CN116952750A

CN116952750A - Cable winding performance detection device and method

Info

Publication number: CN116952750A
Application number: CN202310961528.4A
Authority: CN
Inventors: 斯红超; 谭冬华; 赵启华; 魏涛; 刘福豪
Original assignee: Jiangxi Youer Testing And Certification Co ltd
Current assignee: Jiangxi Youer Testing And Certification Co ltd
Priority date: 2023-08-02
Filing date: 2023-08-02
Publication date: 2023-10-27

Abstract

The invention relates to the technical field of cable detection, in particular to a device and a method for detecting cable winding performance. The invention provides a cable winding performance detection device capable of rapidly adjusting the winding degree of a cable and realizing multi-state detection. The cable winding performance detection device comprises two stabilizing frames, an operation table, handles, a winding mechanism and the like, wherein the operation table is connected between the stabilizing frames, the handles are connected to the left side and the right side of the operation table, and the winding mechanism is arranged on the operation table. According to the invention, the sliding block is controlled to slide, so that the connecting rod drives the rotary reel to perform angle adjustment, the degree of cable winding is adjusted, then the first servo motor is started to start detection, the effect of multi-state cable winding performance detection is realized, and the accuracy of a test result is improved.

Description

Cable winding performance detection device and method

Technical Field

The invention relates to the technical field of cable detection, in particular to a device and a method for detecting cable winding performance.

Background

The cable is generally used for transmitting power or signals, the winding performance of the cable needs to be detected after the production of the cable is completed, and the maximum winding capability of the cable can be born under the normal condition is tested.

The utility model discloses a high tensile resistant flexible insulated cable of patent publication number CN1 14544338A, the on-line screen storage device comprises a base, detection device includes first ring piece, first coil piece, second ring piece and motion subassembly, the axial inboard fixedly connected with of barrel distributes even first ring piece, the axial inboard fixedly connected with of first ring piece distributes even first coil piece, the first ring piece is with the axial inboard fixedly connected with second ring piece of first ring piece, the axial inboard of second ring piece is provided with motion subassembly, and the device is through the cooperation effect between first ring piece, first magnetic force piece, second ring piece and the rotation ring, carries out the winding detection to the cable, nevertheless is difficult to adjust to the degree of cable winding, and the test state is comparatively single fixed for detect data accuracy nature reduces.

Therefore, a cable winding performance detection device capable of rapidly adjusting the winding degree of the cable and realizing multi-state detection is developed aiming at the problems.

Disclosure of Invention

In order to overcome the defect that the degree of cable winding is difficult to adjust by the existing device, the testing state is single and fixed, and the accuracy of detection data is reduced, the invention provides the cable winding performance detection device capable of rapidly adjusting the degree of cable winding and realizing multi-state detection.

The technical scheme of the invention is as follows:

the utility model provides a cable winding performance detection device, including the stabilizing frame, the operation panel, handle and crooked mechanism, there are two in total between the stabilizing frame, be connected with the operation panel between the stabilizing frame, the operation panel both sides all are connected with the handle, be equipped with crooked mechanism on the operation panel, crooked mechanism is including first servo motor, fixed reel, the support frame, the rotation reel, the connecting rod, slider and first leading truck, operation panel rear portion upside is connected with first servo motor, be connected with fixed reel on the first servo motor output shaft, stabilizing frame rear portion upside is connected with the support frame, the support frame top rotation is connected with two rotation reels, rotation connection between the rotation reel, operation panel front portion upside is connected with bilateral symmetry's first leading truck, sliding connection has the slider between the first leading truck, all rotation type connecting rod between slider and the rotation reel.

Further, the cable traction device comprises a traction mechanism, wherein the traction mechanism comprises a second guide frame, a sliding sleeve, traction blocks and elastic clamping blocks, the second guide frame is connected to the left upper side and the right upper side of the operating platform through bolts, the sliding sleeve is connected to the second guide frame in a sliding mode, the traction blocks used for traction of the two ends of the cable are connected to the sliding sleeve in a sliding mode, and the elastic clamping blocks used for limiting and locking the cable are connected to the traction blocks.

Further, the automatic feeding device further comprises an adjusting mechanism, the adjusting mechanism comprises a fixing frame, a second servo motor and a first screw rod, the fixing frame is connected to the position between the first guide frames, the fixing frame is installed on the operating platform, the fixing frame is connected with the second servo motor, an output shaft of the second servo motor is arranged in the rear direction, and the output shaft of the second servo motor is connected with the first screw rod connected with the sliding block in a threaded mode.

Further, the sliding mechanism comprises a first transmission component, a connecting frame, a first gear, a rack, a second gear, a bevel gear set, a second screw rod and a second transmission component, wherein the connecting frame is connected to the upper side of the left rear part of the operating platform, the first gear is rotationally connected to the connecting frame, the first transmission component is connected between the first gear and the fixed reel, the rack which can be mutually meshed with the first gear is slidingly connected to the upper side of the left rear part of the operating platform, the second screw rod is rotationally connected to the second guide frame, the second screw rod is in threaded connection with the adjacent sliding sleeve, the second gear which can be mutually meshed with the rack is rotationally connected to the upper side of the left side of the operating platform, the bevel gear set is connected between the screw rod on the left side and the second gear, and the second transmission component is connected between the second screw rods.

Further, the anti-falling mechanism comprises a fixed block, a rotating block, a limiting block and a torsion spring, wherein the upper side of one part of the rotating reel, which is not adjacent, is rotationally connected with the fixed block, the lower side of the other part of the rotating reel, which is not adjacent, is rotationally connected with the limiting block, the rotating block used for carrying out anti-falling protection on the cable is rotationally connected between the limiting block and the adjacent fixed block, the torsion spring is connected between the rotating block and the adjacent fixed block, and the torsion spring is wound on the adjacent rotating block.

Further, telescopic machanism still including, telescopic machanism is including screw sleeve, rotating piece, third lead screw, connecting block and telescopic link, and slide sleeve front side all is connected with screw sleeve, all is connected with the third lead screw in the screw sleeve in the slip, all rotates on the screw sleeve to be connected with the rotating piece, rotates the piece and all is connected with adjacent third lead screw thread formula, and slide sleeve rear side all is connected with the telescopic link, all is connected with the connecting block between telescopic link and the adjacent third lead screw, and the connecting block all is connected with adjacent traction block, and rotation type is connected between third lead screw and the adjacent connecting block.

Further, an anti-skid block for improving friction force is arranged on the fixed reel.

Furthermore, the inner sides of the elastic clamping blocks are inclined structures.

Further, the rotating parts are all provided with anti-skid patterns.

The application method of the cable winding performance detection device comprises the following specific steps:

step 1: firstly, winding a cable on a fixed reel and a rotary reel, and controlling a rotary piece to adjust the position of a traction block so that the traction block and an elastic clamping block limit and lock the two ends of the cable;

step 2: then, a first servo motor is started to enable the fixed reel to rotate, so that the first transmission assembly drives the first gear to rotate, at the moment, the rack moves and drives the second gear and the bevel gear set, the second screw rod starts to rotate, and the traction block is driven to automatically adjust traction;

step 3: then, a second servo motor is started to adjust the sliding block, the deflection angle of the rotary reel is adjusted, and multi-state winding degree detection is carried out;

step 4: in the detection process, the cable is subjected to anti-falling protection by the cooperation of the fixed block, the rotating block and the limiting block, and the first servo motor is closed after the detection is completed.

The beneficial effects are that:

1. according to the invention, the sliding block is controlled to slide, so that the connecting rod drives the rotary reel to perform angle adjustment, the degree of cable winding is adjusted, then the first servo motor is started to start detection, the effect of multi-state cable winding performance detection is realized, and the accuracy of a test result is improved.

2. According to the invention, the adjacent cables are limited and locked through the elastic clamping blocks, so that in the process of testing the winding performance of the cables, detection personnel can conveniently control the two ends of the cables, and the convenience of operation is improved.

3. According to the invention, the first screw rod is driven to rotate by the output shaft of the second servo motor, so that the sliding block automatically slides under the action of the first guide frame, and the effect of automatically adjusting the deflection angle of the rotating reel is realized.

4. According to the invention, the first servo motor drives the fixed reel to rotate, so that the first gear drives the rack to automatically slide, and the second gear drives the bevel gear set, so that the second screw rods all start to automatically rotate, and the automatic wire traction is realized, and meanwhile, the cable is drawn by matching with the fixed reel and the rotating reel, so that the automatic detection is realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention.

Fig. 3 is a schematic perspective view of the winding mechanism of the present invention.

Fig. 4 is a schematic perspective view of the traction mechanism of the present invention.

Fig. 5 is a schematic view of a part of a traction mechanism of the present invention.

Fig. 6 is a schematic perspective view of an adjusting mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a sliding mechanism according to the present invention.

Fig. 8 is a schematic perspective view of the anti-disengaging mechanism of the present invention.

Fig. 9 is an enlarged view of the perspective structure of the anti-drop mechanism of the present invention.

Fig. 10 is a schematic perspective view of the telescopic mechanism of the present invention.

In the reference numerals: the device comprises a 1-stabilizing frame, a 2-operating platform, a 3-handle, a 4-winding mechanism, a 41-first servo motor, a 42-fixed reel, a 43-supporting frame, a 44-rotating reel, a 45-connecting rod, a 46-sliding block, a 47-first guide frame, a 5-traction mechanism, a 51-second guide frame, a 52-sliding sleeve, a 53-traction block, a 54-elastic clamping block, a 6-adjusting mechanism, a 61-fixing frame, a 62-second servo motor, a 63-first lead screw, a 7-sliding mechanism, a 71-first transmission assembly, a 72-connecting frame, a 73-first gear, a 74-rack, a 75-second gear, a 76-bevel gear set, a 77-second lead screw, a 78-second transmission assembly, an 8-anti-falling mechanism, an 81-fixing block, an 82-rotating block, a 83-limiting block, a 84-torsion spring, a 9-telescopic mechanism, a 91-threaded sleeve, a 92-rotating member, a 93-third lead screw, a 94-connecting block and a 95-telescopic rod.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

The utility model provides a cable winding performance detection device, is shown as fig. 1 and fig. 2, including stable frame 1, operation panel 2, handle 3 and crooked mechanism 4, stable frame 1 is two altogether, is connected with operation panel 2 between the stable frame 1, and operation panel 2 both sides all are connected with portable's handle 3, are equipped with on the operation panel 2 to be used for carrying out crooked mechanism 4 of multi-angle winding test to the cable.

It should be noted that after the cable production is completed, the cable needs to be subjected to the winding performance test, so that the cable is ensured to be normally put into use, the operation table 2 is placed at the detection position through the handle 3, and then the cable is subjected to the multi-angle winding test through the winding mechanism 4, so that the accuracy of the test result is improved.

As shown in fig. 1 and 3, the winding mechanism 4 includes a first servo motor 41, a fixed reel 42, a supporting frame 43, a rotating reel 44, a connecting rod 45, a sliding block 46 and a first guiding frame 47, wherein the upper side of the rear part of the operating platform 2 is connected with the first servo motor 41 through a bolt, the output shaft of the first servo motor 41 is arranged in an upward direction, the output shaft of the first servo motor 41 is connected with the fixed reel 42, the fixed reel 42 is provided with an anti-slip block for improving friction force, the cable is prevented from loosening, the upper side of the rear part of the stabilizing frame 1 is connected with the supporting frame 43 through a bolt, the supporting frame 43 is positioned at the front side of the first servo motor 41, the top of the supporting frame 43 is rotatably connected with the two rotating reels 44, the matching between the rotating reels 44 and the fixed reel 42 can wind a cable, the upper side of the front part of the operating platform 2 is connected with the first guiding frame 47 which is symmetrical left and right through a bolt, the sliding block 46 is connected with the sliding block 46 between the first guiding frame 47, and the rotating reels 44 are both rotated by the connecting rod 45.

It should be noted that, when testing the cable winding performance, the cable needs to be wound between the fixed reel 42 and the rotating reel 44, then the first servo motor 41 is started to drive the fixed reel 42 to rotate, so as to test the cable winding performance, in the testing process, the sliding block 46 is controlled to slide under the guiding action of the first guide frame 47, so that the sliding block 46 drives the connecting rod 45 to move, and then the connecting rod 45 drives the rotating reel 44 to rotate and adjust under the guiding of the support frame 43, the angle of the cable winding is adjusted, the effect of multi-angle winding test is achieved, after the detection is finished, the first servo motor 41 is closed, in sum, the sliding is controlled by the sliding block 46, so that the connecting rod 45 drives the rotating reel 44 to perform angle adjustment, the degree of cable winding is adjusted, then the first servo motor 41 is started to perform detection, the effect of multi-state cable winding performance detection is achieved, and the accuracy of the test result is improved.

As shown in fig. 1, fig. 4 and fig. 5, the cable pulling device further comprises a pulling mechanism 5, the pulling mechanism 5 comprises a second guide frame 51, a sliding sleeve 52, a pulling block 53 and an elastic clamping block 54, the upper sides of the left part and the right part of the operating platform 2 are connected with the second guide frame 51 through bolts, the sliding sleeve 52 is connected onto the second guide frame 51 in a sliding mode, the pulling block 53 is connected onto the sliding sleeve 52 in a sliding mode, the pulling block 53 is used for pulling two ends of a cable, the pulling block 53 is connected with a plurality of elastic clamping blocks 54, the elastic clamping blocks 54 are used for limiting and locking the cable, and the inner sides of the elastic clamping blocks 54 are of inclined structures.

When the cable winding performance is detected, the rotating reel 44 is driven to rotate according to the connecting rod 45 to perform sliding adjustment on the corresponding position of the traction block 53, then two ends of the cable are respectively clamped with the traction block 53, so that the elastic clamping blocks 54 can limit and lock one end of the adjacent cable, and then when the cable winding test is performed, the traction block 53 is controlled to assist in pulling the cable, in summary, the adjacent cable is limited and locked through the elastic clamping blocks 54, thereby being convenient for a detector to control two ends of the cable in the process of performing the cable winding performance test and improving the convenience of operation.

As shown in fig. 1 and 6, the device further comprises an adjusting mechanism 6, the adjusting mechanism 6 comprises a fixing frame 61, a second servo motor 62 and a first screw 63, the fixing frame 61 is connected to the position between the first guide frames 47 through bolts, the fixing frame 61 is mounted on the operating platform 2, the second servo motor 62 is connected to the fixing frame 61 through bolts, the first screw 63 is connected to an output shaft of the second servo motor 62, and the first screw 63 is connected with the sliding block 46 through threads.

It should be noted that, when the position of the sliding block 46 needs to be adjusted, the second servo motor 62 may be directly started, and the output shaft of the second servo motor 62 drives the first screw rod 63 to rotate, so that the sliding block 46 starts to automatically slide and adjust under the action of the first guide frame 47, and then the angle of the rotating reel 44 is automatically adjusted, after the adjustment is completed, the second servo motor 62 is closed, so that the output shaft of the second servo motor 62 drives the first screw rod 63 to rotate, so that the sliding block 46 automatically slides under the action of the first guide frame 47, and the effect of automatically adjusting the deflection angle of the rotating reel 44 is achieved.

As shown in fig. 1 and 7, the sliding mechanism 7 further comprises a first transmission component 71, a connecting frame 72, a first gear 73, a rack 74, a second gear 75, a bevel gear set 76, a second screw rod 77 and a second transmission component 78, wherein the upper side of the left rear part of the operating platform 2 is connected with the connecting frame 72 through bolts, the connecting frame 72 is rotatably connected with the first gear 73, the first transmission component 71 is connected between the first gear 73 and the fixed reel 42, the rack 74 is slidably connected with the upper side of the left rear part of the operating platform 2, the rack 74 can be meshed with the first gear 73, the second screw rods 77 are rotatably connected with the second guide frames 51, the second screw rods 77 are in threaded connection with the adjacent sliding sleeves 52, the upper side of the left part of the operating platform 2 is rotatably connected with the second gear 75, the second gear 75 can be meshed with the rack 74, the bevel gear set 76 is connected between the left screw rods and the second gear 75, and the second transmission component 78 is connected between the second screw rods 77.

It should be noted that, as the fixed reel 42 starts to automatically rotate under the drive of the output shaft of the first servo motor 41, the fixed reel 42 drives the first transmission component 71 to operate, so that the first gear 73 rotates to drive the rack 74 to slide forward, the rack 74 slides forward to drive the second gear 75 to rotate backward, and then the bevel gear set 76 drives the left second lead screw 77 to rotate, and then the second transmission component 78 drives the right second lead screw 77 to rotate, so that the sliding sleeve 52 can automatically slide under the action of the second guide frame 51, and then the fixed reel 42 and the rotating reel 44 are matched to pull the cable, the automatic detection effect is achieved, and similarly, as the output shaft of the first servo motor 41 drives to start to reversely rotate, the fixed reel 42 drives the first transmission component 71 to reversely rotate, and at this time the rack 74 slides backward, so that the sliding sleeve 52 is correspondingly slidably adjusted, the adaptive pulling effect is achieved, and the first servo motor 41 drives the fixed reel 42 to rotate, so that the first automatic gear 73 drives the first gear 74 to automatically slide the second gear 75, and the second wire harness 76 is automatically pulled, and the automatic detection of the cable is simultaneously, and the automatic detection of the cable is achieved, and the automatic detection of the automatic rotation of the cable is achieved.

As shown in fig. 1, 8 and 9, the cable anti-falling mechanism 8 further comprises an anti-falling mechanism 8, wherein the anti-falling mechanism 8 comprises a fixed block 81, a rotating block 82, a limiting block 83 and a torsion spring 84, the upper sides of the non-adjacent parts of the rotating reels 44 are all rotationally connected with the fixed block 81, the lower sides of the non-adjacent parts of the rotating reels 44 are all rotationally connected with the limiting block 83, the rotating block 82 is rotationally connected between the limiting block 83 and the adjacent fixed block 81, the rotating block 82 is used for anti-falling protection of the cable, and the torsion spring 84 is all connected between the rotating block 82 and the adjacent fixed block 81.

It should be noted that, when detecting the winding performance of the cable, in order to ensure that the cable can keep attached to the rotating winding wheel, the cable is limited and locked through the cooperation among the fixed block 81, the rotating block 82 and the limiting block 83, so as to avoid the cable from loosening and improve the attaching stability of the cable.

As shown in fig. 1 and 10, the telescopic mechanism 9 further comprises a threaded sleeve 91, a rotating member 92, a third screw rod 93, a connecting block 94 and a telescopic rod 95, wherein the front side of the sliding sleeve 52 is connected with the threaded sleeve 91, the third screw rod 93 is connected in the threaded sleeve 91 in a sliding manner, the threaded sleeve 91 is connected with the rotating member 92 in a rotating manner, the rotating member 92 is connected with the adjacent third screw rod 93 in a threaded manner, the rotating member 92 is provided with anti-skid threads, the telescopic rod 95 is connected to the rear side of the sliding sleeve 52, the telescopic rod 95 is connected with the connecting block 94 between the adjacent third screw rod 93, the connecting block 94 is connected with the adjacent traction block 53, and the third screw rod 93 is connected with the adjacent connecting block 94 in a rotating manner.

It should be noted that, when the position of the traction block 53 is adjusted, the corresponding rotating member 92 may be directly rotated, so that the adjacent third screw rods 93 start to rotate, so that the connecting block 94 may drive the traction block 53 to adjust the position, and in the adjusting process, the adjusting stability is improved through the corresponding telescopic rod 95.

step 1: firstly, the cable is wound on the fixed reel 42 and the rotary reel 44, and the rotary piece 92 is controlled to adjust the position of the traction block 53, so that the traction block 53 and the elastic clamping block 54 limit and lock the two ends of the cable;

step 2: then, the first servo motor 41 is started to enable the fixed reel 42 to rotate, so that the first transmission assembly 71 drives the first gear 73 to rotate, at the moment, the rack 74 moves and drives the second gear 75 and the bevel gear group 76, the second screw rod 77 starts to rotate, and the traction block 53 is driven to automatically adjust traction;

step 3: then, the second servo motor 62 is started to adjust the sliding block 46, and the deflection angle of the rotary reel 44 is adjusted to detect the multi-state winding degree;

step 4: in the detection process, the fixed block 81, the rotating block 82 and the limiting block 83 are matched to prevent the cable from falling off, and the first servo motor 41 is turned off after the detection is completed.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims

1. The utility model provides a cable winding performance detection device, includes stabilizing frame (1), operation panel (2), handle (3) and crooked mechanism (4), stabilizing frame (1) are total two, are connected with operation panel (2) between stabilizing frame (1), and operation panel (2) both sides all are connected with handle (3), are equipped with crooked mechanism (4) on operation panel (2), its characterized in that: the winding mechanism (4) comprises a first servo motor (41), a fixed reel (42), a supporting frame (43), rotating reels (44), a connecting rod (45), a sliding block (46) and a first guide frame (47), wherein the upper side of the rear part of the operating platform (2) is connected with the first servo motor (41), the fixed reel (42) is connected to an output shaft of the first servo motor (41), the supporting frame (43) is connected to the upper side of the rear part of the stabilizing frame (1), the two rotating reels (44) are rotatably connected to the top of the supporting frame (43), the rotating reels (44) are rotatably connected, the first guide frames (47) which are bilaterally symmetrical are connected to the upper side of the front part of the operating platform (2), the sliding block (46) is connected between the first guide frames (47), and the connecting rod (45) is rotatably connected between the sliding block (46) and the rotating reels (44).

2. A cable winding performance detection apparatus according to claim 1, wherein: still including traction mechanism (5), traction mechanism (5) are including second leading truck (51), sliding sleeve (52), traction block (53) and elasticity fixture block (54), two portion upside all are connected with second leading truck (51) through the bolt, all slide on second leading truck (51) are connected with sliding sleeve (52), all slide on sliding sleeve (52) are connected with and are used for carrying out traction block (53) to the cable both ends, all be connected with a plurality of elasticity fixture blocks (54) that are used for carrying out spacing locking to the cable on traction block (53).

3. A cable winding performance detection apparatus according to claim 2, wherein: still including adjustment mechanism (6), adjustment mechanism (6) are including mount (61), second servo motor (62) and first lead screw (63), and the position between first leading truck (47) is connected with mount (61), and mount (61) are installed on operation panel (2), are connected with second servo motor (62) on mount (61), and second servo motor (62) output shaft is the back orientation setting, is connected with first lead screw (63) of being connected with slider (46) screw thread on second servo motor (62) output shaft.

4. A cable winding performance testing apparatus according to claim 3, wherein: the automatic feeding device is characterized by further comprising a sliding mechanism (7), wherein the sliding mechanism (7) comprises a first transmission component (71), a connecting frame (72), a first gear (73), a rack (74), a second gear (75), a bevel gear set (76), a second screw rod (77) and a second transmission component (78), the connecting frame (72) is connected to the upper side of the left rear part of the operating platform (2), the first gear (73) is rotatably connected to the connecting frame (72), the first transmission component (71) is connected between the first gear (73) and a fixed reel (42), racks (74) capable of being meshed with the first gear (73) are slidably connected to the upper side of the left rear part of the operating platform (2), the second screw rods (77) are rotatably connected to the adjacent sliding sleeves (52), the second screw rods (77) are rotatably connected to the upper side of the left rear part of the operating platform (2), the second gears (75) capable of being meshed with the racks (74) are rotatably connected to the upper side of the left rear part of the operating platform, the bevel gears (75), and the second screw rods (77) are connected to the second transmission components (78).

5. A cable winding performance testing apparatus according to claim 4, wherein: still including anticreep mechanism (8), anticreep mechanism (8) are including fixed block (81), rotating block (82), stopper (83) and torsional spring (84), all rotate and are connected with fixed block (81) on the non-adjacent one portion upside of rotation reel (44), all rotate and be connected with stopper (83) on the non-adjacent one portion downside of rotation reel (44), rotate between stopper (83) and adjacent fixed block (81) and be connected with rotating block (82) that are used for carrying out anticreep protection to the cable, all be connected with torsional spring (84) between rotating block (82) and the adjacent fixed block (81), torsional spring (84) are all around on adjacent rotating block (82).

6. A cable winding performance testing apparatus according to claim 5, wherein: still including telescopic machanism (9), telescopic machanism (9) are including screw sleeve (91), rotating piece (92), third lead screw (93), connecting block (94) and telescopic link (95), slide sleeve (52) front side all is connected with screw sleeve (91), all sliding connection has third lead screw (93) in screw sleeve (91), all rotating connection has rotating piece (92) on screw sleeve (91), rotating piece (92) all with adjacent third lead screw (93) screw thread connection, slide sleeve (52) rear side all is connected with telescopic link (95), all be connected with connecting block (94) between telescopic link (95) and the adjacent third lead screw (93), connecting block (94) all are connected with adjacent traction block (53), rotating connection between third lead screw (93) and the adjacent connecting block (94).

7. A cable winding performance detection apparatus according to claim 1, wherein: the fixed reel (42) is provided with an anti-skid block for improving friction force.

8. A cable winding performance detection apparatus according to claim 2, wherein: the inner sides of the elastic clamping blocks (54) are inclined structures.

9. The cable winding performance detection apparatus as set forth in claim 6, wherein: the rotating parts (92) are provided with anti-skid patterns.

10. A method of using the cable winding performance detection apparatus according to any one of claims 1 to 9, characterized in that: the method comprises the following specific steps:

step 1: firstly, winding a cable on a fixed reel (42) and a rotary reel (44), and controlling a rotary piece (92) to adjust the position of a traction block (53) so that the traction block (53) and an elastic clamping block (54) limit and lock the two ends of the cable;

step 2: then, a first servo motor (41) is started to enable the fixed reel (42) to rotate, so that the first transmission assembly (71) drives the first gear (73) to rotate, at the moment, the rack (74) moves and drives the second gear (75) and the bevel gear group (76), the second screw rod (77) starts to rotate, and the traction block (53) is driven to automatically adjust traction;

step 3: then, a second servo motor (62) is started to adjust the sliding block (46), the deflection angle of the rotary reel (44) is adjusted, and multi-state winding degree detection is carried out;

step 4: in the detection process, the cable is subjected to anti-falling protection by matching of the fixed block (81), the rotating block (82) and the limiting block (83), and the first servo motor (41) is closed after detection is completed.