A threading construction device for building electrical engineering

By introducing wiping and traction components into the wire threading device, the problem of inconvenient dust cleaning in traditional devices is solved, achieving better cleaning results and a more efficient winding process.

CN224449812UActive Publication Date: 2026-07-03DONGYING WOGE AIDI PETROLEUM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGYING WOGE AIDI PETROLEUM TECH CO LTD
Filing Date
2025-10-31
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional wiring installation equipment makes it inconvenient to clean dust when connecting wires, resulting in dust adhering to the surface of the connecting wires and contaminating the inside of the pipes.

Method used

A cable threading device including a wiping component and a traction component was designed. The wiping component uses a servo motor to drive a brush to clean the surface of the cable, and the traction component uses a guide roller to guide and limit the cable to ensure that the cable does not swing.

Benefits of technology

It effectively removes dust from the surface of the cable, reduces dust entering the pipe, improves winding efficiency, and protects the cable from damage.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a wiring installation device for building electrical engineering, belonging to the field of building electrical engineering. It includes a base, with first side plates symmetrically fixedly connected to one side of the upper surface of the base. A take-up roller is rotatably connected to one side of each of the two first side plates. A servo motor is fixedly connected to one side of one of the first side plates. A fixing plate is fixedly connected to the middle of the top of the base, and a through hole is provided inside the fixing plate. A wiping component for cleaning cables is provided in the middle of one side of the fixing plate. When the take-up roller rotates and rewinds, it drives the rotating ring to rotate, thereby driving four brushes to rotate. The four rotating brushes can wipe and clean the surface of the moving cable. Compared with traditional fixed brush wiping, the wiping effect is better, the wiping area is more comprehensive, and it can reduce the amount of dust carried by the cable entering the conduit and causing contamination inside the conduit.
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Description

Technical Field

[0001] This utility model relates to the field of building electrical engineering, and more specifically, to a wiring installation device for building electrical engineering. Background Technology

[0002] In building electrical engineering, when installing wiring, it is usually necessary to connect two different wires together to achieve a unified effect. During installation, a certain length of the outer sheath needs to be peeled off, and the oxide film on the exposed surface of the wire needs to be cleaned. The two cleaned wires are then wrapped together to connect them. When preparing to connect the wires through the conduit, a wiring installation device is needed for auxiliary guidance, so that the wires can be passed through and connected more quickly.

[0003] However, traditional wiring installation equipment is inconvenient for cleaning dust from the connecting wires. After repeated contact with the pipes during use, the surface of the connecting wires will become covered with too much dust, affecting the long-term use of the connecting wires. At the same time, the dust will also cause dirt inside the pipes, requiring the pipes to be cleaned again. Summary of the Invention

[0004] In view of the problems existing in the prior art, the purpose of this utility model is to provide a wiring construction device for building electrical engineering.

[0005] To solve the above problems, the present invention adopts the following technical solution.

[0006] A wiring installation device for building electrical engineering includes a base, on one side of the upper surface of the base, a first side plate is symmetrically fixedly connected, a take-up roller is rotatably connected to one side of the two first side plates, a servo motor is fixedly connected to one side of one of the first side plates, a fixing plate is fixedly connected to the middle of the top of the base, a through hole is opened in the interior of the fixing plate, and a wiping component for cleaning cables is provided in the middle of one side of the fixing plate.

[0007] The wiping assembly includes a rotating ring that rotates on one side of a fixed plate and a driving component disposed on one edge of the fixed plate. A connecting groove is provided on one side of the rotating ring, and a sliding rod is slidably connected inside the connecting groove. A brush is fixedly connected to one side of the sliding rod. An arc-shaped groove is provided inside the rotating ring, and an annular plate is slidably connected inside the arc-shaped groove. An inclined groove is provided inside the annular plate, and a locking bolt is threaded inside the annular plate.

[0008] Furthermore, the driving component includes a worm gear fixed to the outer surface of the rotating ring and a worm rotating at one edge of the fixed plate. Synchronous gears are fixedly connected to the outer surface of the worm and the outer surface of the take-up roller, and synchronous belts are sleeved on the outer surfaces of the two synchronous gears.

[0009] Furthermore, the worm is located inside the worm wheel, and the worm and worm wheel mesh with each other. The inclined groove is located in front of the connecting groove, and one side of the slide rod passes through the interior of the inclined groove. There are four inclined grooves and four connecting grooves.

[0010] Furthermore, one side of the locking bolt penetrates the interior of the annular plate, and one side of the locking bolt is in contact with one side of the rotating ring.

[0011] Furthermore, the axis of the rotating ring and the axis of the through hole coincide with each other, and the four brush bristles face the axis of the rotating ring.

[0012] Furthermore, a traction assembly for guiding and pulling the cable is provided on the other side of the top of the base. The traction assembly includes two second side plates fixed to the top of the base. Two grooves are opened on one side of the second side plates. An internally threaded slider is slidably connected inside the groove. A bidirectional threaded rod is threaded inside the internally threaded slider. A guide roller is rotatably connected to one side of the internally threaded slider.

[0013] Furthermore, the top of the bidirectional threaded rod extends through the interior of the second side plate, and the guide roller and the internal threaded slider are connected by a bearing.

[0014] Furthermore, the outer surface of the guide roller has an arc-shaped depression in the middle, and a rubber ring is provided on the surface of the guide roller.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] 1. This solution incorporates a wiping component. When the take-up roller rotates, it drives the rotating ring to rotate, which in turn drives four brushes to rotate. These four rotating brushes can wipe and clean the surface of the moving cable. Compared to traditional fixed brush wiping, this solution provides a better wiping effect, covers a wider area, and reduces the amount of dust carried by the cable into the conduit, thus preventing contamination of the conduit's interior.

[0017] 2. This solution incorporates a traction component, which allows the two guide rollers to move closer and further apart, creating pressure between the guide rollers and the cable without damaging the cable. Furthermore, the two guide rollers exert a certain squeezing force on the cable, effectively preventing it from swinging or shifting and improving winding efficiency. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the wiping assembly of this utility model. Figure 1;

[0020] Figure 3 This is a schematic diagram of the wiping assembly of this utility model. Figure 2 ;

[0021] Figure 4 This is a schematic diagram of the wiping assembly of this utility model. Figure 3 ;

[0022] Figure 5 This is a schematic diagram of the traction component of this utility model.

[0023] Explanation of the labels in the diagram:

[0024] 1. Base; 2. First side plate; 3. Take-up roller;

[0025] 4. Traction assembly; 41. Second side plate; 42. Guide roller; 43. Bidirectional threaded rod; 44. Slide groove; 45. Internal threaded slider;

[0026] 5. Fixing plate; 6. Through hole; 7. Servo motor;

[0027] 8. Wiping assembly; 81. Rotating ring; 82. Annular plate; 83. Worm gear; 84. Brush; 85. Worm; 86. Synchronous gear; 87. Synchronous belt; 88. Inclined groove; 89. Connecting groove; 810. Slide rod; 811. Arc groove; 812. Locking bolt. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0029] Please see Figures 1 to 5 A wiring installation device for building electrical engineering includes a base 1, with first side plates 2 symmetrically fixedly connected to one side of the upper surface of the base 1, and take-up rollers 3 rotatably connected to one side of the two first side plates 2. A servo motor 7 is fixedly connected to one side of one first side plate 2. A fixing plate 5 is fixedly connected to the middle of the top of the base 1. A through hole 6 is opened inside the fixing plate 5. A wiping component 8 for cleaning cables is provided in the middle of one side of the fixing plate 5.

[0030] like Figure 2-4As shown, the wiping assembly 8 includes a rotating ring 81 that rotates on one side of the fixed plate 5 and a driving component disposed on one edge of the fixed plate 5. A connecting groove 89 is provided on one side of the rotating ring 81, and a slide rod 810 is slidably connected inside the connecting groove 89. A brush 84 is fixedly connected to one side of the slide rod 810. An arc-shaped groove 811 is provided inside the rotating ring 81, and an annular plate 82 is slidably connected inside the arc-shaped groove 811. An inclined groove 88 is provided inside the annular plate 82, and a locking bolt 812 is threadedly connected inside the annular plate 82.

[0031] The drive components include a worm gear 83 fixed to the outer surface of the rotating ring 81 and a worm 85 rotating at one edge of the fixed plate 5. The outer surfaces of the worm 85 and the outer surfaces of the take-up roller 3 are both fixedly connected to synchronous gears 86, and synchronous belts 87 are sleeved on the outer surfaces of the two synchronous gears 86.

[0032] The worm 85 is located inside the worm wheel 83, and the worm 85 and the worm wheel 83 mesh with each other. The inclined groove 88 is located in front of the connecting groove 89. The slide rod 810 passes through the interior of the inclined groove 88 on one side. Both the inclined groove 88 and the connecting groove 89 are provided with four.

[0033] One side of the locking bolt 812 penetrates the interior of the annular plate 82, and one side of the locking bolt 812 is in contact with one side of the rotating ring 81.

[0034] The axis of the rotating ring 81 coincides with the axis of the through hole 6, and the bristles of the four brushes 84 face the axis of the rotating ring 81.

[0035] When winding the cable, due to its long length, the cable will come into contact with the ground, resulting in a large amount of dust on the cable surface. This dust can then be carried into the conduit. During winding, the cable passes through the rotating ring 81 and the through hole 6. At this point, the position of the brush 84 is adjusted according to the cable diameter. The locking bolt 812 is rotated to release the fixation on the annular plate 82. Rotating the annular plate 82 causes the four inclined grooves 88 to rotate. The inclined grooves 88 drive the slide rod 810 to move inside the connecting groove 89. The slide rod 810 moves the brush 84 towards the cable, ensuring close contact between the brush 84 and the cable. Finally, the locking bolt 812 is rotated to lock the rotating ring 81 and the annular plate 82 in place. When the servo motor 7 drives the take-up roller 3 to rotate, the synchronous gear 86 on the take-up roller 3 drives the synchronous belt 87 to move. The synchronous belt 87 drives another synchronous gear 86 to rotate, thereby driving the worm gear 85 to rotate. The worm gear 85 drives the rotating ring 81 to rotate through the worm wheel 83. The rotating ring 81, together with the brushes 84, rotates as a whole, thereby driving the four brushes 84 to rotate. The four rotating brushes 84 can wipe and clean the surface of the moving cable. Compared with the traditional fixed brush wiping, the wiping effect is better, the wiping area is more complete, and the dust carried by the cable enters the inside of the conduit, which contaminates the inside of the conduit.

[0036] like Figure 5 As shown, a traction assembly 4 for guiding and pulling cables is provided on the other side of the top of the base 1. The traction assembly 4 includes two second side plates 41 fixed to the top of the base 1. Two slide grooves 44 are opened on one side of the second side plate 41. An internal threaded slider 45 is slidably connected inside the slide groove 44. A bidirectional threaded rod 43 is threaded inside the internal threaded slider 45. A guide roller 42 is rotatably connected to one side of the internal threaded slider 45.

[0037] The top of the bidirectional threaded rod 43 extends through the interior of the second side plate 41, and the guide roller 42 and the internal threaded slider 45 are connected by bearings.

[0038] The guide roller 42 has an arc-shaped indentation in the middle of its outer surface, and a rubber ring is provided on the surface of the guide roller 42.

[0039] When transmitting cables of different diameters, by rotating the bidirectional threaded rod 43, the two internal threaded sliders 45 are driven to move closer and further apart through the action of the thread. This causes the two guide rollers 42 to move closer and further apart, so that there is a certain pressure between the two guide rollers 42 and the cable without damaging the cable. Moreover, the two guide rollers 42 exert a certain squeezing force on the cable, which can effectively limit the cable from swinging and displacement, and improve the winding efficiency.

[0040] Instructions for use: When winding the cable, the cable will pass between the two guide rollers 42, and then through the rotating ring 81 and the through hole 6. At this time, adjust the position of the brush 84 according to the diameter of the cable. Rotate the locking bolt 812 to release the fixation of the annular plate 82. Rotating the annular plate 82 will drive the four inclined grooves 88 to rotate. The inclined grooves 88 drive the slide rod 810 to move inside the connecting groove 89. The slide rod 810 drives the brush 84 to move towards the cable, so that the brush 84 is in close contact with the cable. Then rotate the locking bolt 812 again. The rotating ring 81 and the annular plate 82 are locked together. When the servo motor 7 drives the take-up roller 3 to rotate, the synchronous gear 86 on the take-up roller 3 drives the synchronous belt 87 to move. The synchronous belt 87 drives another synchronous gear 86 to rotate, thereby driving the worm 85 to rotate. The worm 85 drives the rotating ring 81 to rotate through the worm wheel 83. The rotating ring 81 and the brush 84 rotate as a whole, thereby driving the four brushes 84 to rotate. The four rotating brushes 84 can wipe and clean the surface of the moving cable.

[0041] When transmitting cables of different diameters, by rotating the bidirectional threaded rod 43, the two internal threaded sliders 45 are driven to move closer and further apart through the action of the thread. This causes the two guide rollers 42 to move closer and further apart, so that there is a certain pressure between the two guide rollers 42 and the cable without damaging the cable. Moreover, the two guide rollers 42 exert a certain squeezing force on the cable, which can effectively limit the cable from swinging and displacement, and improve the winding efficiency.

[0042] When transmitting cables of different diameters, rotating 43 causes the two 45s to move closer and further apart through the action of the thread, which in turn causes the two 42s to move closer and further apart. This creates a certain pressure between the two 42s and the cable without damaging the cable. Furthermore, the two 42s exert a certain squeezing force on the cable, which can effectively limit the cable from swinging or shifting, thus improving the efficiency of winding.

[0043] The above description is merely a preferred embodiment of this utility model; however, the protection scope of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the technical scope disclosed in this utility model, based on the technical solution and its improved concept, should be included within the protection scope of this utility model.

Claims

1. A wiring construction device for building electrical engineering, comprising a base (1), wherein a first side plate (2) is symmetrically fixedly connected to one side of the upper surface of the base (1), a winding roller (3) is rotatably connected to one side of the two first side plates (2), a servo motor (7) is fixedly connected to one side of one first side plate (2), and a fixing plate (5) is fixedly connected to the middle of the top of the base (1), wherein a through hole (6) is provided inside the fixing plate (5); characterized in that A wiping component (8) for cleaning cables is provided in the middle of one side of the fixing plate (5); The wiping assembly (8) includes a rotating ring (81) rotating on one side of the fixed plate (5) and a driving component disposed on one side edge of the fixed plate (5). A connecting groove (89) is provided on one side of the rotating ring (81). A slide rod (810) is slidably connected inside the connecting groove (89). A brush (84) is fixedly connected to one side of the slide rod (810). An arc groove (811) is provided inside the rotating ring (81). An annular plate (82) is slidably connected inside the arc groove (811). An inclined groove (88) is provided inside the annular plate (82). A locking bolt (812) is threadedly connected inside the annular plate (82).

2. The threading construction device for building electrical engineering according to claim 1, characterized in that: The drive component includes a worm gear (83) fixed on the outer surface of the rotating ring (81) and a worm (85) rotating on one side edge of the fixed plate (5). The outer surface of the worm (85) and the outer surface of the take-up roller (3) are both fixedly connected with synchronous gears (86), and synchronous belts (87) are sleeved on the outer surfaces of the two synchronous gears (86).

3. The threading construction device for building electrical engineering according to claim 2, characterized in that: The worm (85) is located inside the worm wheel (83), and the worm (85) and the worm wheel (83) mesh with each other. The inclined groove (88) is located in front of the connecting groove (89), and one side of the slide rod (810) passes through the interior of the inclined groove (88). There are four inclined grooves (88) and four connecting grooves (89).

4. The threading construction device for building electrical engineering according to claim 3, characterized in that: One side of the locking bolt (812) penetrates the interior of the annular plate (82), and one side of the locking bolt (812) is in contact with one side of the rotating ring (81).

5. The threading construction device for building electrical engineering according to claim 4, characterized in that: The axis of the rotating ring (81) and the axis of the through hole (6) coincide with each other, and the bristles of the four brushes (84) face the axis of the rotating ring (81).

6. The threading construction device for building electrical engineering according to claim 1, characterized in that: On the other side of the top of the base (1), a traction assembly (4) for guiding and pulling the cable is provided. The traction assembly (4) includes two second side plates (41) fixed on the top of the base (1). Two slide grooves (44) are opened on one side of the second side plate (41). An internal threaded slider (45) is slidably connected inside the slide groove (44). A bidirectional threaded rod (43) is threaded inside the internal threaded slider (45). A guide roller (42) is rotatably connected to one side of the internal threaded slider (45).

7. The threading construction device for building electrical engineering according to claim 6, characterized in that: The top of the bidirectional threaded rod (43) extends through the interior of the second side plate (41), and the guide roller (42) and the internal threaded slider (45) are connected by bearings.

8. The threading construction device for building electrical engineering according to claim 7, characterized in that: The guide roller (42) is arc-shapedly recessed in the middle of the outer surface, and the surface of the guide roller (42) is provided with a rubber ring.