CN220645073U - Building engineering building climbing frame - Google Patents

Abstract

The utility model relates to the technical field of constructional engineering and discloses a constructional engineering building climbing frame, wherein four supporting legs are arranged in a rectangular array, round grooves are formed in opposite faces of two supporting legs at the front end and the rear end, fixing columns are arranged between the two supporting legs at the front end and the rear end, portable fixing column devices are arranged on the fixing columns, bearing plates are arranged in the middle positions of the two portable fixing column devices, two connecting blocks are fixedly arranged at the front end and the rear end of each of two sides of each of the bearing plates at equal intervals, fixing devices are arranged on the connecting blocks, rectangular grooves are formed in opposite faces of the two supporting legs at the front end and the rear end, and connecting devices are arranged in the rectangular grooves, so that the problem that the bearing plates are movable and unstable when workers work on the climbing frame is solved, the risk of the workers is increased when the workers need to work on construction sites, and the problem that the workers carry the building climbing frame due to overlarge frame is solved, and the working strength of the workers is increased when the workers carry the building climbing frame is solved.

Description

Building engineering building climbing frame

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a constructional engineering building climbing frame.

Background

The building engineering refers to engineering entities formed by building various house buildings and auxiliary facilities thereof and installing and moving lines, pipelines and equipment matched with the building buildings. The house building is a project which has a top cover, a beam column, a wall, a foundation and can form an inner space, and meets the requirements of people on production, living, study and public activities.

Most of the existing building engineering climbing frames are fixed frames, the two sides of the frame are placed on the bearing plates to be fixed, the bearing plates are movable and unstable when workers climb the frames to work, dangerousness of the workers during work is increased, meanwhile, the workers need to carry the building engineering climbing frames due to overlarge frame bodies when working on construction sites, and working strength of the workers when carrying the building engineering climbing frames is increased.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a building engineering building climbing frame, which solves the problems that a bearing plate moves and is unstable when workers work on the climbing frame, and the danger of the workers is increased when the workers work, and simultaneously solves the problems that the workers need to go to a construction site to work and are inconvenient to carry due to overlarge frame bodies, and the working strength of the workers when carrying the building engineering climbing frame is increased.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a frame is climbed to building engineering building, the supporting leg sets up to four and is rectangular array setting, round slot has all been seted up to the opposite face of two supporting legs of front and back end, be provided with the fixed column in the middle of two supporting legs of front and back end, be provided with portable fixed column device on the fixed column, two portable fixed column device intermediate positions are provided with the bearing plate, the equal fixed mounting of front and back end equidistance of bearing plate both sides has two connecting blocks, all be provided with fixing device on the connecting block, rectangular slot has all been seted up to the opposite face of two supporting legs of front and back end, be provided with connecting device in the rectangular slot.

Preferably, the portable fixed column device comprises a first C-shaped chute, the two sides of the fixed column are close to the middle position and are provided with first C-shaped chutes, one end fixing sleeve of the two first C-shaped chutes is arranged on the two sides of the fixed column in a fixed mode, the bottoms of the fixed column are away from the ends of the two first C-shaped chutes and are fixedly provided with connecting columns at corresponding positions, belt grooves are formed in the outer surfaces of the two connecting columns, and belts are fixedly arranged on the inner walls of the belt grooves.

Preferably, the belt is kept away from the one end of belt groove and is seted up circular pocket, circular pocket and belt groove laminating mutually set up and swing joint, and the rectangle mouth has all been seted up to the surface of belt, and circular spout has all been seted up to the inside both sides of fixed column correspondence, and the inside of two circular spouts is equal sliding connection has the slip disc, and the equal fixed mounting of surface of two slip discs has the rectangle fixture block.

Preferably, two rectangular clamping blocks extend out of the outer surface of the fixed column through a first C-shaped sliding groove, the two rectangular clamping blocks are matched with two rectangular openings, springs are rotatably installed on the deviating surfaces of the two sliding discs, movable columns are fixedly installed at one ends, far away from the sliding discs, of the two springs, and the two movable columns are spliced with the circular grooves.

Preferably, the fixing device comprises arc-shaped plastic blocks, wherein arc-shaped plastic blocks are fixedly installed on two sides of one end, close to the bottom, of each connecting block, far away from the bearing plate, of each arc-shaped plastic block, each arc-shaped plastic block is in mirror image arrangement, round clamping grooves are formed in each arc-shaped plastic block, two C-shaped blocks are fixedly installed on the upper surface of each connecting block, far away from the two sides of each bearing plate, of each arc-shaped plastic block at equal intervals, second C-shaped sliding grooves are formed in the opposite surfaces of each C-shaped block, and the two second C-shaped sliding grooves are correspondingly formed.

Preferably, two sliding columns are slidably connected inside the second C-shaped sliding grooves, semicircular blocks are slidably connected corresponding to the two C-shaped blocks, one end two sides of each semicircular block close to the connecting block are fixedly connected with the two sliding columns, two cylindrical clamping blocks are fixedly mounted at two ends of each semicircular block far away from the connecting block, and a switch is fixedly mounted on the outer surface of each semicircular block.

Preferably, the connecting device comprises a rotating column, the two sides of the inner wall of the rectangular groove are respectively and rotatably provided with the rotating column, two convex connecting plates and two concave connecting plates are respectively and fixedly sleeved on the rotating column, the convex parts of the convex connecting plates are attached to the concave parts of the concave connecting plates, pins are arranged between the convex parts of the convex connecting plates and the concave parts of the concave connecting plates, and the convex parts of the convex connecting plates are movably connected with the concave parts of the concave connecting plates through the pins.

(III) beneficial effects

Compared with the prior art, the utility model provides a building engineering building climbing frame, which comprises the following components

The beneficial effects are that:

1. when the building engineering building climbing frame is used, two groups of corresponding supporting legs are placed together, a worker manually pulls out the convex connecting plate and the concave connecting plate, after the convex connecting plate and the concave connecting plate are all rotated to be parallel by taking the rotating column as an axis, the worker takes out pins to connect the convex connecting plate and the concave connecting plate together, then the worker takes out the fixing column, after corresponding to a required round groove according to the required height of the worker, the two rectangular clamping blocks are manually pushed, the two rectangular clamping blocks push and drive the two sliding discs to rotate, the two rectangular clamping blocks rotate by taking the sliding discs as the axis, after the two rectangular clamping blocks rotate to the two highest points, the two rectangular clamping blocks are continuously pushed to move towards the two sides of the fixing column, the two rectangular clamping blocks move towards the two sides of the fixing column and drive the two springs to move forwards, the two springs move forward to drive the two connecting blocks to move forward, after the two connecting blocks are inserted into the circular grooves, the two rectangular clamping blocks are forced to push the two sliding discs to squeeze the two springs, the two sliding discs continue to approach the two connecting blocks due to compression of the two springs, the two rectangular clamping blocks are pushed to the top of the advancing direction and then move downwards, the two rectangular clamping blocks enter the other ends of the two first C-shaped sliding grooves to be clamped, the belt is manually grasped to rotate around the fixed column, the outer surfaces of the rectangular clamping blocks are sleeved into the inner walls of the rectangular openings and then continue to surround the fixed column to the positions of the connecting columns, the circular sleeve openings on the belt are sleeved into the grooves, the rectangular clamping blocks are fixed to prevent personnel from opening the rectangular clamping blocks carelessly, so that connection is released, after the other groups of supporting legs are connected in the same way, the two groups of fixed columns are placed in a rectangular shape, the bearing plate is taken up, the bearing plate is driven simultaneously to connect the blocks, the connecting blocks are driven simultaneously to drive the fixing device, the bottoms of the C-shaped blocks are placed at the tops of the anti-slip sleeves, the switch is pushed manually, the switch moves downwards to drive the semicircular blocks to move downwards, the semicircular blocks move downwards to drive the two sliding columns to slide in the second C-shaped sliding grooves, the sliding positions of the two second C-shaped sliding grooves are limited, so that the anti-slip sleeves can be rotated and slid by taking the anti-slip sleeves as the axes, the semicircular blocks move downwards to drive the cylindrical clamping blocks to move downwards, the cylindrical clamping blocks move downwards to push the two arc-shaped plastic blocks open towards opposite surfaces to continue moving, the two cylindrical clamping blocks move to the two circular clamping grooves to enable the two arc-shaped plastic blocks to close towards the opposite surfaces according to the elasticity of the arc-shaped plastic blocks, the inner walls of the two cylindrical splicing circular clamping grooves are fixed, and therefore the stability of the climbing frame of a construction engineering is improved, and meanwhile the danger of workers in climbing the climbing frame is reduced.

2. This building engineering building climbs frame carries and makes the building engineering building climbs frame separate, remove the fixing to the bearing plate earlier, make the cylindrical fixture block of separation to both sides separation make to both sides keep away from circular draw-in groove after, the manual work promotes the switch, the switch upwards moves and drives semi-circular piece upwards to move, semi-circular piece upwards moves and drives two sliding columns and slide in second C type spout, two second C type spout is spacing its sliding position, thereby can rotate the slip with anti-skidding cover as the axle center, semi-circular piece upwards moves and drives cylindrical fixture block upwards to move, semi-circular piece and two C type piece bottoms are parallel to make and remove the fixed back, the manual work breaks away from the surface of belt groove with the circular pocket on the belt, after again breaking away from the surface of rectangular pocket break away from rectangular fixture block, when two rectangular fixture blocks rotated the top of first C type spout, two spring stretching drive two sliding discs move to the fixed column intermediate position, drive two connecting blocks and inwards move circular spout, the root absolute spring force removes the fixed, afterwards promote two rectangular fixture blocks to the other end of first C type spout, prevent to make a round trip the fixed connection board, the manual work is removed from the connecting plate with the inside the concave-shaped connection board of support leg, the manual work, the connection has reduced the manual work, the connection of the connecting plate is removed from the concave-shaped connection with the inside the concave-shaped connection board, the manual work, the connection plate has been removed from the manual work, and the connection is more has been removed.

Drawings

FIG. 1 is a schematic side view of a construction climbing frame for construction engineering;

FIG. 2 is a schematic view of a portable stationary post apparatus;

FIG. 3 is a schematic cross-sectional view of a portable stationary post assembly;

FIG. 4 is a schematic view of the bottom structure of the fixing device;

FIG. 5 is a schematic top view of the fixture;

fig. 6 is a schematic cross-sectional view of the connection device.

In the figure: 1. support legs; 2. a circular groove; 3. a bearing plate; 4. fixing the column; 5. a first C-shaped chute; 6. an anti-skid sleeve; 7. a connecting column; 8. pi Daicao; 9. a belt; 10. a rectangular opening; 11. a circular chute; 12. a sliding disk; 13. rectangular clamping blocks; 14. a spring; 15. a moving column; 16. a connecting block; 17. arc-shaped plastic blocks; 18. a circular clamping groove; 19. c-shaped blocks; 20. a second C-shaped chute; 21. a semicircular block; 22. a sliding column; 23. a switch; 24. a cylindrical clamping block; 25. rectangular grooves; 26. rotating the column; 27. a convex connecting plate; 28. a concave connecting plate; 29. and (5) a pin.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a frame is climbed to building engineering building, supporting leg 1 sets up to four and is rectangular array setting, round slot 2 has all been seted up to the opposite face of two supporting legs 1 in front and back end, be provided with fixed column 4 in the middle of two supporting legs 1 in front and back end, be provided with portable fixed column device on the fixed column 4, two portable fixed column device intermediate positions are provided with bearing plate 3, the equal fixed mounting of front and back end equidistance of bearing plate 3 both sides has two connecting blocks 16, all be provided with fixing device on the connecting block 16, rectangular slot 25 has all been seted up to the opposite face of two supporting legs 1 in front and back end, be provided with connecting device in the rectangular slot 25.

Further, portable fixed column device includes first C type spout 5, and first C type spout 5 has all been seted up near intermediate position to the both sides of fixed column 4, and the one end fixed cover that two first C type spouts 5 were all kept away from to the both sides of fixed column 4 is equipped with antiskid cover 6, and fixed column 4 bottom and the opposite sides of two first C type spouts 5 are from end and corresponding position fixed mounting have spliced pole 7, and belt groove 8 has all been seted up to the surface of two spliced poles 7, and the inner wall fixed mounting of belt groove 8 has belt 9.

Further, the belt 9 is kept away from the one end of belt groove 8 and has been seted up circular pocket, and circular pocket sets up and swing joint with belt groove 8 laminating mutually, and rectangular mouth 10 has all been seted up to the surface of belt 9, and circular spout 11 has all been seted up to the inside both sides of fixed column 4 correspondingly, and the inside of two circular spouts 11 is all sliding connection with slip disc 12, and the equal fixed mounting of surface of two slip discs 12 has rectangular fixture block 13.

Further, two rectangular clamping blocks 13 extend out of the outer surface of the fixed column 4 through the first C-shaped sliding groove 5, the two rectangular clamping blocks 13 are matched with the two rectangular openings 10, springs 14 are rotatably installed on the opposite surfaces of the two sliding discs 12, moving columns 15 are fixedly installed at one ends of the two springs 14, which are far away from the sliding discs 12, of the two moving columns 15, the two moving columns 15 are spliced with the round grooves 2, a worker takes out the fixed column 4, after the worker corresponds to the needed round grooves 2 in a needed height, the two rectangular clamping blocks 13 are manually pushed, the two rectangular clamping blocks 13 are pushed to drive the two sliding discs 12 to rotate, the two rectangular clamping blocks 13 rotate in the two first C-shaped sliding grooves 5 by taking the sliding discs 12 as axes, after the two rectangular clamping blocks 13 rotate to the two highest points, the two rectangular clamping blocks 13 are continuously pushed to move towards two sides of the fixed column 4, the two rectangular clamping blocks 13 move to the two sides of the fixed column 4 to drive the two springs 14 to move forwards, the two springs 14 move forwards to drive the two connecting blocks 16 to move forwards, the two connecting blocks 16 are inserted into the circular groove 2 and then push the two rectangular clamping blocks 13 forcefully to enable the two sliding discs 12 to squeeze the two springs 14, the two springs 14 are compressed to enable the two sliding discs 12 to continuously approach the two connecting blocks 16, the two rectangular clamping blocks 13 are pushed to the advancing top and then move downwards, so that the two rectangular clamping blocks 13 enter the other ends of the two first C-shaped sliding grooves 5 to be clamped, the belt 9 is manually grasped to rotate around the fixed column 4, the outer surfaces of the rectangular clamping blocks 13 are sleeved into the inner wall of the rectangular opening 10 and then continuously surround the fixed column 4 to the connecting column 7, the circular sleeve opening on the belt 9 is sleeved into the inner part of the belt groove 8, fixing the rectangular clamp 13 prevents a person from inadvertently opening the rectangular clamp 13.

Further, fixing device includes arc type plastic piece 17, and connecting block 16 is kept away from the one end of bearing plate 3 and is close to the equal fixed mounting in bottom position both sides and has arc type plastic piece 17, and two arc type plastic pieces 17 are mirror image setting, have all seted up circular draw-in groove 18 on two arc type plastic pieces 17, and the equal fixed mounting in equal equidistance in bearing plate 3 both sides is kept away from to connecting block 16 upper surface has two C type pieces 19, and second C type spout 20 has all been seted up on two C type piece 19 opposite surfaces, and two second C type spouts 20 are corresponding to be set up.

Further, sliding columns 22 are slidably connected inside the two second C-shaped sliding grooves 20, semicircular blocks 21 are slidably connected corresponding to the two C-shaped sliding grooves 19, two sides of one end of each semicircular block 21 close to the connecting block 16 are fixedly connected with the two sliding columns 22, cylindrical clamping blocks 24 are fixedly installed at two ends of each semicircular block 21 far away from the connecting block 16, a switch 23 is fixedly installed on the outer surface of each semicircular block 21, the switch 23 is manually pushed, the semicircular blocks 21 are driven to move downwards by means of the downward movement of the switch 23, the two sliding columns 22 are driven to slide in the second C-shaped sliding grooves 20 by means of the downward movement of the semicircular blocks 21, the sliding positions of the two second C-shaped sliding grooves 20 are limited, and accordingly the sliding sleeve 6 can be used for rotating and sliding, the semicircular blocks 21 move downwards to drive the cylindrical clamping blocks 24 to move downwards, the two arc-shaped plastic blocks 17 are pushed up to move continuously towards opposite surfaces after the cylindrical clamping blocks 24 move downwards to touch the arc-shaped plastic blocks 17, and when the two cylindrical clamping blocks 24 move to the two circular clamping grooves 18, the two arc-shaped plastic blocks 17 are folded towards opposite surfaces according to the elasticity of the arc-shaped plastic blocks 17, and the two circular clamping blocks 24 are fixed on the inner walls of the circular clamping blocks 18.

Further, the connecting device comprises a rotating column 26, the rotating column 26 is rotatably arranged on two sides of the inner wall of the rectangular groove 25, two convex connecting plates 27 and two concave connecting plates 28 are fixedly sleeved on the rotating column 26 respectively, protruding portions of the convex connecting plates 27 are attached to concave portions of the concave connecting plates 28, pins 29 are arranged between protruding portions of the convex connecting plates 27 and concave portions of the concave connecting plates 28, protruding portions of the convex connecting plates 27 are movably connected with concave portions of the concave connecting plates 28 through the pins 29, two corresponding supporting legs 1 are placed together, a worker manually pulls out the convex connecting plates 27 and the concave connecting plates 28, and after the convex connecting plates 27 and the concave connecting plates 28 are all rotated to be parallel by taking the rotating column 26 as an axis, the worker takes out the pins 29 to connect the convex connecting plates 27 and the concave connecting plates 28 together.

Working principle: when in use, two corresponding groups of two supporting legs 1 are placed together, a worker manually pulls out the convex connecting plate 27 and the concave connecting plate 28, after the convex connecting plate 27 and the concave connecting plate 28 are all rotated to be parallel by taking the rotating column 26 as an axis, the worker takes out the pin 29 to connect the convex connecting plate 27 and the concave connecting plate 28 together, then the worker takes out the fixed column 4, after corresponding to the needed round slot 2 according to the needed height of the worker, the two rectangular clamping blocks 13 are manually pushed, the two rectangular clamping blocks 13 are pushed to drive the two sliding disks 12 to rotate, the two rectangular clamping blocks 13 rotate by taking the sliding disks 12 as an axis, after the two rectangular clamping blocks 13 rotate to the two highest points, the two rectangular clamping blocks 13 are continuously pushed to move towards the two sides of the fixed column 4, the two rectangular clamping blocks 13 move to the two sides of the fixed column 4 to drive the two springs 14 to move forwards, the two springs 14 move forwards to drive the two connecting blocks 16 to move forwards, the two connecting blocks 16 are inserted into the circular groove 2 and then push the two rectangular clamping blocks 13 forcefully, the two sliding discs 12 squeeze the two springs 14, the two springs 14 compress to enable the two sliding discs 12 to continuously approach the two connecting blocks 16, the two rectangular clamping blocks 13 push to the advancing top and then move downwards, the other ends of the two rectangular clamping blocks 13 entering the two first C-shaped sliding grooves 5 are clamped, the belt 9 is manually grasped to rotate around the fixed column 4, the outer surfaces of the rectangular clamping blocks 13 are sleeved into the inner walls of the rectangular openings 10 and then continuously surround the fixed column 4 to the connecting column 7, the circular sleeve openings on the belt 9 are sleeved into the inner parts of the belt grooves 8, the rectangular clamping blocks 13 are fixed, and the rectangular clamping blocks 13 are prevented from being opened carelessly by personnel, after the other group of supporting legs 1 are connected in the same way, two groups of fixing columns 4 are placed in a rectangular shape, the bearing plate 3 is lifted up, the bearing plate 3 drives the connecting block 16 at the same time, the connecting block 16 drives the fixing device at the same time, after the bottom of the C-shaped block 19 is placed at the top of the anti-slip sleeve 6 to frame the bearing plate 3, the switch 23 is manually pushed, the switch 23 moves downwards to drive the semicircular block 21 to move downwards, the semicircular block 21 moves downwards to drive the two sliding columns 22 to slide in the second C-shaped sliding grooves 20, the sliding positions of the two second C-shaped sliding grooves 20 are limited, so that the anti-slip sleeve 6 can be used as an axle center for rotating sliding, the semicircular block 21 moves downwards to drive the cylindrical clamping block 24 to move downwards, the cylindrical clamping block 24 moves downwards to jack the two arc-shaped plastic blocks 17 to the opposite surfaces for continuous moving after the arc-shaped plastic blocks 17 are touched downwards, when the two cylindrical clamping blocks 24 move to the two circular clamping grooves 18, the two arc-shaped plastic blocks 17 are folded oppositely according to the elasticity of the arc-shaped plastic blocks 17, so that the two cylindrical clamping blocks 24 are inserted into the inner walls of the circular clamping grooves 18 to complete fixation, the stability of the climbing frame of the building engineering is improved, meanwhile, the danger of workers in the climbing frame operation is reduced, the climbing frame of the building engineering is carried to be separated, the fixation of the bearing plate 3 is firstly released, the two arc-shaped plastic blocks 17 are separated to the two sides to separate the cylindrical clamping blocks 24 from the circular clamping grooves 18, after the switch 23 is manually pushed, the switch 23 moves upwards to drive the semicircular blocks 21 to move upwards, the semicircular blocks 21 move upwards to drive the two sliding columns 22 to slide in the second C-shaped sliding grooves 20, the sliding positions of the two second C-shaped sliding grooves 20 are limited, and therefore the sliding prevention sleeve 6 can rotate and slide around the axis, the semicircular block 21 moves upwards to drive the cylindrical clamping blocks 24 to move upwards, after the semicircular block 21 and the bottoms of the two C-shaped blocks 19 are parallel to each other to release the fixation, the circular sleeve opening on the belt 9 is manually separated from the outer surface of the belt groove 8, the rectangular opening 10 is separated from the outer surface of the rectangular clamping block 13, the two rectangular clamping blocks 13 are pushed, when the two rectangular clamping blocks 13 rotate to the top of the first C-shaped sliding groove 5, the two springs 14 are stretched, the two springs 14 stretch to drive the two sliding discs 12 to move towards the middle position of the fixed column 4, meanwhile, the two connecting blocks 16 are driven to move towards the inside of the circular sliding groove 11, the elastic force releases the fixation, the two rectangular clamping blocks 13 are pushed to the other end of the first C-shaped sliding groove 5 to prevent the connecting blocks 16 from moving back and forth, the portable fixed column device is connected with the supporting leg 1, the pin 29 is manually pulled out to be connected with the convex connecting plate 27 and the concave connecting plate 28, the convex connecting plate 27 and the concave connecting plate 28 are manually rotated to retract the convex connecting plate 27 and the concave connecting plate 28 into the rectangular groove 25, separation is completed, the building engineering climbing frame is more convenient to carry, the working strength of workers when carrying the building engineering climbing frame is reduced, the problem that the bearing plate moves and is unstable when the workers work on the climbing frame is solved, the problem of the dangerousness of the workers when the workers work is increased, and meanwhile, the problem that the workers need to carry the building engineering climbing frame due to overlarge frame body when working on a construction site is also solved.

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

Claims (7)

1. The utility model provides a frame is climbed in building engineering building, includes supporting leg (1), its characterized in that: supporting legs (1) set up to four and are rectangular array setting, circular slot (2) have all been seted up to the opposite face of two supporting legs of front and back ends (1), be provided with fixed column (4) in the middle of two supporting legs of front and back ends (1), be provided with portable fixed column device on fixed column (4), two portable fixed column device intermediate positions are provided with bearing plate (3), the equal fixed mounting of front and back end equidistance of bearing plate (3) both sides has two connecting blocks (16), all be provided with fixing device on connecting block (16), rectangular slot (25) are all seted up to the opposite face of two supporting legs of front and back ends (1), be provided with connecting device in rectangular slot (25).

2. A building engineering construction climbing frame according to claim 1, wherein: the portable fixed column device comprises first C-shaped sliding grooves (5), wherein the first C-shaped sliding grooves (5) are formed in the two sides of the fixed column (4) close to the middle position, an anti-slip cover (6) is fixedly sleeved at one end of each of the two first C-shaped sliding grooves (5), connecting columns (7) are fixedly mounted at the bottoms of the fixed column (4) and the opposite ends and corresponding positions of the two first C-shaped sliding grooves (5), belt grooves (8) are formed in the outer surfaces of the two connecting columns (7), and belts (9) are fixedly mounted on the inner walls of the belt grooves (8).

3. A building engineering construction climbing frame according to claim 2, wherein: the belt is characterized in that a circular sleeve opening is formed in one end, far away from the belt groove (8), of the belt (9), the circular sleeve opening is in fit with the belt groove (8) and is movably connected, rectangular openings (10) are formed in the outer surface of the belt (9), circular sliding grooves (11) are formed in the two opposite sides of the inner portion of the fixed column (4), sliding discs (12) are slidably connected in the two circular sliding grooves (11), and rectangular clamping blocks (13) are fixedly mounted on the outer surfaces of the two sliding discs (12).

4. A building engineering construction climbing frame according to claim 3, wherein: two rectangle fixture blocks (13) all extend the surface of fixed column (4) through first C type spout (5), and two rectangle fixture blocks (13) and two rectangle mouth (10) looks adaptations, and the face that deviates from mutually of two slip discs (12) all rotates and installs spring (14), and the equal fixed mounting of one end that slip disc (12) was kept away from to two springs (14) has movable column (15), and two movable column (15) all peg graft with circular slot (2).

5. A building engineering construction climbing frame according to claim 1, wherein: fixing device includes arc type plastic piece (17), connecting block (16) keep away from the one end of bearing plate (3) and are close to the equal fixed mounting in bottom position both sides and have arc type plastic piece (17), two arc type plastic pieces (17) are mirror image setting, circular draw-in groove (18) have all been seted up on two arc type plastic pieces (17), connecting block (16) upper surface is kept away from equal fixed mounting in bearing plate (3) both sides equidistance and is had two C type pieces (19), second C type spout (20) have all been seted up on two C type pieces (19) opposite face, two corresponding settings of second C type spout (20).

6. The building engineering construction climbing frame according to claim 5, wherein: two equal sliding connection in second C type spout (20) have slip post (22), and the corresponding sliding connection of two C type pieces (19) has semi-circular piece (21), and semi-circular piece (21) are close to the one end both sides and the two slip posts (22) fixed connection of connecting block (16), and the one end two equal fixed mounting that semi-circular piece (21) kept away from connecting block (16) has cylindrical fixture block (24), and the surface of semi-circular piece (21) is equal fixed mounting has switch (23).

7. A building engineering construction climbing frame according to claim 1, wherein: the connecting device comprises a rotating column (26), wherein the rotating column (26) is rotatably arranged on two sides of the inner wall of the rectangular groove (25), two convex connecting plates (27) and two concave connecting plates (28) are fixedly sleeved on the rotating column (26) respectively, the convex parts of the convex connecting plates (27) are attached to the concave parts of the concave connecting plates (28), a pin (29) is arranged between the convex parts of the convex connecting plates (27) and the concave parts of the concave connecting plates (28), and the convex parts of the convex connecting plates (27) are movably connected with the concave parts of the concave connecting plates (28) through the pin (29).