A building electromechanical wire fixed-length binding device

By designing a fixed-length binding device for building electromechanical wires, using four wire reels, a variable frequency motor, and a sliding plate insert structure, the problems of wire knotting and inconvenient wire reel replacement were solved, thereby improving the efficiency of wire retrieval and the continuity of construction.

CN224449780UActive Publication Date: 2026-07-03CHINA CONSTR FOURTH ENG DIV INSTALLATION ENG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHINA CONSTR FOURTH ENG DIV INSTALLATION ENG
Filing Date
2025-06-17
Publication Date
2026-07-03

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    Figure CN224449780U_ABST
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Abstract

This utility model belongs to the field of building electromechanical technology, and in particular to a building electromechanical wire length binding device, including a base plate, an mounting frame on the top of the base plate, a storage box between the base plate and the mounting frame, a front mounting plate and a rear mounting plate installed on the inner wall of the mounting frame, a wire release reel and a wire take-up reel respectively installed on the front mounting plate and the rear mounting plate, a variable frequency motor installed below the wire release reel and the wire take-up reel, an installation ring above the wire release reel, and a top ring plate above the installation ring; the setting of four wire release reels meets the requirements of commonly used wire harnesses in building electromechanical systems, and combined with the guiding effect of the wire distribution rod and the wire ring, it fundamentally solves the problems of wire knotting and time-consuming wire management. At the same time, the linkage between the variable frequency motor and the wire take-up reel enables precise length release and winding of the wire. In the wire retrieval stage, the unique installation ring, sliding plate and plug structure design can quickly replenish the wire reel after the wire reel is used up.
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Description

Technical Field

[0001] This utility model belongs to the field of building electromechanical technology, specifically relating to a building electromechanical wire length binding device. Background Technology

[0002] In the field of building electromechanical construction, the laying and binding of electrical wires is a crucial step in ensuring the stable operation of electrical systems. During the laying process, wires are prone to tangling, which not only seriously affects the efficiency of wire retrieval but may also damage the wire sheath, reduce the lifespan of the wires, and increase safety hazards. At the same time, wire management is time-consuming, requiring construction workers to sort through the messy wires one by one, which to some extent slows down the construction progress and increases labor costs. Furthermore, traditional equipment cannot easily replenish new wire reels during the laying process. Once the wire reels are used up, the work needs to be interrupted for replacement, which seriously affects the continuity and efficiency of construction. Utility Model Content

[0003] This utility model provides a fixed-length binding device for building electromechanical wires, which solves the problems of inconvenient wire management and low wire replacement efficiency in existing systems.

[0004] This utility model provides the following technical solution: It includes a base plate, a mounting frame above the base plate, a storage box between the base plate and the mounting frame, a front mounting plate and a rear mounting plate mounted on the inner wall of the mounting frame, a pay-off reel and a take-up reel respectively mounted on the front mounting plate and the rear mounting plate, a variable frequency motor mounted below both the pay-off reel and the take-up reel, a mounting ring above the pay-off reel, a top ring above the mounting ring, a sliding plate slidably connected to the outer wall of the mounting ring, an insert rod slidably connected to the mounting ring, a slot matching the insert rod at the bottom of the sliding plate, a wire divider rod on one side of the front mounting plate, several wire rings mounted on the inner wall of the wire divider rod, a sliding carriage slidably connected to the inner wall of the mounting frame, and a cutting assembly mounted on the sliding carriage.

[0005] The storage bin corresponds to the carriage, the variable frequency motor drive end passes through the front mounting plate and the rear mounting plate, and the variable frequency motor drive end is connected to the take-up reel and the pay-off reel.

[0006] The outer wall of the insertion rod is fitted with a spring, one end of which is connected to the bottom end of the mounting ring, and the other end of which is connected to the bottom of the insertion rod.

[0007] The slide plate has a connecting post installed at one end, and the wire feeding reel has a connecting groove that matches the connecting post.

[0008] The outer end of the slide plate is equipped with a pull plate, the two slide plates are symmetrical, and the mounting ring and the top ring are connected by a vertical rod.

[0009] The mounting frame has two support rods installed on its inner wall, and the slide has a side plate corresponding to the support rods installed on its outer side. The side plate is slidably connected to the support rods.

[0010] The beneficial effects of this utility model are as follows: the four wire reels meet the requirements of commonly used wire harnesses in building electromechanical systems. Combined with the guiding function of the wire distribution rod and the wire ring, the problem of wire knotting and time-consuming wire management is solved from the root, significantly reducing the number of operators and the space required for wire pulling. At the same time, the linkage between the variable frequency motor and the take-up reel enables precise length release and winding of the wire. In the wire retrieval process, the unique installation ring, sliding plate and plug structure design not only allows for quick replenishment of new wire reels after the wire reels on the wire reels are used up, but also does not affect the replenishment of the upper lines when working on the front mounting plate, making wire retrieval continuous and efficient.

[0011] The parts of the device not covered herein are the same as or can be implemented using existing technologies. Attached Figure Description

[0012] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0013] Figure 2 This is a schematic diagram of the motion of the present invention;

[0014] Figure 3 This is a schematic cross-sectional view of the wire feeding disc in this utility model.

[0015] Figure 4 This utility model Figure 2 An enlarged diagram of A in the diagram.

[0016] In the diagram: 1. Base plate; 11. Storage bin; 2. Mounting frame; 21. Front mounting plate; 22. Cable reel; 23. Variable frequency motor; 24. Mounting ring; 241. Top ring; 242. Upright pole; 25. Slide plate; 251. Slot; 252. Pull plate; 26. Insert rod; 261. Spring; 27. Connecting column; 271. Connecting groove; 3. Rear mounting plate; 31. Cable take-up reel; 32. Carriage; 33. Cutting assembly; 34. Side plate; 35. Support rod; 36. Dividing rod; 37. Wire ring. Detailed Implementation

[0017] Please see Figures 1-4The present invention provides the following technical solution: it includes a base plate 1, a mounting frame 2 above the base plate 1, a storage box 11 between the base plate 1 and the mounting frame 2, a front mounting plate 21 and a rear mounting plate 3 installed on the inner wall of the mounting frame 2, a wire feeding reel 22 and a wire take-up reel 31 respectively installed on the front mounting plate 21 and the rear mounting plate 3, a variable frequency motor 23 installed below the wire feeding reel 22 and the wire take-up reel 31, a mounting ring 24 above the wire feeding reel 22, a top ring 241 above the mounting ring 24, a sliding plate 25 slidably connected to the outer wall of the mounting ring 24, a plug rod 26 slidably connected to the mounting ring 24, a slot 251 matching the plug rod 26 is opened at the bottom of the sliding plate 25, a wire dividing rod 36 is provided on one side of the front mounting plate 21, a plurality of wire rings 37 are installed on the inner wall of the wire dividing rod 36, a slide 32 is slidably connected to the inner wall of the mounting frame 2, and a cutting assembly 33 is installed on the slide 32.

[0018] In this implementation plan: During use, the base plate 1 and the mounting frame 2 form the carrier of the support device. Casters are installed at the bottom of the base plate 1 to facilitate its movement. The required coils can be placed on four wire reels 22, meeting the requirements of the commonly used three-live-one-neutral four-wire harness in building electromechanical systems. After each coil is placed, when the wire needs to be removed, the wire guide rod 36 is supported on one side of the front mounting plate 21. The conductor rings 37 installed on the inner wall of the wire guide rod 36, corresponding to the wire reels 22, guide the wires on the wire reels 22 through their respective conductor rings 37, and then the wires are gathered and tied to the carriage 32. Above, the braided wire, after passing through, is fixed to the take-up reel 31. The required wire length is then released by the variable frequency motor 23 mounted on the front mounting plate 21. At this time, the take-up reel 31 mounted on the rear mounting plate 3 can wind up the wire, arranging it into a coil for subsequent construction. This solves the problems of numerous knots, long wire management time, many operators, large operating space for pulling wires, and the need to measure the wire length with a tape measure during on-site electromechanical wire laying construction. At the same time, discarded short wires can be collected in the storage box 11 to avoid loss and waste. When the wire needs to be wound up for installation, the required coil is located on the pay-off reel 22. At this point, the top ring 241 can be supported by the mounting ring 24. The sliding plate 25, which is slidably connected to the mounting ring 24, can slide and support the mounting ring 24, allowing the sliding plate 25 to span across the mounting ring 24 and support excess wire. The excess wire is located between the mounting ring 24 and the top ring 241. After the wire on the pay-off reel 22 is used up, the sliding plate 25 slides on the mounting ring 24, pulling the sliding plate 25 outward and causing it to misalign with the mounting ring 24. This allows the wire between the sliding plate 25 and the top ring 241 to slide directly onto the lower pay-off reel 22, facilitating the loading of new wire. The wire reel is replenished, thereby improving the efficiency of the device in taking the wire. When the front mounting plate 21 is in operation, the top ring 241 and the mounting ring 24 above can supplement the line without affecting the function of the front mounting plate 21. When the slide plate 25 slides on the mounting ring 24, after one end of the slide plate 25 is supported on the outer wall of the center rod of the wire reel 22, it can slide on the mounting ring 24 through the insertion rod 26. The insertion rod 26 can be inserted into the slot 251 opened at the bottom of the slide plate 25, so that the slide plate 25 is limited and prevents the slide plate 25 from easily separating from the mounting ring 24 under the centrifugal force when the front mounting plate 21 rotates, thereby making the device stable for use.

[0019] The storage bin 11 corresponds to the carriage 32. The drive end of the variable frequency motor 23 passes through the front mounting plate 21 and the rear mounting plate 3. The drive end of the variable frequency motor 23 is connected to the take-up reel 31 and the unload reel 22. The storage bin 11 corresponds to the carriage 32, so that the storage bin 11 can easily collect the cut wire waste directly, and the waste can be collected and processed in a centralized manner. After the drive end of the variable frequency motor 23 passes through the front mounting plate 21 and the rear mounting plate 3, it can drive the rear mounting plate 3 and the front mounting plate 21, so that the variable frequency motor 23 can rotate them, and the wire can be wound up or unloaded.

[0020] A spring 261 is sleeved on the outer wall of the insertion rod 26. One end of the spring 261 is connected to the bottom end of the mounting ring 24, and the other end of the spring 261 is connected to the bottom of the insertion rod 26. The spring 261 sleeved on the outer wall of the insertion rod 26 can provide an upward traction force to the bottom of the insertion rod 26, so that the insertion rod 26 can be placed in the slot 251 under the elastic support of the spring 261, and can also be pulled downward to separate the insertion rod 26 from the slot 251, so that the slide plate 25 can slide.

[0021] A connecting post 27 is installed at one end of the slide plate 25, and a connecting groove 271 matching the connecting post 27 is provided on the wire feeding reel 22. The connecting post 27 installed at one end of the slide plate 25 can be supported in the connecting groove 271 provided on the wire feeding reel 22, so that the slide plate 25 can be horizontally mounted in the mounting ring 24, so that it can be stably supported by the wire spool to be used.

[0022] A pull plate 252 is installed on the outer end of the slide plate 25. The two slide plates 25 are symmetrical. The mounting ring 24 and the top ring 241 are connected by a vertical rod 242. The pull plate 252 is located at the outer end of the slide plate 25, which makes it easy to pull the slide plate 25, thereby making the slide plate 25 easy to control.

[0023] Two support rods 35 are installed on the inner wall of the mounting frame 2. A side plate 34 corresponding to the support rods 35 is installed on the outer side of the slide 32. The side plate 34 is slidably connected to the support rods 35. The support rods 35 are supported on the inner wall of the mounting frame 2, so that the side plate 34 installed on the slide 32 can slide on the support rods 35, so that the slide 32 can slide horizontally, and the cutting assembly 33 can slide to the position corresponding to the line, so as to cut it.

[0024] The working principle and usage process of this utility model are as follows: Before use, place the required wire coils on the four wire reels 22 to ensure that the requirements of three live wires, one neutral wire, and four wires are met. At the same time, check whether the connection of each component of the device is secure. When using, first support the wire divider 36 on one side of the front mounting plate 21 so that the wire ring 37 on the inner wall of the wire divider 36 guides the wire. Subsequently, the wires on the pay-off reel 22 are sequentially passed through their corresponding wire loops 37 and bundled together above the carriage 32. The braided wires are then fixed to the take-up reel 31. Next, the variable frequency motor 23 mounted on the front mounting plate 21 issues the required wire length command. The variable frequency motor 23 drives the front mounting plate 21 and the rear mounting plate 3 to rotate, causing the pay-off reel 22 to release the wires. At the same time, the take-up reel 31 winds up and organizes the released wires. When the wires at the carriage 32 reach the predetermined length, the wires are cut by the cutting component 33 on the carriage 32. At this time, the storage box 11 corresponds to the carriage 32, and the cut wire waste falls directly into the storage box 11 for collection. During the use of the wires, when the wire rolls on the pay-off reel 22 are used up and need to be replenished, the pull plate 252 at the outer end of the slide plate 25 is pulled, causing the slide plate 25 to slide on the mounting ring 24 and be pulled outward, thus misaligning with the inside of the mounting ring 24. At this time, the spare wire spool between the slide plate 25 and the top ring 241 will slide directly into the lower wire feeding reel 22. After sliding the slide plate 25 so that one end is supported on the outer wall of the center rod of the wire feeding reel 22, the sliding rod 26 is inserted into the slot 251 at the bottom of the slide plate 25 to limit the slide plate 25 and prevent it from separating due to centrifugal force when the front mounting plate 21 rotates, ensuring the stable operation of the device and continuing the subsequent wire binding operation.

Claims

1. A building electromechanical wire length binding device comprising a base plate (1), characterized in that: A mounting frame (2) is provided above the base plate (1), and a storage box (11) is provided between the base plate (1) and the mounting frame (2). A front mounting plate (21) and a rear mounting plate (3) are installed on the inner wall of the mounting frame (2). A pay-off reel (22) and a take-up reel (31) are respectively installed on the front mounting plate (21) and the rear mounting plate (3). A variable frequency motor (23) is installed below both the pay-off reel (22) and the take-up reel (31). A mounting ring (24) is provided above the pay-off reel (22). A top ring (241) is installed on the top. A sliding plate (25) is slidably connected to the outer wall of the mounting ring (24). A plug rod (26) is slidably connected to the mounting ring (24). A slot (251) matching the plug rod (26) is opened at the bottom of the sliding plate (25). A branch rod (36) is provided on one side of the front mounting plate (21). Several wire rings (37) are installed on the inner wall of the branch rod (36). A slide (32) is slidably connected to the inner wall of the mounting frame (2). A cutting assembly (33) is installed on the slide (32).

2. A building mechanical wire length binding device according to claim 1, characterized in that: The storage box (11) corresponds to the slide (32), the drive end of the variable frequency motor (23) passes through the front mounting plate (21) and the rear mounting plate (3), and the drive end of the variable frequency motor (23) is connected to the take-up reel (31) and the pay-off reel (22).

3. A building mechanical wire length binding device according to claim 1, characterized in that: A spring (261) is fitted on the outer wall of the insertion rod (26). One end of the spring (261) is connected to the bottom end of the mounting ring (24), and the other end of the spring (261) is connected to the bottom of the insertion rod (26).

4. A building mechanical wire length binding device according to claim 1, characterized in that: A connecting post (27) is installed at one end of the slide plate (25), and a connecting groove (271) matching the connecting post (27) is provided on the wire feeding reel (22).

5. A building mechanical wire length binding device according to claim 1, wherein: The outer end of the slide plate (25) is equipped with a pull plate (252), the two slide plates (25) are symmetrical, and the mounting ring (24) and the top ring (241) are connected by a pole (242).

6. A building mechanical wire length binding device according to claim 1, wherein: The mounting bracket (2) has two support rods (35) installed on its inner wall. The slide (32) has a side plate (34) corresponding to the support rods (35) installed on its outer side. The side plate (34) is slidably connected to the support rods (35).