CN219906488U - Cable take-up device for power engineering construction - Google Patents
Cable take-up device for power engineering construction Download PDFInfo
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- CN219906488U CN219906488U CN202321329809.XU CN202321329809U CN219906488U CN 219906488 U CN219906488 U CN 219906488U CN 202321329809 U CN202321329809 U CN 202321329809U CN 219906488 U CN219906488 U CN 219906488U
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- 238000010276 construction Methods 0.000 title claims abstract description 17
- 238000004804 winding Methods 0.000 abstract description 65
- 238000000034 method Methods 0.000 abstract description 13
- 230000008569 process Effects 0.000 abstract description 11
- 238000005096 rolling process Methods 0.000 description 6
- 230000008602 contraction Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000008859 change Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
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Abstract
The utility model discloses a cable take-up device for power engineering construction, which relates to the technical field of cable winding and comprises a take-up assembly and a wire assembly, wherein the top of the take-up assembly is fixedly connected with the bottom of the wire assembly, the take-up assembly comprises a bottom plate, the top of the bottom plate is fixedly connected with the bottom of the wire assembly, and the top of the bottom plate is fixedly connected with a take-up frame. According to the utility model, the end of the cable passes through the wire guide assembly, then passes through the surfaces of the first wire guide wheel and the second wire guide wheel, then enters the threading ring to place the end at the position of the cable fixing block, and is combined by rotating the other half of the threading ring through the rotating shaft, so that the cable is fixed, after the end is fixed, the wire take-up wheel rotates when the driving motor is started, the cable is wound on the surface of the wire take-up wheel, the wire guide assembly carries out wires in the winding process, and the threading ring translates on the surface of the guide rail, so that the cable can be uniformly wound.
Description
Technical Field
The utility model relates to the technical field of cable winding, in particular to a cable winding device for power engineering construction.
Background
On the worksite, the workman needs to wind the cable that will scatter on the ground, is convenient for deposit of cable with the cable winding, however, manual winding cable of workman, and whole process is comparatively time-consuming, and secondly, the cable has certain weight, and manual winding is also comparatively difficult, comparatively consumes workman's physical power, and some cable winding machines are unable to remove, leads to the process of winding comparatively complicacy.
For example, the publication No. CN214652658U Chinese patent discloses a cable winding device for electric power engineering construction, the winding roller is driven to rotate through the output end of the motor, so that a cable is wound on the winding roller, a handle can be stirred during winding, the handle can drive two guide mechanisms to slide through a connecting plate, so that the cable cannot be wound at the same position all the time, the cable is uniformly wound on the winding roller, the cable can be scrubbed through a cleaning roller during winding, and the cable after winding is cleaner.
However, the above patent has certain disadvantages that manual auxiliary winding is needed when the lead is wound, the winding speed is generally high, and workers are easy to be accidentally injured by adopting a handle mode; and in the winding process, the cable cannot be kept in a tight state after being wound, so that the final winding state is loose and easy to scatter.
Disclosure of Invention
The utility model provides a cable take-up device for power engineering construction, which aims to solve the problems in the background technology.
In order to solve the technical problems, the utility model adopts the following technical scheme:
the utility model provides a cable take-up for power engineering construction, includes take-up subassembly and wire subassembly, take-up subassembly's top and wire subassembly's bottom fixed connection, take-up subassembly includes the bottom plate, the top of bottom plate and wire subassembly's bottom fixed connection, the top fixedly connected with take-up frame of bottom plate, one side movable mounting of take-up frame has driving motor, driving motor's output just is located the inboard swing joint of take-up frame has the take-up pulley, the fixed surface of take-up pulley is connected with cable fixed block, the top swing joint of cable fixed block has the pivot, the inboard of take-up frame just is located the top fixedly connected with concave plate one of take-up pulley, the inner wall fixedly connected with guide rail of concave plate one, the surface sliding connection of guide rail has the wire loop, wire subassembly includes, the bottom of lead frame and the top fixed connection of bottom plate, one side swing joint of lead frame has the reverse motor, the inboard fixedly connected with wire guide plate of lead frame, the inside swing joint in cavity has the screw rod.
The technical scheme of the utility model is further improved as follows: the front fixedly connected with mount of pay-off rack, the inboard swivelling joint of mount has wire wheel one, the equal fixedly connected with concave plate two of inner wall both sides of mount.
The technical scheme of the utility model is further improved as follows: the inner wall swing joint of concave plate two has adjusting screw, adjusting screw's one end and be located the bottom swing joint of concave plate two have the screw up the piece.
The technical scheme of the utility model is further improved as follows: the surface swing joint of adjusting screw has the movable block, the inner wall swivelling joint of movable block has wire wheel two.
The technical scheme of the utility model is further improved as follows: one end of the screw rod is movably connected with the output end of the reversing motor, and a sliding block is movably connected with the surface of the screw rod and the inner wall of the movable cavity.
The technical scheme of the utility model is further improved as follows: the top swing joint of slider has the wire loop, the inner wall movable mounting of wire loop has the spring, the tip swing joint of spring has the arc cushion.
By adopting the technical scheme, compared with the prior art, the utility model has the following technical progress:
1. the utility model provides a cable winding device for electric power engineering construction, which is characterized in that the end of a cable passes through a wire assembly, then passes through the surfaces of a first wire guide wheel and a second wire guide wheel, then enters a threading ring to place the end at the position of a cable fixing block, and is combined by rotating the other half of the rotating shaft, so that the cable is fixed, after the end is fixed, a winding wheel rotates when a driving motor is started, the cable is wound on the surface of the winding wheel, the wire assembly is conducted in the winding process, the threading ring translates on the surface of a guide rail, the cable can be further uniformly wound, at the moment, a screw rod can be rotated in the concave plate by screwing two groups of screwing blocks, the second wire guide wheel is driven to move up and down by the moving block in the rotating direction, and a height difference is formed between the second wire guide wheel and the first wire guide wheel, so that the cable with the surface being scratched is compressed, and the cable can be wound in a tight state when the cable is wound.
2. The utility model provides a cable winding device for power engineering construction, wherein a cable end penetrates through a wire ring, an inner spring enables an arc cushion to be attached to the surface of the cable through contraction and extension, at the moment, the cable starts to be wound, a reversing motor is started to rotate at the same time of winding, a sliding block is enabled to translate frequently in a movable cavity through rotation of the screw, the cable is enabled to move in the translating process, in this way, the cable can be uniformly wound on the surface of a winding wheel in the cable winding process, knotting or stacking of the cable on the winding wheel is effectively avoided, and meanwhile, when the sliding block moves to one end, the reversing motor reverses through the unique characteristics of the reversing motor, so that the sliding block continuously moves in the opposite direction.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a top view of the present utility model;
FIG. 3 is a cross-sectional view of the wire takeup assembly of the present utility model;
FIG. 4 is a cross-sectional view of the structure of the fixing frame of the present utility model;
fig. 5 is a cross-sectional view of the structure of the wire assembly of the present utility model.
In the figure: 1. a wire winding assembly; 11. a bottom plate; 12. a driving motor; 13. a wire collecting frame; 14. a concave plate I; 15. a guide rail; 16. threading a wire ring; 17. a cable fixing block; 18. a rotating shaft; 19. a wire winding wheel; 110. a fixing frame; 111. a first wire guide wheel; 112. a concave plate II; 113. adjusting a screw; 114. a moving block; 115. twisting blocks; 116. a second wire guide wheel; 2. a wire assembly; 21. a lead frame; 22. reversing the motor; 23. a wire guide plate; 24. a screw; 25. a movable cavity; 26. a slide block; 27. a wire loop; 28. a spring; 29. arc cushion.
Detailed Description
The utility model is further illustrated by the following examples:
example 1
As shown in fig. 1-5, the utility model provides a cable winding device for power engineering construction, which comprises a winding component 1 and a wire component 2, wherein the top of the winding component 1 is fixedly connected with the bottom of the wire component 2, the winding component 1 comprises a bottom plate 11, the top of the bottom plate 11 is fixedly connected with a winding frame 13, one side of the winding frame 13 is movably provided with a driving motor 12, the output end of the driving motor 12 is movably connected with a winding wheel 19 at the inner side of the winding frame 13, the surface of the winding wheel 19 is fixedly connected with a cable fixing block 17, the top of the cable fixing block 17 is movably connected with a rotating shaft 18, the inner side of the winding frame 13 is fixedly connected with a concave plate one 14 at the upper side of the winding wheel 19, the inner wall of the concave plate one 14 is fixedly connected with a guide rail 15, the surface of the guide rail 15 is slidably connected with a wire loop 16, the wire component 2 comprises a lead frame 21, the bottom of the lead frame 21 is fixedly connected with the top of the bottom plate 11, one side of the lead frame 21 is movably connected with a reversing motor 22, the inner side of the lead frame 21 is fixedly connected with a lead plate 23, the top of the lead plate 23 is movably connected with a screw cavity 25, and the inner side of the screw cavity 25 is movably connected with a screw rod 25.
In this embodiment, through the winding subassembly 1 to the cable rolling, the in-process wire subassembly 2 of rolling is spacing to the rolling cable, lets the cable can be when by the rolling even one deck by the rolling of one deck, avoids when using the cable to produce the condition of tying knots etc. influence take out to at the in-process of taking up, can also change the relaxation degree of cable, let the cable keep compact state after being rolled.
Example 2
As shown in fig. 1-5, on the basis of embodiment 1, the present utility model provides a technical solution: preferably, the front of the collecting rack 13 is fixedly connected with a fixing rack 110, the inner side of the fixing rack 110 is rotatably connected with a first wire guide wheel 111, two sides of the inner wall of the fixing rack 110 are fixedly connected with a second concave plate 112, the inner wall of the second concave plate 112 is movably connected with an adjusting screw 113, one end of the adjusting screw 113 is movably connected with a screwing block 115 which is positioned at the bottom of the second concave plate 112, the surface of the adjusting screw 113 is movably connected with a moving block 114, and the inner wall of the moving block 114 is rotatably connected with a second wire guide wheel 116.
In this embodiment, the end of the cable passes through the wire assembly 2 and then passes through the surfaces of the first wire guide wheel 111 and the second wire guide wheel 116, then enters the wire guide ring 16 to place the end at the position of the cable fixing block 17, and the other half of the wire guide wheel is rotated down and combined through the rotating shaft 18, so that the cable is fixed, after the end is fixed, the winding wheel 19 rotates when the driving motor 12 is started, the cable is wound on the surface of the winding wheel, the wire assembly 2 is conducted in the winding process, the wire guide ring 16 translates on the surface of the guide rail 15, the cable is further uniformly wound, at this time, the screw 24 can rotate in the concave plate two 112 by screwing the two groups of screwing blocks 115, the moving block 114 drives the second wire guide wheel 116 to move up and down in the rotating direction, the second wire guide wheel 116 moves up and down, and forms a height difference with the first wire guide wheel 111, so that the cable can be tightly wound in a state when the cable is wound.
Example 3
As shown in fig. 1-5, on the basis of embodiment 1, the present utility model provides a technical solution: preferably, one end of the screw 24 is movably connected with the output end of the reversing motor 22, a sliding block 26 is movably connected on the surface of the screw 24 and positioned on the inner wall of the movable cavity 25, a wire ring 27 is movably connected at the top of the sliding block 26, a spring 28 is movably mounted on the inner wall of the wire ring 27, and an arc-shaped soft cushion 29 is movably connected at the end part of the spring 28.
In this embodiment, the cable end passes through the wire ring 27, the inner spring 28 stretches to make the arc cushion 29 attach to the surface of the cable through contraction, at this time, the cable starts to be wound, the reversing motor 22 is started to rotate the screw 24 while winding, the slider 26 is moved in the movable cavity 25 in a translation manner, the cable is moved in the translation process, so that the cable can be uniformly wound on the surface of the winding wheel 19 in the cable winding process, knotting or stacking of the cable on the winding wheel 19 is effectively avoided, and meanwhile, when the slider 26 moves to one end, the reversing motor 22 reverses through the unique characteristic of the reversing motor, so that the slider 26 continues to move in the opposite direction.
The working principle of the cable take-up device for power engineering construction is specifically described below.
As shown in fig. 1-5, the cable end passes through the wire loop 27, the inner spring 28 stretches to enable the arc cushion 29 to be attached to the surface of the cable, then the cable passes through the surface of the first wire winding wheel 111 and the surface of the second wire winding wheel 116, then the end is placed at the position of the cable fixing block 17 in the wire winding wheel 16, the other half of the rotation is combined through the rotating shaft 18, so that the cable is fixed, after the end is fixed, the wire winding wheel 19 rotates when the driving motor 12 is started, the cable is wound on the surface of the cable winding wheel during rotation, the reversing motor 22 is started to enable the screw 24 to rotate, the rotating of the screw 24 enables the sliding block 26 to translate frequently in the movable cavity 25, the translating process drives the cable to move on the surface of the wire winding wheel 19, so that the cable can be uniformly wound on the surface of the wire winding wheel 19, knotted or piled up on the wire winding wheel 19 can be effectively avoided, meanwhile, when the sliding block 26 moves to one end, the sliding block 26 is reversed through the characteristics of the sliding block, the sliding block 26 moves in the reverse direction, the wire winding wheel 16 moves on the surface of the guide rail 15, the cable can be further translated on the winding wheel 15, the two groups of the sliding block can be uniformly moved through the two wire winding blocks, the two rolling blocks can be tightly, the cable can be tightly screwed down on the surface of the first wire winding wheel and the second wire winding wheel 116, and the cable can be tightly moved through the first wire winding wheel and the second wire winding wheel, and the second wire can be tightly, and the wire can be tightly screwed down tightly and the wire can be tightly moved down tightly, and the wire can be tightly moved by the wire, and the wire can be tightly and the wire, and the wire can be rolled down, and the wire can be pressed.
The foregoing utility model has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.
Claims (6)
1. The utility model provides a cable take-up for power engineering construction, includes receipts line subassembly (1) and wire subassembly (2), its characterized in that: the top of the wire collecting assembly (1) is fixedly connected with the bottom of the wire guide assembly (2);
the wire collecting assembly (1) comprises a bottom plate (11), the top of the bottom plate (11) is fixedly connected with the bottom of the wire guide assembly (2), a wire collecting frame (13) is fixedly connected to the top of the bottom plate (11), a driving motor (12) is movably mounted on one side of the wire collecting frame (13), a wire collecting wheel (19) is movably connected to the output end of the driving motor (12) and is positioned on the inner side of the wire collecting frame (13), a cable fixing block (17) is fixedly connected to the surface of the wire collecting wheel (19), a rotating shaft (18) is movably connected to the top of the cable fixing block (17), a concave plate I (14) is fixedly connected to the inner side of the wire collecting frame (13) and is positioned above the wire collecting wheel (19), a guide rail (15) is fixedly connected to the inner wall of the concave plate I (14), and a wire threading ring (16) is slidably connected to the surface of the guide rail (15).
The wire assembly (2) comprises a wire frame (21), the bottom of the wire frame (21) is fixedly connected with the top of the bottom plate (11), one side of the wire frame (21) is movably connected with a reversing motor (22), the inner side of the wire frame (21) is fixedly connected with a wire guide plate (23), the top of the wire guide plate (23) is provided with a movable cavity (25), and the inside of the movable cavity (25) is movably connected with a screw (24).
2. The cable take-up device for electric power engineering construction according to claim 1, wherein: the front of pay-off rack (13) fixedly connected with mount (110), the inboard swivelling joint of mount (110) has wire wheel one (111), the inner wall both sides of mount (110) are all fixedly connected with concave plate two (112).
3. The cable take-up device for electric power engineering construction according to claim 2, wherein: the inner wall swing joint of concave plate two (112) has adjusting screw (113), the one end of adjusting screw (113) just is located the bottom swing joint of concave plate two (112) and has twists piece (115).
4. A cable take-up device for electric power engineering construction according to claim 3, wherein: the surface of the adjusting screw rod (113) is movably connected with a moving block (114), and the inner wall of the moving block (114) is rotatably connected with a wire guide wheel II (116).
5. The cable take-up device for electric power engineering construction according to claim 1, wherein: one end of the screw rod (24) is movably connected with the output end of the reversing motor (22), and a sliding block (26) is movably connected with the surface of the screw rod (24) and the inner wall of the movable cavity (25).
6. The cable take-up device for electric power engineering construction according to claim 5, wherein: the top swing joint of slider (26) has wire ring (27), the inner wall movable mounting of wire ring (27) has spring (28), the tip swing joint of spring (28) has arc cushion (29).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321329809.XU CN219906488U (en) | 2023-05-26 | 2023-05-26 | Cable take-up device for power engineering construction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321329809.XU CN219906488U (en) | 2023-05-26 | 2023-05-26 | Cable take-up device for power engineering construction |
Publications (1)
Publication Number | Publication Date |
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CN219906488U true CN219906488U (en) | 2023-10-27 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321329809.XU Active CN219906488U (en) | 2023-05-26 | 2023-05-26 | Cable take-up device for power engineering construction |
Country Status (1)
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CN (1) | CN219906488U (en) |
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2023
- 2023-05-26 CN CN202321329809.XU patent/CN219906488U/en active Active
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