CN118164320A - Cable power winding displacement device - Google Patents

Abstract

The invention discloses a cable power winding displacement device, which relates to the technical field of cable winding displacement and comprises a supporting seat body, wherein a supporting ejector rod is fixedly arranged at the upper end of the supporting seat body, a stable supporting structure is provided by the supporting seat body and the supporting ejector rod, a cable winding displacement mechanism is arranged at the side end of the supporting ejector rod and is in an adjustable winding displacement structure, the cable winding displacement mechanism is adjusted through the position of a cable, so that the cable is wound on the cable winding displacement mechanism and extends downwards, the cable displacement mechanism can be adjusted according to the position of the cable as required through the adjustable winding displacement structure, the accuracy and the stability of the cable displacement are improved, the error rate is reduced, the product quality is improved, a pushing winding mechanism is arranged at the side end of the supporting seat body, the pushing winding mechanism is in a detachable structure, and is locked and fixed when the cable winding displacement mechanism is wound on the pushing winding mechanism, the winding displacement process of the cable is controlled, and the stable cable winding displacement is ensured.

Description

A cable power arranging device

Technical Field

The present invention relates to the technical field of cable arrangement, and in particular to a cable arrangement device used for performing cable arrangement operations in cable production.

Background technique

In the process of producing cables, it is often necessary to arrange the cable wires. Traditional cable arrangement operations often rely on manual operations, which is not only inefficient but also prone to errors, affecting product quality and production progress. Prior art CN114436047B discloses a rope winding device for construction, which mainly includes a frame, a winding mechanism and a cable arrangement mechanism. Through the setting of the support block and the control rod, after the cable is wound on the winding shaft, the support block shrinks into the support groove, forming a certain gap to reduce friction. At the same time, bundling grooves and bundling ropes are provided to bundle the cables to prevent them from loosening, but such existing cable arrangement devices still have many problems during use:

1. The cable arrangement device lacks flexibility and is difficult to maintain and adjust: The existing cable arrangement device lacks a flexible adjustment mechanism and cannot be adjusted according to the needs of different types of cables. This requires different types of cable arrangement devices in specific production, which increases costs and complexity. The maintenance and adjustment process is cumbersome and requires professional technicians to operate. This increases maintenance costs and operational difficulty.

2. Poor cable arrangement stability, low efficiency and low accuracy: The existing devices have poor cable stability during the cable arrangement process. Even if the cables are tied with binding ropes, the cables will still deviate or become knotted, affecting the continuity and efficiency of the cable arrangement operation. At the same time, the existing cable arrangement devices still rely mainly on manual operation, resulting in low efficiency and low accuracy. Due to human intervention, errors are prone to occur, affecting product quality and production progress.

3. Poor adaptability: Existing cable arrangement devices cannot adapt well to the cable arrangement requirements of different types and sizes, and lack flexibility and versatility. This limits the application scope of the device in different working environments.

4. The equipment is bulky and inconvenient to operate: Existing cable arrangement devices are usually large and bulky, with complex structures, inconvenient to operate and maintain. The structure limits the flexibility and scope of application of the device, restricting the cable arrangement operation, and it is not easy to move and adjust, and cannot flexibly adapt to different working environments and needs.

Summary of the invention

The problem to be solved by the present invention is that the existing cable arranging devices lack flexibility, are difficult to maintain and adjust, have poor cable arranging stability, low efficiency and low accuracy, are not adaptable, and are bulky and inconvenient to operate. The present invention provides a cable power cable arranging device with higher efficiency, better flexibility and stability, which can effectively improve the quality and efficiency of cable arranging operations, improve the adaptability and versatility of the device, reduce costs and labor costs, and has broader application prospects.

In order to solve the above problems, the present invention provides a cable power cable arrangement device, including a support seat body, a support top rod is fixedly arranged on the upper end of the support seat body, the support seat body and the support top rod provide a stable support structure, so that the cable arrangement device can be stably operated during the cable arrangement operation, thereby enhancing the stability and safety of the device, a cable arrangement mechanism is installed on the side end of the support top rod, and the cable arrangement mechanism is an adjustable cable arrangement structure, the cable arrangement mechanism is adjusted by the position of the cable, so that the cable is wound on the cable arrangement mechanism and extends downward, and the adjustable cable arrangement structure enables the cable arrangement mechanism to adjust the position of the cable as needed, thereby improving the accuracy and stability of the cable arrangement, reducing the error rate, and thus improving the product quality, and a push-pushing and reeling mechanism is arranged on the side end of the support seat body, and the push-pushing and reeling mechanism is a detachable structure, when in use, the push-pushing and reeling mechanism is locked and fixed, and the lower end of the cable is wound on the push-pushing and reeling mechanism, and the push-pushing and reeling mechanism controls the reeling process of the cable, thereby ensuring the smooth progress of the cable arrangement. At the same time, the detachable structure facilitates operation and maintenance.

Preferably, the cable arranging mechanism includes an upper fixed arranging portion fixedly arranged on the upper side end of the support top rod, a load-bearing and adjusting arranging portion is provided on the middle side end of the support top rod, and a lower support and adjusting arranging portion is provided on the lower side end of the support top rod, a telescopic adjustment component is connected between the load-bearing and adjusting arranging portion and the lower support and adjusting arranging portion, one end of the telescopic adjustment component is fixed on the lower support and adjusting arranging portion, and a lifting end of the telescopic adjustment component is fixedly connected to the load-bearing and adjusting arranging portion, and the load-bearing and adjusting arranging portion is driven to move up and down by the lifting end of the telescopic adjustment component, and fine adjustment of the arranging mechanism is achieved through the upper fixed arranging portion, the load-bearing and adjusting arranging portion, the lower support and adjusting arranging portion and the telescopic adjustment component, so that the load-bearing and adjusting arranging portion and the lower support and adjusting arranging portion are adjusted up and down according to the angle and position required by the cable, thereby meeting the arranging requirements of different cable products and improving the flexibility and applicability of the device.

Preferably, the upper fixed wiring portion includes a fixed seat body, which is fixedly arranged at the upper side end of the supporting top rod, a positioning shaft is arranged at the inner end of the fixed seat body, a first-level cable multi-slot wire component is arranged on the positioning shaft and connected to its axis, and a lifting slot seat is extended from the bottom end of the fixed seat body.

Preferably, the load-bearing and adjusting wiring portion comprises a sliding shaft, on which a secondary cable multi-slot conductor component is provided and axially connected, and two ends of the sliding shaft are respectively arranged in a lifting slot seat and a supporting top rod.

Preferably, the lower support adjustment wiring part includes a support shaft seat body, an axial load-bearing bearing is installed on the side end of the support shaft seat body, a transmission shaft is axially connected to the axial load-bearing bearing, a three-stage cable multi-slot wire component is arranged on the transmission shaft, and the other end of the transmission shaft is axially connected to a positioning shaft disk, and the positioning shaft disk is arranged in the support top rod.

Preferably, the telescopic adjustment component is a telescopic cylinder.

Preferably, the cable arranging mechanism also includes a radial cable arranging portion, which is arranged on the radial side end of the supporting top rod, and the radial cable arranging portion includes a radial positioning seat body, which is fixed to the side end of the supporting top rod, and a telescopic motor is provided in the inner inner side of the radial positioning seat body, and the telescopic motor is connected to the movable horizontal axis through a coupling 1. A limited clamping groove block is provided at the center of the radial positioning seat body, and the movable horizontal axis passes through the limited clamping groove and extends forward. A four-level cable multi-slot conductor component is provided on the movable horizontal axis and is axially connected to the axis. According to the required angle and position of the cable, the cable is driven to be adjusted at the radial position through the radial cable arranging portion, so that the device can more flexibly adapt to different types of cable arranging requirements, thereby improving the accuracy and efficiency of the cable arranging.

Preferably, the cable multi-groove conductor component includes a linear bearing, which is sleeved on the shaft body through an interference fit, and a deep groove ball bearing is sleeved on the linear bearing and has an interference fit with the shaft body, and a spacer sleeve is installed at the joint between the linear bearing and the deep groove ball bearing, and a multi-groove wire wheel is provided on the outer edge of the deep groove ball bearing and has a clearance fit with the deep groove ball bearing.

Preferably, the pushing and winding mechanism includes a pushing cone and a pushing core locked with the pushing cone. The pushing and winding mechanism realizes the winding of the lower end of the cable. At the same time, the pushing cone and the pushing core of the pushing and winding mechanism are locked and fixed, which ensures the stability and controllability of the cable during the cable arrangement process, and also makes the pushing and winding mechanism form a detachable structure, which is convenient for adjusting the cable when it deviates or gets knotted.

Preferably, the push cone portion includes at least one pair of thin cylinders that are fixed to the upper and lower surfaces by a cylinder fixing plate, the side ends of the upper and lower thin cylinders are fixedly connected with cylinder pressure plate spacers, a thrust plate is fixedly connected between the cylinder pressure plate spacers, a cylinder guard is arranged at the outer edges of the thrust plate and the thin cylinder, a sliding shaft is axially connected at the center of the thrust plate, the sliding shaft passes through the center of the cylinder fixing plate and a positioning sleeve fixed to the side end of the cylinder fixing plate and extends to the front end, a single-row deep groove ball bearing that is clearance-matched with the sliding shaft is arranged at the front end of the sliding shaft, a bearing seat is arranged at the outer edge of the single-row deep groove ball bearing, dustproof pressure covers are fixedly connected to both sides of the other end of the bearing seat, a flat plate pressure cover is fixedly connected to the center of the bearing seat, the end of the dustproof pressure cover away from the bearing seat is fixedly connected to a movable top cone, and an external protruding locking block is fixedly connected to the fixed front end of the movable top cone.

Preferably, the push core portion includes a driving mechanism and a top core locking portion transmission-connected to the driving mechanism, the driving mechanism includes a variable frequency brake motor, one end of the variable frequency brake motor is provided with a worm gear reducer and is drivingly connected to the motor, one end of the worm gear reducer is transmission-connected to a reducer shaft, the reducer shaft is provided at the inner end of a reducer seat, the reducer seat is fixed to the side end of the support seat body, a tapered roller bearing and two deep groove ball bearings are respectively provided on both sides of the inner end of the reducer seat, the two ends of the reducer shaft are respectively clearance-matched with the tapered roller bearing and the two deep groove ball bearings and are driven to the two ends The outer end extends, the front end part of the reducer shaft close to the tapered roller bearing is connected to the fixed top core shaft through a second coupling, the rear end fixed sleeve of the fixed top core shaft is provided with a pin plate, the top of the pin plate is installed with a limit seat, the front end of the limit seat is fixed with a pin seat, the center of the inner end of the limit seat is fixed with a compression spring, a gasket is installed at the connection between the compression spring and the limit seat, the compression spring extends forward through the pin seat and is connected with the pin, the front end of the fixed top core shaft is axially connected with a cylinder top core, the inner end of the cylinder top core has a concave locking groove, and the outer protruding locking block is clamped in the concave locking groove.

Compared with the prior art, the present invention has the following beneficial technical effects:

1. Improve production efficiency and accuracy: The cable power arranging device of the present invention adopts an adjustable arranging structure, and realizes automatic arranging operation by adjusting the position of the cable. This can greatly improve the efficiency and accuracy of the arranging operation, reduce the impact of human factors on product quality, and effectively solve the problem that the existing cable arranging device relies on manual operation, is inefficient and prone to errors.

2. Strong applicability: The cable power arranging device of the present invention has a simple structure, convenient operation, and adopts a detachable structure, which makes the device more flexible and more applicable. It can be adjusted according to the needs of different structures, which improves the applicability and flexibility of the device. It effectively solves the problem that the existing cable arranging devices are usually bulky, inconvenient to operate, and cannot meet the structural requirements.

3. Convenient operation: The push-and-roll mechanism of the present invention adopts a detachable structure, which can be easily locked and fixed when in use, making the operation more convenient. It is convenient for the installation and maintenance of the device, reduces the labor intensity of the operator, and improves the work efficiency.

4. Flexible cable adjustment: The cable arrangement mechanism includes an upper fixed cable arrangement part, a load-bearing adjustment cable arrangement part and a lower support adjustment cable arrangement part. The load-bearing adjustment cable arrangement part is driven by the lifting end of the telescopic adjustment component to move up and down, thereby realizing flexible adjustment of the cable; the radial cable arrangement part drives the cable to be adjusted at the radial position, so that the device can more flexibly adapt to different types of cable arrangement requirements, improve the accuracy and efficiency of cable arrangement, enable the device to adapt to different working environments and requirements, and improve the accuracy and stability of cable arrangement.

5. High stability: The present invention adopts multi-stage cable multi-groove conductor components, including components such as linear bearings and deep groove ball bearings, so that the cable guidance is more stable and reliable. This allows the device to maintain the stability of the cable during the cable arrangement process, improves the operating efficiency and cable arrangement quality, and the push-pushing reeling mechanism realizes the reeling of the lower end of the cable. At the same time, the push-pushing cone and the push-pushing core of the push-pushing reeling mechanism are locked and fixed, ensuring the stability and controllability of the cable during the cable arrangement process. It also makes the push-pushing reeling mechanism form a detachable structure, so that the push-pushing cone is separated from the push-pushing core, which is convenient for adjusting the cable when the cable deviates or gets tangled.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic structural diagram of a cable power arranging device according to the present invention.

FIG. 2 is a schematic structural diagram of the cable power arranging device of the present invention from another perspective.

FIG. 3 is a side view of the cable power arranging device of the present invention.

Fig. 4 is a partial enlarged view of the A-A portion in Fig. 1.

In the figure: 1-support seat, 2-support top rod, 3-cable arranging mechanism, 300-upper fixed arranging part, 301-fixed seat, 302-positioning shaft, 303-first-level cable multi-slot wire component, 304-lifting slot seat, 310-bearing and adjusting arranging part, 311-sliding shaft 1, 312-second-level cable multi-slot wire component, 320-lower support and adjusting arranging part, 321-support shaft seat, 322-axial bearing bearing, 32 3-transmission shaft, 324-three-level cable multi-slot wire component, 325-positioning shaft disc, 330-telescopic adjustment component, 340-radial cable arrangement part, 341-radial positioning seat body, 342-telescopic motor, 343-moving horizontal axis, 344-limiting clamping groove block, 345-limiting clamping groove, 346-fourth-level cable multi-slot wire component, 347-coupling 1, 351-linear bearing, 352-deep groove ball bearing, 353-spacer , 354-multi-groove wire wheel, 4-push winding mechanism, 400-push cone, 401-cylinder fixing plate, 402-thin cylinder, 403-cylinder pressure plate spacer, 404-thrust plate, 405-cylinder shield, 406-sliding shaft 2, 407-positioning sleeve, 408-single row deep groove ball bearing, 409-bearing seat, 410-dustproof pressure cover, 411-flat pressure cover, 412-movable top cone, 413-external raised lock block, 420-thrust core, 421-frequency conversion brake motor, 422-worm gear reducer, 423-reducer shaft, 424-reducer seat, 425-tapered roller bearing, 426-deep groove ball bearing 2, 427-fixed top core shaft, 428-pull pin plate, 429-limit seat, 430-pull pin seat, 431-compression spring, 432-gasket, 433-pull pin, 434-cylinder top core, 435-inner concave lock groove, 436-coupling.

Detailed ways

The present invention will be further explained below in conjunction with the accompanying drawings and embodiments.

Referring to Figures 1 to 3, a cable power cable arrangement device includes a support seat body 1, a support top rod 2 is fixedly arranged on the upper end of the support seat body 1, the support seat body and the support top rod provide a stable support structure, so that the cable arrangement device can be stably operated during the cable arrangement operation, thereby enhancing the stability and safety of the device, a cable arrangement mechanism 3 is installed on the side end of the support top rod 2, and the cable arrangement mechanism 3 is an adjustable cable arrangement structure, the cable arrangement mechanism 3 is adjusted by the position of the cable, so that the cable is wound on the cable arrangement mechanism 3 and extends downward, and the adjustable cable arrangement structure enables the cable arrangement mechanism to adjust the position of the cable as needed, thereby improving the accuracy and stability of the cable arrangement, reducing the error rate, and thus improving the product quality, a push-pull mechanism 4 is arranged on the side end of the support seat body 1, and the push-pull mechanism 4 is a detachable structure, when in use, the push-pull mechanism 4 is locked and fixed, and the lower end of the cable is wound on the push-pull mechanism 4, and the push-pull mechanism 4 controls the winding process of the cable, thereby ensuring the smooth progress of the cable arrangement. At the same time, the detachable structure facilitates operation and maintenance.

Preferably, the cable arrangement mechanism 3 includes an upper fixed arrangement portion 300 fixedly arranged on the upper side end of the support top rod 2, a load-bearing adjustment arrangement portion 310 is provided on the middle side end of the support top rod 2, and a lower support adjustment arrangement portion 320 is provided on the lower side end of the support top rod 2. A telescopic adjustment component 330 is connected between the load-bearing adjustment arrangement portion 310 and the lower support adjustment arrangement portion 320. One end of the telescopic adjustment component 330 is fixed on the lower support adjustment arrangement portion 320, and its lifting end is connected to the load-bearing adjustment arrangement portion 310. 0 is fixedly connected, and the lifting end of the telescopic adjustment component 330 drives the load-bearing and adjusting cable arrangement part 310 to move up and down. The upper fixed cable arrangement part 300, the load-bearing and adjusting cable arrangement part 310, the lower support and adjusting cable arrangement part 320 and the telescopic adjustment component 330 are used to realize fine adjustment of the cable arrangement mechanism, so that the load-bearing and adjusting cable arrangement part 310 and the lower support and adjusting cable arrangement part 320 are adjusted up and down according to the angle and position required by the cable, thereby meeting the cable arrangement requirements of different cable products and improving the flexibility and applicability of the device.

The upper fixed wiring portion 300 includes a fixed seat body 301, which is fixedly arranged at the upper side end of the supporting top rod 2. A positioning shaft 302 is arranged at the inner end of the fixed seat body 301. A first-level cable multi-slot wire component 303 is arranged on the positioning shaft 302 and is axially connected to it. A lifting slot seat 304 is extended from the bottom end of the fixed seat body 301.

The load-bearing and adjusting cable arrangement part 310 includes a sliding shaft 1 311 , on which a secondary cable multi-slot conductor component 312 is disposed and axially connected, and two ends of the sliding shaft 1 311 are respectively disposed in the lifting slot seat 304 and the supporting top rod 2 .

The lower support and adjustment cable arrangement part 320 includes a support shaft seat body 321, and an axial bearing bearing 322 is installed on the side end of the support shaft seat body 321. A transmission shaft 323 is axially connected to the axial bearing bearing 322, and a three-level cable multi-slot wire component 324 is arranged on the transmission shaft 323. The other end of the transmission shaft 323 is axially connected to a positioning shaft disk 325, and the positioning shaft disk 325 is arranged in the support top rod 2. The telescopic adjustment component 330 is a telescopic cylinder.

The cable arranging mechanism 3 also includes a radial cable arranging part 340, which is arranged at the radial side end of the supporting top rod 2, and the radial cable arranging part 340 includes a radial positioning seat body 341, and the radial positioning seat body 341 is fixed to the side end of the supporting top rod 2. The inner end of the radial positioning seat body 341 is provided with a telescopic motor 342, and the telescopic motor 342 is transmission-connected to the movable horizontal shaft 343 through a coupling 1 347. A limited clamping groove block 344 is provided at the center of the radial positioning seat body 341, and the movable horizontal shaft 343 passes through the limited clamping groove 345 and extends forward. A four-level cable multi-slot wire component 346 is provided on the movable horizontal shaft 343 and is axially connected to it. According to the angle and position of the cable requirement, the cable is driven to be adjusted at the radial position through the radial cable arranging part 340, so that the device can more flexibly adapt to different types of cable arranging requirements, thereby improving the accuracy and efficiency of arranging.

The cable multi-groove conductor component includes a linear bearing 351, which is sleeved on the shaft body through an interference fit. A deep groove ball bearing 352 is sleeved on the linear bearing 351 and has an interference fit with it. A spacer sleeve 353 is installed at the joint between the linear bearing 351 and the deep groove ball bearing 352. A multi-groove wire wheel 354 is provided on the outer edge of the deep groove ball bearing 352 and has a clearance fit with it.

The pushing and winding mechanism 4 includes a pushing cone 400 and a pushing core 420 locked and connected to the pushing cone 400. The pushing and winding mechanism 4 realizes the winding of the lower end of the cable. At the same time, the pushing cone 400 and the pushing core 420 of the pushing and winding mechanism 4 are locked and fixed, which ensures the stability and controllability of the cable during the cable arrangement process, and also makes the pushing and winding mechanism 4 form a detachable structure, which is convenient for adjusting the cable when the cable deviates or gets knotted.

The push cone 400 includes at least one pair of thin cylinders 402 fixedly arranged up and down by a cylinder fixing plate 401, the side ends of the thin cylinders 402 arranged up and down are fixedly connected with cylinder pressure plate spacers 403, a thrust plate 404 is fixedly connected between the cylinder pressure plate spacers 403, a cylinder shield 405 is arranged at the outer edge of the thrust plate 404 and the thin cylinder 402, a sliding shaft 406 is axially connected at the center of the thrust plate 404, and the sliding shaft 406 passes through the center of the cylinder fixing plate 401 and is fixed to the cylinder fixing plate 401. 01, a positioning sleeve 407 is arranged at the side end and extends to the front end, a single-row deep groove ball bearing 408 which is clearance-matched therewith is arranged at the front end of the sliding shaft 2 406, a bearing seat 409 is arranged at the outer edge of the single-row deep groove ball bearing 408, dustproof pressure covers 410 are fixedly connected to both sides of the other end of the bearing seat 409, a flat pressure cover 411 is fixedly connected to the center of the bearing seat 409, one end of the dustproof pressure cover 410 away from the bearing seat 409 is fixedly connected to a movable top cone 412, and an external protruding locking block 413 is fixedly connected to the fixed front end of the movable top cone 412.

The push core part 420 includes a driving mechanism and a top core locking part that is transmission-connected to the driving mechanism, the driving mechanism includes a variable frequency brake motor 421, one end of the variable frequency brake motor 421 is provided with a worm gear reducer 422 and is drivingly connected to it, one end of the worm gear reducer 422 is transmission-connected with a reducer shaft 423, the reducer shaft 423 is arranged at the inner end of a reducer seat 424, the reducer seat 424 is fixed to the side end of the support seat body 1, and tapered roller bearings 425 and deep groove ball bearings 426 are respectively provided on both sides of the inner end of the reducer seat 424, the two ends of the reducer shaft 423 are respectively clearance-matched with the tapered roller bearings 425 and the deep groove ball bearings 426 and extend outward at both ends, the reducer shaft 423 is close to The front end part of the tapered roller bearing 425 is connected to the fixed top core shaft 427 through a second coupling 436. The rear end of the fixed top core shaft 427 is fixedly sleeved with a pin plate 428. A limit seat 429 is installed on the top of the pin plate 428. A pin seat 430 is fixed to the front end of the limit seat 429. A compression spring 431 is fixed at the center of the inner end of the limit seat 429. A gasket 432 is installed at the connection between the compression spring 431 and the limit seat 429. The compression spring 431 extends forward through the pin seat 430 and is connected to the pin 433. The front end of the fixed top core shaft 427 is axially connected to a cylinder top core 434. The inner end of the cylinder top core 434 has a concave locking groove 435, and the external protruding locking block 413 is snapped into the concave locking groove 435.

In order to facilitate understanding of the above technical solutions of the present invention, the above technical solutions of the present invention are described in detail below through specific usage methods.

The specific working process is:

1. Device installation and preparation:

First, fix the support seat 1 at the position required for the cable arranging operation to ensure its stable support, then install the support top rod 2 on the upper end of the support seat 1 to provide a stable support structure, and then install the cable arranging mechanism 3 on the side end of the support top rod 2 and adjust it to the required position.

Cable adjustment and cable routing:

According to the required angle and position of the cable, the cable arrangement structure is finely adjusted by adjusting the cable arrangement mechanism 3. The upper fixed cable arrangement part 300 is fixed to the upper side end of the support top rod to provide stable guidance for the cable. The telescopic adjustment component 330 is extended up and down to drive the two ends of the sliding shaft 1 311 of the load-bearing and adjusting cable arrangement part 310 to slide up and down in the lifting groove seat 304 extending from the bottom end of the fixed seat body 301 of the upper fixed cable arrangement part 300 and the support top rod 2, respectively, so as to adjust the upper and lower positions of the load-bearing and adjusting cable arrangement part, adjust the spacing between the load-bearing and adjusting cable arrangement part 310 and the lower support and adjusting cable arrangement part 320, and adjust up and down according to the cable requirements to meet the cable arrangement requirements of different cable products. The telescopic motor 342 of the radial cable arrangement part 340 drives the moving horizontal axis 343 to extend and retract forward and backward, so that the four-level cable multi-slot wire component 346 can be flexibly adjusted at the radial position to meet the cable arrangement requirements of different cables. The telescopic adjustment component 330 and the radial cable arrangement part 340 are used to achieve fine adjustment of the cable arrangement mechanism.

3. Push and rewind operation:

The thin cylinder 402 of the pushing cone 400 of the pushing and rewinding mechanism 4 drives the cylinder pressure plate spacer 403 to extend and retract, so that the cylinder pressure plate spacer 403 drives the thrust plate 404 to move, so that the sliding shaft 406 drives the movable top cone 412 and the outer protruding locking block 413 fixedly connected at the front end to move forward, so that the outer protruding locking block 413 enters the inner concave locking groove 435 at the inner end of the cylinder top core 434 at the front end of the fixed top core shaft 427 of the pushing core part 420, and then drives the worm gear reducer 422 through the variable frequency brake motor 421 to drive the reducer shaft 423 to rotate forward, so that the fixed top core shaft 427 and the cylinder top The core 434 rotates forward, thereby threading the concave locking groove 435 at the inner end of the cylinder top core 434 and the outer protruding locking block 413. When the variable frequency brake motor 421 or the worm gear reducer 422 fails, the operator can also manually rotate the pin 433, and the pin 433 drives the pin plate 428 to rotate, so that the pin plate 428 drives the fixed top core shaft 427 and the cylinder top core 434 to rotate, and the concave locking groove 435 in the cylinder top core 434 is threadedly locked with the outer protruding locking block 413, thereby locking and fixing the push cone 400 and the push core 420, ensuring the stability and controllability of the cable during the wiring process.

4. Cable arrangement and adjustment:

During the cable arrangement process, one end of the cable is sequentially connected to the first-level cable multi-slot wire component 303 of the upper fixed cable arrangement part 300 of the cable arrangement mechanism 3, the second-level cable multi-slot wire component 312 of the load-bearing and adjustable cable arrangement part, and the third-level cable multi-slot wire component 324 of the lower support and adjustable cable arrangement part 320. According to cables of different specifications, radial position winding is used when necessary, and the cable can also be stretched from the third-level cable multi-slot wire component 324 to the fourth-level cable multi-slot wire component 346 of the radial cable arrangement part 340. Finally, one end of the cable is wound around the top pushing cone 400 of the pushing and winding mechanism. At the same time, the cable arrangement is monitored to ensure the stability and correctness of the cable. If necessary, the cable can be fine-tuned by adjusting the cable arrangement mechanism 3 or the top pushing and winding mechanism 4 to ensure the quality and accuracy of the cable arrangement.

The pushing cone is separated from the pushing core. When the cable deviates or gets tangled, the variable frequency brake motor 421 drives the worm reducer 422 to drive the reducer shaft 423 to rotate in the opposite direction, driving the fixed top core shaft 427 and the cylinder top core 434 to rotate in the opposite direction. The inner concave locking groove 435 in the cylinder top core 434 is threadedly separated from the outer protruding locking block 413, and the pushing cone 400 of the pushing and winding mechanism 4 is retracted to process the cable.

Through the above steps, the cable power arranging device of the present invention can efficiently and stably complete the cable arranging operation, improve the quality and efficiency of the cable arranging operation, and at the same time have flexibility and adaptability to meet the cable arranging needs of different working environments and requirements.

In the description of the present invention, it should be noted that the orientation or positional relationship indicated by the terms "upper" and "lower" and the like is based on the orientation or positional relationship shown in the accompanying drawings, and is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as a limitation on the present invention. Unless otherwise clearly specified and limited, the terms "installed", "connected" and "connected" should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, or it can be an indirect connection through an intermediate medium, or it can be a connection between the two elements. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood according to the specific circumstances.

It should be noted that, in the present invention, relational terms such as "first" and "second" are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Moreover, the terms "include", "comprise" or any other variants thereof are intended to cover non-exclusive inclusion, so that a process, method, article or device including a series of elements includes not only those elements, but also other elements not explicitly listed, or also includes elements inherent to such process, method, article or device. In the absence of further restrictions, the elements defined by the sentence "comprise a ..." do not exclude the existence of other identical elements in the process, method, article or device including the elements.

The foregoing is merely a specific embodiment of the present invention, which enables those skilled in the art to understand or implement the present invention. Various modifications to these embodiments will be apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention will not be limited to the embodiments shown herein, but rather to the widest scope consistent with the principles and novel features of the invention described herein.

Claims (9)

1. A cable power arranging device, comprising a support seat (1), a support top rod (2) being fixedly arranged at the upper end of the support seat (1), a cable arranging mechanism (3) being installed at the side end of the support top rod (2), characterized in that the cable arranging mechanism (3) is an adjustable arranging structure, the cable arranging mechanism (3) is adjusted according to the position of the cable, so that the cable is wound on the cable arranging mechanism (3) and extends downward, a push-pull mechanism (4) is arranged at the side end of the support seat (1), the push-pull mechanism (4) is a detachable structure, when in use, the push-pull mechanism (4) is locked and fixed, and the lower end of the cable is wound on the push-pull mechanism (4); The cable arrangement mechanism (3) comprises an upper fixed arrangement portion (300) fixedly arranged on the upper side end of the support top rod (2), a load-bearing adjustment arrangement portion (310) being provided on the middle side end of the support top rod (2), and a lower support adjustment arrangement portion (320) being provided on the lower side end of the support top rod (2), a telescopic adjustment component (330) being connected between the load-bearing adjustment arrangement portion (310) and the lower support adjustment arrangement portion (320), one end of the telescopic adjustment component (330) being fixed on the lower support adjustment arrangement portion (320), and a lifting end of the telescopic adjustment component (330) being fixedly connected to the load-bearing adjustment arrangement portion (310), and the load-bearing adjustment arrangement portion (310) is driven by the lifting end of the telescopic adjustment component (330) to move up and down. 2. The cable power wiring device according to claim 1 is characterized in that the upper fixed wiring part (300) includes a fixed seat body (301), the fixed seat body (301) is fixedly arranged on the upper side end of the supporting top rod (2), a positioning shaft (302) is arranged at the inner end of the fixed seat body (301), a first-level cable multi-slot conductor component (303) is arranged on the positioning shaft (302) and is axially connected to it, and a lifting groove seat (304) is extended from the bottom end of the fixed seat body (301). 3. The cable power arranging device according to claim 1 is characterized in that the load-bearing and adjustable arranging portion (310) comprises a sliding shaft (311), a secondary cable multi-slot conductor component (312) is arranged on the sliding shaft (311) and is axially connected to the sliding shaft, and two ends of the sliding shaft (311) are respectively arranged in a lifting slot seat (304) and a supporting top rod (2). 4. The cable power cable arrangement device according to claim 1 is characterized in that the lower support and adjustment cable arrangement part (320) includes a support shaft seat body (321), an axial load-bearing bearing (322) is installed on the side end of the support shaft seat body (321), a transmission shaft (323) is axially connected to the upper axis of the axial load-bearing bearing (322), a three-level cable multi-slot conductor component (324) is arranged on the transmission shaft (323), and the other end of the transmission shaft (323) is axially connected to a positioning shaft disk (325), and the positioning shaft disk (325) is arranged in the support top rod (2). 5. The cable power wiring device according to claim 1 is characterized in that the cable wiring mechanism (3) further comprises a radial cable wiring portion (340), the radial cable wiring portion (340) is arranged at the radial side end of the support top rod (2), the radial cable wiring portion (340) comprises a radial positioning seat body (341), the radial positioning seat body (341) is fixed to the side end of the support top rod (2), a telescopic motor (342) is arranged at the inner end of the radial positioning seat body (341), the telescopic motor (342) is connected to the movable horizontal shaft (343) through a coupling 1 (347), a limited clamping groove block (344) is arranged at the center of the radial positioning seat body (341), the movable horizontal shaft (343) passes through the limited clamping groove (345) and extends forward, and a four-level cable multi-slot wire component (346) is arranged on the movable horizontal shaft (343) and is axially connected to it. 6. The cable power cable arrangement device according to claim 2, 3 or 4, characterized in that the cable multi-groove conductor component includes a linear bearing (351), the linear bearing (351) is sleeved on the shaft body through an interference fit, a deep groove ball bearing (352) is sleeved on the linear bearing (351) and has an interference fit with the deep groove ball bearing (352), a spacer sleeve (353) is installed at the joint between the linear bearing (351) and the deep groove ball bearing (352), and a multi-groove wire wheel (354) is provided on the outer edge of the deep groove ball bearing (352) and has a clearance fit with the deep groove ball bearing (352). 7. The cable power arranging device according to claim 1, characterized in that the pushing and winding mechanism (4) comprises a pushing cone (400) and a pushing core (420) locked and connected to the pushing cone (400). 8. The cable power traversing device according to claim 7 is characterized in that the pushing cone (400) comprises at least one pair of thin cylinders (402) fixedly arranged vertically by a cylinder fixing plate (401), the side ends of the thin cylinders (402) arranged vertically are fixedly connected with cylinder pressure plate spacers (403), a thrust plate (404) is fixedly connected between the cylinder pressure plate spacers (403), a cylinder shield (405) is arranged at the outer edges of the thrust plate (404) and the thin cylinder (402), a sliding shaft (406) is axially connected at the center of the thrust plate (404), and the sliding shaft (406) passes through the middle of the cylinder fixing plate (401). The center of the sliding shaft (406) is fixed with a positioning sleeve (407) at the side end of the cylinder fixing plate (401) and extends to the front end. The front end of the sliding shaft (406) is provided with a single-row deep groove ball bearing (408) which is clearance-matched therewith. The outer edge of the single-row deep groove ball bearing (408) is provided with a bearing seat (409). The other end of the bearing seat (409) is fixedly connected with dustproof pressure covers (410) on both sides. The center of the bearing seat (409) is fixedly connected with a flat plate pressure cover (411). The end of the dustproof pressure cover (410) away from the bearing seat (409) is fixedly connected to a movable top cone (412). The fixed front end of the movable top cone (412) is fixedly connected with an external protruding locking block (413). 9. The cable power wiring device according to claim 8 is characterized in that the pushing core part (420) includes a driving mechanism and a top core locking part that is transmission-connected to the driving mechanism, the driving mechanism includes a variable frequency brake motor (421), one end of the variable frequency brake motor (421) is provided with a worm gear reducer (422) and is drivingly connected to it, one end of the worm gear reducer (422) is transmission-connected with a reducer shaft (423), the reducer shaft (423) is arranged at the inner end of the reducer seat (424), the reducer seat (424) is fixed to the side end of the support seat body (1), the inner end of the reducer seat (424) is respectively provided with a tapered roller bearing (425) and a deep groove ball bearing (426) on both sides, the two ends of the reducer shaft (423) are respectively clearance-matched with the tapered roller bearing (425) and the deep groove ball bearing (426) and extend to the outside of the two ends, the reducer The front end portion of the shaft (423) close to the tapered roller bearing (425) is connected to the fixed top core shaft (427) through a second coupling (436). The fixed top core shaft (427) is provided with a pin plate (428) at the rear end of the fixed top core shaft (427). A limit seat (429) is installed at the top end of the pin plate (428). A pin seat (430) is fixed at the front end of the limit seat (429). A compression spring (430) is fixed at the center of the inner end of the limit seat (429). 31), a gasket (432) is installed at the connection between the compression spring (431) and the limit seat (429), the compression spring (431) extends forward through the pin seat (430) and is connected to the pin (433), the front end of the fixed top core shaft (427) is axially connected to the cylinder top core (434), the inner end of the cylinder top core (434) is a concave locking groove (435), and the outer protruding locking block (413) is snap-fitted into the concave locking groove (435).