Hoisting device for high-altitude operation engineering
Technical Field
The invention relates to a building device, in particular to a hoisting device for high-altitude operation engineering.
Background
High altitude construction engineering is the most common building mode in the building, and high altitude construction generally is fixed the hanging flower basket in roof or hoist upper end, and constructor stands the inside of hanging flower basket and carries out the operation, and the hanging flower basket is inside not to have the device of fixed constructor, and constructor falls easily even can fall from the high altitude to the danger of unhook takes place for the hanging flower basket fixed mode of hoist and mount simply easily.
Disclosure of Invention
The invention relates to a building device, in particular to a hoisting device for high-altitude operation engineering. Can solve the constructor and stand and carry out the operation in the inside of hanging flower basket, hanging flower basket inside does not have fixed constructor's device, and constructor falls easily and can fall from the problem that the high altitude falls even and the problem of the danger of unhook takes place simply easily with the hanging flower basket fixed mode of hoist and mount.
The invention relates to a building device, in particular to a hoisting device for high-altitude operation engineering, which comprises a box body, an angle adjusting box, a lifting box, a telescopic arm sleeve, a hanging basket, a device supporting frame and a moving device, and can solve the problems that a constructor stands inside the hanging basket to operate, the constructor is easy to fall down and even fall off from the high altitude because the device for fixing the constructor is not arranged inside the hanging basket, and the hanging basket hoisted by a crane is simple in fixing mode and easy to get out of hook.
The upper end of angle adjustment case is provided with the turner base, the turner articulated arm, the belt pulley base, the belt pulley, angle adjustment case motor, angle adjustment case belt, the inside welding of turner base has the turner base, the upper end of turner base is rotated and is had the turner, the lower extreme of turner articulates there is the turner articulated arm, the inside welding of angle adjustment case has the belt pulley base, the upper end of belt pulley base is rotated and is had the belt pulley, angle adjustment case motor is fixed to the inside of angle adjustment case, the upper end of angle adjustment case motor is provided with the belt pulley, the upper end of angle adjustment case motor belt pulley is provided with angle adjustment case belt, the upper end of belt pulley is provided with angle.
The upper end of the lifting box is provided with a lifting box slide, a lifting base hinged disc, a worm, a lifting box motor, a lifting box belt, a turbine base and a turbine, the lifting box slide is arranged in the lifting box, the lifting base slides on the upper end of the lifting box slide, the lifting base hinged disc is welded on the upper end of the lifting base, a threaded hole is formed in the lifting base, the worm rotates in the lifting base threaded hole, the worm rotates in the lifting box, the worm is fixed in the lifting box, the lifting box motor is fixed in the lifting box, a belt pulley is arranged at the upper end of the lifting box motor, the lifting box belt is arranged at the upper end of the belt pulley, the turbine base is welded in the lifting box, the turbine is rotated at the upper end of the turbine base, the turbine is meshed with the worm, and the.
Telescopic arm's upper end is provided with flexible arm slide, flexible arm lead screw, flexible arm motor, flexible arm sleeve hinge plate, anticreep crochet hook chain hinge plate, the anticreep crochet hook chain, flexible arm hanging flower basket hinge plate, telescopic arm's inside is provided with flexible arm slide, the upper end of flexible arm slide slides there is flexible arm, the inside of flexible arm is provided with the screw hole, the inside rotation of flexible arm screw hole has flexible arm lead screw, telescopic arm's inside is fixed with flexible arm motor, the upper end of flexible arm motor is connected with flexible arm lead screw, telescopic arm's lower extreme welding has flexible arm sleeve hinge plate, the upper end welding of flexible arm has anticreep crochet hook chain hinge plate, the upper end of anticreep crochet hook chain hinge plate articulates there is the anticreep crochet hook chain, the upper end welding of flexible arm has.
The upper end of the hanging basket is provided with a foot fixer, a clapboard, a fixed sleeve slideway, a fixed sleeve slider, a support column spring, a slider support column interlocking plate, an interlocking plate hinged disk, an interlocking plate spring base, an interlocking plate spring, an interlocking plate hinged block, an interlocking plate hinged column, a slider hinged arm, a limit column spring, a slider support column, a slider, a pedal plate, an anti-skid pad, a triangle fixed block, a pedal plate limit column, an interlocking rod, a hanging basket fixed shaft, a hanging basket hanging arm, a hanging chain unhooking-proof hinged disk, a waist fixed block, a waist supporting arm, a belt and a hanging arm hinged disk, the inside of the hanging basket is welded with the foot fixer, the clapboard is welded inside the foot fixer, the upper end of the clapboard is welded with the fixed sleeve, the inside of the fixed, the upper end of the fixed sleeve sliding block is welded with a supporting column, the upper end of the supporting column is provided with a supporting column spring, the upper end of the supporting column is welded with a sliding block supporting column interlocking plate, the upper end of the sliding block supporting column interlocking plate is welded with an interlocking plate hinging disc, the lower end of the sliding block supporting column interlocking plate is welded with an interlocking plate spring base, the upper end of the interlocking plate is welded with an interlocking plate hinging block, the upper end of the interlocking plate hinging block is hinged with an interlocking plate hinging column, the upper end of the clapboard is welded with an interlocking plate spring base, the inner part of the hanging basket is welded with a limiting column, the upper end of the limiting column is provided with a limiting column spring, the upper end of the sliding block supporting column is welded with a sliding block, the upper end of the limiting column is slid with a sliding block, the upper end, the inside of running-board is provided with porosely, the inside slip in running-board hole has the spacing post of running-board, the upper end of linkage plate hinge post articulates there is the trace, the welding has the hanging flower basket fixed axle at the both ends of hanging flower basket, the upper end of hanging flower basket fixed axle rotates there is the hanging flower basket davit, the welding of the upper end of hanging flower basket has the chain unhook-proof hinge dish, the internal weld of hanging flower basket has the waist fixed block, the welding of the upper end of waist fixed block has the waist support arm, the upper end of waist fixed block articulates there.
The upper end of device support frame is provided with the support frame slide, the support frame slider, the fixed arm, the support frame lead screw, the support frame motor, the inside of device support frame is provided with the support frame slide, the upper end of support frame slide slides there is the support frame slider, the upper end welding of support frame slider has the fixed arm, the inside of fixed arm is provided with the screw hole, the inside rotation of fixed arm screw hole has the support frame lead screw, the inside of device support frame is fixed with the support frame motor, the upper end of support frame motor is.
The upper end of mobile device is provided with the removal roller base, remove the roller support arm, remove the roller, the tight pulley sleeve, the tight pulley support arm, the take-up pulley spring, the track, mobile device's lower extreme welding has the removal roller base, the upper end of removing the roller base articulates there is the removal roller support arm, the upper end of removing the roller support arm is rotated and is had the removal roller, the upper end welding of removing the roller base has the tight pulley sleeve, the telescopic inside slip of take-up pulley has the tight pulley support arm, the upper end of take-up pulley support arm is rotated and is had the take-up pulley, the lower extreme welding of tight pulley support arm.
The inside welding of box has the angle adjustment case, and the inside welding of box has the lift case, and the upper end of turner articulates there is flexible arm sleeve, and the upper end of lift base hinge plate articulates there is flexible arm sleeve hinge plate, and the upper end of flexible arm hanging flower basket hinge plate articulates there is the davit hinge plate, and the welding of the both ends of box has the device support frame, and the welding of the bottom of box has the mobile device.
As a further optimization of the technical scheme, the foot fixer, the partition plate, the slider support column linkage plate, the limiting column spring and the pedal limiting column of the hoisting device for high-altitude operation engineering are all provided with two.
As further optimization of the technical scheme, the lifting box, the lifting base hinged disc and the worm of the lifting device for the high-altitude operation engineering share the center line.
As further optimization of the technical scheme, the box body, the angle adjusting box, the lifting box, the telescopic arm sleeve, the hanging basket and the device supporting frame of the hoisting device for the high-altitude operation engineering are made of stainless steel.
As a further optimization of the technical scheme, the telescopic boom screw rod and the telescopic boom motor of the hoisting device for the high-altitude operation engineering share the center line.
As further optimization of the technical scheme, the belt materials of the angle adjusting box belt and the lifting box belt of the hoisting device for the high-altitude operation engineering are made of rubber.
The hoisting device for the high-altitude operation engineering has the beneficial effects that:
the invention relates to a building device, in particular to a hoisting device for high-altitude operation engineering. Can solve the constructor and stand and carry out the operation in the inside of hanging flower basket, hanging flower basket inside does not have fixed constructor's device, and constructor falls easily and can fall from the problem that the high altitude falls even and the problem of the danger of unhook takes place simply easily with the hanging flower basket fixed mode of hoist and mount.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic view of the overall structure of a hoisting device for high-altitude operation engineering.
Fig. 2 is a schematic structural view of an angle adjusting box of the hoisting device for the high-altitude operation engineering.
Fig. 3 is a schematic structural view of a lifting box of the lifting device for the high-altitude operation engineering.
Fig. 4 is a schematic structural view of a telescopic boom sleeve of the hoisting device for the high-altitude operation engineering.
Fig. 5 is a schematic view of a basket structure of the hoisting device for high-altitude operation engineering.
Fig. 6 is a schematic structural view of a foot fixer of the hoisting device for high-altitude operation engineering.
Fig. 7 is a schematic structural view of a fixing sleeve of the hoisting device for high-altitude operation engineering.
Fig. 8 is a schematic structural view of a slider support column linkage plate of the hoisting device for high-altitude operation engineering.
Fig. 9 is a schematic structural view of a slider support column of the hoisting device for high-altitude operation engineering.
Fig. 10 is a schematic structural view of a device support frame of the hoisting device for the high-altitude operation engineering.
Fig. 11 is a schematic structural view of a moving device of the hoisting device for aerial work engineering of the present invention.
Fig. 12 is a schematic structural view of a tensioning wheel sleeve of the hoisting device for overhead working engineering.
In the figure: a box body 1; an angle adjusting box 2; a tilter base 2-1; 2-2 of a turner; a tilter articulated arm 2-3; a pulley base 2-4; 2-5 of belt pulleys; an angle adjusting box motor 2-6; angle adjusting box belts 2-7; a lifting box 3; a lifting box slideway 3-1; 3-2 of a lifting base; a lifting base hinged disc 3-3; 3-4 parts of worm; 3-5 of a lifting box motor; 3-6 of a lifting box belt; a turbine base 3-7; 3-8 parts of a turbine; a telescopic arm sleeve 4; a telescopic arm slideway 4-1; 4-2 of a telescopic arm; 4-3 of a telescopic arm lead screw; 4-4 of a telescopic arm motor; a telescopic arm sleeve hinged disk 4-5; anti-drop chain hinged disks 4-6; 4-7 parts of anti-drop hook chains; a telescopic boom hanging basket hinged disc 4-8; a hanging basket 5; a foot fixer 5-1; 5-2 of a partition board; 5-3 of a fixed sleeve; a fixed sleeve slideway 5-4; 5-5 of a fixed sleeve sliding block; 5-6 of a support column; 5-7 of a support column spring; 5-8 of a slide block support column linkage plate; 5-9 of linkage plate hinged disks; 5-10 of a linkage plate spring base; 5-11 of linkage plate springs; the linkage plate hinge blocks 5-12; the linkage plate hinges the columns 5-13; slider articulated arms 5-14; 5-15 parts of a limiting column; 5-16 parts of limiting column spring; 5-17 slide block support columns; 5-18 parts of a sliding block; 5-19 parts of a pedal; 5-20 parts of non-slip mat; 5-21 parts of a triangular fixed block; 5-22 parts of a pedal limiting column; 5-23 of a linkage rod; basket fixing shaft 5-24; 5-25 of a hanging basket suspension arm; the sling chain unhooking-proof hinged disc 5-26; 5-27 parts of waist fixing blocks; 5-28 parts of waist supporting arms; 5-29 parts of a belt; 5-30 parts of a suspension arm hinged disc; a device support frame 6; a support frame slideway 6-1; a support frame sliding block 6-2; a fixed arm 6-3; 6-4 parts of a support frame screw rod; 6-5 of a support frame motor; a moving device 7; a movable roller base 7-1; moving the roller support arms 7-2; moving the rollers 7-3; 7-4 of a tensioning wheel sleeve; a tension wheel supporting arm 7-5; 7-6 of a tension wheel; a tension wheel spring 7-7; and a crawler belt 7-8.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12, and the invention relates to a hoisting device for high-altitude operation engineering, which comprises a box body 1, an angle adjusting box 2, a lifting box 3, a telescopic arm sleeve 4, a hanging basket 5, a device supporting frame 6 and a moving device 7, and can solve the problems that constructors stand inside the hanging basket to operate, no device for fixing constructors is arranged inside the hanging basket, the constructors are easy to fall down and even fall off from the high altitude, and the hanging basket fixing mode of hoisting by a crane is simple and easy to cause unhooking danger.
The upper end of the angle adjusting box 2 is provided with a turner base 2-1, a turner 2-2, a turner articulated arm 2-3, a belt pulley base 2-4, a belt pulley 2-5, an angle adjusting box motor 2-6 and an angle adjusting box belt 2-7, the turner base 2-1 is welded inside the turner base 2-1, the turner 2-2 is rotated on the upper end of the turner base 2-1, the turner articulated arm 2-3 is hinged on the lower end of the turner 2-2, the belt pulley base 2-4 is welded inside the angle adjusting box 2, the belt pulley 2-5 is rotated on the upper end of the belt pulley base 2-4, the angle adjusting box motor 2-6 is fixed inside the angle adjusting box 2, the belt pulley is arranged on the upper end of the angle adjusting box motor 2-6, an angle adjusting box belt 2-7 is arranged at the upper end of a belt pulley of the angle adjusting box motor 2-6, and an angle adjusting box belt 2-7 is arranged at the upper end of a belt pulley 2-5.
The upper end of the lifting box 3 is provided with a lifting box slideway 3-1, a lifting base 3-2, a lifting base hinged disc 3-3, a worm 3-4, a lifting box motor 3-5, a lifting box belt 3-6, a turbine base 3-7 and a turbine 3-8, the lifting box 3 is internally provided with a lifting box slideway 3-1, the upper end of the lifting box slideway 3-1 is provided with the lifting base 3-2 in a sliding way, the upper end of the lifting base 3-2 is welded with the lifting base hinged disc 3-3, the lifting base 3-2 is internally provided with a threaded hole, the lifting base 3-2 is internally provided with the worm 3-4 in a rotating way, the lifting box 3 is internally fixed with the lifting box motor 3-5, and the upper end of the lifting box motor 3-5 is provided with a belt, the upper end of a belt pulley of a lifting box motor 3-5 is provided with a lifting box belt 3-6, a turbine base 3-7 is welded inside the lifting box 3, a turbine 3-8 is rotated at the upper end of the turbine base 3-7, the turbine 3-8 is meshed with a worm 3-4, and the upper end of the turbine 3-8 is provided with the lifting box belt 3-6.
The upper end of a telescopic arm sleeve 4 is provided with a telescopic arm slideway 4-1, a telescopic arm 4-2, a telescopic arm lead screw 4-3, a telescopic arm motor 4-4, a telescopic arm sleeve hinged disc 4-5, an anti-drop hooked chain hinged disc 4-6, an anti-drop hooked chain 4-7 and a telescopic arm hanging basket hinged disc 4-8, the telescopic arm slideway 4-1 is arranged inside the telescopic arm sleeve 4, the telescopic arm 4-2 is arranged at the upper end of the telescopic arm slideway 4-1 in a sliding manner, a threaded hole is arranged inside the telescopic arm 4-2, the telescopic arm lead screw 4-3 is rotated inside the threaded hole of the telescopic arm 4-2, the telescopic arm motor 4-4 is fixed inside the telescopic arm sleeve 4, the upper end of the telescopic arm motor 4-4 is connected with the telescopic arm lead screw 4-3, the lower end of the telescopic arm sleeve 4 is welded with the telescopic arm hinged disc 4-5, the upper end of the telescopic boom 4-2 is welded with an anti-drop chain hinged disk 4-6, the upper end of the anti-drop chain hinged disk 4-6 is hinged with an anti-drop chain 4-7, and the upper end of the telescopic boom 4-2 is welded with a telescopic boom hanging basket hinged disk 4-8.
The upper end of the hanging basket 5 is provided with a foot fixer 5-1, a clapboard 5-2, a fixing sleeve 5-3, a fixing sleeve slideway 5-4, a fixing sleeve sliding block 5-5, a supporting column 5-6, a supporting column spring 5-7, a sliding block supporting column linkage plate 5-8, a linkage plate hinge plate 5-9, a linkage plate spring base 5-10, a linkage plate spring 5-11, a linkage plate hinge block 5-12, a linkage plate hinge column 5-13, a sliding block hinge arm 5-14, a limiting column 5-15, a limiting column spring 5-16, a sliding block supporting column 5-17, a sliding block 5-18, a pedal plate 5-19, an anti-slip pad 5-20, a triangle fixing block 5-21, a pedal plate limiting column 5-22, a linkage rod 5-23, a hanging basket fixing shaft 5-24, a hanging basket fixing shaft, 5-25 parts of hanging basket suspension arms, 5-26 parts of a suspension chain unhooking-proof hinged disk, 5-27 parts of waist fixing blocks, 5-28 parts of waist supporting arms, 5-29 parts of belts and 5-30 parts of a suspension arm hinged disk, 5-1 parts of foot fixing devices are welded in the hanging basket 5, 5-2 parts of partition plates are welded in the foot fixing devices 5-1 parts, 5-3 parts of fixing sleeves are welded at the upper ends of the partition plates 5-2 parts, 5-3 parts of fixing sleeves are internally provided with fixing sleeve slideways 5-4, 5-5 parts of fixing sleeve slideways 5-4 are slidably arranged at the upper ends of the fixing sleeve slideways, 5-6 parts of supporting columns are welded at the upper ends of the fixing sleeve slideways 5-5 parts, 5-7 parts of supporting column springs are arranged at the upper ends of the supporting columns, the upper end of a slider supporting column linkage plate 5-8 is welded with a linkage plate hinged disk 5-9, the lower end of the slider supporting column linkage plate 5-8 is welded with a linkage plate spring base 5-10, the upper end of the linkage plate spring base 5-10 is welded with a linkage plate spring 5-11, the lower end of the slider supporting column linkage plate 5-8 is welded with a linkage plate hinged block 5-12, the upper end of the linkage plate hinged block 5-12 is hinged with a linkage plate hinged column 5-13, the upper end of a clapboard 5-2 is welded with a linkage plate spring base 5-10, the interior of a hanging basket 5 is welded with a limiting column 5-15, the upper end of the limiting column 5-15 is provided with a limiting column spring 5-16, the upper end of a slider supporting column 5-17 is welded with a slider 5-18, and the, the upper ends of the limiting columns 5-15 are provided with sliding blocks 5-18 in a sliding mode, the upper ends of the sliding block supporting columns 5-17 are welded with foot plates 5-19, the upper ends of the foot plates 5-19 are provided with anti-skidding pads 5-20, the upper ends of the sliding block supporting columns 5-17 are welded with triangular fixing blocks 5-21, holes are formed in the foot plates 5-19, foot plate limiting columns 5-22 are arranged in the holes of the foot plates 5-19 in a sliding mode, the upper ends of the linkage plate hinge columns 5-13 are hinged with linkage rods 5-23, two ends of the hanging basket 5 are welded with hanging basket fixing shafts 5-24, the upper ends of the hanging basket fixing shafts 5-24 are provided with hanging basket suspension arms 5-25 in a rotating mode, the upper ends of the hanging basket 5 are welded with hanging chain anti-unhooking hinge plates 5-26, the inner portion, the upper ends of the waist fixing blocks 5-27 are hinged with belts 5-29, and the upper ends of the hanging basket hanging arms 5-25 are welded with hanging arm hinged disks 5-30.
The upper end of a device supporting frame 6 is provided with a supporting frame slide 6-1, a supporting frame slide block 6-2, a fixed arm 6-3, a supporting frame lead screw 6-4 and a supporting frame motor 6-5, the supporting frame slide 6-1 is arranged inside the device supporting frame 6, the supporting frame slide block 6-2 is arranged on the upper end of the supporting frame slide block 6-1 in a sliding mode, the fixed arm 6-3 is welded on the upper end of the supporting frame slide block 6-2, a threaded hole is formed inside the fixed arm 6-3, the supporting frame lead screw 6-4 is arranged inside the threaded hole of the fixed arm 6-3 in a rotating mode, the supporting frame motor 6-5 is fixed inside the device supporting frame 6, and the upper end.
The upper end of the moving device 7 is provided with a moving roller base 7-1, a moving roller supporting arm 7-2, a moving roller 7-3, a tensioning wheel sleeve 7-4, a tensioning wheel supporting arm 7-5, a tensioning wheel 7-6, a tensioning wheel spring 7-7 and a crawler 7-8, the lower end of the moving device 7 is welded with the moving roller base 7-1, the upper end of the moving roller base 7-1 is hinged with the moving roller supporting arm 7-2, the upper end of the moving roller supporting arm 7-2 is provided with the moving roller 7-3 in a rotating manner, the upper end of the moving roller base 7-1 is welded with the tensioning wheel sleeve 7-4, the tensioning wheel supporting arm 7-5 is arranged in the tensioning wheel sleeve 7-4 in a sliding manner, the upper end of the tensioning wheel supporting, the lower end of the tension wheel supporting arm 7-5 is welded with a tension wheel spring 7-7, the upper end of the tension wheel 7-6 is provided with a crawler belt 7-8, and the upper end of the moving roller 7-3 is welded with the crawler belt 7-8.
The angle adjusting box 2 is welded inside the box body 1, the lifting box 3 is welded inside the box body 1, the telescopic arm sleeve 4 is hinged to the upper end of the turner 2-2, the telescopic arm sleeve hinge disc 4-5 is hinged to the upper end of the lifting base hinge disc 3-3, the suspension arm hinge disc 5-30 is hinged to the upper end of the telescopic arm hanging basket hinge disc 4-8, the device support frames 6 are welded at two ends of the box body 1, and the moving device 7 is welded at the bottom of the box body 1.
The second embodiment is as follows:
the following describes the embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes the embodiment, in which two foot fixing devices 5-1, two partition plates 5-2, two slider support column linkage plates 5-8, two limiting columns 5-15, two limiting column springs 5-16, and two pedal limiting columns 5-22 are provided.
The third concrete implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment in which the lifting box 3, the lifting base 3-2, the lifting base hinge plate 3-3, and the worm screw 3-4 are concentric.
The fourth concrete implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment, wherein the box body 1, the angle adjusting box 2, the lifting box 3, the telescopic arm sleeve 4, the basket 5, and the device support frame 6 are made of stainless steel.
The fifth concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment in which the telescopic arm 4-2, the telescopic arm screw 4-3, and the telescopic arm motor 4-4 of the telescopic arm sleeve 4 are concentric.
The sixth specific implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the angle adjusting box belts 2 to 7 and the lifting box belts 3 to 6 are made of rubber.
The working principle of the invention is as follows:
a hoisting device for high-altitude operation engineering has the working principle that a constructor enters a hanging basket 5, steps on the upper end of a foot fixer 5-1, extrudes triangular fixing blocks 5-21 to two sides through the limiting effect of the constructor shoes to drive a slider supporting column 5-17 to move to two sides, the slider supporting column 5-17 moves to drive a slider 5-18 to slide to two sides at the upper end of a limiting column 5-15 and simultaneously stretch a limiting column spring 5-16, the slider supporting column 5-17 moves to two sides to drive a slider articulated arm 5-14 to slide to two sides, the slider articulated arm 5-14 slides to two sides and upwards pulls a linkage plate hinged disk 5-9, the linkage plate 5-9 upwards moves to drive a slider supporting column linkage plate 5-8 to upwards move, the slider linkage plate 5-8 upwards moves to stretch the linkage plate spring 5-11 and simultaneously drives a supporting column 5-6 slide upwards in the fixed sleeve 5-3 and compress the supporting column springs 5-7, the fixed sleeve slideway 5-4 and the fixed sleeve slide block 5-5 play the role of supporting the spacing supporting column 5-6, when the constructor steps on the upper end of the pedal 5-19, the linkage plate spring 5-11 pushes the slide block supporting column linkage plate 5-8 upwards and pushes the slide block supporting column linkage plate 5-8 on the supporting column spring 5-7 line, the slide block supporting column linkage plate 5-8 moves upwards to drive the slide block supporting column 5-17 to slide inwards, the slide block supporting column 5-17 slides inwards to drive the triangle fixing block 5-21 to fix the constructor shoes, thereby ensuring that the constructor can not slide down, when the constructor finishes the construction and puts down the hanging basket 5, the linkage rod 5-23 is pulled upwards, the linkage rod 5-23 moves upwards to drive the slide block support column linkage plate 5-8 to move upwards, the slide block support column linkage plate 5-8 moves upwards to drive the slide block support column 5-17 to separate towards two sides, then a user can take shoes out of the slide block support column 5-17, a constructor stands at the upper end of the foot fixer 5-1, leans the waist against the upper end of the waist support arm 5-28 to fix the belt 5-29 between the waist and prevent the constructor from falling from the inside of the hanging basket 5 during construction, the constructor drives the lifting box belt 3-6 to rotate by the rotation of the lifting box motor 3-5 after fixation, the lifting box belt 3-6 drives the turbine 3-8 to rotate, the turbine 3-8 drives the worm 3-4 to rotate, because the lifting base 3-2 slides on the upper end of the lifting box slideway 3-1, the rotation of the lifting base 3-2 is limited, the worm 3-4 rotates to drive the lifting base 3-2 to slide upwards on the upper end of the lifting box slideway 3-1, the lifting base 3-2 slides upwards to drive the telescopic arm sleeve 4 to move upwards, the telescopic arm sleeve 4 moves upwards to lift the hanging basket 5 to adjust the height of the hanging basket 5 to be constructed, the telescopic arm motor 4-4 rotates to drive the telescopic arm lead screw 4-3 to rotate, the telescopic arm lead screw 4-3 rotates to drive the telescopic arm 4-2 to slide outwards on the upper end of the telescopic arm slideway 4-1, the telescopic arm 4-2 slides outwards to drive the hanging basket 5 to be close to a working surface to be constructed, and the anti-drop hook chain 4-7 can protect when the hanging basket 5 accidentally drops, prevent the hanging basket 5 from falling on the ground to cause the casualty of constructors inside, an angle adjusting box motor 2-6 rotates to drive an angle adjusting box belt 2-7 to rotate, the angle adjusting box belt 2-7 rotates to drive a belt pulley 2-5 to rotate, the belt pulley 2-5 rotates to drive an turner articulated arm 2-3 to rotate, the turner articulated arm 2-3 rotates to drive a turner 2-2 to rotate at the upper end of a turner base 2-1, the turner 2-2 rotates to drive a telescopic arm sleeve 4 to rotate by taking a telescopic arm sleeve articulated disc 4-5 as a circle center, the slight adjustment of the angle of the telescopic arm sleeve 4 can be carried out, the adjustment of the angle of the telescopic arm sleeve 4 drives the slight adjustment of the memorability angle of the hanging basket 5, the constructor can conveniently carry out construction, a support frame motor 6-5 rotates to drive a support frame, because the support frame sliding block 6-2 slides at the upper end of the support frame slideway 6-1, the rotation of the fixed arm 6-3 is limited, the support frame screw 6-4 rotates to drive the fixed arm 6-3 to move downwards to support the whole device, the levelness of the device is ensured by increasing the center of the fixed reduction device of the device, the moving roller 7-3 is driven by the rotation of the motor to rotate, the moving roller 7-3 rotates to drive the crawler belt 7-8 to rotate, the crawler belt 7-8 rotates to drive the device to move, when the device meets a larger stone block in the moving process, the crawler belt 7-8 is pushed upwards by the limiting action of the stone block, the crawler belt 7-8 moves upwards to drive the moving roller 7-3 to move upwards, the moving roller 7-3 moves upwards to drive the moving roller supporting arm 7-2 to rotate by taking the hinged moving roller base 7-1 as, the stability of the device in the moving process can be guaranteed, meanwhile, the tension wheel supporting arms 7-5 are upwards pushed by the acting force of the tension wheel springs 7-7, the tension wheel supporting arms 7-5 move upwards to drive the tension wheels 7-6 to move upwards, the tension wheels 7-6 move upwards to push the tracks 7-8 to prevent slipping when the tracks 7-8 are always kept in a tensioned state, the problem that constructors stand inside hanging baskets to operate is solved, the constructors do not have devices for fixing the constructors inside the hanging baskets, the constructors fall down easily or even fall down from the high altitude is solved, and the hanging baskets are hung by cranes and the danger of unhooking is easily caused in a hanging basket fixing mode.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.