CN114751344B - Aluminum alloy climbing frame auxiliary moving lifting equipment and use method - Google Patents

Abstract

The invention relates to the technical field of aluminum alloy climbing frame auxiliary tools, in particular to aluminum alloy climbing frame auxiliary moving lifting equipment and a using method thereof.

Description

Aluminum alloy climbing frame auxiliary moving lifting equipment and use method

Technical Field

The invention relates to the technical field of aluminum alloy climbing frame auxiliary tools, in particular to aluminum alloy climbing frame auxiliary moving lifting equipment and a using method thereof.

Background

The aluminum alloy climbing frame is particularly suitable for application in building construction environment, has the characteristics of high safety standard, flexible operation, firmness, falling resistance, pressure resistance and durability, is various in style types, is divided into a vertical ladder, a 70-degree gradient inclined ladder and a 45-degree gradient inclined ladder, is climbed by constructors through pedals, is small in area, is very limited in construction range during indoor construction, needs to move the climbing frame back and forth in the construction process to adapt to construction positions, is very inconvenient to use and high in danger, and therefore, needs to enlarge the construction range by means of auxiliary moving lifting equipment, and reduces the movement of the climbing frame to increase safety.

However, the existing aluminum alloy climbing frame auxiliary moving lifting equipment has great defects, the existing auxiliary moving lifting equipment can only drive the aluminum alloy climbing frame to lift and cannot enlarge the construction range, the climbing frame is required to be moved back and forth when the construction position is changed, the danger is high, the existing auxiliary moving lifting equipment cannot drive constructors to lift and cannot drive constructors to lift, the constructors need to climb back and forth with construction materials according to the construction height, and the construction method is very inconvenient and large in workload; the current auxiliary mobile lifting equipment cannot adapt to climbing frames of different models, and the application range is small.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an aluminum alloy climbing frame auxiliary moving lifting device and a using method thereof.

The utility model provides an aluminum alloy climbs supplementary removal lifting means of frame, including lifting unit, construction subassembly and upset subassembly, construction subassembly slip lift is in one side of lifting unit, upset subassembly is installed in the inside of construction subassembly, lifting unit includes the bottom plate, motor one and lead screw one, motor one is installed at the top of bottom plate, motor one's one end is connected with lead screw one through the pivot, construction subassembly includes construction case and connecting block one, connecting block one is installed in the middle part of construction case one side, install the screw in connecting block one's middle part, screw and lead screw one screw thread fit, motor one is through pivot drive lead screw one rotation, pivoted lead screw one is through with screw thread fit, drive the construction case of being fixedly connected with connecting block one go up and down;

the turnover assembly comprises a lifting closing piece and a rotating closing piece, the lifting closing piece comprises a top frame, two bottom rods and two bottom blocks, the two bottom rods are arranged at the bottom of the top frame, the two bottom blocks are respectively arranged at two ends of the bottom of the top frame, a bottom box is lifted at one side of the top frame, the rotating closing piece comprises a bottom frame, a hydraulic cylinder and a connecting frame, the bottom frame is fixedly arranged on the inner side wall of one end of a construction box, which is far away from a screw rod, the hydraulic cylinder is located inside the bottom frame, the connecting frame is located above the hydraulic cylinder, one end of the connecting frame is fixedly connected with the bottom of the top frame, the hydraulic rod penetrates through the inside of the hydraulic cylinder, the top end of the hydraulic rod is hinged with the connecting frame, the hydraulic rod is controlled to stretch out and draw back the connecting frame, the connecting frame is pulled by the flexible movable hydraulic rod to drive the top frame to turn over, and the direction of the bottom box can be consistent with the construction box.

Preferably, the lifting assembly further comprises two sliding rails, the two sliding rails are respectively arranged at two ends of one side of the bottom plate, the installation seats are respectively arranged at two ends of the middle of the bottom plate, the first screw rod penetrates through the two installation seats, universal wheels are respectively arranged at two ends of the bottom plate, the construction assembly further comprises two first sliding blocks, the two first sliding blocks are respectively arranged at two ends of one side of the construction box, the sections of the two sliding rails are of an I-shaped structure, the two first sliding blocks are respectively matched with the two sliding rails, the two first sliding blocks respectively slide along the two sliding rails, and the two sides of the construction box can be supported by the sliding blocks along the sliding rails in the lifting and process of the construction box.

Preferably, the stopper is installed at the bottom of sill bar one, install motor two at the top of roof-rack, be connected with screw two through the pivot in motor two's one end, install three connecting block two in the one side that the sill is close to screw two, three connecting block two are run through respectively to both ends of roof-rack and screw, install the screw at connecting block two at the middle part, screw and screw two screw-thread fit, the handrail is all installed at the both ends that the sill kept away from screw two one side, motor two drive pivot drive screw two rotates, pivoted screw and screw-thread fit, joint connecting block two goes up and down along the both ends of roof-rack, drive the sill box and remove, constructor when construction in the construction case, construction material can be placed on the sill box, cooperation sill box round trip movement changes construction material's high adaptation constructor.

Preferably, the base is arranged below the hydraulic cylinder, the base is fixed inside the construction box and hinged with the hydraulic cylinder through a pin shaft, a connecting rod is arranged between the bottom frame and the top frame, bearing seats are arranged at two ends of the top of the bottom frame, two ends of the connecting rod are respectively in running fit with the middle parts of the two bearing seats, the connecting rod penetrates through the two bottom blocks, the connecting rod is fixedly connected with the two bottom blocks, and the connecting rod plays a role in connection between the bottom frame and the top frame, so that the top frame can rotate through the connecting rod.

Preferably, the bottom plate is kept away from lifting unit's one side top and is installed the removal subassembly, and the removal subassembly includes installation piece one, two motor three and two lead screw three, has all seted up the notch at the both ends of installation piece one, and two motor three are installed respectively at the both ends of installation piece one, and two motor three are connected with the lead screw three through the pivot respectively, and two lead screw three are located the notch that installation piece one both ends were seted up respectively inside, and motor three drive pivot drives three rotations of lead screw.

Preferably, the bottom of one side of the bottom plate far away from the lifting assembly is provided with a sliding assembly, the sliding assembly comprises a second installation block and two second sliding rods, two ends of the second installation block are provided with notches, and the two sliding rods are respectively fixed inside the notches formed at two ends of the second installation block.

Preferably, two ejector rods are arranged below the first mounting block, cylinder clamping jaws are fixed at the middle parts of the two ejector rods, screw holes are arranged at the tops of the ejector rods, the screw holes are matched with three screw threads of the screw rods, the two rotating screw rods are matched with the screw threads of the screw holes, so that the two ejector rods are driven to move left and right, and the distance between the cylinder clamping jaws on the two ejector rods is changed.

Preferably, be equipped with two sill bars two in the top of installation piece two, all install the cylinder clamping jaw in one side of two sill bars two, and install the screw rod in the bottom that is close to the cylinder clamping jaw of sill bar two, screw thread fit has the nut on the screw rod, the spout has been seted up at the middle part of sill bar two, the spout is run through to the screw rod, the nut is installed in one side that the sill bar two kept away from the cylinder clamping jaw, two slide bars two respectively run through the bottom of two sill bars two, the cylinder clamping jaw that is close to sill bar two goes up and down along sill bar two, and fasten in order to fix the position that is close to the cylinder clamping jaw of sill bar two through twisting the nut, two sill bars two can slide along two slide bars two respectively in the cooperation, change the distance between the cylinder clamping jaw on two sill bar two.

Preferably, be equipped with adjusting part between ejector pin and sill bar two, adjusting part includes two connecting plates, motor four and slider two, motor four installs the top at one of them connecting plate, motor four installs the bottom at the ejector pin, another connecting plate is fixed at sill bar two's top, slider two is located between two connecting plates, install the cylinder clamping jaw in slider two's one side, it has the lead screw four to rotate through the pivot at motor four, be equipped with the slide bar three in one side of lead screw four, lead screw four runs through slider two with the slide bar three, install the screw on slider two, screw and four screw thread fit of lead screw, motor four drive pivot drive lead screw four rotate, screw thread fit on pivoted lead screw four and the slider two, slider two is followed the three slip fixed direction of slide bar simultaneously, drive the cylinder clamping jaw on the slider two and go up and down.

Preferably, the method for using the auxiliary mobile lifting device specifically comprises the following steps:

step one: the construction staff pushes the equipment, the universal wheel rolls and brings the equipment to one side of an aluminum alloy climbing frame, the motor three drives the rotating shaft to drive the screw rod three to rotate, the two rotating screw rods three are matched with screw threads, so that the two ejector rods drive the slide block two on the screw rod four below the motor four to move left and right, the two bottom rods two are matched to slide along the two slide bars respectively, the screw rod four which moves left and right drives the bottom rod two at the bottom of the bottom rod two to move left and right, the cylinder clamping jaw on the two ejector rods, the cylinder clamping jaw on the two slide blocks and the cylinder clamping jaw on the two bottom rods two can move left and right, the distance between cylinder clamping jaw arranged on two sides of the bottom plate is changed, the screw rod four is driven to rotate by the motor four, the rotating screw rod four is matched with the screw threads on the slide block two, meanwhile, the slide block two drives the cylinder clamping jaw on the slide block two to move up and down along the bottom rod two to change the height along the slide rod three sliding fixing direction, and the cylinder clamping jaw which is combined to be close to the bottom rod two can be fastened by screwing nuts to fix the position of the bottom rod two bottom rods two, so that each cylinder clamping jaw on the two clamping jaws can be close to the aluminum alloy climbing frame through the position, and the aluminum alloy climbing frame can be tightly clamped by the position of each clamping jaw, and the aluminum alloy climbing frame can be tightly clamped by the position of the clamping jaw, and the clamping jaw can be tightly clamped by the clamping jaw and the clamping jaw;

Step two: the construction material is moved to the bottom box by constructors, the constructors enter the construction box, the motor I drives the screw rod I to rotate through the rotating shaft, the rotating screw rod I drives the construction box fixedly connected with the connecting block I to lift to a designated position through threaded fit of the screw hole, the motor II drives the rotating shaft to drive the screw rod II to rotate, the rotating screw rod is matched with the threaded fit of the screw hole, the connecting block II is combined to lift along the two ends of the top frame to drive the bottom box to move, when the constructors construct in the construction box, the construction material can be placed on the bottom box, the height of the construction material is changed through the cooperation of the bottom box to move back and forth, and therefore the constructors can be prevented from bending down when the constructors take the construction material in the construction process;

step three: when construction position is far away from this equipment, constructor removes construction equipment to the construction incasement, hydraulic cylinder control hydraulic rod is flexible, the hydraulic rod is articulated with the link, flexible movable hydraulic rod pulls the link and drives the roof-rack upset, the roof-rack of upset drives the base case upset, make the orientation of base case unanimous with the construction case, constructor pulls the handrail and gets into inside the base case, constructor can be according to the construction condition and make a round trip to move in order to change construction position between construction case and base case, cooperation motor two drive pivot drive lead screw two rotate, pivoted lead screw and screw threaded fit, joint connecting block two moves along the both ends of roof-rack, drive the base case and remove, can drive constructor round trip movement to assigned position, need not to make a round trip to move the aluminum alloy when needing to change construction position in the work progress.

The invention has the beneficial effects that:

(1) According to the invention, the first screw rod is driven to rotate through the motor, the first rotating screw rod is matched with the screw hole threads to drive the construction box fixedly connected with the first connecting block to lift, the hydraulic rod is matched with the hydraulic cylinder to control the hydraulic rod to stretch, the hydraulic rod is hinged with the connecting frame, the telescopic movable hydraulic rod pulls the connecting frame to drive the bottom box at one side of the top frame to turn over, the orientation of the bottom box is consistent with that of the construction box, so that construction can be performed at two positions of the construction box and the bottom box by constructors, meanwhile, the lifting construction box can drive the construction box to lift, the bottom box can also be moved up and down, the heights of the construction box and the bottom box are adjusted, through the matching, the auxiliary moving lifting device can drive the constructors to move up and down according to the actual conditions of a construction site to change the construction heights, the constructors are not required to take construction materials on the aluminum alloy climbing frame to climb back and forth to move back and forth on different heights to construct, the use of the constructors is greatly facilitated, the constructors can move back and forth between the construction box and the bottom box to change the construction positions, and the work load of the constructors is greatly reduced.

(2) According to the invention, the motor II drives the rotating shaft to drive the screw rod II to rotate, the rotating screw rod is in threaded fit with the screw hole to drive the bottom box to move, construction materials can be placed on the bottom box when a constructor is constructed in the construction box, the height of the construction materials is changed by matching with the back and forth movement of the bottom box to adapt to the height of the constructor, the constructor can be prevented from bending down when the constructor takes the construction materials in the construction process, the labor intensity is reduced, the damage to the waist of the constructor is reduced, the health of the constructor is protected, and the working efficiency is improved.

(3) According to the invention, the hydraulic cylinder controls the hydraulic rod to stretch and pull the connecting frame to drive the top frame to turn over, the turned top frame drives the bottom box to turn over, so that the orientation of the bottom box can be consistent with that of the construction box, a constructor pulls the handrail to enter the inside of the bottom box, the screw rod II is driven by the motor II to rotate, the rotating screw rod is matched with screw threads of the screw hole to drive the bottom box to move, so that the constructor is driven to move back and forth, the construction position can be changed in the construction process by moving back and forth between the construction box and the bottom box and the constructor is driven to move back and forth by the bottom box, the aluminum alloy climbing frame is not required to be moved back and forth, and the construction range of the equipment used by the constructor is obviously enlarged.

(4) The motor III drives the rotating shaft to drive the screw rod III to rotate, the two rotating screw rods III drive the two ejector rods to move left and right through threaded fit of the screw holes, the two ejector rods which move left and right drive the sliding block II on the screw rod IV below the motor IV to move left and right, the two bottom rods II are matched with the screw rod IV which moves left and right to drive the bottom rod II at the bottom of the motor IV to move left and right respectively along the two sliding rods II, further the cylinder clamping jaw on the two ejector rods, the cylinder clamping jaw on the two sliding blocks II and the cylinder clamping jaw on the two bottom rods II can move left and right, the distance between the cylinder clamping jaws arranged on two sides of the bottom plate is changed, the motor IV is matched with the driving rotating shaft to drive the screw rod IV to rotate, the rotating screw rod IV is matched with the screw holes on the sliding block II, simultaneously, the second sliding and fixing direction of the sliding rod is driven to drive the cylinder clamping jaw on the second sliding block to lift and change the height, the cylinder clamping jaw which is jointly close to the second bottom rod is lifted and lowered along the second bottom rod, and the position of the cylinder clamping jaw which is close to the second bottom rod is fastened by screwing the nut, the height and the distance of each cylinder clamping jaw are independently controlled to clamp the aluminum alloy climbing frame, so that the auxiliary moving lifting device and the aluminum alloy climbing frame are more attached to each other, the auxiliary moving lifting device is more tightly connected with the climbing frame, and meanwhile, the auxiliary moving lifting device can move the positions of the cylinder clamping jaws to clamp the aluminum alloy climbing frames of different models, so that the safety of the equipment in use can be greatly improved, and the adaptation degree of the equipment to the climbing frames of different models is higher.

Drawings

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

Fig. 1 is a schematic diagram of the overall structure in the present invention.

Fig. 2 is a schematic structural diagram of a lifting assembly according to the present invention.

Fig. 3 is a bottom view of the construction assembly of the present invention.

Fig. 4 is a schematic structural diagram of a flip assembly according to the present invention.

Fig. 5 is a schematic view of a lifting assembly according to the present invention.

Fig. 6 is a schematic view of a rotating assembly structure in the present invention.

Fig. 7 is a schematic view of the construction of the side of the base plate away from the construction box according to the present invention.

Fig. 8 is a top view of a mobile assembly according to the present invention.

Fig. 9 is a top view of a slide assembly according to the present invention.

Fig. 10 is a schematic view of the connection of the adjusting assembly to the cylinder jaw in the present invention.

In the figure: 1. a lifting assembly; 101. a bottom plate; 102. a first motor; 103. a mounting base; 104. a first screw rod; 105. a slide rail; 2. a universal wheel; 3. a construction assembly; 301. a construction box; 302. a first connecting block; 303. a first sliding block; 4. a flip assembly; 401. lifting the combining piece; 4011. a top frame; 4012. a bottom box; 4013. a second connecting block; 4014. a second motor; 4015. a second screw rod; 4016. a first bottom rod; 4017. a limiting block; 4018. a bottom block; 4019. an armrest; 402. rotating the assembly; 4021. a chassis; 4022. a base; 4023. a hydraulic cylinder; 4024. a hydraulic rod; 4025. a connecting frame; 4026. a bearing seat; 4027. a connecting rod; 5. a moving assembly; 501. a first mounting block; 502. a third motor; 503. a screw rod III; 6. a sliding assembly; 601. a second mounting block; 602. a second slide bar; 7. a push rod; 8. an adjustment assembly; 801. a connecting plate; 802. a fourth motor; 803. a screw rod IV; 804. a third slide bar; 805. a second slide block; 9. a bottom rod II; 10. and a cylinder clamping jaw.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, an aluminum alloy climbing frame auxiliary moving lifting device comprises a lifting component 1, a construction component 3 and a turnover component 4, wherein the construction component 3 is slidingly lifted at one side of the lifting component 1, the turnover component 4 is installed in the construction component 3, the lifting component 1 comprises a bottom plate 101, a motor I102 and a screw rod I104, the motor I102 is installed at the top of the bottom plate 101, one end of the motor I102 is connected with the screw rod I104 through a rotating shaft, the construction component 3 comprises a construction box 301 and a connecting block I302, the connecting block I302 is installed in the middle of one side of the construction box 301, a screw hole is installed in the middle of the connecting block I302 and is in threaded fit with the screw rod I104, the motor I102 drives the screw rod I104 to rotate through the rotating shaft, the rotating screw rod I104 drives the construction box 301 fixedly connected with the connecting block I302 to lift through threaded fit with the screw hole, the flexibility of the construction box 301 can be ensured, the construction box 301 can be lifted to any height by a constructor conveniently constructed at any position, a box door is arranged at one side of the construction box 301, and a pin switch is used for the constructor to conveniently get in or out of the construction box 301;

Wherein the turnover assembly 4 comprises a lifting assembly 401 and a rotating assembly 402, the lifting assembly 401 comprises a top frame 4011, two bottom rods 4016 and two bottom blocks 4018, the two bottom rods 4016 are arranged at the bottom of the top frame 4011, the two bottom blocks 4018 are respectively arranged at two ends of the bottom of the top frame 4011, a bottom box 4012 is lifted at one side of the top frame 4011, the rotating assembly 402 comprises a bottom frame 4021, a hydraulic cylinder 4023 and a connecting frame 4025, the bottom frame 4021 is fixedly arranged on the inner side wall of one end of a construction box 301 far away from the screw rod 104, the hydraulic cylinder 4023 is arranged in the bottom frame 4021, the connecting frame 4025 is arranged above the hydraulic cylinder 4023, one end of the connecting frame 4025 is fixedly connected with the bottom of the top frame 4011, a hydraulic rod 4024 penetrates through the inside the hydraulic cylinder 4023, the top end of the hydraulic rod 4024 is hinged with the connecting frame 4025, the hydraulic rod 4023 controls the hydraulic rod 4024 to stretch and retract, the hydraulic rod 4024 is hinged with the connecting frame 4025, the stretching and moving hydraulic rod 4024 pulls the connecting frame 4025 to drive the top frame 4011 to turn over, the turned top frame 4011 drives the bottom box 4012 to turn over, ensures the feasibility of turning over the bottom box 4012, ensures that the orientation of the bottom box 4012 can be consistent with that of the construction box 301, thereby facilitating the constructor to enter the bottom box 4012, expanding the construction range, driving the screw rod I104 to rotate through the rotating shaft by the motor I102, driving the construction box 301 fixedly connected with the connecting block I302 to lift by the threaded fit of the rotating screw rod I104 with the screw hole, controlling the hydraulic rod 4024 to stretch and retract by the hydraulic cylinder 4023, the hydraulic rod 4024 is hinged with the connecting frame 4025, the telescopic hydraulic rod 4024 pulls the connecting frame 4025 to drive the top frame 4011 to turn over, the turned top frame 4011 drives the bottom box 4012 to turn over, ensuring that the orientation of the bottom box 4012 can be consistent with that of the construction box 301, enabling the constructor to construct at two positions of the construction box 301 and the bottom box 4012, and simultaneously lifting the construction box 301 can drive the construction box 301 to lift, the bottom box 4012 can be moved up and down, the heights of the construction box 301 and the bottom box 4012 are adjusted, through the cooperation, constructors can be driven to move up and down to change the construction height according to the actual conditions of construction sites, the constructors are not required to climb up and down on the aluminum alloy climbing frame with construction materials to move up and down to construct at different heights, the use of the constructors is greatly facilitated, and the constructors can move up and down between the construction box 301 and the bottom box 4012 according to the construction conditions to change the construction positions, so that the aluminum alloy climbing frame is not required to move up and down during construction of different positions, the workload of the constructors is greatly reduced, and the construction range is enlarged.

In an optional implementation manner of the embodiment of the invention, the lifting assembly 1 further comprises two slide rails 105, the two slide rails 105 are respectively installed at two ends of one side of the base plate 101, the installation seats 103 are respectively installed at two ends of the middle of the base plate 101, the first screw rod 104 penetrates through the two installation seats 103, the universal wheels 2 are respectively installed at two ends of the bottom of the base plate 101 and are convenient to move, the bearings are respectively installed at the middle of the installation seats 103, two ends of the first screw rod 104 are respectively in rotary fit with the middle of the two bearings, so that the first screw rod 104 has stable supporting points, two ends of the first screw rod 104 are kept stable during rotation, the construction assembly 3 further comprises two first slide blocks 303, the two first slide blocks 303 are respectively installed at two ends of one side of the construction box 301, the section of the two slide rails 105 is in an I-shaped structure, the two first slide blocks 303 are respectively matched with the two slide rails 105, the two first slide blocks 303 are respectively slid along the two slide rails 105, and when the two first slide blocks 303 respectively slide along the two slide rails 105, the balls can reduce friction between the first slide blocks 303 and the slide rails 105, the first slide blocks and the slide rails 105, the two slide blocks are effectively and the two slide blocks are prevented from being worn and the two sides in a sliding process, the construction box 301 is further, the lifting process is avoided, the two slide box 301 is effectively has a longer life, and the life of the construction process is kept stable, and the box 301 is kept stable, and can be more stable during the construction, and the lifting and has the life in the lifting process, and the life is kept in the construction, and the box 301 and can be more stable.

In an alternative implementation manner of the embodiment of the invention, a limiting block 4017 is installed at the bottom of a first bottom rod 4016, the limiting block 4017 is positioned at the top of a bottom frame 4021, the first bottom rod 4016 can support a top frame 4011, the limiting block 4017 can play a role of buffering between the first bottom rod 4016 and the bottom frame 4021, a second motor 4014 is installed at the top of the top frame 4011, one end of the second motor 4014 is connected with a second screw rod 4015 through a rotating shaft, three second connecting blocks 4013 are installed at one side of a bottom box 4012, which is close to the second screw rod 4015, two ends of the top frame 4011 and the second screw rod 4015 respectively penetrate through the three second connecting blocks 4013, screw holes are installed at the second connecting blocks 4013 in the middle, screw holes are in threaded fit with the second screw rod 4015, holes are formed in the middle of the two connecting blocks 4013, a plurality of balls are installed in the holes, the balls roll along two ends of the top frame 1 respectively, when the second connecting block 4013 is lifted along the two ends of the top frame 4011, the balls can reduce friction between the second connecting block 4013 and the top frame 4011, effectively avoid abrasion of the second connecting block 4013 and the top frame 4011, prolong the service life of the equipment, the motor 4014 drives the rotating shaft to drive the second screw rod 4015 to rotate, the rotating screw rod is matched with screw threads, the second connecting block 4013 is combined to lift along the two ends of the top frame 4011 to drive the bottom box 4012 to move, constructors can place construction materials on the bottom box 4012 when constructing in the construction box 301, the height of the constructors is matched with the bottom box 4012 to change by moving back and forth, thus the constructors can be prevented from bending down when taking the construction materials in the construction process, the labor intensity and the damage to the waist of the constructors are reduced, the health of the constructors is protected, the working efficiency is improved, the hydraulic cylinder 4023 controls the hydraulic rod 4024 to stretch, the hydraulic rod 4024 is hinged with the connecting frame 4025, the connecting frame 4025 is pulled by the flexible movable hydraulic rod 4024 to drive the top frame 4011 to overturn, the overturned top frame 4011 drives the bottom box 4012 to overturn, the orientation of the bottom box 4012 can be consistent with that of the construction box 301, a constructor pulls the handrail 4019 into the bottom box 4012, the motor two 4014 is matched to drive the rotating shaft to drive the screw rod two 4015 to rotate, the rotating screw rod is matched with screw threads, the joint connecting block two 4013 moves along the two ends of the top frame 4011 to drive the bottom box 4012 to move, the constructor can be driven to move back and forth, the aluminum alloy climbing frame is not required to be moved back and forth when the construction position is required to be replaced in the construction process, and the construction range of the auxiliary moving lifting equipment is enlarged.

In an alternative implementation manner of the embodiment of the invention, a base 4022 is arranged below a hydraulic cylinder 4023, the base 4022 is fixed in a construction box 301, the base 4022 is hinged with the hydraulic cylinder 4023 through a pin shaft, a connecting rod 4027 is arranged between the base 4021 and a top frame 4011, bearing seats 4026 are respectively arranged at two ends of the top of the base 4021, two ends of the connecting rod 4027 are respectively matched in the middle parts of the two bearing seats 4026 in a rotating way, the connecting rod 4027 penetrates through two bottom blocks 4018, the connecting rod 4027 is fixedly connected with the two bottom blocks 4018, and the connecting rod 4027 plays a role in connecting the base 4021 and the top frame 4011, so that the top frame 4011 can rotate through the connecting rod 4027, the top frame 4011 is prevented from deflecting during overturning, and the stability of the top frame 4011 is ensured.

In an alternative implementation manner of the embodiment of the invention, a moving assembly 5 is installed at the top of one side of the bottom plate 101 far away from the lifting assembly 1, the moving assembly 5 comprises a first installation block 501, two motors three 502 and two screw rods three 503, two ends of the first installation block 501 are respectively provided with a notch, the two motors three 502 are respectively installed at two ends of the first installation block 501, the two motors three 502 are respectively connected with the screw rods three 503 through rotating shafts, the two screw rods three 503 are respectively positioned in the notches provided at two ends of the first installation block 501, and the motor three 502 drives the rotating shafts to drive the screw rods three 503 to rotate, so that the feasibility of rotation of the screw rods three 503 is ensured.

In an alternative implementation manner of the embodiment of the invention, a sliding component 6 is installed at the bottom of one side of the bottom plate 101 far away from the lifting component 1, the sliding component 6 comprises a second installation block 601 and two second sliding rods 602, two ends of the second installation block 601 are provided with notches, and the two second sliding rods 602 are respectively fixed in the notches provided at two ends of the second installation block 601.

In an alternative implementation manner of the embodiment of the invention, two ejector rods 7 are arranged below the first mounting block 501, the middle parts of the two ejector rods 7 are respectively fixed with a cylinder clamping jaw 10, screw holes are arranged at the tops of the ejector rods 7, the screw holes are in threaded fit with the third screw rod 503, and the two rotating third screw rods 503 are in threaded fit with the screw holes, so that the two ejector rods 7 are driven to move left and right, the distance between the cylinder clamping jaws 10 on the two ejector rods 7 is changed, and the flexibility of the cylinder clamping jaw 10 is ensured.

In an alternative implementation manner of the embodiment of the invention, two bottom rods II 9 are arranged above the mounting block II 601, air cylinder clamping jaws 10 are arranged on one sides of the two bottom rods II 9, a screw rod is arranged at the bottom of the air cylinder clamping jaw 10 close to the bottom rods II 9, a nut is matched on the screw rod in a threaded manner, a sliding groove is formed in the middle of the bottom rods II 9, the screw rod penetrates through the sliding groove, the nut is arranged on one side of the bottom rods II 9 far away from the air cylinder clamping jaw 10, two sliding rods II 602 penetrate through the bottoms of the two bottom rods II 9 respectively, the air cylinder clamping jaw 10 close to the bottom rods II 9 ascends and descends along the bottom rods II 9, and the air cylinder clamping jaw 10 close to the bottom rods II 9 can slide along the two sliding rods II 602 respectively in cooperation with the two bottom rods II 9, so that the distance between the air cylinder clamping jaws 10 on the two bottom rods II 9 is changed, and the flexibility of the air cylinder clamping jaw 10 on the bottom rods II 9 is improved.

In an alternative implementation manner of the embodiment of the invention, an adjusting component 8 is arranged between a top rod 7 and a bottom rod 9, the adjusting component 8 comprises two connecting plates 801, a motor IV 802 and a slide block II 805, the motor IV 802 is arranged at the top of one connecting plate 801, the motor IV 802 is arranged at the bottom of the top rod 7, the other connecting plate 801 is fixed at the top of the bottom rod 9, the slide block II 805 is positioned between the two connecting plates 801, a cylinder clamping jaw 10 is arranged at one side of the slide block II 805, a screw rod IV 803 is arranged at one side of the screw rod IV 803, the screw rod IV 803 and the screw rod III 804 penetrate through the slide block II 805, a screw hole is arranged on the slide block II 805 in threaded fit with the screw rod IV, an opening is arranged on the slide block II 805, a plurality of balls are arranged in the opening, and the balls roll along the outer side wall of the slide rod III 804 respectively, when the second slide block 805 slides along the third slide bar 804, the balls can reduce friction between the second slide block 805 and the third slide bar 804, effectively avoid abrasion of the second slide block 805 and the third slide bar 804, prolong the service life of the equipment, drive the rotating shaft of the fourth motor 802 to drive the fourth screw rod 803 to rotate, the rotating fourth screw rod 803 is in threaded fit with a screw hole on the second slide block 805, meanwhile, the second slide block 805 slides along the third slide bar 804 to fix the direction, the cylinder clamping jaw 10 on the second slide block 805 is driven to lift, the flexibility of the cylinder clamping jaw 10 on the second slide block 805 is ensured, the rotating shaft of the third motor 502 drives the third screw rod 503 to rotate, the two rotating third screw rods 503 are in threaded fit with the screw hole, thereby driving the two ejector rods 7 to move left and right, the two ejector rods 7 moving left and right drive the second slide block 805 on the fourth screw rod 803 below the fourth motor 802 to move left and right, and two bottom rods 9 are matched to slide along the two second slide bars 602 respectively, the screw rod four 803 that moves about drives the sill bar two 9 of its bottom and moves about, and then make the cylinder clamping jaw 10 on two ejector pins 7, the cylinder clamping jaw 10 on two slider two 805 and the cylinder clamping jaw 10 on two sill bars two 9 can move about, change the distance between the cylinder clamping jaw 10 of bottom plate 101 both sides installation, the screw rod four 803 is driven to rotate in cooperation with motor four 802 drive pivot again, screw thread fit on pivoted screw rod four 803 and slider two 805, slider two 805 slides fixed direction along slide bar three 804 simultaneously, drive the cylinder clamping jaw 10 on slider two 805 and lift and change the height, the cylinder clamping jaw 10 that jointly is close to sill bar two 9 goes up and down along sill bar two 9, and fasten with the position of the cylinder clamping jaw 10 that is close to sill bar two 9 through twisting the nut, height and the distance of every cylinder clamping jaw 10, make this auxiliary movement lifting device and the aluminium alloy frame be connected more closely, make this auxiliary movement lifting device can be through the position of moving cylinder clamping jaw 10, so that the clamping jaw 10's of different models of this equipment has enlarged the scope of application.

In an optional implementation manner of the embodiment of the present invention, the method for using the auxiliary mobile lifting device specifically includes the following steps:

step one: the constructor pushes the equipment, the universal wheel 2 rolls to bring the equipment to one side of the aluminum alloy climbing frame, the motor III 502 drives the rotating shaft to drive the screw III 503 to rotate, the two rotating screw III 503 are in threaded fit with the screw hole, thereby driving the two ejector rods 7 to move left and right, the two ejector rods 7 moving left and right drive the second slide block 805 on the fourth screw rod 803 below the fourth motor 802 to move left and right, the two second bottom rods 9 can slide along the second slide rods 602 respectively, the fourth screw rod 803 moving left and right drives the second bottom rod 9 at the bottom of the second bottom rod to move left and right, so that the cylinder clamping jaw 10 on the two ejector rods 7, the cylinder clamping jaw 10 on the two sliding blocks 805 and the cylinder clamping jaw 10 on the two bottom rods 9 can move left and right, the distance between the cylinder clamping jaws 10 arranged on the two sides of the bottom plate 101 is changed, the motor IV 802 is matched to drive the rotating shaft to drive the screw rod IV 803 to rotate, the rotating screw rod IV 803 is matched with screw threads on the sliding blocks II 805, meanwhile, the second slide block 805 slides along the third slide bar 804 in a fixed direction to drive the air cylinder clamping jaw 10 on the second slide block 805 to lift and change the height, the air cylinder clamping jaw 10 which is close to the second bottom bar 9 is combined to lift and fall along the second bottom bar 9, and the cylinder clamping jaw 10 close to the bottom rod II 9 is fixed by screwing the nut, so that each cylinder clamping jaw 10 is close to the fixed point of the climbing frame, the cylinder clamping jaw 10 clamps the appointed position of the climbing frame, the device can independently control the height and the distance of each cylinder clamping jaw 10, the aluminum alloy climbing frame is clamped by the cylinder clamping jaw 10, the auxiliary moving lifting device is more tightly connected with the aluminum alloy climbing frame, meanwhile, the auxiliary mobile lifting equipment can clamp aluminum alloy climbing frames of different types by moving the positions of the cylinder clamping jaws 10, so that the applicability of the equipment is greatly improved;

Step two: the constructor moves construction materials onto the bottom box 4012, the constructor enters the construction box 301, the motor I102 drives the screw rod I104 to rotate through the rotating shaft, the rotating screw rod I104 drives the construction box 301 fixedly connected with the connecting block I302 to lift to a designated position through threaded fit of the screw hole, the motor II 4014 drives the rotating shaft to drive the screw rod II 4015 to rotate, the rotating screw rod is matched with the threaded hole, the connecting block II 4013 is combined to lift along two ends of the top frame 4011 to drive the bottom box 4012 to move, when the constructor constructs in the construction box 301, the construction materials can be placed on the bottom box 4012, the height of the constructor is matched with the bottom box 4012 to move back and forth to change, so that the constructor can be prevented from bending down when taking the construction materials in the construction process, the labor intensity and the damage to the waist of the constructor are reduced, the health of the constructor is protected, and the working efficiency is improved;

step three: when the construction position is far away from the equipment, a constructor moves the construction equipment into the construction box 301, the hydraulic cylinder 4023 controls the hydraulic rod 4024 to stretch and retract, the hydraulic rod 4024 is hinged with the connecting frame 4025, the connecting frame 4025 is pulled by the telescopic movable hydraulic rod 4024 to drive the top frame 4011 to turn over, the turned top frame 4011 drives the bottom box 4012 to turn over, the orientation of the bottom box 4012 can be consistent with that of the construction box 301, the constructor pulls the armrest 4019 into the bottom box 4012, the constructor can move back and forth between the construction box 301 and the bottom box 4012 according to the construction condition to change the construction position, the rotating screw rod is matched with the screw hole in a threaded mode, the connecting block two 4013 is combined to move along the two ends of the top frame 4011 to drive the bottom box 4012 to move, the constructor can be driven to move back and forth to the appointed position, and forth movement of the aluminum alloy climbing frame is not needed in the construction process to be replaced, and the construction range of the constructor can be obviously enlarged by using the auxiliary moving lifting equipment.

When the device is used, firstly, constructors push the device, universal wheels 2 roll to bring the device to one side of an aluminum alloy climbing frame, motor three 502 drives a rotating shaft to drive screw three 503 to rotate, two rotating screw three 503 are in threaded fit with screw holes, so that two ejector rods 7 are driven to move left and right, two ejector rods 7 which move left and right drive sliding blocks two 805 on screw four 803 below the motor four 802 to move left and right, two bottom rods two 9 are matched to slide along two sliding rods two 602 respectively, the left and right moving screw four 803 drives the bottom rods two 9 at the bottom of the device to move left and right, further, cylinder clamping jaws 10 on the two ejector rods 7, cylinder clamping jaws 10 on the two sliding blocks two 805 and cylinder clamping jaws 10 on the two bottom rods two 9 can move left and right, the distance between cylinder clamping jaws 10 mounted on two sides of a base plate 101 is changed, the four-802 drive the rotating shaft to rotate, meanwhile, the two sliding blocks 805 are driven to slide along three 804 to fix directions, the cylinder clamping jaws 10 which move on the sliding blocks two 805 can move close to the cylinder clamping jaws 10 along the two cylinder clamping jaws 10, the position of the two clamping jaws 10 can be close to the cylinder clamping jaws 10 through the two clamping jaws 10, the position of the cylinder clamping jaws 10 can be close to the cylinder clamping jaw 10 through the position of the cylinder clamping jaw 10, and the position of the cylinder clamping jaw 10 can be more closely matched with the cylinder clamping jaw 10 is tightly clamped by the cylinder clamping jaw 10, the applicability of the equipment is greatly improved;

Then, a constructor moves construction materials onto the bottom box 4012, the constructor enters the construction box 301, the motor I102 drives the screw rod I104 to rotate through a rotating shaft, the rotating screw rod I104 drives the construction box 301 fixedly connected with the connecting block I302 to lift to a designated position through threaded fit of a screw hole, the motor II 4014 drives the rotating shaft to drive the screw rod II 4015 to rotate, the rotating screw rod is matched with the threaded hole, the joint connecting block II 4013 lifts along two ends of the top frame 4011 to drive the bottom box 4012 to move, when the constructor performs construction in the construction box 301, the construction materials can be placed on the bottom box 4012, the height of the construction materials is matched with the bottom box 4012 to be moved back and forth, the height of the constructor is matched, bending down when the constructor takes the construction materials in the construction process is avoided, labor intensity and damage to waist of the constructor are reduced, health of the constructor is protected, and working efficiency is improved;

finally, when the construction position is far away from the equipment, the construction equipment is moved into the construction box 301 by constructors, the hydraulic cylinder 4023 controls the hydraulic rod 4024 to stretch and retract, the hydraulic rod 4024 is hinged with the connecting frame 4025, the connecting frame 4025 is pulled by the telescopic movable hydraulic rod 4024 to drive the top frame 4011 to turn over, the turned top frame 4011 drives the bottom box 4012 to turn over, the orientation of the bottom box 4012 can be consistent with that of the construction box 301, the constructors pull the armrest 4019 to enter the inside of the bottom box 4012, the constructors can move back and forth between the construction box 301 and the bottom box 4012 according to the construction condition to change the construction position, the rotating screw rod is matched with the screw hole to drive the rotating screw rod to rotate in a threaded mode, the connecting block 4013 is combined to move along the two ends of the top frame 4011 to drive the bottom box 4012 to move back and forth to the appointed position, the constructors do not need to move back and forth an aluminum alloy climbing frame to be moved when the construction position needs to be replaced in the construction process, and the construction range of the constructors can be obviously enlarged by using the auxiliary movable lifting equipment.

According to the invention, the first motor 102 drives the first screw rod 104 to rotate through the rotating shaft, the rotating first screw rod 104 is matched with the screw hole threads to drive the construction box 301 fixedly connected with the first connecting block 302 to lift, the hydraulic rod 4024 is controlled to stretch by the matched hydraulic cylinder 4023, the hydraulic rod 4024 is hinged with the connecting frame 4025, the connecting frame 4025 is pulled by the stretching movable hydraulic rod 4024 to drive the bottom box 4012 on one side of the top frame 4011 to turn over, the orientation of the bottom box 4012 is consistent with that of the construction box 301, so that constructors can construct at two positions of the construction box 301 and the bottom box 4012, meanwhile, the lifting construction box 301 can drive the construction box 301 to lift, the bottom box 4012 can also move up and down, the heights of the construction box 301 and the bottom box 4012 can be adjusted, the auxiliary moving lifting equipment can drive constructors to change the construction heights according to the actual conditions of construction sites, the constructors are not required to move back and forth on the aluminum alloy climbing frame to construct at different heights, the constructors are convenient to use, the constructors can move back and forth between the construction box and the position of the construction box 4012 to be greatly reduced, and the work load of the constructors is greatly required to move the construction box 4012 back and forth between the positions of the construction box and the construction box can be greatly moved.

According to the invention, the motor II 4014 drives the rotating shaft to drive the screw rod II 4015 to rotate, the rotating screw rod is matched with the screw hole threads to drive the base box 4012 to move, construction materials can be placed on the base box 4012 when a constructor is constructed in the construction box 301, the height of the construction materials is matched with the base box 4012 to change in a back-and-forth movement mode, the constructor can be prevented from bending down when the constructor takes the construction materials in the construction process, the labor intensity and the damage to the waist of the constructor are reduced, the health of the constructor is protected, and the working efficiency is improved.

According to the invention, the hydraulic cylinder 4023 controls the hydraulic rod 4024 to stretch and draw the connecting frame 4025 to drive the top frame 4011 to turn, the turned top frame 4011 drives the bottom box 4012 to turn, so that the orientation of the bottom box 4012 can be consistent with that of the construction box 301, a constructor pulls the handrail 4019 into the bottom box 4012, the motor two 4014 drives the rotating shaft to drive the screw rod two 4015 to rotate, the rotating screw rod is in threaded fit with the screw hole to drive the bottom box 4012 to move, so that the constructor is driven to move back and forth, the construction position can be changed by moving back and forth between the construction box 301 and the bottom box 4012 and the constructor is driven to move back and forth in the construction process, the aluminum alloy climbing frame is not required to be moved back and forth, and the construction range of the equipment is obviously enlarged for the constructor.

According to the aluminum alloy clamping jaw clamping device, the motor III 502 drives the rotating shaft to drive the screw rod III 503 to rotate, the two rotating screw rods III 503 are matched with screw threads to drive the two ejector rods 7 to move left and right, the two ejector rods 7 which move left and right drive the sliding block II 805 on the screw rod IV 803 below the motor IV 802 to move left and right, the two bottom rods II 9 are matched to slide along the two sliding rods II 602 respectively, the bottom rod II 9 at the bottom of the bottom rod II is driven by the screw rod IV 803 which moves left and right, the cylinder clamping jaw 10 on the two ejector rods 7, the cylinder clamping jaw 10 on the two sliding blocks II 805 and the cylinder clamping jaw 10 on the two bottom rods II 9 can move left and right, the distance between the cylinder clamping jaw 10 arranged on two sides of the bottom plate 101 is changed, the four-802 driving rotating shaft is matched with the screw threads on the screw rod IV 803, the sliding block IV 805 is driven by the motor IV 802 to slide along the sliding rod III 804 to fix the sliding direction, the cylinder clamping jaw 10 on the sliding block II 805 to lift and change the height, the cylinder clamping jaw 10 close to the bottom rod II 9 is combined to lift along the bottom rod II 9, the two clamping jaws 10 are screwed to be close to the position of the two clamping jaw 10 by a fastening frame, and the two clamping jaw is not matched with an aluminum alloy clamping device in a large-size, and the two clamping frame is matched with the position of the aluminum alloy clamping device can be matched with the cylinder clamping jaw clamping device in a large size, and the size is matched with the position of the clamping device is not matched with the cylinder clamping device to move the position with the clamping jaw 10.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. The utility model provides an aluminum alloy climbs supplementary lifting means that removes of frame, includes lifting unit (1), construction unit (3) and upset subassembly (4), its characterized in that: the construction assembly (3) is slidingly lifted at one side of the lifting assembly (1), the overturning assembly (4) is installed in the construction assembly (3), the lifting assembly (1) comprises a bottom plate (101), a first motor (102) and a first screw rod (104), the first motor (102) is installed at the top of the bottom plate (101), one end of the first motor (102) is connected with the first screw rod (104) through a rotating shaft, the construction assembly (3) comprises a construction box (301) and a first connecting block (302), the first connecting block (302) is installed in the middle of one side of the construction box (301), a screw hole is installed in the middle of the first connecting block (302), and the screw hole is in threaded fit with the first screw rod (104);

The turnover assembly (4) comprises a lifting closing part (401) and a rotating closing part (402), the lifting closing part (401) comprises a top frame (4011), two first bottom rods (4016) and two bottom blocks (4018), the two first bottom rods (4016) are arranged at the bottom of the top frame (4011), the two bottom blocks (4018) are respectively arranged at two ends of the bottom of the top frame (4011), a bottom box (4012) is lifted on one side of the top frame (4011), the rotating closing part (402) comprises a bottom frame (4021), a hydraulic cylinder (4023) and a connecting frame (4025), the bottom frame (4021) is fixedly arranged on the inner side wall of one end, far away from the first screw rod (104), of the construction box (301), the hydraulic cylinder (4023) is arranged in the bottom frame (4021), the connecting frame (4025) is arranged above the hydraulic cylinder (4023), one end of the connecting frame (4025) is fixedly connected with the bottom of the top frame (4011), and the hydraulic rod (4024) penetrates through the hydraulic cylinder (4025);

a limiting block (4017) is arranged at the bottom of a first bottom rod (4016), a second motor (4014) is arranged at the top of a top frame (4011), a second screw rod (4015) is connected to one end of the second motor (4014) through a rotating shaft, three second connecting blocks (4013) are arranged on one side, close to the second screw rod (4015), of a bottom box (4012), two ends of the top frame (4011) and the second screw rod (4015) penetrate through the three second connecting blocks (4013) respectively, screw holes are formed in the second connecting blocks (4013) in the middle, the screw holes are in threaded fit with the second screw rod (4015), and handrails (4019) are arranged at two ends, far away from one side of the second screw rod (4015), of the bottom box (4012); a base (4022) is arranged below the hydraulic cylinder (4023), the base (4022) is fixed inside the construction box (301), the base (4022) is hinged with the hydraulic cylinder (4023) through a pin shaft, a connecting rod (4027) is arranged between the underframe (4021) and the top frame (4011), bearing seats (4026) are respectively arranged at two ends of the top of the underframe (4021), two ends of the connecting rod (4027) are respectively in rotary fit with the middle parts of the two bearing seats (4026), two ends of the connecting rod (4027) respectively penetrate through the two bottom blocks (4018), and the connecting rod (4027) is fixedly connected with the two bottom blocks (4018); a movable assembly (5) is arranged at the top of one side of the bottom plate (101) far away from the lifting assembly (1), the movable assembly (5) comprises a first installation block (501), two motor three (502) and two screw rod three (503), two ends of the first installation block (501) are provided with notches, the two motor three (502) are respectively arranged at two ends of the first installation block (501), the two motor three (502) are respectively connected with the screw rod three (503) through rotating shafts, and the two screw rod three (503) are respectively positioned in the notches formed at two ends of the first installation block (501); a sliding component (6) is arranged at the bottom of one side of the bottom plate (101) far away from the lifting component (1), the sliding component (6) comprises a second installation block (601) and two second sliding rods (602), two ends of the second installation block (601) are provided with notches, and the two second sliding rods (602) are respectively fixed in the notches formed in two ends of the second installation block (601); two ejector rods (7) are arranged below the first mounting block (501), cylinder clamping jaws (10) are fixed at the middle parts of the two ejector rods (7), screw holes are arranged at the tops of the ejector rods (7), and the screw holes are in threaded fit with the third screw rod (503); two bottom rod two (9) are arranged above the mounting block two (601), one side of each bottom rod two (9) is provided with a cylinder clamping jaw (10), the bottom of each cylinder clamping jaw (10) close to the bottom rod two (9) is provided with a screw rod, nuts are matched with the screw rods in a threaded manner, the middle part of each bottom rod two (9) is provided with a sliding groove, the screw rods penetrate through the sliding grooves, the nuts are arranged on one side, far away from each cylinder clamping jaw (10), of each bottom rod two (9), and two sliding rods two (602) penetrate through the bottoms of the two bottom rods two (9) respectively; be equipped with adjusting part (8) between ejector pin (7) and sill bar two (9), adjusting part (8) are including two connecting plates (801), motor four (802) and slider two (805), motor four (802) are installed at the top of one of them connecting plate (801), motor four (802) are installed in the bottom of ejector pin (7), the top at sill bar two (9) is fixed to another connecting plate (801), slider two (805) are located between two connecting plates (801), cylinder clamping jaw (10) are installed to one side of slider two (805), motor four (802) rotate through the pivot has lead screw four (803), one side of lead screw four (803) is equipped with slide bar three (804), lead screw four (803) and slide bar three (804) run through slider two (805), install the screw on slider two (805), screw and lead screw four (803) screw fit.

2. An aluminum alloy climbing frame auxiliary moving lifting device according to claim 1, wherein: the lifting assembly (1) further comprises two sliding rails (105), the two sliding rails (105) are respectively arranged at two ends of one side of the bottom plate (101), mounting seats (103) are respectively arranged at two ends of the middle of the bottom plate (101), the first screw rod (104) penetrates through the two mounting seats (103), the construction assembly (3) further comprises two first sliding blocks (303), the two first sliding blocks (303) are respectively arranged at two ends of one side of the construction box (301), the cross sections of the two sliding rails (105) are in an I-shaped structure, the two first sliding blocks (303) are respectively matched with the two sliding rails (105), and the two first sliding blocks (303) respectively slide along the two sliding rails (105).

3. The use method of the aluminum alloy climbing frame auxiliary mobile lifting device according to claim 1 or 2, which is characterized by comprising the following steps:

step one: the constructor pushes the equipment, universal wheel (2) rolls and brings the equipment to one side of the aluminum alloy climbing frame, motor III (502) drives the rotating shaft to drive screw III (503) to rotate, two rotating screw III (503) drive two ejector rods (7) to move left and right through threaded cooperation with screw holes, two ejector rods (7) moving left and right drive a sliding block II (805) on a screw rod IV (803) below a motor IV (802) to move left and right, two bottom rods II (9) are matched to slide along two sliding rods II (602) respectively, the screw IV (803) moving left and right drive a bottom rod II (9) at the bottom of the sliding rod II to move left and right, and then cylinder clamping jaw (10) on two ejector rods (7), cylinder clamping jaw (10) on two sliding blocks II (805) and cylinder clamping jaw (10) on two bottom rods II (9) can move left and right, the distance between cylinder clamping jaw (10) arranged on two sides of the bottom plate (101) is changed, and the motor IV (802) is matched to drive the rotating shaft IV to rotate left and right, the sliding rod IV (803) is matched to drive the sliding rod II (803) to move left and right along the lifting clamping jaw II (805) at the bottom rod II (805) at the same time, the lifting clamping jaw (805) is matched with the lifting clamping jaw II (805) on the bottom rod II) to move along the screw hole II, the position of the cylinder clamping jaw (10) close to the bottom rod II (9) is fixed by screwing the nut, so that each cylinder clamping jaw (10) is close to a fixed point of the climbing frame, the cylinder clamping jaw (10) clamps a designated position of the climbing frame, the height and the distance of each cylinder clamping jaw (10) are independently controlled, and the aluminum alloy climbing frame is clamped by the cylinder clamping jaw (10);

Step two: the construction material is moved to the bottom box (4012) by constructors, the constructors enter the construction box (301), the first motor (102) drives the first screw rod (104) to rotate through a rotating shaft, the rotating first screw rod (104) drives the construction box (301) fixedly connected with the first connecting block (302) to be lifted to a designated position through threaded fit of a screw hole, the second motor (4014) drives the rotating shaft to drive the second screw rod (4015) to rotate, the rotating screw rod is matched with the screw hole in threaded fit, the second connecting block (4013) is combined to lift along two ends of the top frame (4011) to drive the bottom box (4012) to move, and when the constructors construct in the construction box (301), the construction material is placed on the bottom box (4012) and is matched with the bottom box (4012) to move back and forth to change the height of the construction material to adapt to the height of the constructors;

step three: when the construction position is far away from the equipment, construction personnel move the construction equipment into the construction box (301), the hydraulic cylinder (4023) controls the hydraulic rod (4024) to stretch and retract, the hydraulic rod (4024) is hinged with the connecting frame (4025), the connecting frame (4025) is pulled to drive the top frame (4011) to overturn, the overturned top frame (4011) drives the bottom box (4012) to overturn, the orientation of the bottom box (4012) can be consistent with that of the construction box (301), the construction personnel pull the handrail (4019) to enter the inside of the bottom box (4012), the construction personnel moves back and forth between the construction box (301) and the bottom box (4012) according to the construction condition so as to change the construction position, the motor II (4014) is matched to drive the rotating screw rod II (4015) to rotate, the rotating screw rod is matched with screw threads, the connecting block II (4013) is driven to move along the two ends of the top frame (4011) to drive the bottom box (4012) to move back and forth, and forth to the specified position can be driven by the construction personnel to move back and forth.