CN221396862U - Hoisting platform for new energy power station construction - Google Patents

Abstract

The utility model discloses a hoisting platform for new energy power station construction, in particular to the technical field of power station construction hoisting, which is mainly characterized in that the output end of a hoisting winch is connected with a hoisting steel rope, the inner wall of the hoisting steel rope is connected with sliding hoisting rings in a sliding manner, and two sides of the sliding hoisting rings are provided with distributed hoisting components; the distributed hoisting assembly comprises a middle sleeving rotating block arranged on one side of the sliding hoisting ring, a middle hoisting hook is arranged below the hoisting steel rope, and sliding support posts are fixedly connected to the opposite sides of the two middle sleeving rotating blocks. According to the lifting device, the distributed lifting assemblies are arranged, the two side lifting hooks are lifted at positions above two ends of the lifting belt, the middle lifting hook can hook the middle of the lifting belt, the sliding support column drives the connecting support block to enable the sleeving sliding frame to move upwards, uniform distribution lifting is stably realized on the lifting belt, the stability of the lifted device is improved, and the lifting safety is improved.

Description

Hoisting platform for new energy power station construction

Technical Field

The utility model relates to the technical field of power station construction hoisting, in particular to a hoisting platform for new energy power station construction.

Background

The new energy power station construction is with hoist and mount platform mainly used hoist and mount power station equipment, for example solar panel, aerogenerator, and hoist and mount platform is when hoisting corresponding equipment, often needs the manual work to install haulage rope on by the hoist and mount equipment and pull it to alleviate by the rocking range of hoist and mount equipment, such pull is very dangerous for the workman who pulls the haulage rope.

In the prior art, the utility model patent of patent publication number CN210885002U discloses a lifting device for a transformer substation, the lifting device is mainly used in various special environments, usability is improved, the lifting device is flexible to stretch and retract by arranging the matching of a hydraulic cylinder and a hydraulic telescopic rod, equipment is lifted, and the lifting rope and a lifting hook are convenient to operate and improve working efficiency by arranging a servo motor and a take-up pulley and matching of a first fixed pulley and a second fixed pulley; the lifting device has the following defects;

In the new energy power station construction process, because the new energy power station construction adopts traditional hoisting, the hoisting belt is generally utilized to hoist the hoisted equipment, and because the hoisting belt is a single soft lifting hook for hoisting, the shaking easily occurs, so that the stability of the hoisted equipment can be reduced, and the potential safety hazard is increased.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides a hoisting platform for new energy power station construction.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the lifting platform for the construction of the new energy power station comprises a lifting winch, wherein the output end of the lifting winch is connected with a lifting steel rope, the inner wall of the lifting steel rope is connected with sliding lifting rings in a sliding manner, and two sides of the sliding lifting rings are provided with distributed lifting components; the distribution hoisting assembly comprises a middle part sleeving and rotating block arranged on one side of the sliding hoisting ring, a middle part lifting hook is arranged below the hoisting steel rope, two sliding support posts are fixedly connected to the opposite sides of the middle part sleeving and rotating block, a sleeving ring is connected to the outer wall of the sliding support posts in a sliding mode, side sleeving plates are fixedly connected to the two sides of the sleeving ring, side lifting hooks are arranged below the sleeving ring, and one end portion of the sliding support posts is fixedly connected with a connecting support block.

Preferably, two the middle part overlap changes the piece and all with slip rings between fixed connection, two the middle part overlap changes the piece and sets up about slip rings symmetry, middle part lifting hook outer wall respectively with two inside swivelling joint of middle part overlap changes the piece, the centre of a circle point of slip rings is in same horizontal line with the centre of a circle point of slip pillar, two side overlap board inner wall all with slip pillar outer wall sliding connection, two side overlap board sets up about the sleeve ring symmetry.

Preferably, the top fixedly connected with of connecting the piece cup joints the balladeur train, just cup joint vertical sliding connection between the inner wall of balladeur train and the outer wall of lifting by crane the steel cable, the inner wall of cup jointing the balladeur train and the outer wall of lifting by crane the steel cable all are through polishing and polishing the processing.

Preferably, the side lifting hook rotationally connected with the inner walls of the two side sleeving plates is installed below the sleeving rings, two adjacent sides of the side sleeving plates are polished, the top end of the lifting steel rope is fixedly connected with the sliding plate, the sliding guide rail is installed on the inner wall of the sliding plate, a support column and a new energy beam are sequentially arranged on one side of the sliding guide rail from right to left, and the support column is welded with the new energy beam and the sliding guide rail respectively.

According to the technical scheme, the two side lifting hooks are lifted at the positions above the two ends of the hanging belt, the middle lifting hook can be used for hooking the middle part of the hanging belt, the lifting steel rope is driven to be wound upwards by starting the lifting winch, the sliding lifting ring drives the two middle sleeving rotating blocks to move, the middle sleeving rotating blocks drive the sliding support to enable the sleeving ring to move upwards, the sliding support drives the connecting support to enable the sleeving support to move upwards, two sliding support can be prevented from shifting at two sides in the upward moving process, and the hanging belt is stably lifted in a uniform distribution manner.

Preferably, the top end of the middle sleeve joint rotating block is provided with an adjusting and limiting assembly;

The adjusting limiting assembly comprises a linkage support block arranged at the top end of the middle sleeving rotating block, a sleeving sliding plate is welded at the top end of the linkage support block, a first sleeving threaded block and a second sleeving threaded block are sequentially arranged inside the sleeving sliding plate from left to right, a linkage screw rod penetrating through the first sleeving threaded block is arranged in the second sleeving threaded block, one end of the linkage screw rod extends to the outside of the sleeving sliding plate and is welded with a rotating cap, the first sleeving threaded block and the second sleeving threaded block are welded and fixed with two side sleeving plates in a one-to-one correspondence manner, the inner walls of the first sleeving threaded block and the second sleeving threaded block are in threaded connection with the linkage screw rod, two threads of the outer wall of the linkage screw rod are opposite and symmetrically arranged, and the first sleeving threaded block and the second sleeving threaded block are in horizontal sliding connection with the sleeving sliding plate.

According to the technical scheme, the linkage screw rod rotates inside the sleeving sliding plate, the linkage screw rod drives the first sleeving threaded block to move leftwards along the sleeving sliding plate under the action of threads, and meanwhile, the linkage screw rod drives the second sleeving threaded block to move rightwards along the sleeving sliding plate under the action of threads, so that the lifting distance between the lifting hooks on the two sides can be adjusted according to the hanging strips with different lengths.

The utility model has the technical effects and advantages that:

1. Through setting up the distribution hoist and mount subassembly, two side lifting hooks hoist in hoist and mount both ends upper position department, and the middle part lifting hook can carry out the hook joint to the hoist and mount middle part, and the middle part cover connects the commentaries on classics piece and drives the slip pillar and make the cover ring upwards move, and the slip pillar drives and connects the piece and make the cover balladeur train upwards move, stably realizes evenly distributed to the hoist and mount, avoids taking place to rock, improves by the stability of hoist and mount equipment, improves the security of lifting by crane;

2. Utilize adjusting spacing subassembly to make the linkage screw rod in cup jointing the inside rotation of slide, first cup jointing the screw thread piece and moving left along cup jointing the inside of slide under the effect of screw thread, the linkage screw rod drives the second simultaneously and cup joints the screw thread piece and move right along cup jointing the inside of slide under the effect of screw thread, can adjust the lifting distance between the lifting hook of two sides according to the suspender of different length, evenly lift by crane application scope is wider.

Drawings

Fig. 1 is a schematic diagram of a front view three-dimensional structure of a hoisting platform for new energy power station construction.

Fig. 2 is a schematic diagram of a hoisting steel rope cut-off partial structure in a hoisting platform for new energy power station construction.

Fig. 3 is a schematic diagram of a front view plane structure of a hoisting platform for new energy power station construction.

Fig. 4 is a schematic diagram of a local structure of a joint of a first sleeved threaded block and a linkage screw in the hoisting platform for new energy power station construction.

The reference numerals are: 1. hoisting a winch; 2. hoisting the steel rope; 3. sliding hanging rings; 4. the middle part is sleeved with a rotating block; 5. lifting hook in the middle; 6. a sliding pillar; 7. a sleeve joint ring; 8. a side sleeve joint plate; 9. connecting the support blocks; 10. sleeving a sliding frame; 11. lifting hooks are arranged on the side edges; 12. a sliding plate; 13. a sliding guide rail; 14. a support column; 15. a new energy beam; 16. a linkage support block; 17. sleeving a sliding plate; 18. a first socket thread block; 19. a second socket thread block; 20. a linkage screw; 21. the cap is turned.

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.

The utility model provides a new energy power station construction is with hoist and mount platform as shown in fig. 1-4, be provided with distribution hoist and mount subassembly on this new energy power station construction is with hoist and mount platform, distribution hoist and mount subassembly's setting can make sliding column 6 drive connect prop up 9 and make cup joint balladeur train 10 upwards remove, it lifts by crane to stabilize the realization evenly distributed of suspender, avoid taking place to rock, improve by lifting device's stability, improve the lifting security, distribution hoist and mount subassembly's specific structure sets up as follows:

in this embodiment, as shown in fig. 1-2, the distributed hoisting assembly includes a middle sleeving rotating block 4 arranged at one side of the sliding hoisting ring 3, a middle hoisting hook 5 is installed below the hoisting steel rope 2, sliding support posts 6 are fixedly connected to opposite sides of the two middle sleeving rotating blocks 4, a sleeving ring 7 is slidably connected to the outer wall of the sliding support posts 6, side sleeving plates 8 are fixedly connected to two sides of the sleeving ring 7, side hoisting hooks 11 are installed below the sleeving ring 7, and a connecting support block 9 is fixedly connected to one end of the sliding support posts 6;

according to the new energy power station construction using principle, the bottom of the new energy beam 15 is fixed on a new energy construction lifting platform, the supporting column 14 is supported by the sliding guide rail 13, the supporting column 14 plays a reinforcing supporting role on the sliding guide rail 13, the sliding plate 12 can realize transmission on the sliding guide rail 13 by utilizing a motor driving pulley, the technology belongs to the existing lifting technology, and therefore, excessive description is not needed, the hanging strip is bound on the construction facility of the energy power station, such as a solar plate or a power generation storage battery, the two side lifting hooks 11 are lifted at positions above two ends of the hanging strip, the middle lifting hook 5 can hook the middle of the hanging strip, the lifting steel rope 2 is driven to wind upwards by starting the lifting hoist 1, the sliding steel rope 2 drives the sliding lifting rings 3 to move upwards, meanwhile, the sliding lifting rings 3 drives the two middle sleeving rotating blocks 4 to drive the sliding supporting columns 6 to enable the sleeving rings 7 to move upwards, the sliding supporting blocks 9 drive the sliding frames 10 to move upwards, the sliding frames 10 to move upwards along the outer walls of the lifting steel rope 2, and thus the two side lifting hooks 6 can be uniformly distributed on the two sides of the lifting hooks, the two sides of the hanging strip can be prevented from moving upwards, the two side lifting hooks 11 can be uniformly distributed, and the two sides of the lifting hooks can be uniformly distributed on the two sides of the lifting hooks 11, the lifting hooks can be prevented from moving upwards, and the middle lifting hook 11 can be uniformly distributed on two sides of the lifting hooks can be stably and stably lifted, and the two sides can be lifted, and stably lifted, and two sides can be lifted, and stably, and two sides can be lifted.

In this embodiment, as shown in fig. 1-3, connect the top fixedly connected with of supporting shoe 9 and cup joint balladeur train 10, and cup joint vertical sliding connection between the inner wall of balladeur train 10 and the outer wall of lifting steel rope 2, cup joint the inner wall of balladeur train 10 and the outer wall of lifting steel rope 2 and all through polishing processing of polishing, so that sliding column 6 drives and connects supporting shoe 9 and makes and cup joint balladeur train 10 upwards move, cup joint balladeur train 10 along the outer wall guide of lifting steel rope 2 upwards move, can ensure to lift by crane steel rope 2 and cup joint balladeur train 10 and be in vertical state and realize stable slip, the side lifting hook 11 that rotates with two side cover fishplate 8 inner walls and be connected, the adjacent one side of two side cover fishplates 8 is all through polishing processing, so that two sides play lifting hook 11 and hang in suspender both ends upper position department, can realize both ends even butt joint to the suspender, the hoist and mount atress is more even, the top fixedly connected with sliding plate 12 of lifting steel rope 2, install sliding guide 13 at sliding plate 12, sliding guide 13 one side of sliding guide 13 is equipped with support column 14 and new energy source 15 in proper order from the right to left side, it can realize stable slip to realize the stable slip through the new energy source, lifting guide 13 and the new energy source is fixed on sliding guide 13, the sliding guide 13 is realized and the stable and is used for the sliding support platform is fixed by the sliding and can realize the stable and stable support platform through the sliding and the sliding guide 13.

In the embodiment, as shown in figures 2-4, the top end of the middle sleeve joint rotating block 4 is provided with an adjusting and limiting component;

The adjusting and limiting assembly comprises a linkage support block 16 arranged at the top end of the middle sleeving rotating block 4, a sleeving sliding plate 17 is welded at the top end of the linkage support block 16, a first sleeving threaded block 18 and a second sleeving threaded block 19 are sequentially arranged in the sleeving sliding plate 17 from left to right, a linkage screw rod 20 penetrating through the first sleeving threaded block 18 is arranged in the second sleeving threaded block 19, one end part of the linkage screw rod 20 extends to the outer part of the sleeving sliding plate 17 and is welded with a rotating cap 21, and the first sleeving threaded block 18 and the second sleeving threaded block 19 are respectively welded and fixed with the two side sleeving plates 8 in a one-to-one correspondence manner;

According to the suspender of upper segment structure to different length, can rotate and rotate cap 21 and drive linkage screw 20 and cup joint the inside rotation of slide 17, linkage screw 20 drives first screw thread piece 18 that cup joints along cup jointing the inside left removal of slide 17 under the effect of screw thread, simultaneously linkage screw 20 drive second screw thread piece 19 cup joints the inside right removal of slide 17 along cup jointing the effect of screw thread, first screw thread piece 18 that cup joints drives two side joint boards 8 and slides along the outer wall of sliding support 6 left, and second screw thread piece 19 that cup joints drives other two side joint boards 8 and slide along the outer wall of another sliding support 6, can adjust the lifting distance between two side lifting hooks 11 according to the suspender of different length.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited and can be determined by using conventional equipment.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. The utility model provides a new energy power station construction is with hoist and mount platform, includes hoist and mount hoist engine (1), the output of hoist and mount hoist engine (1) is connected with lifts by crane wire rope (2), the inner wall sliding connection who lifts by crane wire rope (2) has slip rings (3), its characterized in that: two sides of the sliding hanging ring (3) are provided with distributed hanging components;

The distribution hoisting assembly comprises a middle part sleeving connection rotating block (4) arranged on one side of a sliding hoisting ring (3), a middle part lifting hook (5) is arranged below a hoisting steel rope (2), two sliding support columns (6) are fixedly connected to opposite sides of the middle part sleeving connection rotating block (4), sleeving rings (7) are slidably connected to outer walls of the sliding support columns (6), side sleeving plates (8) are fixedly connected to two sides of the sleeving rings (7), side lifting hooks (11) are arranged below the sleeving rings (7), and connecting support blocks (9) are fixedly connected to one end parts of the sliding support columns (6).

2. The hoisting platform for new energy power station construction according to claim 1, wherein: the two middle connecting rotating blocks (4) are fixedly connected with the sliding hanging ring (3), and the two middle connecting rotating blocks (4) are symmetrically arranged relative to the sliding hanging ring (3).

3. The hoisting platform for new energy power station construction according to claim 1, wherein: the outer wall of the middle lifting hook (5) is respectively connected with the interiors of the two middle sleeving rotating blocks (4) in a rotating way, and the center point of the sliding lifting ring (3) and the center point of the sliding support column (6) are positioned on the same horizontal line.

4. The hoisting platform for new energy power station construction according to claim 1, wherein: the inner walls of the two side sleeving plates (8) are both in sliding connection with the outer wall of the sliding support column (6), and the two side sleeving plates (8) are symmetrically arranged relative to the sleeving ring (7).

5. The hoisting platform for new energy power station construction according to claim 1, wherein: the top fixedly connected with of connecting branch piece (9) cup joints balladeur train (10), just cup joint vertical sliding connection between the inner wall of balladeur train (10) and the outer wall of lifting by crane steel cable (2), the inner wall of cup jointing balladeur train (10) and the outer wall of lifting by crane steel cable (2) all are through polishing and polishing the processing.

6. The hoisting platform for new energy power station construction according to claim 1, wherein: the lower part of the sleeve joint ring (7) is provided with a side lifting hook (11) which is rotationally connected with the inner walls of the two side sleeve joint plates (8), and the adjacent sides of the two side sleeve joint plates (8) are polished.

7. The hoisting platform for new energy power station construction according to claim 1, wherein: the novel energy beam lifting device is characterized in that a sliding plate (12) is fixedly connected to the top end of the lifting steel rope (2), a sliding guide rail (13) is mounted on the inner wall of the sliding plate (12), a supporting column (14) and a novel energy beam (15) are sequentially arranged on one side of the sliding guide rail (13) from right to left, and the supporting column (14) is welded with the novel energy beam (15) and the sliding guide rail (13) respectively.

8. The hoisting platform for new energy power station construction according to claim 1, wherein: an adjusting and limiting assembly is arranged at the top end of the middle sleeve joint rotating block (4);

The adjusting limiting assembly comprises a linkage support block (16) arranged at the top end of a middle sleeving connection block (4), a sleeving connection slide plate (17) is welded at the top end of the linkage support block (16), a first sleeving connection threaded block (18) and a second sleeving connection threaded block (19) are sequentially arranged inside the sleeving connection slide plate (17) from left to right, a linkage screw rod (20) penetrating through the first sleeving connection threaded block (18) is arranged in the second sleeving connection threaded block (19), one end of the linkage screw rod (20) extends to the outside of the sleeving connection slide plate (17) and is welded with a rotating cap (21), and the first sleeving connection threaded block (18) and the second sleeving connection threaded block (19) are welded and fixed with two side sleeving connection plates (8) in a one-to-one correspondence mode.

9. The hoisting platform for new energy power station construction according to claim 8, wherein: the inner walls of the first sleeving threaded block (18) and the second sleeving threaded block (19) are in threaded connection with the linkage screw rod (20), and the two threads on the outer wall of the linkage screw rod (20) are opposite and symmetrically arranged.

10. The hoisting platform for new energy power station construction according to claim 8, wherein: the first sleeving threaded block (18) and the second sleeving threaded block (19) are horizontally and slidably connected with the sleeving sliding plate (17), and the first sleeving threaded block (18) and the second sleeving threaded block (19) are symmetrically arranged.