CN112653016A

CN112653016A - Equipment for temporarily raising cable

Info

Publication number: CN112653016A
Application number: CN202110020486.5A
Authority: CN
Inventors: 李荣群
Original assignee: Shanghai Xianchaoqi Wire And Cable Co ltd
Current assignee: Huanglongtan Hydropower Plant Of State Grid Hubei Electric Power Co Ltd; State Grid Corp of China SGCC
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2021-04-13
Anticipated expiration: 2041-01-07
Also published as: CN112653016B

Abstract

The invention discloses equipment for temporarily erecting a cable, which comprises a driving box, wherein a driving cavity is formed in the driving box, a driving pay-off mechanism is arranged in the driving cavity, the driving pay-off mechanism comprises a driving suspension rod fixedly arranged on the inner wall of the upper side of the driving cavity, the lower side of the driving suspension rod is rotatably connected with a driving rotating shaft, the rear end of the driving rotating shaft is fixedly provided with a driving motor, the driving motor is fixedly connected with the driving suspension rod, and the driving motor controls the driving rotating shaft to rotate. The power utilization requirements of constructors are greatly facilitated.

Description

Equipment for temporarily raising cable

Technical Field

The invention relates to the field of cables, in particular to equipment for temporarily raising a cable.

Background

For some construction sites, temporary power utilization is often required. The general job site uses electric cable line temporarily to adopt and makes somebody a mere figurehead or bury ground and lay, and strict order is directly dragged the block terminal cable on ground moreover, and the cable arranges the confusion, mainly is in order to avoid mechanical damage and medium to corrode. In actual construction sites, manual climbing and laying are generally adopted, the difficulty is high, the time is long, climbing licenses are required, and labor cost and time cost are wasted.

Disclosure of Invention

The technical problem underlying the present invention is that of providing a device for temporary erection of cables which overcomes the above-mentioned problems.

The invention is realized by the following technical scheme.

The invention relates to equipment for temporarily erecting a cable, which comprises a driving box, wherein a driving cavity is formed in the driving box, a driving pay-off mechanism is arranged in the driving cavity, the driving pay-off mechanism comprises a driving suspension rod fixedly arranged on the inner wall of the upper side of the driving cavity, the lower side of the driving suspension rod is rotatably connected with a driving rotating shaft, the rear end of the driving rotating shaft is fixedly provided with a driving motor, the driving motor is fixedly connected with the driving suspension rod, the driving motor controls the driving rotating shaft to rotate, a driving wire wheel is fixedly connected onto the driving rotating shaft, the cable is wound on the driving wire wheel, a first standby suspension rod fixedly arranged on the inner wall of the upper side of the driving cavity is arranged on the right side of the driving suspension rod, a first standby rotating shaft is rotatably connected onto the lower side of the first standby rotating shaft, and a first standby, the first standby motor is fixedly connected with the first standby suspender, the first standby motor controls the first standby rotating shaft to rotate, the first standby rotating shaft is fixedly connected with a first standby wire wheel, the cable is wound on the first standby wire wheel, the front end surface and the rear end surface of the first standby wire wheel are fixedly connected with first standby wheel sheets, a first standby limiting cavity is formed in each first standby wheel sheet, the opening of each first standby limiting cavity faces downwards, a first standby limiting block fixed on the inner wall of the lower side of the active cavity is arranged on the lower side of the first standby wire wheel, four first standby vertical cavities are formed in each first standby limiting block, the opening of each first standby vertical cavity faces upwards, a first standby electromagnet is fixedly connected to the inner wall of the lower side of each first standby vertical cavity, a first standby spring is fixedly connected to each first standby electromagnet, and a first standby slider is fixedly connected to the other end of each first standby spring, a left limiting block is fixedly arranged on the left end face of the driving box, two self-locking cavities are formed in the right end face of the driving box, and the openings of the self-locking cavities face the right;

the right side of the driving box is provided with a positioning box, a positioning cavity is formed in the positioning box, a positioning pay-off mechanism is arranged in the positioning cavity and comprises a second spare suspension rod fixed on the inner wall of the upper side of the positioning cavity, the lower side of the second spare suspension rod is rotatably connected with a second spare rotating shaft, a second spare wheel is fixedly connected onto the second spare rotating shaft, the cable is wound on the second spare wheel, second spare wheel pieces are fixedly connected onto the front end face and the rear end face of the second spare wheel, a second spare limiting cavity is formed in each second spare wheel piece, the opening of each second spare limiting cavity faces downwards, a second spare limiting block fixed on the inner wall of the lower side of the positioning cavity is arranged on the lower side of each second spare wheel piece, four second spare vertical cavities are formed in each second spare limiting block, the opening of each second spare vertical cavity faces upwards, and a second spare electromagnet is fixedly connected onto the inner wall of the lower side of each second spare vertical cavity, a second standby spring is fixedly arranged at the upper end of the second standby electromagnet, a second standby sliding block is fixedly connected to the other end of the second standby spring, a positioning hanging rod fixedly arranged on the inner wall of the upper side of the positioning cavity is arranged on the right side of the second standby hanging rod, a positioning rotating shaft is rotatably connected to the lower side of the positioning hanging rod, a positioning motor is fixedly arranged at the rear end of the positioning rotating shaft, the positioning motor is fixedly arranged on the positioning hanging rod and controls the positioning rotating shaft to rotate, a positioning power belt wheel is fixedly arranged on the positioning rotating shaft, a positioning wire wheel is also fixedly connected to the positioning rotating shaft, and the cable is wound on the positioning wire wheel;

the lifting mechanism comprises a lifting body, a lifting cavity is formed in the lifting body, a sliding track is fixedly arranged on the inner wall of the lower side of the lifting cavity, a lifting slider is arranged on the sliding track in a sliding mode, a lifting support is fixedly connected to the lifting slider, a telescopic rod is fixedly arranged on the lifting support and controls the lifting support to move up and down, a lifting plate is fixedly connected to the upper side of the lifting support, transverse cavities are formed in the left end and the right end of the lifting plate, transverse electromagnets are fixedly arranged on the inner wall of one end of each transverse cavity, transverse springs are fixedly connected to the transverse electromagnets, and transverse sliders are fixedly connected to the other ends of the transverse springs.

Preferably, the positioning and paying-off mechanism further comprises a stabilizer bar which is positioned at the right side of the positioning wire wheel and fixed on the inner wall of the lower side of the positioning cavity, the upper end of the stabilizer bar is rotatably connected with a stable rotating shaft, a stable rotating wheel is fixedly connected to the stable rotating shaft, a moving block is sleeved on the stable rotating wheel, a positioning clamp is fixedly arranged on the moving block, a fixed rod is fixedly connected to the lower side of the moving block, the moving block and the fixed rod are arranged on a stable track in a left-right sliding manner, the stable track is fixedly arranged on the inner wall of the lower side of the positioning cavity, a positioning driven pulley is fixedly connected to the rear end of the stable rotating shaft, the positioning driven pulley and the positioning power pulley are in friction transmission through the positioning belt, auxiliary suspenders which are vertically symmetrical and fixed on the, the last auxiliary rotating wheel of fixedly connected with of auxiliary rotating shaft, location case right side fixed surface is equipped with right stopper, location case left side fixed surface is equipped with two protruding pieces, every it has the auto-lock groove to open on the protruding piece, auto-lock groove one end inner wall fixedly connected with auto-lock electro-magnet, the last fixedly connected with auto-lock spring of auto-lock electro-magnet, the auto-lock spring other end fixedly connected with auto-lock slider.

Preferably, elevating system still includes four fixed settings and is in the hydraulic stem of elevating system downside, every hydraulic stem downside fixedly connected with wheel, the elevating system downside is equipped with two bilateral symmetry's resistance bar, every resistance bar downside fixedly connected with resistance block.

Preferably, the lifting bracket is in a compressed state.

Preferably, the two ends of the cable are respectively fixed with the left limiting block and the right limiting block.

Preferably, the surface of the stabilizing runner is provided with a wavy groove.

Preferably, the second standby sliding block, the first standby sliding block, the self-locking sliding block, the transverse sliding block and the lifting sliding block are all made of magnetic materials.

The invention has the beneficial effects that: the invention can be applied to construction sites needing temporary electricity utilization, the positioning box is pulled to a using area through the separation of the active box and the positioning box, and then the temporary lifting is carried out by the lifting mechanism, thereby not only avoiding the climbing behavior required by the laying of the lifting, but also avoiding the mechanical damage and the medium corrosion to a certain extent, further saving the manpower and material resources required by the temporary lifting and greatly facilitating the electricity utilization requirements of constructors.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction B-B in FIG. 1;

FIG. 4 is a schematic view of the embodiment of the present invention in the direction of C-C in FIG. 1;

FIG. 5 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-5, the device for temporarily elevating a cable comprises a driving box 23, a driving cavity 24 is opened in the driving box 23, a driving paying-off mechanism 91 is arranged in the driving cavity 24, the driving paying-off mechanism 91 comprises a driving suspension rod 22 fixedly arranged on the upper inner wall of the driving cavity 24, a driving rotating shaft 19 is rotatably connected to the lower side of the driving suspension rod 22, a driving motor 68 is fixedly arranged at the rear end of the driving rotating shaft 19, the driving motor 68 is fixedly connected with the driving suspension rod 22, the driving motor 68 controls the driving rotating shaft 19 to rotate, a driving wire wheel 20 is fixedly connected to the driving rotating shaft 19, a cable 21 is wound on the driving wire wheel 20, a first standby suspension rod 49 fixedly arranged on the upper inner wall of the driving cavity 24 is arranged on the right side of the driving suspension rod 22, and a first standby rotating shaft 52 is rotatably connected to the lower side of the first standby, the rear end of the first spare rotating shaft 52 is fixedly provided with a first spare motor 50, the first spare motor 50 is fixedly connected with the first spare suspender 49, the first spare motor 50 controls the first spare rotating shaft 52 to rotate, the first spare rotating shaft 52 is fixedly connected with a first spare wheel 51, the cable 21 is wound on the first spare wheel 51, the front end face and the rear end face of the first spare wheel 51 are fixedly connected with first spare wheel sheets 74, a first spare limiting cavity 75 is formed in the first spare wheel sheets 74, the opening of the first spare limiting cavity 75 is downward, the lower side of the first spare wheel 51 is provided with a first spare limiting block 55 fixed on the inner wall of the lower side of the driving cavity 24, the first spare limiting block 55 is provided with four first spare vertical cavities 56, the opening of the first spare vertical cavity 56 is upward, and each first spare vertical cavity 56 is fixedly connected with a first spare electromagnet 79 on the inner wall of the lower side of the first spare vertical cavity 56, a first standby spring 54 is fixedly connected to the first standby electromagnet 79, a first standby slider 53 is fixedly connected to the other end of the first standby spring 54, a left limiting block 18 is fixedly arranged on the left end face of the driving box 23, two self-locking cavities 57 are formed in the right end face of the driving box 23, and the openings of the self-locking cavities 57 face the right;

the right side of the driving box 23 is provided with a positioning box 25, a positioning cavity 27 is formed in the positioning box 25, a positioning paying-off mechanism 92 is arranged in the positioning cavity 27, the positioning paying-off mechanism 92 comprises a second standby suspender 60 fixed on the inner wall of the upper side of the positioning cavity 27, the lower side of the second standby suspender 60 is rotatably connected with a second standby rotating shaft 63, a second standby wire wheel 62 is fixedly connected onto the second standby rotating shaft 63, the cable 21 is wound on the second standby wire wheel 62, the front end surface and the rear end surface of the second standby wire wheel 62 are fixedly connected with second standby wheel sheets 61, a second standby limiting cavity 76 is formed on the second standby wheel sheets 61, the opening of the second standby limiting cavity 76 faces downwards, a second standby limiting block 67 fixed on the inner wall of the lower side of the positioning cavity 27 is arranged on the lower side of the second standby wheel sheets 61, and four second vertical cavities 64 are formed on the second standby limiting block 67, the openings of the second standby vertical cavities 64 face upwards, a second standby electromagnet 94 is fixedly connected with the inner wall of the lower side of each second standby vertical cavity 64, a second spare spring 66 is fixedly arranged at the upper end of the second spare electromagnet 94, a second spare slide block 65 is fixedly connected at the other end of the second spare spring 66, the right side of the second spare suspender 60 is provided with a positioning suspender 26 fixedly arranged on the inner wall of the upper side of the positioning cavity 27, a positioning rotating shaft 30 is rotatably connected to the lower side of the positioning hanger rod 26, a positioning motor 71 is fixedly arranged at the rear end of the positioning rotating shaft 30, the positioning motor 71 is fixedly arranged on the positioning suspension rod 26, the positioning motor 71 controls the positioning rotating shaft 30 to rotate, a positioning power belt wheel 70 is fixedly arranged on the positioning rotating shaft 30, a positioning wire wheel 29 is also fixedly connected on the positioning rotating shaft 30, and the cable 21 is wound on the positioning wire wheel 29;

initiative case 23 with location case 25 downside all is equipped with elevating system 93, elevating system 93 includes the lifting body 13, lifting body 13 is inside to be opened there is lift chamber 14, the fixed slip track 45 that is equipped with on the 14 downside inner walls in lift chamber, the horizontal slip is equipped with lifting slide 46 on the slip track 45, fixedly connected with lifting support 28 on the lifting slide 46, the fixed telescopic link 44 that is equipped with on the lifting support 28, telescopic link 44 control lifting support 28 up-and-down motion, lifting support 28 upside fixedly connected with lifter plate 15, transverse chamber 16 has all been opened at both ends about lifter plate 15, the fixed transverse electromagnet 81 that is equipped with of transverse chamber 16 one end inner wall, transverse electromagnet 81 fixedly connected with transverse spring 17, transverse spring 17 other end fixedly connected with transverse slide 41.

Beneficially, the positioning and paying-off mechanism 92 further includes a stabilizer bar 40 located at the right side of the positioning pulley 29 and fixed on the inner wall of the lower side of the positioning cavity 27, the upper end of the stabilizer bar 40 is rotatably connected with a stable rotating shaft 37, the stable rotating shaft 37 is fixedly connected with a stable rotating wheel 38, the stable rotating wheel 38 is sleeved with a moving block 39, the moving block 39 is fixedly provided with a positioning clamp 36, the lower side of the moving block 39 is fixedly connected with a fixed rod 80, the moving block 39 and the fixed rod 80 are arranged on a stable track 82 in a left-right sliding manner, the stable track 82 is fixedly arranged on the inner wall of the lower side of the positioning cavity 27, the rear end of the stable rotating shaft 37 is fixedly connected with a positioning driven pulley 72, the positioning driven pulley 72 and the positioning power pulley 70 are in friction transmission through the positioning belt 31, the right side of the stabilizer bar 40, auxiliary boom 32 downside is rotated and is connected with auxiliary rotation axis 33, auxiliary rotation axis 33 goes up auxiliary rotation wheel 34 of fixedly connected with, positioning box 25 right side fixed surface is equipped with right stopper 35, positioning box 25 left side fixed surface is equipped with two protruding pieces 42, every it has self-locking groove 77 to open on the protruding piece 42, self-locking groove 77 one end inner wall fixedly connected with auto-lock electro-magnet 78, fixedly connected with auto-lock spring 59 on the auto-lock electro-magnet 78, auto-lock spring 59 other end fixedly connected with auto-lock slider 58.

Advantageously, the lifting mechanism 93 further comprises four hydraulic rods 12 fixedly arranged on the lower side of the lifting body 13, a wheel 11 is fixedly connected to the lower side of each hydraulic rod 12, two resistance rods 48 which are bilaterally symmetrical are arranged on the lower side of the lifting body 13, and a resistance block 47 is fixedly connected to the lower side of each resistance rod 48.

Advantageously, the lifting bracket 28 is in a compressed state.

Advantageously, the two ends of the cable 21 are fixed to the left stopper 18 and the right stopper 35, respectively.

Advantageously, the stabilizing wheel 38 is provided with a wavy recess on its surface.

Advantageously, the second standby slider 65, the first standby slider 53, the self-locking slider 58, the traverse slider 41 and the lifting slider 46 are all made of magnetic material.

In the initial state, the lifting bracket 28 is in a compressed state.

The driving motor 68 drives the driving rotating shaft 19 to rotate, the driving rotating shaft 19 drives the driving pulley 20 to rotate, one end of the cable 21 wound on the driving pulley 20 is in a paying-off state, and at the moment, the cable 21 can be connected with an external power switch. When the cable 21 is connected with the external power switch, the driving motor 68 stops working, the self-locking electromagnet 78 is electrified to generate attraction force to attract the self-locking sliding block 58, so that the self-locking sliding block 58 contracts, the self-locking spring 59 contracts, the lock catch is disconnected, and the driving box 23 and the positioning box 25 are in a separable state;

meanwhile, the first standby electromagnet 79 is electrified to generate attraction force to attract the first standby slider 53, so that the first standby slider 53 contracts, the first standby spring 54 is compressed, the lock catch is disconnected, the first standby reel 51 is in a rotatable state, the first standby motor 50 drives the second standby rotating shaft 63 to rotate, the second standby rotating shaft 63 drives the second standby reel 62 to rotate, the cable 21 wound on the second standby reel 62 is elongated, and at the moment, an outsider can pull the lifting body 13 and the positioning box 25 to a power utilization area;

after the power utilization area is reached, the first standby motor 50 stops working, the positioning motor 71 drives the positioning rotating shaft 30 to rotate, the positioning rotating shaft 30 drives the positioning wire wheel 29 to rotate, the cable 21 wound on the positioning wire wheel 29 is in a wire releasing state, meanwhile, the positioning rotating shaft 30 drives the positioning power belt wheel 70 to rotate, as the positioning power belt wheel 70 and the positioning driven belt wheel 72 are in friction transmission through the positioning belt 31, the positioning driven belt wheel 72 is driven to rotate, the positioning driven belt wheel 72 drives the stable rotating shaft 37 to rotate, the stable rotating shaft 37 drives the stable rotating wheel 38 to rotate, as the moving block 39 is connected with the fixed rod 80 and slides left and right on the stable track 82 of the lower inner wall of the positioning cavity 27, the moving block 39 does left and right reciprocating motion along the wavy groove on the surface of the stable rotating wheel 38, the cable 21 clamped on the positioning clamp 36 is driven to do left and right reciprocating motion together, the cable 21 passing, the cable can be smoothly paid off;

when the cable is paid off to the required length, the positioning motor 71 stops working, the resistance rod 48 stretches, the resistance block 47 is pushed until the resistance block is abutted against the ground, the transverse electromagnet 81 is electrified to generate attraction force, the transverse sliding block 41 is attracted, the transverse sliding block 41 is made to do contraction motion, the transverse spring 17 is compressed, the lock catch is disconnected, the telescopic rod 44 is started to generate thrust force, the lifting support 28 is pushed to do stretching motion, meanwhile, the lifting sliding block 46 moves leftwards along the sliding track 45 to drive the lifting plate 15 and the cable box above the lifting plate 15 to move upwards together until the specified height is reached, and at this time, the overhead cable laying work is completed;

and when the construction of the power utilization area is finished, the components do reverse reset motion according to the steps.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. An apparatus for temporarily elevating a cable, comprising an active box characterized by: the active box is internally provided with an active cavity, an active pay-off mechanism is arranged in the active cavity, the active pay-off mechanism comprises an active suspender fixedly arranged on the inner wall of the upper side of the active cavity, the lower side of the active suspender is rotatably connected with an active rotating shaft, the rear end of the active rotating shaft is fixedly provided with an active motor, the active motor is fixedly connected with the active suspender, the active motor controls the rotation of the active rotating shaft, the active rotating shaft is fixedly connected with an active wire wheel, a cable is wound on the active wire wheel, the right side of the active suspender is provided with a first standby suspender fixedly arranged on the inner wall of the upper side of the active cavity, the lower side of the first standby suspender is rotatably connected with a first standby rotating shaft, the rear end of the first standby rotating shaft is fixedly provided with a first standby motor, and the first standby motor, the first standby motor controls the first standby rotating shaft to rotate, the first standby rotating shaft is fixedly connected with a first standby wire wheel, the first standby wire wheel is wound with the cable, the front end face and the rear end face of the first standby wire wheel are fixedly connected with first standby wheel sheets, a first standby limiting cavity is formed in each first standby wheel sheet, the opening of each first standby limiting cavity faces downwards, a first standby limiting block fixed on the inner wall of the lower side of the active cavity is arranged on the lower side of each first standby wire wheel, four first standby vertical cavities are formed in each first standby limiting block, the opening of each first standby vertical cavity faces upwards, a first standby electromagnet is fixedly connected on the inner wall of the lower side of each first standby vertical cavity, a first standby spring is fixedly connected on each first standby electromagnet, the other end face of each first standby spring is fixedly connected with a first standby sliding block, and a left limiting block is fixedly arranged on the left end face of the active box, the right end face of the driving box is provided with two self-locking cavities, and the openings of the self-locking cavities face to the right;

2. An apparatus for temporarily erecting a cable according to claim 1 and further comprising: the positioning paying-off mechanism also comprises a stabilizer bar which is positioned at the right side of the positioning wire wheel and fixed on the lower inner wall of the positioning cavity, the upper end of the stabilizer bar is rotatably connected with a stable rotating shaft, the stable rotating shaft is fixedly connected with a stable rotating wheel, the stable rotating wheel is sleeved with a moving block, the moving block is fixedly provided with a positioning clamp, the lower side of the moving block is fixedly connected with a fixed rod, the moving block and the fixed rod slide left and right on a stable track, the stable track is fixedly arranged on the lower inner wall of the positioning cavity, the rear end of the stable rotating shaft is fixedly connected with a positioning driven belt wheel, the positioning driven belt wheel and the positioning power belt wheel are in friction transmission through the positioning belt, the right side of the stabilizer bar is provided with auxiliary suspenders which are vertically symmetrical and fixed, the last auxiliary rotating wheel of fixedly connected with of auxiliary rotating shaft, location case right side fixed surface is equipped with right stopper, location case left side fixed surface is equipped with two protruding pieces, every it has the auto-lock groove to open on the protruding piece, auto-lock groove one end inner wall fixedly connected with auto-lock electro-magnet, the last fixedly connected with auto-lock spring of auto-lock electro-magnet, the auto-lock spring other end fixedly connected with auto-lock slider.

3. An apparatus for temporarily erecting a cable according to claim 1 and further comprising: the lifting mechanism further comprises four hydraulic rods fixedly arranged on the lower side of the lifting body, each hydraulic rod is fixedly connected with wheels on the lower side of the hydraulic rod, two resistance rods which are bilaterally symmetrical are arranged on the lower side of the lifting body, and each resistance rod is fixedly connected with a resistance block on the lower side of the resistance rod.

4. An apparatus for temporarily erecting a cable according to claim 2 and wherein: the lifting bracket is in a compressed state.

5. An apparatus for temporarily erecting a cable according to claim 2 and wherein: and the two ends of the cable are respectively fixed with the left limiting block and the right limiting block.

6. An apparatus for temporarily erecting a cable according to claim 2 and wherein: the surface of the stabilizing runner is provided with a wavy groove.

7. An apparatus for temporarily erecting a cable according to claim 2 and wherein: the second spare sliding block, the first spare sliding block, the self-locking sliding block, the transverse sliding block and the lifting sliding block are all made of magnetic materials.