CN117513674A - Safe and efficient large-scale metal composite plate installation method and lifting tool - Google Patents

Abstract

The invention relates to the technical field of metal composite plates, in particular to a safe and efficient large-scale metal composite plate installation method and a hoisting tool, wherein the safe and efficient large-scale metal composite plate installation method comprises the following steps: step one: horizontally placing the lifting appliance on the horizontal ground, respectively taking down a plurality of groups of anti-tilting assemblies, and horizontally placing the metal composite plate on the lifting appliance; step two: respectively inserting a plurality of groups of anti-tilting assemblies, tightly binding the anti-tilting assemblies by ropes, and fixing the metal composite plate; step three: binding a traction rope, and hoisting a lifting appliance for fixing the metal composite plate to a position to be installed; according to the invention, the composite board main body is horizontally placed on the lifting tool, so that the composite board main body is more convenient than the vertical placement, the composite board main body can be supported by utilizing the extension plate, the stability is improved, the second lifting ring is enabled to move by sliding the two sliding rods, the position of the second lifting ring can be adjusted, the composite board main body with different widths is adapted, the center offset caused by the different widths of the composite board main body is compensated, and the stability in the subsequent lifting process is improved.

Description

Safe and efficient large-scale metal composite plate installation method and lifting tool

Technical Field

The invention relates to the technical field of metal composite plates, in particular to a safe and efficient large-scale metal composite plate installation method and a hoisting tool.

Background

The metal composite board is a hot material in the current construction of the outer wall of a building, and is formed by pressing an upper layer of metal panel, a lower layer of metal panel and a middle layer of heat insulation inner core material, the thickness of the outer layer of metal panel is thin, and the rigidity of the middle layer of material is small, so that the whole board has low strength.

The current hoisting method for the composite board comprises the following steps: the U-shaped clamping groove and the L-shaped clamping groove are clamped at the edge of the metal composite plate, and the clamping groove lifting lug is bound and lifted by a rope.

In the prior art, the following problems exist:

and (3) a step of: the contact surface of the clamping groove and the metal composite plate is small, the contact surface is high in pressure, and the metal composite plate is easy to damage in the process of carrying and hoisting;

and II: the metal composite plate is required to be vertically placed in the clamping groove before installation, so that the operation of the metal composite plate with large area and high length is difficult, and the step of disassembling and lifting the clamping groove after installation is complex, so that time and labor are wasted;

thirdly,: when large-scale metal composite sheet carries out the high altitude, lifting device is spacing inadequately around to the composite sheet, has the potential safety hazard.

Disclosure of Invention

The invention aims to provide a safe and efficient large-scale metal composite board mounting method and a lifting tool, which are used for solving the problems in the background technology.

The technical scheme of the invention is as follows: the method for installing the safe and efficient large-scale metal composite plate and the lifting tool comprise the following steps of:

step one: horizontally placing the lifting appliance on the horizontal ground, respectively taking down a plurality of groups of anti-tilting assemblies, and horizontally placing the metal composite plate on the lifting appliance;

step two: respectively inserting a plurality of groups of anti-tilting assemblies, tightly binding the anti-tilting assemblies by ropes, and fixing the metal composite plate;

step three: binding a traction rope, and hoisting a lifting appliance for fixing the metal composite plate to a position to be installed;

step four: one end of the rope is untied, the metal composite plate is adjusted to a proper position, and the metal composite plate to be installed is connected with the bayonet of the last metal composite plate in a snap-fit mode and fixed;

the lifting appliance used in the first step and the third step comprises two vertical rods, a plurality of connecting transverse plates are fixedly connected between the two vertical rods at equal intervals, one sides of the connecting transverse plates are abutted to the composite plate main body, outer bases are fixed at the upper end and the lower end of one vertical rod, connecting blocks are fixed at the upper end and the lower end of the other vertical rod, and limiting mechanisms are arranged at one sides of the two outer bases and the connecting blocks;

the two stop gear is including symmetrically seting up respectively in two guide rails of two outer base insides, sliding connection in two slide bars of two outer base insides, two one side of slide bar all is fixed with spacing checkpost, two one side of outer base all is fixed with the U-shaped fixed block, two the inboard of U-shaped fixed block all is connected with the fixing screw through the screw thread rotation, two the one end of fixing screw all is fixed with the butt piece, is located one of them outer base upside is fixed with rings one, is located one of them slide bar upside of upper end is fixed with rings two, still includes: multi-group anti-tilting assembly

Preferably, the multiunit prevent inclining the subassembly including being fixed in a plurality of side direction stopper of one of them pole setting one side, a plurality of the inboard of side direction stopper is all pegged graft and is had the plug rod, a plurality of one side of plug rod all is fixed with connecting sleeve, a plurality of connecting sleeve's inboard all runs through sliding connection and has the slide bar, a plurality of the outside one end of slide bar all is fixed with prevents inclining the pin, and the inside one end of a plurality of slide bar all is fixed with the movable block, a plurality of the outside of slide bar all overlaps and is equipped with the spring, a plurality of the one end of spring is fixed in a plurality of movable block one sides respectively, and the other end of a plurality of springs is fixed in a plurality of connecting sleeve insides respectively.

Preferably, a reinforcing bracket is fixed on one side of each of the two vertical rods.

Preferably, one side of the outer base and one side of the sliding rod, which are positioned at the lower end, are both fixed with an extension plate.

Preferably, one side of one of the upright posts is fixed with a plurality of rope tying hooks at equal intervals, and rope main bodies are bound on the inner sides of the rope tying hooks.

Preferably, one side of each of the anti-tilting bars is provided with a first rubber gasket.

Preferably, one side of each of the lateral limiting blocks is provided with a second rubber gasket.

The invention provides a safe and efficient large-scale metal composite plate mounting method and a lifting tool through improvement, and compared with the prior art, the invention has the following improvement and advantages:

the method comprises the following steps: according to the invention, the composite board main body is horizontally placed on the lifting tool, so that the composite board main body is more convenient than the vertical placement, the composite board main body can be supported by utilizing the extension plate, the stability is improved, the second lifting ring is enabled to move by sliding the two sliding rods, the position of the second lifting ring can be adjusted so as to adapt to the composite board main bodies with different widths, the center offset caused by the different widths of the composite board main bodies is compensated, and the stability in the subsequent lifting process is improved;

and two,: according to the invention, the composite board main body can be limited through the plurality of groups of anti-tilting assemblies, so that the composite board main body is prevented from shaking in the lifting process, the stability is improved, the composite board main body with different thicknesses can be adapted through the matching of the plurality of springs, the moving blocks and the sliding rods, the adaptability is improved, and meanwhile, the limiting effect is better.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a perspective view of the invention in a fully hoisted state;

FIG. 2 is a schematic diagram of the overall front perspective of the present invention;

FIG. 3 is a schematic view of the overall rear perspective of the present invention;

FIG. 4 is a schematic perspective view of one of the outer bases and slide bars of the present invention;

FIG. 5 is a partial perspective view of one set of anti-roll inserts of the present invention;

FIG. 6 is a schematic cross-sectional perspective view of one set of anti-roll inserts of the present invention;

fig. 7 is an enlarged schematic view of the structure of fig. 4 a according to the present invention.

Reference numerals illustrate:

1. a vertical rod; 101. a connecting transverse plate; 102. a composite board body; 2. an outer base; 201. a connecting block; 3. a guide rail; 4. a slide bar; 5. a limit clip; 6. a U-shaped fixed block; 7. a fixed screw; 8. an abutment block; 9. a hanging ring I; 10. a hanging ring II; 11. a lateral limiting block; 12. inserting a connecting rod; 13. a connecting sleeve; 14. a slide bar; 15. an anti-tilting stop lever; 16. a moving block; 17. a spring; 18. reinforcing the support; 19. an extension plate; 20. rope tying hook; 21. a rope main body; 22. a first rubber gasket; 23. and a second rubber gasket.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a safe and efficient large-scale metal composite plate mounting method and a lifting tool through improvement, and the technical scheme of the invention is as follows:

embodiment one:

as shown in fig. 1 to 7, the method for installing the safe and efficient large-scale metal composite plate and the lifting tool comprise the following steps:

step one: horizontally placing the lifting appliance on the horizontal ground, respectively taking down a plurality of groups of anti-tilting assemblies, and horizontally placing the metal composite plate on the lifting appliance;

step two: respectively inserting a plurality of groups of anti-tilting assemblies, tightly binding the anti-tilting assemblies by ropes, and fixing the metal composite plate;

step three: binding a traction rope, and hoisting a lifting appliance for fixing the metal composite plate to a position to be installed;

step four: one end of the rope is untied, the metal composite plate is adjusted to a proper position, and the metal composite plate to be installed is connected with the bayonet of the last metal composite plate in a snap-fit mode and fixed;

the lifting appliance used in the first step and the third step comprises two vertical rods 1, wherein the two vertical rods 1 are made of steel, the durability is good, a plurality of connecting transverse plates 101 are fixedly connected between the two vertical rods 1 at equal intervals, the specific fixing mode is welding fixing, the fixing effect is ensured, the whole firmness is improved by fixing the plurality of connecting transverse plates 101, one sides of the plurality of connecting transverse plates 101 are abutted to be placed with a composite plate main body 102, the upper end and the lower end of one vertical rod 1 are respectively fixed with an outer base 2, the upper end and the lower end of the other vertical rod 1 are respectively fixed with a connecting block 201, and one sides of the two outer bases 2 and the connecting blocks 201 are respectively provided with a limiting mechanism; the two stop gear is including symmetrically seting up respectively in two guide rails 3 of two outer base 2 inboards, sliding connection is in two slide bars 4 of two outer base 2 inboards, one side of two slide bars 4 all is fixed with spacing checkpost 5, one side of two outer base 2 all is fixed with U-shaped fixed block 6, the inboard of two U-shaped fixed block 6 all is connected with fixing screw 7 through the screw thread rotation, the one end of two fixing screw 7 all is fixed with butt piece 8, be located one of them outer base 2 upside of upper end and be fixed with rings one 9, be located one of them slide bar 4 upside of upper end and be fixed with rings two 10, still include: a plurality of groups of anti-tilting components;

by means of the limiting mechanism, the two lifting rings 10 are driven to move by respectively sliding the two sliding rods 4, the positions of the two lifting rings 10 can be adjusted according to different widths of the composite board main body 102, center offset caused by different widths of the composite board main body 102 can be compensated, and stability in a follow-up lifting process is improved.

Further, the reinforcing brackets 18 are fixed on one sides of the two vertical rods 1, so that the supporting force of the two vertical rods 1 is improved.

Further, in order to support the lower end of the composite plate body 102, an extension plate 19 is fixed to one side of the slide bar 4 and one of the outer base 2 at the lower end.

Further, in order to further improve the fixing effect on the composite board main body 102, a plurality of rope tying hooks 20 are fixed on one side of one upright rod 1 at equal intervals, and rope main bodies 21 are bound on the inner sides of the rope tying hooks 20, so that shaking is further avoided in the lifting process.

Embodiment two:

further, the multiple groups of anti-tilting components comprise a plurality of lateral limiting blocks 11 fixed on one side of one vertical rod 1, inserting rods 12 are inserted into the inner sides of the plurality of lateral limiting blocks 11, connecting sleeves 13 are fixed on one sides of the plurality of inserting rods 12, sliding rods 14 are connected to the inner sides of the plurality of connecting sleeves 13 in a penetrating and sliding manner, anti-tilting bars 15 are fixed on one ends of the outer sides of the plurality of sliding rods 14, moving blocks 16 are fixed on one ends of the inner sides of the plurality of sliding rods 14, springs 17 are sleeved on the outer sides of the plurality of sliding rods 14, one ends of the plurality of springs 17 are respectively fixed on one sides of the plurality of moving blocks 16, and the other ends of the plurality of springs 17 are respectively fixed on the inner sides of the plurality of connecting sleeves 13;

by means of the multiple groups of anti-tilting assemblies, the composite board main body 102 can be limited by abutting one side of the multiple anti-tilting bars 15 with one side of the composite board main body 102 respectively, the composite board main body 102 is prevented from tilting and falling, the operation is simple, springs 17 are sleeved outside the sliding bars 14, elastic potential energy of the springs 17 is utilized, when the multiple anti-tilting bars 15 are loosened, the multiple anti-tilting bars 15 are reset under the elastic action of the springs 17, the composite board main body 102 is tightly abutted to limit, the limiting effect is further improved, and meanwhile, the composite board main body 102 with different thicknesses is limited.

Further, in order to avoid that the plurality of anti-tilting bars 15 scrape the surface of the composite board main body 102 when the plurality of anti-tilting bars 15 protect the composite board main body 102, one side of the plurality of anti-tilting bars 15 is provided with a first rubber gasket 22.

Further, the rubber gaskets two 23 are arranged on one sides of the lateral limiting blocks 11, so that the side wall of the composite board main body 102 can be protected.

Working principle: when in use, the device is horizontally placed on the horizontal ground, a plurality of groups of anti-tilting plug-ins are respectively taken down, the composite board main body 102 is horizontally placed on a lifting appliance, when in placement, the buckle corresponding to the composite board main body 102 and the previous composite board main body 102 faces outwards, the inner side of the composite board main body 102 is tightly attached to a plurality of lateral limiting blocks 11, the bottom is tightly attached to an extension plate 19, a plurality of groups of anti-tilting assemblies are plugged, the composite board main body 102 is limited, a plurality of plugging rods 12 are plugged into the inner sides of the plurality of lateral limiting blocks 11 respectively, a plurality of anti-tilting stop rods 15 are respectively held and pulled outwards to drive a plurality of sliding rods 14 to slide along the inside of a plurality of connecting sleeves 13, meanwhile, the plurality of springs 17 are extruded, the composite board main bodies 102 with different thicknesses can be limited to prevent the composite board main bodies from swaying and tilting, the elastic potential energy of the plurality of springs 17 is utilized, when the plurality of anti-tilting stop rods 15 are released, the plurality of anti-tilting stop rods 15 reset to tightly support and limit the composite board main body 102, further improving the limit effect, adjusting the position of the lifting ring two 10 according to the width of the composite board main body 102, controlling the sliding of the two sliding rods 4 by respectively rotating the two fixing screws 7, extruding the two abutting blocks 8 when the two abutting blocks are respectively abutted with the two guide rails 3, moving the two sliding rods 4 for a certain distance to drive the two abutting blocks 8 to synchronously move, so that one side of the two limiting clamps 5 is tightly attached and clamped with the outer walls of the two outer bases 2, at the moment, the two sliding rods 4 cannot slide again, and similarly, rotating the two fixing screws 7 in the opposite direction can enable the two guide rails 3 to slide, adjusting the positions of the two lifting ring two 10 by adjusting the two sliding rods 4, compensating the center offset caused by the different widths of the composite board main body 102, the stability in the follow-up handling process is improved, lift up whole top with lifting machine through rings one 9 and rings two 10, walk around composite sheet main part 102 respectively with a plurality of rope main part 21 one end, tightly tie up one of them pole setting 1 and the reinforcing bracket 18 junction that is located on same horizontal position, further improve the fixed effect of composite sheet main part 102, hoist up the composite sheet main part 102 that is fixed to with another composite sheet main part 102 alignment, adjust the side of composite sheet main part 102 to suitable position, make the interlock connection between two composite sheet main parts 102, push away lifting device inwards from the side, chucking it, fix it with the fixed screw, take off multiunit respectively and prevent inclining grafting, put lifting device flat on ground at last, hoist up the work again can.

The previous description 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. A safe and efficient large-scale metal composite board installation method and a hoisting tool are characterized in that: the installation of the safe and efficient large-scale metal composite plate comprises the following steps of:

step one: horizontally placing the lifting appliance on the horizontal ground, respectively taking down a plurality of groups of anti-tilting assemblies, and horizontally placing the metal composite plate on the lifting appliance;

step two: respectively inserting a plurality of groups of anti-tilting assemblies, tightly binding the anti-tilting assemblies by ropes, and fixing the metal composite plate;

step three: binding a traction rope, and hoisting a lifting appliance for fixing the metal composite plate to a position to be installed;

step four: one end of the rope is untied, the metal composite plate is adjusted to a proper position, and the metal composite plate to be installed is connected with the bayonet of the last metal composite plate in a snap-fit mode and fixed;

the lifting appliance used in the first step and the third step comprises two vertical rods (1), a plurality of connecting transverse plates (101) are fixedly connected between the two vertical rods (1) at equal intervals, one sides of the connecting transverse plates (101) are abutted to be placed with a composite plate main body (102), an outer base (2) is fixed at the upper end and the lower end of one vertical rod (1), a connecting block (201) is fixed at the upper end and the lower end of the other vertical rod (1), and a limiting mechanism is arranged at one side of each of the two outer bases (2) and the connecting block (201);

the two stop gear is including symmetrically seting up respectively in two guide rails (3) of two outer base (2) inboardly, sliding connection in two slide bars (4) of two outer base (2), two one side of slide bar (4) all is fixed with spacing checkpost (5), two one side of outer base (2) all is fixed with U-shaped fixed block (6), two the inboard of U-shaped fixed block (6) all is connected with fixing screw (7) through the screw thread rotation, two the one end of fixing screw (7) all is fixed with butt piece (8), one of them outer base (2) upside that is located the upper end is fixed with rings one (9), and one of them slide bar (4) upside that is located the upper end is fixed with rings two (10), still includes: multiple sets of anti-tilting components.

2. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 1, are characterized in that: multiunit tilting prevention subassembly is including being fixed in a plurality of side direction stopper (11) of one of them pole setting (1) one side, a plurality of the inboard of side direction stopper (11) is all pegged graft and is had spliced pole (12), a plurality of one side of spliced pole (12) is all fixed with connecting sleeve (13), a plurality of the inboard of connecting sleeve (13) is all run through sliding connection and is had slide bar (14), a plurality of the outside one end of slide bar (14) is all fixed with tilting prevention pin (15), and the inside one end of a plurality of slide bar (14) is all fixed with movable block (16), a plurality of the outside of slide bar (14) is all overlapped and is equipped with spring (17), a plurality of the one end of spring (17) is fixed in a plurality of movable block (16) one side respectively, and the other end of a plurality of spring (17) is fixed in a plurality of connecting sleeve (13) insides respectively.

3. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 1, are characterized in that: one side of each upright (1) is fixed with a reinforcing bracket (18).

4. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 1, are characterized in that: one side of the outer base (2) and one side of the sliding rod (4) which are positioned at the lower end are both fixed with an extension plate (19).

5. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 1, are characterized in that: one side of the upright (1) is fixed with a plurality of rope tying hooks (20) at equal intervals, and rope main bodies (21) are bound on the inner sides of the rope tying hooks (20).

6. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 2, are characterized in that: one side of each of the anti-tilting bars (15) is provided with a rubber gasket I (22).

7. The method and the lifting tool for installing the safe and efficient large-scale metal composite plate, which are disclosed in claim 2, are characterized in that: one side of each lateral limiting block (11) is provided with a rubber gasket II (23).