CN115092763B - Anti-toppling safety cable device for high-rise mechanical equipment - Google Patents

Abstract

The invention relates to an anti-toppling safety cable device of high-rise mechanical equipment, which comprises a connecting frame and a steel strand rope, wherein the connecting frame and the steel strand rope are arranged at the top of a high-rise equipment main body, a plurality of connecting clamps are arranged at the periphery of the connecting frame, supporting clamps are fixedly connected to the connecting clamps, the steel strand rope is arranged on the connecting frame through the supporting clamps, a plurality of windlass corresponding to the steel strand rope one by one are distributed at the periphery of the high-rise equipment main body, the steel strand rope is winded and wound through the windlass, a supporting plate is arranged at the lower part of the windlass, a first pulley for deflecting and conveying the steel strand rope is arranged at one side of the supporting plate, a plurality of mounting gaskets are fixedly connected at two sides of the supporting plate, a ground pile sleeve buried in the ground is arranged at the lower part of the mounting gaskets, a ground pile rod is sleeved in the ground pile sleeve through threads, the ground pile rod is sleeved in the ground pile sleeve, the traction length and the traction tension of the steel strand rope are quickly adjusted, the problem of unbalance caused by traction caused by direct ground pile traction is avoided, and the construction efficiency is improved.

Description

Anti-toppling safety cable device for high-rise mechanical equipment

Technical Field

The invention relates to the technical field of construction safety, in particular to an anti-toppling safety cable device of high-rise mechanical equipment.

Background

The utility model provides a safety rope device is prevented empting by mechanical equipment towering, is used for keeping stable not rocking to mechanical equipment towering's the safety rope device of towering in the work progress to mechanical equipment towering's is carried out to the many safety ropes that set up to keep the mechanical equipment towering stable work.

When the existing safety cable device does not start to work, an initial pulling force is manually applied to the safety rope in advance, the characteristic of flexibly adjusting the pulling force is not achieved, the safety cable device cannot adapt to stable pulling forces required by different high-rise mechanical equipment in different construction environments, secondly, the ground anchor installed in the use process of the existing safety cable device does not have quick dismantling property, the position of the ground anchor cannot be flexibly adjusted along with the high-rise mechanical equipment, the high-rise mechanical equipment cannot flexibly adjust the position, the consumed time for position adjustment is long, the working efficiency is low, the existing safety cable device cannot be quickly applied to different high-rise mechanical equipment during work, the installation time is long, the stability cannot be easily maintained, and the traction angle of the safety rope cannot be flexibly adjusted.

Disclosure of Invention

The invention aims to solve the problems and the defects, and provides an anti-toppling safety cable device for high-rise mechanical equipment, which improves the overall working efficiency.

The technical problems solved by the invention are as follows:

(1) When the existing safety cable device does not start to work, an initial pulling force is manually applied to the safety rope in advance, so that the safety cable device has no characteristic of flexibly adjusting the pulling force and cannot adapt to stable pulling force required by different high-rise mechanical equipment in different construction environments;

(2) The ground anchor installed in the use process of the existing safety cable device has no mobility, the position of the ground anchor cannot be flexibly adjusted along with high-rise mechanical equipment, the high-rise mechanical equipment cannot flexibly adjust the position, the consumed working hour for adjusting the position is long, and the working efficiency is low;

(3) The existing safety cable device cannot be quickly suitable for different high-rise mechanical equipment in working, is long in installation time consumption, cannot be easily kept stable, and cannot flexibly adjust the traction angle of the safety rope.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a high equipment of towering prevents empting safety rope device, including link and the steel stranded rope that sets up at the top of high equipment main part, a plurality of linking clip is installed to the periphery of link, fixedly connected with support clip on the linking clip, the steel stranded rope is installed through the support clip to the link, the hoist engine of a plurality of and steel stranded rope one-to-one is distributed to the periphery of high equipment main part of towering, and twine the rolling steel stranded rope through the hoist engine, the backup pad is installed to the lower part of hoist engine, the first pulley of deflecting the steel stranded rope and leading is installed to one side of backup pad, the both sides fixedly connected with of backup pad a plurality of installation gasket, the lower part of installation gasket is provided with the ground stake cover of burying in ground, the installation gasket endotheca is equipped with the ground stake pole, ground stake pole screw-thread cup joint is in the ground stake cover.

As a further scheme of the invention, a gear cylinder is arranged at the center of the inner side of the connecting frame, the connecting frame is connected with the gear cylinder through a plurality of connecting square cylinders which are uniformly distributed at equal angles, a transmission sliding block is connected in the connecting square cylinders in a sliding manner, and a transmission screw rod is arranged in the middle of the transmission sliding block in a threaded manner.

As a further scheme of the invention, the middle part of the upper surface of the gear cylinder is rotationally connected with a rotating wheel, a rotating shaft of the rotating wheel penetrates through the gear cylinder and is fixedly connected with a first fluted disc, a plurality of second fluted discs which are uniformly distributed at equal angles are arranged on the inner side wall of the gear cylinder, the second fluted discs correspond to the connecting square cylinders one by one, the first fluted disc and the second fluted disc are meshed for transmission, and the second fluted disc is rotationally connected with the gear cylinder through a transmission shaft and is fixedly connected with a transmission screw rod.

As a further scheme of the invention, a first sliding groove is formed in the middle of the upper surface of the connecting square cylinder, a first screw rod is fixedly connected to the middle of the upper surface of the transmission sliding block, a clamping gasket is sleeved in the middle of the first screw rod in a sliding mode, a fastening chuck is sleeved at the upper end of the first screw rod in a threaded mode, and the fastening chuck is abutted to the clamping gasket.

As a further scheme of the invention, a third sliding groove is formed in the middle of the lower surface of the connecting square cylinder, a transmission block is connected in the third sliding groove in a sliding mode, a supporting block is fixedly connected to the transmission block through the transmission block, a second screw rod is arranged in the middle of the supporting block in a threaded mode in a penetrating mode, the second screw rod is parallel to the transmission screw rod, and one end, close to the gear cylinder, of the second screw rod is connected with an abutting block in a rotating mode.

As a further scheme of the invention, a limiting box for limiting and clamping the steel strand is arranged in the middle of the upper surface of the supporting plate, and a second pulley for deflecting and guiding the steel strand is arranged between the winch and the limiting box on the supporting plate.

As a further scheme of the invention, a limit clamping groove is formed in the bottom of the inner side of the limit box, a lower limit block is arranged on the limit box through the limit clamping groove, an upper limit block is connected in a sliding manner in the limit box, a fastening bolt is connected to the upper surface of the upper limit block in a rotating manner, and middle threads of the fastening bolt penetrate through the upper portion of the limit box.

As a further scheme of the invention, two fastening bolts are arranged, the outer periphery of the middle part of each fastening bolt is sleeved with a supporting cylinder, the lower end of each supporting cylinder is fixedly connected with the outer surface of the upper end of each limiting box, and the lower side surface of each upper limiting block and the upper side surface of each lower limiting block are both cambered surfaces and are fixedly connected with friction plates.

As a further scheme of the invention, one end of the ground pile rod is fixedly connected with a mounting cap, the other end of the ground pile rod is fixedly connected with a ground breaking cone, the periphery of the ground pile sleeve is provided with a plurality of mounting slots which are uniformly distributed at equal angles, the ground pile sleeve is provided with a limiting plate through the mounting slots, and the inner side of the top end of the ground pile sleeve and the periphery of one end of the ground pile rod, which is close to the mounting cap, are provided with thread grooves which correspond to each other.

As a further scheme of the invention, a plurality of second sliding grooves for installing the connecting clamps are formed in the middle of the connecting frame, the second sliding grooves are uniformly distributed at equal angles, reinforcing blocks for improving the structural strength of the connecting frame are arranged between the two second sliding grooves on the connecting frame, the reinforcing blocks are in one-to-one correspondence with the connecting square cylinders, fastening bolts are arranged on the connecting clamps, the fastening bolts penetrate through the second sliding grooves, a supporting rotating shaft is penetrated in the middle of the supporting clamps, two ends of the supporting rotating shaft are rotatably connected with the supporting clamps, the upper ends of steel twisted ropes are wound on the middle of the supporting rotating shaft, and the upper ends of the steel twisted ropes are stably bound through fastening sleeves.

The invention has the beneficial effects that:

(1) When the connecting frame is stably arranged at the top end of the towering equipment main body, a plurality of groups of ground pile sleeves are buried in the ground around the towering equipment main body, the ground pile sleeves are corresponding to the supporting plates and the mounting gaskets, the supporting plates are stably arranged around the towering equipment main body through the corresponding connection of the ground pile rods and the ground pile sleeves, the supporting plates and the windlass arranged on the supporting plates are in one-to-one correspondence with the steel twisted ropes, the steel twisted ropes are winded through the windlass, so that the towering equipment main body is pulled through the steel twisted ropes, the traction with different tensile forces is respectively carried out through the windlass, the radial tensile forces born by the connecting frame are balanced, the towering equipment main body is kept stable and vertical, when the towering equipment main body moves in the area surrounded by the supporting plates, the traction with the steel twisted ropes is firstly released, after the main body of the towering equipment is moved, the towering equipment is pulled with different forces according to the requirement of balanced pulling force, so that the pulling length and pulling force degree of the steel stranded rope can be quickly adjusted, the problems that the pulling force is unbalanced, the ground pile cannot be moved, the pulling length cannot be adjusted by the steel stranded rope, and the construction period is prolonged due to untimely adjustment are avoided, the construction efficiency and the flexibility of timely adjustment are improved, the consumed labor hour is reduced, when the main body of the towering equipment needs to be moved outside an enclosed area, the ground pile rod is quickly taken down from the ground pile sleeve, thereby facilitating the movement of the supporting plate and the winch, burying a plurality of groups of ground pile sleeves again in a new area, rearranging, connecting the sealing cover with the pipe orifice of the original ground pile sleeve by threads, quickly adjusting, and avoiding influencing other construction processes due to burying of the ground pile, the construction efficiency is improved;

(2) The ground pile rod is quickly inserted into the ground pile sleeve to finish positioning during installation, then the ground pile rod and the ground pile sleeve are stably connected through the thread groove, constructors can conveniently rotate the ground pile rod through the installation cap, meanwhile, the support plate is ensured to be stable through mutual abutting of the installation cap and the installation gasket, so that the winch is stable, the ground pile sleeve buried under the ground is further kept stable through the limiting plate, the stability of the whole operation is improved, the traction force of the steel rope is enhanced, accidents caused by the fact that the ground pile sleeve is not firm is avoided, meanwhile, when the high-rise equipment main body needs to be temporarily moved and needs to be constructed, the ground pile rod can be directly broken through the broken soil cone, the ground pile rod is installed under the ground, the steel rope is bound and fixed through the installation cap, so that emergency requirements are met, the winch is convenient to keep stable traction and winding of the steel rope through deflection guiding of the first pulley and the second pulley, the winch is prevented from being damaged when the winch is used for winding the steel rope, meanwhile, the limiting box is convenient to keep stable traction of the steel rope after the winch is used for completing the operation of winding the steel rope, the traction of the winch is kept stable traction force of the limiting block, and the friction is kept between the limiting block and the pulling the steel rope is ensured, and the stable traction loss is ensured through the limiting block, and the traction of the pulling of the steel rope is kept under the traction of the limiting block, and the tension of the pulling of the rope is ensured;

(3) When installing the link on the top of equipment main part tows, ensure earlier that every is unanimous with the interval of butt piece to the supporting shoe, later place the gear section of thick bamboo on the top terminal surface of equipment main part tows, rotate the runner, through rotating first fluted disc, synchronous syntropy rotation is carried out to each second fluted disc, thereby make each transmission lead screw carry out synchronous syntropy rotation, thereby promote each transmission slider and synchronous slip in each connection square section of thick bamboo through each transmission lead screw, thereby with the top side butt of butt piece and equipment main part tows in step, through the synchronous butt of each butt piece, make the link can keep stable on the top of equipment main part tows, and make things convenient for the equipment main part tows to keep the atress balanced when keeping balance, when the top side butt piece and equipment main part tows's top side butt, rotate fastening chuck on first screw rod, press the last surface butt of clamping washer to the connection square barrel, carry out the centre gripping through clamping washer and transmission slider, thereby reduce the loss of each transmission lead screw, through rotating the second screw rod on the supporting shoe, press the butt piece and the top side butt of butt piece, thereby the cable can be steadily adjusted in the stability of the cable is guaranteed through the high tension clamp, and the stability is realized through the improvement rope, and the stability of the tension clamp is realized in the flexible connection when the flexible and the stability is guaranteed.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a front elevational view of the overall structure of the present invention;

FIG. 2 is a plan view of the structure of the connector of the present invention;

FIG. 3 is a schematic view of a partial structure of a connecting square cylinder and a gear cylinder according to the present invention;

FIG. 4 is a plan view of the planar structure of the support plate of the present invention;

FIG. 5 is a schematic view of the overall structure of the pile stem and pile cover of the present invention;

FIG. 6 is a schematic view of the overall structure of the limit case of the present invention;

in the figure: 1. a connecting frame; 2. a towering device body; 3. steel strand; 4. a hoist; 5. a support plate; 6. a ground pile sleeve; 7. a ground pile rod; 8. a first pulley; 9. connecting square cylinders; 10. a first chute; 11. clamping the gasket; 12. a first screw; 13. fastening a chuck; 14. a rotating wheel; 15. a connecting clip; 16. a support clip; 17. supporting a rotating shaft; 18. a fastening sleeve; 19. a reinforcing block; 20. a second chute; 21. a gear cylinder; 22. a first toothed disc; 23. a second toothed disc; 24. a transmission shaft; 25. a support bearing; 26. a transmission screw rod; 27. a transmission slide block; 28. a transmission block; 29. a second screw; 30. a support block; 31. a third chute; 32. an abutment block; 33. installing a gasket; 34. a second pulley; 35. a limit box; 36. installing a cap; 37. a broken earth cone; 38. installing a slot; 39. a limiting plate; 40. an upper limiting block; 41. a friction plate; 42. a lower limiting block; 43. a limit clamping groove; 44. a fastening bolt; 45. and a supporting cylinder.

Description of the embodiments

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Please refer to fig. 1-6: the utility model provides a high equipment anti-toppling safety cable device, including setting up link 1 and steel stranded rope 3 at the top of high equipment main part 2, a plurality of connecting clamp 15 is installed to the periphery of link 1, fixedly connected with support clamp 16 on the connecting clamp 15, link 1 installs steel stranded rope 3 through support clamp 16, the periphery of high equipment main part 2 distributes a plurality of hoist engine 4 with steel stranded rope 3 one-to-one, and wind up steel stranded rope 3 through hoist engine 4 winding, backup pad 5 is installed to the lower part of hoist engine 4, first pulley 8 to deflect the steel stranded rope 3 is carried out to one side of backup pad 5, a plurality of installation gasket 33 is fixedly connected with in both sides of backup pad 5, the lower part of installation gasket 33 is provided with the ground stake cover 6 of burying in ground, the installation gasket 33 endotheca is equipped with ground stake pole 7, the ground stake pole 7 screw thread cup joints in ground stake cover 6.

The center of the inner side of the connecting frame 1 is provided with a gear cylinder 21, the connecting frame 1 is connected with the gear cylinder 21 through a plurality of connecting square cylinders 9 which are uniformly distributed at equal angles, a transmission sliding block 27 is connected in a sliding manner in the connecting square cylinders 9, a transmission screw rod 26 is threaded in the middle of the transmission sliding block 27, and two ends of the transmission screw rod 26 are rotatably connected with the transmission screw rod 26 through support bearings 25;

the middle part of the upper surface of the gear cylinder 21 is rotationally connected with a rotating wheel 14, a rotating shaft of the rotating wheel 14 penetrates through the gear cylinder 21, the end part of the rotating shaft of the rotating wheel 14 is fixedly connected with a first fluted disc 22, a plurality of second fluted discs 23 which are uniformly distributed at equal angles are arranged on the inner side wall of the gear cylinder 21, the second fluted discs 23 are in one-to-one correspondence with the connecting square cylinders 9, the first fluted discs 22 and the second fluted discs 23 are meshed for transmission, the second fluted discs 23 are rotationally connected with the gear cylinder 21 through a transmission shaft 24, and one end of the transmission shaft 24 penetrates through the gear cylinder 21 and is fixedly connected with a transmission screw rod 26;

the middle part of the upper surface of the connecting square cylinder 9 is provided with a first chute 10, the middle part of the upper surface of the transmission sliding block 27 is fixedly connected with a first screw rod 12, the first screw rod 12 penetrates through the first chute 10 and is in sliding connection with the first chute 10, the middle part of the first screw rod 12 is in sliding connection with a clamping gasket 11, the upper end of the first screw rod 12 is in threaded connection with a fastening chuck 13, the fastening chuck 13 is abutted against the clamping gasket 11, two sides of the middle part of the lower surface of the clamping gasket 11 are fixedly connected with limiting sliding blocks, and the limiting sliding blocks are in sliding connection with the first chute 10;

a third sliding groove 31 is formed in the middle of the lower surface of the connecting square cylinder 9, a transmission block 28 is connected in the third sliding groove 31 in a sliding manner, a supporting block 30 is fixedly connected to the transmission block 27 through the transmission block 28, a second screw rod 29 is arranged in the middle of the supporting block 30 in a threaded manner, the second screw rod 29 is parallel to the transmission screw rod 26, one end, close to the gear cylinder 21, of the second screw rod 29 is rotatably connected with an abutting block 32, and the second screw rod 29 abuts against the side surface of the top end of the towering equipment main body 2 through the abutting block 32;

when the connecting frame 1 is installed at the top end of the towering equipment main body 2, the distance between each pair of supporting blocks 30 and the abutting blocks 32 is ensured to be consistent, then the gear cylinder 21 is placed on the top end face of the towering equipment main body 2, the rotating wheel 14 is rotated, the first fluted disc 22 is rotated to synchronously rotate the second fluted discs 23 in the same direction, so that the transmission screw rods 26 synchronously rotate, the transmission slide blocks 27 are pushed by the transmission screw rods 26 to synchronously slide in the connection square cylinders 9, the abutting blocks 32 are synchronously abutted against the top end side face of the towering equipment main body 2, and the connecting frame 1 can be kept stable at the top end of the towering equipment main body 2 and can be convenient for keeping balanced stress when the towering equipment main body 2 is kept balanced;

when the abutting block 32 abuts against and is fixed to the top end side surface of the towering equipment main body 2, the clamping gasket 11 is pressed by rotating the fastening chuck 13 on the first screw rod 12, so that the upper surface of the connecting square cylinder 9 is abutted and clamped, the side wall of the connecting square cylinder 9 is clamped by the clamping gasket 11 and the transmission sliding block 27, the loss of the transmission screw rod 26 is reduced, the abutting block 32 is pressed by rotating the second screw rod 29 on the supporting block 30, the clamping force of the abutting block 32 is increased, the stability of the connecting frame 1 is improved, and the stability of the towering equipment main body 2 in the use process is further ensured;

when the link 1 steady mount is on the top of towering equipment main part 2, buries a plurality of groups of ground stake cover 6 in the ground around towering equipment main part 2, the position of ground stake cover 6 is corresponding with backup pad 5 and installation pad 33, thereby arrange backup pad 5 around towering equipment main part 2 steadily through the correspondence of ground stake pole 7 with ground stake cover 6, backup pad 5 and hoist engine 4 of installing on backup pad 5 all correspond with steel stranded rope 3 one by one, carry out the rolling through hoist engine 4 to steel stranded rope 3, thereby pull towering equipment main part 2 through steel stranded rope 3, carry out the pulling of different pulling forces respectively through each hoist engine 4, make each radial pulling that link 1 received keep balanced, make high equipment main part 2 keep stable vertical, when needs to remove high equipment main part 2, when high equipment main part 2 moves in the region that each backup pad 5 encloses, loosen the pulling to each steel stranded rope 3 earlier, wait that towering equipment main part 2 removes and accomplish the time according to the different pulling forces, the time adjustment of the pulling of different pulling ropes 3 has been carried out, the time adjustment of the length of the different pulling ropes has been avoided because the time adjustment of the pulling of the length of the pull pile is different, the time-out, the length of the different pulling pile is adjusted in time, the time has been adjusted, the problem has been avoided the time, the construction pile is adjusted and the pulling is not adjusted. When the towering equipment main body 2 needs to be moved out of the enclosed area, the ground pile rod 7 is quickly taken down from the ground pile sleeve 6, so that the support plate 5 and the winch 4 are convenient to move, a plurality of groups of ground pile sleeves 6 are buried again in a new area, the original pipe orifices of the ground pile sleeves are sleeved with the sealing covers through threads, the sealing covers are quickly adjusted, other construction processes are prevented from being influenced due to the burying of the ground piles, and the construction efficiency is improved.

The second spout 20 that a plurality of was used for installing link 15 has been seted up at the middle part of link 1, a plurality of second spout 20 is equiangular evenly distributed, be located on the link 1 and all install the reinforcing block 19 that is used for improving link 1 structural strength between two second spouts 20, reinforcing block 19 and the one-to-one of connection square tube 9, install fastening bolt on the link 15, fastening bolt runs through second spout 20, support pivot 17 has been worn at the middle part of support clamp 16, the both ends of support pivot 17 all rotate with support clamp 16 and are connected, the upper end winding of steel strand 3 is at the middle part of support pivot 17, and the upper end of steel strand 3 keeps stable ligature through the adapter sleeve 18, during operation shortens the interval of link 15 tip through fastening bolt, thereby carry out the centre gripping to link 1 and keep stable installation through the link, rotation through support pivot 17, make steel strand 3 can nimble adjustment direction of pulling and atress stable, avoid steel strand 3 to warp impaired owing to unable flexible adjustment direction.

The upper surface mid-mounting of backup pad 5 carries out spacing centre gripping limit box 35 to steel strand 3, be located on backup pad 5 and install the second pulley 34 that deflects the direction to steel strand 3 between hoist 4 and the limit box 35, through the direction of deflecting of first pulley 8 and second pulley 34, make hoist 4 be convenient for keep the stable pulling rolling to steel strand 3 when rolling steel strand 3, avoid directly pulling steel strand 3 and lead to hoist 4 impaired, be convenient for the limit box 35 simultaneously and keep the pulling force to steel strand 3 after hoist 4 accomplishes the rolling operation of pulling steel strand 3, reduce the loss of hoist 4, ensure the stable maintenance to steel strand 3 pulling force.

The limit clamping groove 43 is formed in the bottom of the inner side of the limit box 35, the lower limit block 42 is installed on the limit box 35 through the limit clamping groove 43, the upper limit block 40 is connected with the limit box 35 in a sliding mode, the upper surface of the upper limit block 40 is rotationally connected with the fastening bolts 44, the fastening bolts 44 are provided with two, middle threads of the fastening bolts 44 penetrate through the upper portion of the limit box 35, the supporting cylinder 45 is sleeved on the outer peripheral threads of the middle of the fastening bolts 44, the lower end of the supporting cylinder 45 is fixedly connected with the outer surface of the upper end of the limit box 35, the lower side face of the upper limit block 40 and the upper side face of the lower limit block 42 are all cambered surfaces and are fixedly connected with friction plates 41, the steel strand 3 penetrates between the upper limit block 40 and the lower limit block 42, and the lower limit block 42 clamp the steel strand 3 through the pressing friction plates 41, and stable maintenance of pulling force of the steel strand 3 is guaranteed.

One end fixedly connected with installation cap 36 of ground stake pole 7, the other end fixedly connected with ground stake pole 7 breaks the earth awl 37, a plurality of is equiangular evenly distributed's installation slot 38 has been seted up to the periphery of ground stake cover 6, limiting plate 39 is installed through installation slot 38 to ground stake cover 6, the screw thread groove that corresponds each other has all been seted up to the top inboard of ground stake cover 6 and the one end periphery that ground stake pole 7 is close to installation cap 36, accomplish the location in the ground stake cover 6 when installing ground stake pole 7 fast, make stable connection between ground stake pole 7 and the ground stake cover 6 later through the screw thread groove, make things convenient for constructor to rotate ground stake pole 7 through installation cap 36, simultaneously ensure backup pad 5's stability through the mutual butt of installation cap 36 and installation gasket 33, so that hoist 4's stability, make ground stake cover 6 buried underground through limiting plate 39 further remain stable, improve the stability when whole operation, strengthen the pulling force of steel rope 3, avoid because the emergence of not firm accident, simultaneously when needing to remove high equipment main part 2 and need install the emergency pile 3 and can also be carried out under the emergency pile rope 3 through the emergency pile 3 through installing the emergency pile hole awl 37.

In the use process, when the connecting frame 1 is stably arranged at the top end of the towering equipment main body 2, a plurality of groups of ground pile sleeves 6 are buried in the ground around the towering equipment main body 2, the positions of the ground pile sleeves 6 correspond to the supporting plates 5 and the mounting gaskets 33, the supporting plates 5 are stably arranged around the towering equipment main body 2 through the corresponding connection of the ground pile rods 7 and the ground pile sleeves 6, the supporting plates 5 and the windlass 4 arranged on the supporting plates 5 are in one-to-one correspondence with the steel stranded ropes 3, the steel stranded ropes 3 are winded through the windlass 4, so that the towering equipment main body 2 is pulled through the steel stranded ropes 3, the various radial pulling forces born by the connecting frame 1 are kept balanced through the various traction machines 4, the high stranded equipment main body 2 is kept stable and vertical, when the high stranded equipment main body 2 is required to move in an area surrounded by the various supporting plates 5, the main body 3 is loosened to be pulled, the high equipment main body 2 is required to be pulled, the pulling length of the high equipment main body 2 is not required to be pulled, the length of the high-speed traction equipment is not required to be adjusted, and the pulling pile is not needed to be adjusted in time, and the pulling cycle is not balanced, and the pulling of the construction is not needed is adjusted. When the towering equipment main body 2 needs to be moved out of the enclosed area, the ground pile rod 7 is quickly taken down from the ground pile sleeve 6, so that the support plate 5 and the winch 4 are convenient to move, a plurality of groups of ground pile sleeves 6 are buried in a new area again, the original pipe orifices of the ground pile sleeves are sleeved with sealing covers through threads, quick adjustment is realized, other construction processes are prevented from being influenced due to the burying of the ground piles, and the construction efficiency is improved;

the ground pile rod 7 is quickly inserted into the ground pile sleeve 6 to finish positioning during installation, then the ground pile rod 7 and the ground pile sleeve 6 are stably connected through the thread grooves, constructors can conveniently rotate the ground pile rod 7 through the installation caps 36, meanwhile, the stability of the supporting plate 5 is ensured through the mutual abutting of the installation caps 36 and the installation gaskets 33, so that the winch 4 is stable, the ground pile sleeve 6 buried under the ground is further kept stable through the limiting plates 39, the stability during integral operation is improved, the traction force of the steel strand 3 is enhanced, accidents caused by the fact that the ground pile sleeve 6 is not firm are avoided, meanwhile, when the high-rise equipment main body 2 needs to be temporarily moved and construction is needed, the ground pile rod 7 can be installed under the ground through the ground breaking cone 37, the steel strand 3 is bound and fixed through the mounting cap 36 for emergency, the winch 4 is convenient to keep stable traction and winding of the steel strand 3 when winding the steel strand 3 through deflection guiding of the first pulley 8 and the second pulley 34, the winch 4 is prevented from being damaged due to direct traction of the steel strand 3, meanwhile, the limit box 35 is convenient to keep the traction force of the steel strand 3 after the winch 4 finishes winding operation of the steel strand 3, loss of the winch 4 is reduced, stable maintenance of the traction force of the steel strand 3 is ensured, the steel strand 3 penetrates between the upper limit block 40 and the lower limit block 42, and the upper limit block 40 and the lower limit block 42 clamp the steel strand 3 through the pressing friction plate 41, so that stable maintenance of the traction force of the steel strand 3 is ensured;

when the connecting frame 1 is installed at the top end of the towering equipment main body 2, the distance between each pair of supporting blocks 30 and the abutting blocks 32 is ensured to be consistent, then the gear cylinder 21 is placed on the top end face of the towering equipment main body 2, the rotating wheel 14 is rotated, the first fluted disc 22 is rotated to synchronously rotate the second fluted discs 23 in the same direction, so that the transmission screw rods 26 synchronously rotate in the same direction, the transmission slide blocks 27 are pushed by the transmission screw rods 26 to synchronously slide in the connection square cylinders 9, the abutting blocks 32 are synchronously abutted with the top end side face of the towering equipment main body 2, the connecting frame 1 can be kept stable at the top end of the towering equipment main body 2 through the synchronous abutting of the abutting blocks 32, and the stress balance of the towering equipment main body 2 is convenient to maintain, when the abutting block 32 abuts against the top end side surface of the towering equipment main body 2, the fastening chuck 13 is rotated on the first screw rod 12, the clamping gasket 11 is pressed to abut against the upper surface of the connecting square cylinder 9, the side wall of the connecting square cylinder 9 is clamped through the clamping gasket 11 and the transmission sliding block 27, the loss of the transmission screw rod 26 is reduced, the second screw rod 29 is rotated on the supporting block 30, the abutting block 32 is pressed, the clamping force of the abutting block 32 is increased, the stability of the connecting frame 1 is improved, the stability of the towering equipment main body 2 in use is further ensured, the distance between the end parts of the connecting clamps 15 is shortened through the fastening bolts, the connecting frame 1 is clamped through the connecting clamps 15 to be stably installed, the steel strand 3 can flexibly adjust the pulling direction during pulling through the rotation of the supporting rotating shaft 17, the steel strand 3 is prevented from being deformed and damaged due to the fact that the direction cannot be flexibly adjusted.

The present invention is not limited to the above embodiments, but is not limited to the above embodiments, and any modifications, equivalents and variations made to the above embodiments according to the technical matter of the present invention can be made by those skilled in the art without departing from the scope of the technical matter of the present invention.

Claims (5)

1. The utility model provides a high-rise mechanical equipment prevents empting safety cable device, includes link (1) and steel strand (3) that set up at the top of high-rise equipment main part (2), its characterized in that, a plurality of link (15) are installed to the periphery of link (1), fixedly connected with support clip (16) on link (15), link (1) installs steel strand (3) through support clip (16), the periphery of high-rise equipment main part (2) is distributed a plurality of hoist engine (4) with steel strand (3) one-to-one, and twines receipts steel strand (3) through hoist engine (4), backup pad (5) are installed to the lower part of hoist engine (4), and one side of backup pad (5) is installed and is carried out deflecting first pulley (8) of delivering to steel strand (3), and the both sides of backup pad (5) are fixedly connected with a plurality of mounting pad (33), and the lower part of mounting pad (33) is provided with ground stake (6) of burying in ground, mounting pad (33) are equipped with ground stake (7), and stake (7) are threaded in stake (6) are cup jointed in stake (7);

the connecting frame is characterized in that a gear cylinder (21) is arranged at the center of the inner side of the connecting frame (1), the connecting frame (1) is connected with the gear cylinder (21) through a plurality of connecting square cylinders (9) which are uniformly distributed at equal angles, a transmission sliding block (27) is connected in the connecting square cylinders (9) in a sliding manner, and a transmission screw rod (26) is arranged in the middle of the transmission sliding block (27) in a threaded manner;

a limiting box (35) for limiting and clamping the steel strand (3) is arranged in the middle of the upper surface of the supporting plate (5), and a second pulley (34) for deflecting and guiding the steel strand (3) is arranged between the winch (4) and the limiting box (35) on the supporting plate (5);

the middle outer peripheral thread of the fastening bolt (44) is sleeved with a supporting cylinder (45), the lower end of the supporting cylinder (45) is fixedly connected with the outer surface of the upper end of the limit box (35), and the lower side surface of the upper limit block (40) and the upper side surface of the lower limit block (42) are both cambered surfaces and are both fixedly connected with friction plates (41);

one end fixedly connected with installation cap (36) of ground stake pole (7), the other end fixedly connected with of ground stake pole (7) is broken ground awl (37), and a plurality of is equiangular evenly distributed's installation slot (38) have been seted up to the periphery of ground stake cover (6), and limiting plate (39) are installed through installation slot (38) ground stake cover (6).

2. The anti-toppling safety rope device for the high-rise mechanical equipment according to claim 1, wherein a rotating wheel (14) is rotatably connected to the middle part of the upper surface of the gear cylinder (21), a rotating shaft of the rotating wheel (14) penetrates through the gear cylinder (21) and is fixedly connected with a first fluted disc (22), a plurality of second fluted discs (23) which are uniformly distributed at equal angles are arranged on the inner side wall of the gear cylinder (21), the second fluted discs (23) are in one-to-one correspondence with the connecting square cylinders (9), the first fluted discs (22) and the second fluted discs (23) are in meshed transmission, and the second fluted discs (23) are rotatably connected with the gear cylinder (21) through transmission shafts (24) and are fixedly connected with transmission screw rods (26).

3. The anti-toppling safety cable device for high-rise mechanical equipment according to claim 1, wherein a first sliding groove (10) is formed in the middle of the upper surface of the connecting square cylinder (9), a first screw rod (12) is fixedly connected to the middle of the upper surface of the transmission sliding block (27), a clamping gasket (11) is sleeved in the middle of the first screw rod (12) in a sliding mode, a fastening chuck (13) is sleeved at the upper end of the first screw rod (12) in a threaded mode, and the fastening chuck (13) is abutted to the clamping gasket (11).

4. A safety cable device for preventing toppling of high-rise mechanical equipment according to claim 3, wherein a third sliding groove (31) is formed in the middle of the lower surface of the connecting square cylinder (9), the transmission sliding block (27) is fixedly connected with a supporting block (30) through a transmission block (28), a second screw rod (29) is arranged in the middle of the supporting block (30) in a threaded manner, the second screw rod (29) is parallel to the transmission screw rod (26), and one end, close to the gear cylinder (21), of the second screw rod (29) is rotatably connected with an abutting block (32).

5. The anti-toppling safety cable device of the towering mechanical equipment according to claim 1, wherein a limiting clamping groove (43) is formed in the bottom of the inner side of the limiting box (35), a lower limiting block (42) is installed on the limiting box (35) through the limiting clamping groove (43), an upper limiting block (40) is connected in a sliding mode in the limiting box (35), a fastening bolt (44) is connected to the upper surface of the upper limiting block (40) in a rotating mode, and middle threads of the fastening bolt (44) penetrate through the upper portion of the limiting box (35).

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