CN117923314A - Super high-rise inward-inclined glass curtain wall annular rail hoisting device and construction method thereof - Google Patents

Abstract

The invention relates to a super high-rise inward-tilting glass curtain wall ring rail hoisting device and a construction method thereof, comprising a support arm part, a lifting part and a lifting part, wherein the support arm part is arranged on a floor slab and is used for carrying loads; the annular rail is arranged below the support arm; the rail pulley is arranged at the bottom of the annular rail in a sliding manner; the moving rail is fixedly connected with the rail pulley through a double-lug plate, and the moving rail and the annular rail are crossed and staggered at different heights; the electric hoist is arranged at the lower end of the movable track in a sliding manner, the movable track can horizontally move along the annular track through the track pulley, the electric hoist on the movable track can horizontally move along the movable track perpendicular to the building surface, the problem that the glass curtain wall plate can not be installed and constructed when the outer elevation of the building is the glass curtain wall plate lifted by the inner inclined elevation and the installation position is too far can be solved, and the application range of the lifting equipment is enlarged.

Description

Super high-rise inward-inclined glass curtain wall annular rail hoisting device and construction method thereof

Technical Field

The invention relates to the technical field of building components, in particular to a super high-rise inward-inclined glass curtain wall annular rail hoisting device and a construction method thereof.

Background

In the rapid development process of the building industry in China, a clear-outline glass curtain wall has become the main outer surface of a modern skyscraper, complex and changeable outer curtain wall forms and models are more and more favored, and the unique, complex and changeable outer curtain wall models bring about the increase of installation technical difficulties and improvement of quality requirements.

In the prior art, the hanging of curtain wall unit plate mainly has the modes of hanging basket installation, setting up outer scaffold installation, movable crane installation, gun carriage installation, setting up annular track hanging and the like. The lifting mode for constructing the annular track can be used for vertical transportation and horizontal movement; the loading capacity is high, the safety coefficient is high, the influence of severe weather such as strong wind is small, the construction speed is high, the advantages of high hoisting precision and the like become a common hoisting mode in the construction of building curtain walls. The electric hoist is arranged on the annular track to lift the curtain glass curtain wall plate and move parallel to the building. However, when building facade is interior inclined facade, among the prior art, in order to prevent hoist and mount in-process plate and floor structure collision each other, curtain plate and mounted position are usually separated by longer distance, and glass curtain plate can only be along annular track horizontal migration, can't follow the building inboard and remove, can lead to the installation difficulty when curtain plate and mounted position are too far away, and rely on artifical traction, curtain plate moves fast and atress inhomogeneous, and curtain plate takes place the deflection collision easily in the high altitude, and the incident risk is great. If the overweight oversized glass curtain wall plate is hoisted, the glass curtain wall plate cannot be pulled by manpower, special mechanical equipment is needed, and construction cost is increased. In addition, when conventional annular track uses, the cable conductor and the controlling means connecting wire of connecting electric block can't follow curtain wall annular track synchronous movement, need the handheld cable conductor of operating personnel and controlling means follow electric block and remove, and very inconvenience just faces limit removal and has the security risk. When the installation height of the curtain wall exceeds the height of the roof floor, the conventional annular track is distributed at the edge of the roof floor, so that the hoisting construction of the highest-layer glass curtain wall cannot be met. Therefore, how to utilize the annular track to hoist the glass curtain wall plate when the outer facade of the building is the inner inclined facade, how to make the cable conductor and the control device connecting wire connected with the electric hoist unnecessary to manually follow the annular track of the curtain wall to move synchronously, how to utilize the annular track to hoist the unit plate when the installation height of the curtain wall exceeds the height of the roof floor, and how to solve the problem in the field of curtain wall construction.

Disclosure of Invention

The invention aims to solve the technical problems that: the technical problem that the lifting mode of the super high-rise inward-inclined glass curtain wall is difficult in the prior art is solved, and the super high-rise inward-inclined glass curtain wall ring rail lifting device and the construction method thereof are provided.

The technical scheme adopted for solving the technical problems is as follows: super high-rise internal tilting glass curtain wall ring rail hoist device includes:

the support arm part is arranged on the floor slab and is used for carrying a load;

the annular rail is arranged below the support arm;

The rail pulley is arranged at the bottom of the annular rail in a sliding manner;

The moving rail is fixedly connected with the rail pulley through a double-lug plate, and the moving rail and the annular rail are crossed and staggered at different heights;

The electric hoist is arranged at the lower end of the moving track in a sliding way, and can move left and right along the moving track.

Further, the support arm part comprises a first cantilever support arm, two limiting steel plates arranged at the front end and the rear end of the first cantilever support arm, a first hanging lug plate arranged on the first cantilever support arm, a diagonal wire rope connected with one end of the first hanging lug plate, and a second hanging lug plate arranged at the other end of the diagonal wire rope;

The second hanging lug plate is fixed on the upper floor slab through bolts;

The outer part of the first cantilever support arm is provided with a plurality of locking steel sleeves, and a plurality of locking steel sleeves are fixed on the lower floor slab through bolts.

Further, the support arm part comprises a second overhanging support arm, a cross steel sleeve arranged outside the second overhanging support arm, a T-shaped steel sleeve arranged outside the overhanging support arm, a front steel column vertically inserted in the cross steel sleeve, a rear steel column vertically inserted in the T-shaped steel sleeve, a bottom steel plate arranged at the lower end of the front steel column, and a cable-stayed steel pipe arranged between the front steel column and the second overhanging support arm;

The bottom steel plate is fixedly connected with the roof layer floor slab through bolts;

the cross steel sleeve is connected with the front steel upright post through a bolt, and the T-shaped steel sleeve is connected with the rear steel upright post through a bolt.

Further, the support arm part also comprises a fixed steel sleeve arranged at the lower bottom end of the rear steel upright post, a support base plate arranged at one side of the fixed steel sleeve, a concrete counterweight frame arranged at the upper end of the support base plate, and a grouting steel pipe communicated with the upper end of the concrete counterweight frame;

the supporting backing plate is fixedly connected with the roof layer floor slab through bolts.

Further, the super high-rise inward-tilting glass curtain wall annular rail hoisting device further comprises a power supply guide rail;

The power supply guide rail is fixedly connected below the first cantilever support arm or the second cantilever support arm through a locking steel sleeve and a bolt;

A control device and a T-shaped collector shoe are arranged at the middle position of the upper surface of the moving track;

the power supply guide rail is electrically connected with the control device and the T-shaped collector shoe, and the power supply guide rail is electrically connected with the operation control platform, the track pulley and the cable.

Further, a camera is arranged at one end of the moving track, a U-shaped protection steel sleeve is arranged at one end of the moving track, the U-shaped protection steel sleeve is arranged outside the upper half part of the camera, and a rubber gasket is arranged between the U-shaped protection steel sleeve and the camera;

The camera is electrically connected with the operation control platform through a wire.

Further, a hoisting part is arranged at the end of the rope at the lower end of the electric hoist;

The hoisting part comprises a single groove plate, and two first rod pieces and two second rod pieces which are rotatably connected in the single groove plate through four hinge parts;

the first rod piece and the second rod piece are both in a frame shape;

The first rod piece can be abutted against the lower end of the curtain wall plate;

the second rod piece can be abutted against the side end of the curtain wall plate.

Further, one end of the second rod piece is connected with the movable block through a spring;

The movable block is rotationally connected with the single-groove plate through a hinge part;

two protective groove plates are arranged on the movable block in a sliding manner, and the two protective groove plates are fixedly connected with the second rod piece;

And connecting rods capable of laterally propping against the movable blocks are connected between the two groups of the protection groove plates.

Further, the hinge part comprises a shaft sleeve connected with the single-groove plate, a rubber sleeve glued in the shaft sleeve, and a connecting shaft in interference fit rotation connection with the shaft sleeve;

The connecting shaft is connected with the movable block or the first rod piece.

Further, the construction method comprises the following steps of,

The method comprises the steps of firstly, moving a glass curtain wall to a parallel position below a single groove plate, rotating two second rod pieces and two first rod pieces to enable the two second rod pieces and the two first rod pieces to respectively abut against the side end and the bottom end of the glass curtain wall, and driving an electric hoist to enable the glass curtain wall to be pulled upwards and move;

Step two, the electric hoist is moved back and forth along the moving track, so that the glass curtain wall is moved and adjusted back and forth;

and thirdly, moving the rail pulley left and right along the annular rail, so that the rail pulley drives the moving rail to move left and right, and the glass curtain wall is moved and adjusted back and forth.

The invention has the beneficial effects that the movable rail perpendicular to the annular rails is arranged below the two annular rails, the movable rail can horizontally move along the annular rails through the rail pulley, the electric hoist on the movable rail can horizontally move along the movable rail perpendicular to the building surface, the problem that the glass curtain wall plate can not be installed and constructed when the glass curtain wall plate lifted by the inner inclined vertical surface is arranged on the outer vertical surface of the building and the installation position is too far can be solved, the application range of lifting equipment is enlarged, the lifting construction method is diversified, meanwhile, the labor traction is not needed, the construction safety is increased, and the moving speed and the stress of the curtain wall plate are uniform through the electric hoist, the deflection collision is not easy to happen, and the stability is enhanced.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a perspective view of a first preferred embodiment of the present invention;

FIG. 2 is a side cross-sectional view of a first preferred embodiment of the present invention;

FIG. 3 is a perspective view of a second preferred embodiment of the present invention;

FIG. 4 is a schematic perspective view of a mobile track of the present invention;

FIG. 5 is a schematic elevation view of a power rail of the present invention;

FIG. 6 is a perspective view of the electric hoist of the present invention;

FIG. 7 is a partial front cross-sectional view of a lifting portion of the present invention;

fig. 8 is a side cross-sectional view of the hinge of the present invention.

In the figure:

1. A support arm portion; 11. a first cantilever arm; 12. limiting steel plates; 13. a first hanger plate; 14. a cable-stayed steel wire rope; 15. a second hanger plate; 101. the second cantilever support arm; 102. a cross-shaped steel sleeve; 103. t-shaped steel sleeve; 104. a front steel upright; 105. rear steel upright post; 106. a bottom steel plate; 107. oblique-pulling steel is communicated; 108. u-shaped steel sleeve; 109. a support backing plate; 1091. a concrete counterweight frame; 1092. grouting a steel pipe; 1093. fixing the steel sleeve; 2. an endless track; 3. a track pulley; 4. a moving track; 5. a binaural plate; 6. an electric hoist; 7. locking the steel sleeve; 8. a power supply rail; 9. a control device; 10. a T-shaped collector shoe; 31. a camera; 20. u-shaped protective steel sleeve; 21. a hoisting part; 211. a single slot plate; 212. a first rod member; 213. a second rod member; 214. a spring; 215. a movable block; 216. a protective trough plate; 218. a connecting rod; 219. a hinge part; 2191. a shaft sleeve; 2192. a rubber sleeve; 2193. and (5) connecting shafts.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

Example 1

Please refer to fig. 1-2;

Super high-rise internal tilting glass curtain wall ring rail hoist device includes:

a support arm part 1, wherein the support arm part 1 is arranged on a floor slab, and the support arm part 1 is used for carrying a load;

an annular rail 2, wherein the annular rail 2 is arranged below the support arm part 1;

the track pulley 3 is arranged at the bottom of the annular track 2 in a sliding manner;

The moving rail 4 is fixedly connected with the rail pulley 3 through a double-lug plate 5, and the moving rail 4 and the annular rail 2 are crossed at different heights;

The electric hoist 6 is arranged at the lower end of the movable track 4 in a sliding way, the electric hoist 6 can move left and right along the movable track 4, specifically, the invention adopts the movable track 4 which is perpendicular to the circular tracks 2 and is arranged below the two circular tracks 2, the movable track 4 can horizontally move along the circular tracks 2 through the track pulley 3, the electric hoist 6 positioned on the movable track 4 can horizontally move along the movable track 4 which is perpendicular to the building surface, the difficult problem that the glass curtain wall plate lifted by the inner inclined elevation is difficult to install when the glass curtain wall plate is lifted by the outer elevation of the building is too far from the installation position can be solved, the application range of lifting equipment is enlarged, the lifting construction method is diversified, meanwhile, the labor traction is not needed, the construction safety is increased, the moving speed and the stress of the curtain wall plate are uniform through the electric hoist 6, the deflection collision is not easy to happen, the stability is enhanced,

Further, the support arm part 1 comprises a first cantilever support arm 11, wherein the first cantilever support arm 11 is provided with two groups of two limiting steel plates 12 arranged at the front end and the rear end of the first cantilever support arm 11, the two limiting steel plates 12 are used for blocking and limiting the first cantilever support arm 11, a first hanging lug plate 13 arranged on the first cantilever support arm 11, a cable-stayed steel wire rope 14 connected with one end of the first hanging lug plate 13, and a second hanging lug plate 15 arranged at the other end of the cable-stayed steel wire rope 14;

The second hanging lug plate 15 is fixed on the upper floor slab through bolts;

The outside of first cantilever support arm 11 is provided with a plurality of locking steel bushings 7, and is a plurality of locking steel bushing 7 passes through the bolt fastening on the floor of lower floor, specifically, above-mentioned cantilever portion 1 the structure is applicable to the interlaminar track, adopts to draw wire rope 14 and first hanging tab 13 and second hanging tab 15 to have guaranteed the fastness of first cantilever support arm 11, draws wire rope 14 and first hanging tab 13 and second hanging tab 15 junction with wire rope buckle connection, makes things convenient for the dismouting, and the length of drawing wire rope 14 is adjusted with the basket bolt at wire rope and first cantilever support arm 11 in order to guarantee that all annular track 2 highly uniform.

Example two

Please refer to fig. 3

The support arm part 1 comprises a second cantilever support arm 101, a cross-shaped steel sleeve 102 arranged outside the second cantilever support arm 101, a T-shaped steel sleeve 103 arranged outside the cantilever support arm, a front steel column 104 vertically penetrating the cross-shaped steel sleeve 102, a rear steel column 105 vertically penetrating the T-shaped steel sleeve 103, a bottom steel plate 106 arranged at the lower end of the front steel column 104, and a cable-stayed steel through 107 arranged between the front steel column 104 and the second cantilever support arm 101;

the bottom steel plate 106 is fixedly connected with the roof layer floor slab through bolts;

The cross steel sleeve 102 is connected with the front steel upright 104 through bolts, the T-shaped steel sleeve 103 is connected with the rear steel upright 105 through bolts, and the T-shaped steel sleeve 103 and the cross steel sleeve 102 respectively increase the contact angle between the rear steel upright 105 and the front steel upright 104, so that the fastening connection surface of the second cantilever support arm 101 is more comprehensive, and is not easy to bear load and collapse easily;

Further, the support arm portion 1 further comprises a fixed steel sleeve 1093 arranged at the lower bottom end of the rear steel upright 105, a support pad 109 arranged at one side of the fixed steel sleeve 1093, a concrete counterweight frame 1091 arranged at the upper end of the support pad 109, and grouting steel pipes 1092 communicated with the upper end of the concrete counterweight frame 1091, wherein grouting steel pipes 1092 are used for grouting into the concrete counterweight frame 1091 so as to flexibly increase the loading effect of the support pad 109, the connection acting force between the rear steel upright 105 and a roof floor is firmer, the working efficiency is improved, the support pad 109 is fixedly connected with the roof floor through bolts, specifically, the support arm portion 1 is suitable for a roof rail, the roof rail adopts the front steel upright 104 and the rear steel upright 105 to support the second cantilever arm 101, and the support structure is arranged on the second cantilever arm 101 so as to promote the height of the annular rail 2, so that the maximum hoisting height of the annular rail 2 covers the highest point of a curtain wall unit body to be installed, and the problem that the glass floor cannot be arranged on the edge of the conventional annular floor is solved when the installation height exceeds the roof floor.

Example III

Please refer to fig. 1-5

The super high-rise inward-tilting glass curtain wall annular rail hoisting device further comprises a power supply guide rail 8;

The power supply guide rail 8 is fixedly arranged below the first overhanging support arm 11 or the second overhanging support arm 101 through the locking steel sleeve 7 and the bolt connection;

A control device 9 and a T-shaped collector shoe 10 are arranged at the middle position of the upper surface of the moving track 4;

The power supply guide rail 8 is electrically connected with the control device 9 and the T-shaped collector shoe 10, and the power supply guide rail 8 is electrically connected with the operation control platform, the track pulley 3 and the cable;

Further, a camera 31 is arranged at one end of the moving track 4, a U-shaped protection steel sleeve 20 is arranged at one end of the moving track 4, the U-shaped protection steel sleeve 20 is arranged outside the upper half part of the camera 31, a rubber gasket is arranged between the U-shaped protection steel sleeve 20 and the camera 31, the U-shaped protection steel sleeve 20 can provide an anti-collision effect for the camera 31, and the rubber gasket can provide a damping effect for the camera 31 in the collision process;

The camera 31 passes through wire electric connection operation control platform, specifically, power supply rail 8 sets up between two annular tracks 2 of first cantilever support arm 11 or second cantilever support arm 101 below, parallel with two annular tracks 2, through locking steel bushing 7 and bolted connection fixed first cantilever support arm 11 or second cantilever support arm 101, controlling means 9 mainly is responsible for distributing two track pulleys 3, electric block 6 and the required electric current and voltage of camera 31, realize the operation control to the device through being connected with control operation platform, when moving track 4 removes, T shape collector shoe 10 can move in the power supply rail synchronous motion together with it, contact with the conducting block of power supply rail 8 in order to continue to obtain electric energy input, need not to face the limit and follow, thereby when solving conventional annular track 2 and using, the cable conductor of connecting electric block 6 and controlling means 9 can' T follow the synchronous movement of curtain wall annular track difficult problem, safety and convenience have been improved, this device adopts the mode of increasing camera 31 at the end at the movable track 4, make whole hoist and mount process visual, the operating personnel has visited out outside the building and has also promoted half the position of one, the same electric block has improved the safety coefficient of sight glass curtain wall, the same signal has been improved through the two and has been passed through the control signal of the same side of the glass block 3, simultaneously, the same window plate has been improved the safety profile of the two has been realized the signal has been improved and has been realized simultaneously the safety window 3.

Example IV

Referring to figures 6-8 of the drawings,

The end of the rope at the lower end of the electric hoist 6 is provided with a hoisting part 21;

the lifting part 21 comprises a single groove plate 211, the single groove plate 211 is in a shape that a groove is arranged at the lower end of a block body, and two first rod pieces 212 and two second rod pieces 213 which are rotatably connected in the single groove plate 211 through four hinge parts 219;

the first rod 212 and the second rod 213 are both frame-shaped;

The first rod piece 212 can abut against the lower end of the curtain wall plate;

The second rods 213 can abut against the side ends of the curtain wall plate, specifically, in the unused state, the two first rods 212 and the two second rods 213 can all keep the free downward shape without stress, in the used state, the two first rods 212 can oppositely rotate through the hinge 219 to keep the inclination angle of the vertical direction, the two second rods 213 can oppositely rotate through the hinge 219 to form the horizontal angle of the horizontal direction, the two first rods 212 and the two second rods 213 form a six-son shape with the rope, when the glass curtain wall plate is penetrated, the lower part and the side parts of the glass curtain wall plate are abutted and limited and cannot fall off, the safety of hoisting work is ensured, and the falling of the glass curtain wall plate due to uneven movable stress angle caused by loose plate binding is avoided.

Further, one end of the second rod 213 is connected to the movable block 215 through a spring 214;

The movable block 215 is rotatably connected to the single slot plate 211 through a hinge 219;

Two protective groove plates 216 are slidably arranged on the movable block 215, the two protective groove plates 216 are fixedly connected with the second rod piece 213, the protective groove plates 216 are plate-shaped with grooves at the bottom ends, when the protective groove plates are slidably connected with the movable block 215, only the front and back sliding is ensured,

The two groups of protection groove plates 216 are connected with connecting rods 218 capable of laterally abutting against the movable blocks 215, specifically, in the process of hoisting the glass curtain wall, the second rod pieces 213 can stretch the springs 214, so that the second rod pieces 213 can laterally abut against the glass curtain wall plates with wider sizes, suitability in hoisting operation of the glass curtain wall plates is guaranteed, the two protection groove plates 216 can slide left and right along with the second rod pieces 213, accuracy of elastic track of the springs 214 is guaranteed, when the glass curtain wall plates are laterally dumped, the glass curtain wall plates can abut against the second rod pieces 213 to pull the protection groove plates 216, so that the protection groove plates 216 pull the connecting rods 218 to abut against the movable blocks 215, side tilting action of the glass curtain wall plates is blocked, and impact force in the process is removed through elastic operation of the springs 214.

Further, the hinge 219 includes a sleeve 2191 connected to the single slot plate 211, a rubber sleeve 2192 glued inside the sleeve 2191, and a coupling shaft 2193 rotatably connected to the sleeve 2191 by interference fit;

The connecting shaft 2193 is connected with the movable block 215 or the first rod piece 212, in particular, the rubber sleeve 2192 has flexibility and elasticity, so that the connecting shaft 2193 can rotate with resistance, the connecting shaft 2193 can rotate and then keep at a rotating angle, the real-time angle regulation and control of the first rod piece 212 and the second rod piece 213 are facilitated, and the first rod piece 212 and the second rod piece 213 can be more convenient for the laminating work of glass curtain wall plates at different angles.

In the working principle, a large number of glass curtain wall installation components and materials need to be hoisted in the hoisting and installation process of the glass curtain wall plates, interlayer tracks and accessories can be transported to a floor to be installed through a constructable elevator, roof tracks and accessories can be transported to a roof by using a construction tower crane, all materials are orderly stacked according to the types and installation positions of the accessories, then the glass curtain wall plates are assembled by professional operators, before the glass curtain wall plates are assembled, the operators need to use a total station to carry out paying-off positioning of the first cantilever support arm 11, the second cantilever support arm 101 and the upper hanging part for the annular track 2, and after the glass curtain wall plates are inspected, the installation work can be carried out to complete track positioning paying-off;

the horizontal annular rail supporting system is provided with fixing measures,

The front end of the first cantilever support arm 11 is limited by using an expansion bolt and a square gasket, a first hanging lug plate 13 used for being connected with a diagonal wire rope 14 is welded at the top, the rear end of the first cantilever support arm 11 can be connected with a structure edge embedded part by adopting a bolt, and the left and right grid division, the front and rear positions of the first cantilever support arm 11 are adjusted and fixed;

the diagonal-pulling steel wire rope 14 and the fixed point are installed by the following measures,

Interlayer track: the interlayer track can adopt a diagonal cable 14 to diagonal the first cantilever support arm 11, one end of the diagonal cable 14 is fixed on a second hanging lug plate 15 at the top of the edge of a floor slab on one layer of the track installation floor, the other end of the diagonal cable 14 is fixed on a first hanging lug plate 13 at the top of the front end of the first cantilever support arm 11, and the joint of the diagonal cable 14 and the hanging lug plate is in snap connection with the diagonal cable 14, so that the diagonal cable is convenient to assemble and disassemble. The length of the wire rope is adjusted by using a basket bolt at the joint of the inclined wire rope 14 and the first cantilever support arm 11 so as to ensure that the heights of all tracks are consistent;

roof rail: the roof rail adopts the place ahead steel stand 104 and rear steel stand 105 to support the second support arm 101 that encorbelments, and place ahead steel stand 104 and rear steel stand 105 one end is connected fixedly through the built-in fitting of high strength bolt with roofing main part floor, and the other end welds with the support arm 101 bottom that encorbelments, and the junction adopts T shape steel bushing 103 and cross steel bushing 102 and stop bolt to strengthen fixedly, and place ahead steel stand 104 and second support arm 101 that encorbelments are through inclined-pull steel through 107 interconnect, improves stability.

The horizontal annular track beam is installed by the following steps: the method comprises the steps of firstly fixing scaffold boards on a first overhanging support arm 11 and a second overhanging support arm 101, hoisting an annular rail 2 by using a chain block temporarily fixed on an upper layer, sliding to the front end installation positions of the first overhanging support arm 11 and the second overhanging support arm 101, inserting a movable rail 4 into a clamping groove for fixing a U steel sleeve 108, sliding the other end into the clamping groove of the other first overhanging support arm 11 or the other second overhanging support arm 101, adjusting in place, then screwing a limit bolt, installing other movable rails 4 according to the method, and finally fixing two adjacent movable rails 4 in series by using bolts for spot welding and polishing.

The whole hoisting device power source is the electric energy, through cable and power supply rail 8 device power supply, power supply rail 8 sets up between two annular tracks 2 of first cantilever support arm 11 and second cantilever support arm 101, be provided with controlling means 9 and T shape collector shoe 10 in the middle of the removal track 4 top, track coaster 3 removes the in-process, T shape collector shoe 10 on the removal track 4 can be through following the removal with power supply rail 8 and remain the contact realization with the power supply line throughout in power supply rail 8, power supply rail 8 inner wall is provided with the insulating layer in order to prevent electric shock, electric leakage.

The glass curtain wall plate is connected with the electric hoist 6 on the moving track 4 through the hoisting part 21, so as to realize the vertical movement of materials. When the glass curtain wall plate is lifted to the height position of the installation floor, two identical track pulleys 3 under two annular tracks 2 are controlled to horizontally move along the annular tracks 2 to the position of the floor to be installed, then an electric hoist on a moving track 4 is controlled to horizontally move the 6 curtain wall unit plate from the far end of the floor to the accurate installation position close to the edge of the floor, and after the glass curtain wall plate is moved in place, constructors need to plug in, position and adjust the plate until the installation is completed.

In the hoisting process, the two ends of the glass curtain wall plate hoisting device are provided with the cable ropes, so that the overturning caused by the influence of wind force and the like in the transportation process is prevented, the stability is improved, and operators in charge of the hoisting device can start the hoisting device to hoist the components after the safety and fixation of the glass components or materials of the curtain wall are ensured.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims (10)

1. Super high-rise internal tilting glass curtain wall ring rail hoist device, its characterized in that includes:

The support arm part (1), the support arm part (1) is arranged on a floor slab, and the support arm part (1) is used for carrying a load;

the annular rail (2) is arranged below the support arm part (1);

the track pulley (3) is arranged at the bottom of the annular track (2) in a sliding manner;

The moving track (4) is fixedly connected with the track pulley (3) through a double-lug plate (5), and the moving track (4) and the annular track (2) are crossed and staggered at different heights;

The electric hoist (6), electric hoist (6) slip sets up move track (4) lower extreme, just electric hoist (6) can be along moving track (4) left and right sides and remove.

2. The super high-rise inward-tilting glass curtain wall annular rail lifting device according to claim 1, wherein,

The support arm part (1) comprises a first cantilever support arm (11), two limiting steel plates (12) arranged at the front end and the rear end of the first cantilever support arm (11), a first hanging lug plate (13) arranged on the first cantilever support arm (11), a diagonal wire rope (14) connected with one end of the first hanging lug plate (13), and a second hanging lug plate (15) arranged at the other end of the diagonal wire rope (14);

The second hanging lug plate (15) is fixed on the upper floor slab through bolts;

The outer part of the first cantilever support arm (11) is provided with a plurality of locking steel sleeves (7), and the locking steel sleeves (7) are fixed on the lower floor slab through bolts.

3. The super high-rise inward-tilting glass curtain wall annular rail lifting device as claimed in claim 2, wherein,

The support arm part (1) comprises a second overhanging support arm (101), a cross steel sleeve (102) arranged outside the second overhanging support arm (101), a T-shaped steel sleeve (103) arranged outside the overhanging support arm, a front steel column (104) vertically penetrating the cross steel sleeve (102), a rear steel column (105) vertically penetrating the T-shaped steel sleeve (103), a bottom steel plate (106) arranged at the lower end of the front steel column (104) and a cable-stayed steel channel (107) arranged between the front steel column (104) and the second overhanging support arm (101);

the bottom steel plate (106) is fixedly connected with a roof layer floor slab through bolts;

The cross-shaped steel sleeve (102) is connected with the front steel upright post (104) through a bolt, and the T-shaped steel sleeve (103) is connected with the rear steel upright post (105) through a bolt.

4. The super high-rise inward-tilting glass curtain wall annular rail lifting device according to claim 3, wherein,

The support arm part (1) further comprises a fixed steel sleeve (1093) arranged at the lower bottom end of the rear steel upright post (105), a support base plate (109) arranged at one side of the fixed steel sleeve (1093), a concrete counterweight frame (1091) arranged at the upper end of the support base plate (109), and grouting steel pipes (1092) communicated with the upper end of the concrete counterweight frame (1091);

the supporting pad (109) is fixedly connected with the roof layer floor slab through bolts.

5. The super high-rise inward-tilting glass curtain wall annular rail lifting device according to claim 1, wherein,

The super high-rise inward-tilting glass curtain wall annular rail hoisting device further comprises a power supply guide rail (8);

The power supply guide rail (8) is fixedly arranged below the first overhanging support arm (11) or the second overhanging support arm (101) through the locking steel sleeve (7) and the bolt connection;

a control device (9) and a T-shaped collector shoe (10) are arranged at the right middle position of the upper surface of the moving track (4);

The power supply guide rail (8) is electrically connected with the control device (9) and the T-shaped collector shoe (10), and the power supply guide rail (8) is electrically connected with the operation control platform, the track pulley (3) and the cable.

6. The super high-rise inward-tilting glass curtain wall annular rail lifting device according to claim 1, wherein,

A camera (31) is arranged at one end of the moving track (4), a U-shaped protection steel sleeve (20) is arranged at one end of the moving track (4), the U-shaped protection steel sleeve (20) is arranged outside the upper half part of the camera (31), and a rubber gasket is arranged between the U-shaped protection steel sleeve (20) and the camera (31);

the camera (31) is electrically connected with the operation control platform through a wire.

7. The super high-rise inward-tilting glass curtain wall annular rail lifting device according to claim 1, wherein,

A hoisting part (21) is arranged at the end of the rope at the lower end of the electric hoist (6);

the hoisting part (21) comprises a single groove plate (211), and two first rod pieces (212) and two second rod pieces (213) which are rotatably connected in the Shan Caoban (211) through four hinge parts (219);

the first rod piece (212) and the second rod piece (213) are in a frame shape;

the first rod piece (212) can be abutted against the lower end of the curtain wall plate;

the second rod piece (213) can be abutted against the side end of the curtain wall plate.

8. The super high-rise inward-tilting glass curtain wall annular rail lifting device of claim 7, wherein,

One end of the second rod piece (213) is connected with the movable block (215) through a spring (214);

the movable block (215) is rotationally connected with the single-groove plate (211) through a hinge part (219);

two protective groove plates (216) are slidably arranged on the movable block (215), and the two protective groove plates (216) are fixedly connected with the second rod piece (213);

connecting rods (218) capable of laterally abutting against the movable blocks (215) are connected between the two groups of protective groove plates (216).

9. The super high-rise internal tilting glass curtain wall annular rail lifting device of claim 8, wherein,

The hinge part (219) comprises a shaft sleeve (2191) connected with the single-groove plate (211), a rubber sleeve (2192) glued in the shaft sleeve (2191), and a connecting shaft (2193) in interference fit rotation connection with the shaft sleeve (2191);

the connecting shaft (2193) is connected with the movable block (215) or the first rod piece (212).

10. The super high-rise internal tilting glass curtain wall annular rail hoisting device according to any one of the claims 1-9, which is constructed by the following steps,

The first step, the glass curtain wall is moved to a parallel position below a single groove plate (211), two second rod pieces (213) and two first rod pieces (212) are rotated to respectively abut against the side end and the bottom end of the glass curtain wall, and an electric hoist (6) is driven to enable the glass curtain wall to be pulled upwards and move;

secondly, the electric hoist (6) is moved back and forth along the moving track (4), so that the glass curtain wall is moved and adjusted back and forth;

And thirdly, moving the track pulley (3) left and right along the annular track (2), and enabling the track pulley (3) to drive the moving track (4) to move left and right, so that the glass curtain wall can be adjusted in a forward and backward moving mode.