is spliced with the pulley fixing frame and is fastened by a bolt, the lower part of the front support is spliced in a square steel pipe at the upper part of the front support frame and is fastened by a bolt, one end of the first pull rope is hinged with the middle part of the first connecting piece, the other end of the first pull rope is hinged with the upper part of the upright post, one end of the second pull rope is hinged with the pulley fixing frame, and the other end of the second pull rope is hinged with the upper part of the upright post; the power system consists of a motor, a winding drum, a steel wire rope, a brake, a pulley and a lifting hook, wherein the motor is arranged on a motor fixing frame, the brake is arranged on a brake fixing frame, the pulley is arranged on a pulley fixing frame, the winding drum is arranged outside the rear support, the steel wire rope is wound on the winding drum, passes through steel wire rope holes arranged on the rear support and the front support, and is connected with the lifting hook through the motor, the brake and the pulley; the wheels are respectively arranged on the lower part of the counterweight frame, the lower part of the front support frame and the lower part of the winding drum through brackets; the balance weight is placed on the balance weight frame.

Above-mentioned patent simple structure, dismouting and construction convenient to use, but every layer of installation floor all need transport this hoisting device spare part to the last layer of glass curtain wall installation floor and carry out the dismouting, and dismouting work load is big, extravagant manpower and time.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a glass vertical hoisting and positioning tool capable of flexibly adjusting and displacing in multiple directions.

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

but the glass vertical hoisting instrument of taking one's place of multidirectional nimble regulation aversion, including setting up fore-stock and the after-poppet in chassis upper portion both sides, the fore-stock with be provided with the back davit between the after-poppet, the fore-stock is kept away from the articulated preceding davit that installs in after-poppet one side, preceding davit is close to fore-stock one side bottom is provided with preceding electric hoist, preceding davit opposite side bottom is provided with the pulley, preceding electric hoist's preceding wire rope passes the pulley, preceding wire rope's expansion end is connected with electric glass sucking disc, the back davit is close to after-poppet one side top is provided with back electric hoist, keep away from on the preceding davit one side top of fore-stock is provided with connecting element, back electric hoist's back wire rope expansion end fixed connection in connecting element.

By adopting the technical scheme, the electric glass sucker adsorbs the facade decorative glass, the front electric elevator is started, the facade decorative glass is vertically lifted to the facade decorative glass installation floor, if the facade decorative glass installation floor is higher than the height of the front suspension arm, the rear electric elevator is started again, the front suspension arm is pulled up, and the facade decorative glass is lifted to the height corresponding to the facade decorative glass installation floor for installation.

Optionally, an upper adjustable hydraulic telescopic device is arranged at the middle position of the rear suspension arm, a lower adjustable hydraulic telescopic device is arranged at the middle position of the front support and the rear support on the chassis, and the upper adjustable hydraulic telescopic device and the lower adjustable hydraulic telescopic device are identical in model size.

By adopting the technical scheme, the tipping moment is calculated according to the maximum weight of the facade decorative glass to be hoisted, and the lengths of the chassis and the suspension arm can be adjusted to achieve the optimal moment by utilizing the upper adjustable hydraulic telescopic device and the lower adjustable hydraulic telescopic device.

Optionally, the front suspension arm is close to a front flange steel plate is welded at the bottom of one side of the front support, the front electric elevator is installed on the front flange steel plate, the rear suspension arm is close to a rear flange steel plate is welded at the top of one side of the rear support, and the rear electric elevator is installed on the rear flange steel plate.

Through adopting above-mentioned technical scheme, preceding flange steel sheet and back flange steel sheet provide stable mounted position for preceding electric hoist and back electric hoist respectively, have improved preceding electric hoist and back electric hoist's stability.

Optionally, the chassis is a rectangular frame formed by welding a plurality of steel rectangular pipes, an angle steel cross brace is fixedly arranged on the rectangular frame, a bolt connecting plate is arranged on the angle steel cross brace, and the front support and the rear support are connected to the bolt connecting plate through bolts.

Through adopting above-mentioned technical scheme, the chassis of above-mentioned design can directly be formed by many steel square tubes connected, simple manufacture, simple to operate, and the angle steel stull provides the mounted position for fore-stock and after-poppet, and bolted connection board makes chassis and fore-stock and after-poppet be connected more firmly.

Optionally, two sides of the chassis near one end of the front support are provided with telescopic sleeves.

By adopting the technical scheme, the area of the chassis can be adjusted by the telescopic sleeve, so that the bearing performance is better, and the weight of the vertical face decorative glass can be increased.

Optionally, a counterweight is arranged at one end of the chassis close to the rear support.

Through adopting above-mentioned technical scheme, the balancing weight can increase chassis self weight, has improved the anti-tilt effect.

Optionally, adjustable telescopic supporting legs are arranged on two sides of one end, close to the rear support, of the chassis, and each adjustable telescopic supporting leg is also arranged at the bottom of the telescopic sleeve.

Through adopting above-mentioned technical scheme, the stabilizer blade makes the stability of chassis better, reduces the probability of tumbling.

Optionally, both sides of one end, close to the rear support, of the chassis are provided with position-limitable universal wheels, and the bottom of each telescopic sleeve is also provided with the position-limitable universal wheels.

Through adopting above-mentioned technical scheme, but use the glass vertical hoisting that multidirectional nimble was adjusted and is shifted to take one's place the instrument on time carry on spacingly with the universal wheel, promote chassis stability, usable universal wheel removes when stopping using and puts.

Optionally, the use method of the tool for vertically hoisting the glass in place, which can be flexibly adjusted and displaced in multiple directions, includes the following steps:

s1: preparing for assembling the tool;

s2: weighing and obtaining the weight m1 of the facade decorative glass to be hoisted, calculating and obtaining the tilting force F of the facade decorative glass through a formula F-m 1g, adjusting the length of a telescopic sleeve on the chassis to obtain the distance L1 from the facade decorative glass to the chassis, and obtaining the tilting moment Mt through a formula Mt-F-L1;

s3: weighing m2 of the single balancing weight on the chassis, calculating to obtain the gravity G of the balancing weight through a formula G (m 2G), starting an upper adjustable hydraulic telescopic device on the rear suspension arm and a lower adjustable hydraulic telescopic device on the chassis to adjust the distance L2 between the front support and the rear support, wherein the number of the balancing weights to be added is i, i is more than Mt/(G L2);

s4: the electric glass sucker is electrified to adsorb the facade decorative glass;

s5: starting the front electric hoist to vertically hoist the facade decorative glass to the height of the facade decorative glass installation floor;

s6: moving a position-limitable universal wheel on the chassis to move the facade decorative glass to an installation position;

s7: and starting the rear electric hoist, pulling up the front suspension arm, and finely adjusting and mounting the height of the facade decorative glass.

Through the steps, materials are selected on the spot, the manufacturing is simple, the operation is convenient, the hoisting and mounting efficiency of large glass can be effectively improved, the manual participation is reduced, the safety management risk is reduced, and the application range is wide.

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

1. the electric glass sucker adsorbs the facade decorative glass, the front electric elevator is started, the facade decorative glass is vertically lifted to a facade decorative glass installation floor, if the facade decorative glass installation floor is higher than the front suspension arm, the rear electric elevator is started again, the front suspension arm is pulled up, and the facade decorative glass is lifted to the corresponding height of the facade decorative glass installation floor for installation.

2. The telescopic sleeve can adjust the area of the chassis, so that the bearing performance is better, and the weight of the vertical face decorative glass can be increased.

Drawings

FIG. 1 is a schematic structural view of a glass vertical hoisting in-place tool capable of multidirectional flexible adjustment and displacement according to the present invention;

FIG. 2 is a schematic view of the tool for vertically lifting and positioning glass, which can be flexibly adjusted and displaced in multiple directions;

FIG. 3 is a top view of the multi-directional adjustable glass vertical hoisting positioning tool of the present invention;

in the figure: 1. a chassis; 11. a lower adjustable hydraulic telescopic device; 12. a telescopic sleeve; 13. adjustable telescopic supporting legs; 14. the universal wheel can be limited; 15. angle steel cross braces; 2. a front bracket; 21. a front suspension arm; 22. a front electric hoist; 221. a front wire rope; 23. a pulley; 24. an electric glass sucker; 25. a connecting member; 26. a steel hinge; 3. a rear bracket; 31. a rear suspension arm; 32. a rear electric hoist; 321. a rear wire rope; 33. an upper adjustable hydraulic telescopic device; 4. an anchor connection; 5. a balancing weight; 6. facade decorative glass.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 3, a glass vertical hoisting tool capable of multi-directionally flexibly adjusting and shifting in place comprises a chassis 1, wherein the chassis 1 is a rectangular frame formed by welding a plurality of steel rectangular pipes, the manufacturing is simple, a front support 2 and a rear support 3 are fixedly arranged on two sides of the top of the chassis 1, the front support 2 and the rear support 3 are the steel rectangular pipes, an angle steel cross support 15 is welded on the frame to provide a mounting position for the front support 2 and the rear support 3, a bolt connecting plate is arranged on the angle steel cross support 15, the front support 2 and the rear support 3 are connected with the bolt connecting plate through bolts to enable the chassis 1 to be more firmly connected with the front support 2 and the rear support 3, a rear suspension arm 31 is arranged between the front support 2 and the rear support 3, a front suspension arm 21 is hinged to one side of the front support 2, which is far away from the rear support 3, through a steel hinge connector 26, a connecting part between the front support 2 and the front suspension arm 21 and a connecting part between the rear support 3 and the rear suspension arm 31 are provided with a connecting connector 4 for reinforcement, the front suspension arm 21 and the rear suspension arm 31 are made of I-shaped steel, the front suspension arm 21 and the rear suspension arm 31 are connected to form a straight line, the bottom of one side, close to the front support 2, of the front suspension arm 21 is welded with a front flange steel plate, a front electric hoist 22 is installed on the front flange steel plate, the bottom of the other side of the front suspension arm 21 is provided with a pulley 23, a front steel wire rope 221 of the front electric hoist 22 penetrates through the pulley 23, the movable end of the front steel wire rope 221 is connected with an electric glass sucker 24, the top of one side, close to the rear support 3, of the rear suspension arm 31 is welded with a rear flange steel plate, a rear electric hoist 32 is installed on the rear flange steel plate, the top of one side, far away from the front support 2, of the front suspension arm 21 is provided with a connecting member 25, the steel plate with a central hole is welded on the front suspension arm 21, and the movable end of a rear steel wire rope 321 of the rear electric hoist 32 is fixedly connected to the connecting member 25. An upper adjustable hydraulic telescopic device 33 is arranged at the middle position of the rear suspension arm 31, a lower adjustable hydraulic telescopic device 11 is arranged at the middle position of the front support 2 and the rear support 3 on the two sides of the chassis 1, and the upper adjustable hydraulic telescopic device 33 and the lower adjustable hydraulic telescopic device 11 are consistent in model size. A counterweight 5 is arranged at one end of the chassis 1 close to the rear bracket 3.

The two sides of the chassis 1 near one end of the front bracket 2 are provided with telescopic sleeves 12. The chassis 1 is provided with adjustable flexible stabilizer blade 13 and can spacing universal wheel 14 on being close to the one end both sides of rear bracket 3, and every telescope tube 12 bottom also is provided with adjustable flexible stabilizer blade 13 and can spacing universal wheel 14. The telescopic sleeve 12 can adjust the length of the chassis 1, thereby adjusting the area of the chassis 1, leading the bearing performance to be better and leading the weight of the liftable facade decorative glass 6 to be heavy. The adjustable telescopic supporting feet 13 and the limited universal wheels 14 enable the chassis 1 to have better stability and good anti-tipping performance, and the limited universal wheels 14 facilitate the movement of the tools.

The glass vertical hoisting in-place tool capable of being flexibly adjusted and displaced in multiple directions and the use method thereof are as follows:

s1: preparing for assembling the tool;

s2: weighing and obtaining the weight m1 of the facade decorative glass to be hoisted, calculating and obtaining the tilting force F of the facade decorative glass through a formula F-m 1g, adjusting the length of a telescopic sleeve on the chassis to obtain the distance L1 from the facade decorative glass to the chassis, and obtaining the tilting moment Mt through a formula Mt-F-L1;

s3: weighing m2 of the single balancing weight on the chassis, calculating to obtain the gravity G of the balancing weight through a formula G (m 2G), starting an upper adjustable hydraulic telescopic device on the rear suspension arm and a lower adjustable hydraulic telescopic device on the chassis to adjust the distance L2 between the front support and the rear support, wherein the number of the balancing weights to be added is i, i is more than Mt/(G L2);

s4: the electric glass sucker is electrified to adsorb the facade decorative glass;

s5: starting the front electric hoist to vertically hoist the facade decorative glass to the height of the facade decorative glass installation floor;

s6: moving a position-limitable universal wheel on the chassis to move the facade decorative glass to an installation position;

s7: and starting the rear electric hoist, pulling up the front suspension arm, and finely adjusting and mounting the height of the facade decorative glass.

Through the steps, materials are selected on the spot, the manufacturing is simple, the operation is convenient, the hoisting and mounting efficiency of large glass can be effectively improved, the manual participation is reduced, the safety management risk is reduced, and the application range is wide.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. But the glass vertical hoisting instrument of taking one's place of multidirectional nimble regulation aversion, including setting up fore-stock and the after-poppet in chassis upper portion both sides, the fore-stock with be provided with the back davit between the after-poppet, the fore-stock is kept away from the articulated preceding davit that installs in after-poppet one side, preceding davit is close to fore-stock one side bottom is provided with preceding electric hoist, preceding davit opposite side bottom is provided with the pulley, preceding electric hoist's preceding wire rope passes the pulley, preceding wire rope's expansion end is connected with electric glass sucking disc, the back davit is close to after-poppet one side top is provided with back electric hoist, keep away from on the preceding davit one side top of fore-stock is provided with connecting element, back electric hoist's back wire rope expansion end fixed connection in connecting element.

2. The tool as claimed in claim 1, wherein the rear boom has an upper adjustable hydraulic telescopic device at its middle position, and the chassis has a lower adjustable hydraulic telescopic device at its middle position between the front and rear supports.

3. The tool as claimed in claim 1, wherein a front flange steel plate is welded to the bottom of the front arm near one side of the front support, the front electric hoist is mounted on the front flange steel plate, a rear flange steel plate is welded to the top of the rear arm near one side of the rear support, and the rear electric hoist is mounted on the rear flange steel plate.

4. The tool for vertically hoisting and positioning glass, which can be flexibly adjusted and displaced in multiple directions, according to claim 1, wherein the chassis is a rectangular frame formed by welding a plurality of steel rectangular pipes, an angle steel cross support is fixedly arranged on the rectangular frame, a bolt connecting plate is arranged on the angle steel cross support, and the front support and the rear support are connected to the bolt connecting plate through bolts.

5. The tool as claimed in claim 1, wherein the chassis is provided with a telescopic sleeve on both sides of one end thereof adjacent to the front bracket.

6. The tool of claim 1, wherein a weight is disposed on the end of the base plate near the rear bracket.

7. The tool as claimed in claim 5, wherein the chassis has adjustable telescopic legs on both sides of one end near the rear support, and each telescopic sleeve has adjustable telescopic legs at the bottom.

8. The tool as claimed in claim 5, wherein the chassis has a position-limitable universal wheel on both sides of one end near the rear bracket, and the bottom of each telescopic sleeve is also provided with the position-limitable universal wheel.

9. Use of the tool according to any of claims 1-8, wherein the use comprises the steps of:

s1: preparing for assembling the tool;

s2: weighing and obtaining the weight m of the facade decoration glass to be hoisted₁By the formula F ═ m₁g, calculating to obtain the tipping force F of the facade decorative glass, adjusting the length of the telescopic sleeve on the chassis to measure the distance L between the facade decorative glass and the chassis₁By the formula Mt ═ F × L₁Obtaining a tipping moment Mt;

s3: weighing m weight of single balancing weight on the chassis₂By the formula G ═ m₂G, calculating to obtain the gravity G of the balancing weight, starting an upper adjustable hydraulic telescopic device on the rear suspension arm and a lower adjustable hydraulic telescopic device on the chassis to adjust the distance L between the front support and the rear support₂The number of the balancing weights is i, i is more than Mt/(G x L)₂)；

S4: the electric glass sucker is electrified to adsorb the facade decorative glass;

s5: starting the front electric hoist to vertically hoist the facade decorative glass to the height of the facade decorative glass installation floor;

s6: moving a position-limitable universal wheel on the chassis to move the facade decorative glass to an installation position;

s7: and starting the rear electric hoist, pulling up the front suspension arm, and finely adjusting and mounting the height of the facade decorative glass.

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