CN113387231B

CN113387231B - Wireless remote control cable winch equipment

Info

Publication number: CN113387231B
Application number: CN202110556485.2A
Authority: CN
Inventors: 丁雨欣; 丁明宏; 梁五元; 邱水林; 戴杰
Original assignee: Mingchuang Huiyuan Changsha Mine Design And Research Institute Co ltd
Current assignee: Mingchuang Huiyuan Changsha Mine Design And Research Institute Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2023-02-03
Anticipated expiration: 2041-05-21
Also published as: CN113387231A

Abstract

The invention discloses a wireless remote control cable winch device which structurally comprises a device cabinet, a fixed seat, a driving shaft and a signal transceiver, wherein the upper surface of the device cabinet is integrally embedded and connected with the signal transceiver, the inside of the signal transceiver is in clearance fit with the inside of the driving shaft, the whole of the driving shaft is in clearance fit with the upper end of the fixed seat, the surface of the fixed seat is fixed with the bottom of the device cabinet through a bolt, the device cabinet comprises a stabilizer, a two-way motor, a reversing sleeve and a winch, the top end of the stabilizer is in clearance fit with the surface of the winch, and the left side of the winch is in clearance fit with the inside of the reversing sleeve.

Description

Wireless remote control cable winch equipment

Technical Field

The invention relates to the field of cable equipment, in particular to wireless remote control cable winch equipment.

Background

The cable winch is mainly used for winding the cable, the cable is gathered together through the rotation of the winch, along with the progress of modern science and technology, the two original cable winches which can only be operated and wound are further upgraded, the winding and unwinding of the winch can be achieved through wireless remote control, and the convenience in use of the cable winch is improved to a great extent;

however, the prior art has the following defects: the current wireless remote control's cable reel equipment owing to just reversing through wireless receiver control driving motor, carries out the rolling through the capstan winch to the cable conductor after the use, and the capstan winch is overlapped together because the cable conductor is crisscross when the gyration, and the cable conductor that leads to the rolling receives irregular extrusion winding, and then causes the cable conductor to be qualified for the next round of competitions easily and takes place chuck phenomenon when being qualified for the next round of competitions.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a wireless remote control cable winch device to solve the problem that in the prior art, due to the fact that the wireless receiver controls the forward and reverse rotation of the driving motor, a cable is wound through the winch after use, and the cable is overlapped in a staggered mode when the winch rotates, the wound cable is extruded and wound irregularly, and therefore the phenomenon of clamping during cable outgoing is prone to occur in the subsequent use process.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a wireless remote control's cable reel equipment, its structure includes equipment cabinet, fixing base, drive shaft, signal transceiver, the equipment cabinet upper surface is connected with the whole built-in of signal transceiver, the inside and the inside clearance fit of drive shaft of signal transceiver, the whole and fixing base upper end clearance fit of drive shaft, fixing base surface and equipment cabinet bottom bolt fastening, the equipment cabinet includes stabiliser, two-way motor, switching-over sleeve, capstan winch, stabiliser top and capstan winch surface clearance fit, capstan winch left side and the inside clearance fit of switching-over sleeve, the inside meshing with the two-way motor top of switching-over sleeve is connected, the whole clearance fit of two-way motor top and capstan winch.

The invention is further improved, the stabilizer comprises a top cable support, a support table, a pressure reducing pull rope and a telescopic column, wherein two sides of the top cable support are in clearance fit with the inside of the pressure reducing pull rope, the inner side of the pressure reducing pull rope is movably matched with the inside of the support table, the surface of the support table is nested and connected with the bottom of the telescopic column, two sides of the telescopic column are in clearance fit with the inner side of the top cable support, and the two top cable supports are distributed on the outer side of the telescopic column and are in clearance fit with the inner side of the pressure reducing pull rope.

The invention is further improved, the top cable support column comprises a pressed block, a sliding clamping jaw, a sliding groove and a spring column, the bottom surface of the pressed block is fixedly connected with the surface of the spring column in an embedded mode, the lower end of the spring column is connected with the surface of the sliding clamping jaw in a welding mode, the surface of the sliding clamping jaw is in sliding fit with the surface of the sliding groove, the upper end of the sliding groove is in clearance fit with the whole spring column, the sliding clamping jaws are distributed on the surface of the bottom of the spring column to be in welding connection, and the surface of the sliding clamping jaw is in sliding fit with the surface of the sliding groove.

The invention is further improved, the compression block comprises an elastic strip, a limiting block, a scraping-proof block and a swing frame, two sides of the elastic strip are connected with the side wall of the limiting block in a clamping manner, the inner wall of the limiting block is fixedly embedded with the outer wall of the swing frame, the upper surface of the swing frame is integrally fixedly embedded with the scraping-proof block, the surface of the elastic strip is movably matched with the outer wall of the swing frame, the scraping-proof block is distributed on the surface of the swing frame for fixedly embedding connection, and the outer surface of the swing frame is in hinged fit with the surface of the elastic strip.

The winch is further improved, the winch comprises a wire carrying disc, an anti-falling pin and a limiting plate, the center of the wire carrying disc is integrally connected with the anti-falling pin in a nested mode, the inner side of the anti-falling pin is in clearance fit with the surface of the limiting plate, the inner side of the limiting plate is connected with the surface of the wire carrying disc in a clamping mode, and the anti-falling pin is distributed in the center positions of the outer sides of the wire carrying disc and the limiting plate and is fixed in a nested mode.

The wire carrier is further improved, the wire carrier comprises a smoothing seat, a fixing bolt, a chuck body and a pin connecting rope, two sides of the smoothing seat are movably clamped with the surface of the chuck body, the surface of the chuck body is fixed with the fixing bolt integrally, the surface of the fixing bolt is connected with the top end of the pin connecting rope in a nested manner, the surface of the pin connecting rope is in clearance fit with the bottom of the smoothing seat, the smoothing seats are distributed on the surface of the chuck body for movable clamping, the number of the smoothing seats is four, and the inner parts of the smoothing seats and the pin connecting rope form clearance fit.

The smoothing seat is further improved and comprises a guide wheel, a seat cavity, a damping sleeve and a fixing frame, wherein the center of the guide wheel is fixedly embedded and connected with the top end of the fixing frame, the whole fixing frame is movably matched with the inside of the seat cavity, the lower surface of the seat cavity is fixedly embedded and connected with the whole damping sleeve, the inside of the damping sleeve is connected with the bottom of the fixing frame in an embedded mode, the damping sleeve is distributed on the bottom surface of the seat cavity to be fixedly embedded and connected, and the upper end of the damping sleeve is matched with the lower surface of the fixing frame in an embedded mode.

The guide wheel is further improved, the guide wheel comprises a self-rotation inserting shaft, an inner concave groove and a scraping-proof cushion block, the self-rotation inserting shaft is integrally connected with the inner part of the inner concave groove in a nested mode, the surface of the inner concave groove is in clearance fit with the inner side of the scraping-proof cushion block, two sides of the scraping-proof cushion block are in movable fit with the surface of the self-rotation inserting shaft, the inner concave grooves are distributed on the inner side of the scraping-proof cushion block to be in clearance fit, and the middle of the inner concave grooves is in hinged fit through the self-rotation inserting shaft.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects;

1. according to the invention, when the cable is wound by the winch, the cable is jacked by the cable jacking strut through the stabilizer, the sliding clamping jaw slides on the surface of the sliding channel under the matching of the spring column and the pressed block during jacking, so that the pushing pressure of the cable is released, and then the cable is jacked and closed by perfectly attaching the matched anti-scraping block and the surface of the cable, so that the compactness during winding of the cable is effectively improved, and the cable is prevented from being loosened when being folded.

2. According to the invention, the smoothing seat movably clamped on the surface of the wire carrying disc is matched with the self-rotation inserting shaft and the concave wire groove to clamp the cable in the limiting plate for rotation when the cable is wound, so that the guidance for assisting the winding of the cable according to an appointed rotation circuit is achieved, and the problem of chuck phenomenon when the cable is wound and is led out in subsequent use due to staggered overlapping of the cable is effectively avoided.

Drawings

Fig. 1 is a schematic structural view of a wireless remote controlled cable winch apparatus according to the present invention.

Fig. 2 is a schematic top view of the equipment cabinet of the present invention.

Fig. 3 is a schematic view of the internal structure of the stabilizer of the present invention.

Fig. 4 is a schematic view of the internal structure of the top cable support according to the present invention.

FIG. 5 is a schematic top view of the pressed block of the present invention.

FIG. 6 is a side view of the winch of the present invention.

Fig. 7 is a schematic view showing the internal structure of the carrier disc of the present invention.

Fig. 8 is a schematic view of the internal structure of the smoothing seat of the present invention.

Fig. 9 is a schematic top view of the guide wheel of the present invention.

In the figure: the device comprises an equipment cabinet-1, a fixed seat-2, a driving shaft-3, a signal transceiver-4, a stabilizer-11, a bidirectional motor-12, a reversing sleeve-13, a winch-14, a cable jacking strut-111, a supporting table-112, a pressure reducing pull rope-113, a telescopic column-114, a pressure block-a 1, a sliding jaw-a 2, a sliding groove-a 3, a spring column-a 4, an elastic strip-a 11, a limiting block-a 12, a scratch-proof block-a 13, a swinging frame-a 14, a wire carrying disc-141, a separation-proof pin-142, a limiting plate-143, a smoothing seat-b 1, a fixed bolt-b 2, a chuck body-b 3, a connecting pin rope-b 4, a guide wheel-b 11, a seat cavity-b 12, a damping sleeve-b 13, a fixed frame-b 14, a self-rotating insertion shaft-c 1, an inner concave wire groove-c 2 and a scratch-proof cushion block-c 3.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without any inventive work based on the embodiments of the present invention belong to the protection scope of the present invention.

The invention is further described below with reference to the accompanying drawings:

example 1

As shown in figures 1 to 5:

its structure includes equipment cabinet 1, fixing base 2, drive shaft 3, signal transceiver 4, 1 upper surface of equipment cabinet is connected with signal transceiver 4 is whole to be embedded solid, the inside and 3 inside clearance fit of drive shaft of signal transceiver 4, the whole and 2 upper end clearance fits of fixing base of 3, 2 surfaces of fixing base and 1 bottom bolt fastening of equipment cabinet, equipment cabinet 1 includes stabiliser 11, two-way motor 12, switching-over sleeve 13,

capstan winch

14, 11 tops of stabiliser and 14 surface clearance fits of capstan winch, 14 left sides of capstan winch and 13 inside clearance fit of switching-over sleeve, the inside meshing with 12 tops of two-way motor of switching-over sleeve 13 is connected, 12 tops of two-way motor and 14 whole clearance fits of capstan winch.

The stabilizer 11 includes a top cable support 111, a support table 112, a pressure-reducing pull rope 113 and a telescopic column 114, two sides of the top cable support 111 are in clearance fit with the pressure-reducing pull rope 113, the inner side of the pressure-reducing pull rope 113 is in clearance fit with the inner side of the support table 112, the surface of the support table 112 is in nested connection with the bottom of the telescopic column 114, two sides of the telescopic column 114 are in clearance fit with the inner side of the top cable support 111, the top cable support 111 is provided with two parts which are distributed on the outer side of the telescopic column 114 and in clearance fit with the inner side of the pressure-reducing pull rope 113, and the telescopic column 114 is favorable for the matching support table 112 with the pressure-reducing pull rope 113 to extend and retract back so as to further push up and close the cable by the auxiliary top cable support 111.

Wherein, top cable pillar 111 is including receiving piece a1, slip jack catch a2, sliding tray a3, spring post a4, receive piece a1 bottom surface and the surface of spring post a4 and inlay solid and be connected, spring post a4 lower extreme and slip jack catch a2 surface welded connection, slip jack catch a2 surface and sliding tray a3 surface sliding fit, sliding tray a3 upper end and the whole clearance fit of spring post a4, slip jack catch a2 distributes and carries out welded connection at spring post a4 bottom surface, then slip jack catch a2 surface then carries out sliding fit with sliding tray a3 surface, wherein spring post a4 is favorable to carrying out the shock attenuation to the cable conductor surface to the shock-absorbing structure through the surface carries out pressure release and buffering to the cable conductor, thereby reaches the compactibility of cable conductor rolling.

Wherein, the piece a1 that receives includes elastic strip a11, restriction piece a12, prevents scraping piece a13, swing span a14, elastic strip a11 both sides and restriction piece a12 lateral wall block are connected, restriction piece a12 inner wall and swing span a14 outer wall are connected in the embedded solid, swing span a14 upper surface with prevent scraping the whole embedded solid of piece a13 and be connected, elastic strip a11 surface and swing span a14 outer wall clearance fit, prevent scraping piece a13 and distribute and carry out the embedded solid on swing span a14 surface and be connected, then swing span a 14's surface and elastic strip a11 surface carry out articulated cooperation, wherein prevent scraping piece a13 and be favorable to avoiding the cable surface scratch to appear in the in-process of top closed cable line surface, also can further push up closed when the cable conductor rolling simultaneously, prevent that the cable conductor from becoming flexible.

The specific working principle is as follows:

according to the wireless remote control device, wireless remote control is achieved through the signal transceiver 4 on the fixed seat 2, the equipment cabinet 1 triggers the driving shaft 3 on the fixed seat 2 to drive the winch 14, the bidirectional motor 12 is matched with the reversing sleeve 13 to trigger the winch 14 when the bidirectional motor is driven to rotate, in the cable winding process, the cable surface is movably matched with the stabilizer 11, so that the cable pushing support 111 and the inner telescopic column 114 contract towards the inside of the support table 112 under the matching of the two-end pressure reducing pull ropes 113, the sliding clamping jaw a2 slides on the inner surface of the sliding groove a3, the pressure of the wound cable is released by the pressure block a1 at the top end under the matching of the spring column a4 for buffering, the scraping-preventing block a13 in the limiting block a12 is attached to the cable surface under the assistance of the elastic strip a11 and the swinging frame a14 in the buffering process, the cable is pushed by the cable pushing support 111 when the cable is wound by the stabilizer 11, the sliding clamping jaw a2 is attached to the cable surface under the matching of the spring column a4 and the pressing block a3 in the lifting process, and the cable pushing-preventing block a sliding and the clamping jaw a is pushed to be attached to improve the cable surface, and the cable pressing performance of the cable is improved, and the cable is effectively pushed to be attached to be loosened.

Example 2:

as shown in fig. 6 to 9:

the winch 14 comprises a wire carrying disc 141, a disengagement preventing pin 142 and a limiting plate 143, wherein the center of the wire carrying disc 141 is integrally connected with the disengagement preventing pin 142 in a nested manner, the inner side of the disengagement preventing pin 142 is in surface clearance fit with the limiting plate 143, the inner side of the limiting plate 143 is in surface clamping connection with the wire carrying disc 141, the disengagement preventing pin 142 is distributed at the outer center positions of the wire carrying disc 141 and the limiting plate 143 and is fixed in a nested manner, the limiting plate 143 is favorable for protecting the cable in the process of winding the cable, and meanwhile, the cable can be wound more neatly through the limiting plate 143.

The wire carrying disc 141 comprises a smoothing seat b1, a fixed bolt b2, a chuck body b3 and a pin connecting rope b4, wherein the two sides of the smoothing seat b1 are movably clamped with the surface of the chuck body b3, the surface of the chuck body b3 is integrally fixed with the fixed bolt b2 through bolts, the surface of the fixed bolt b2 is connected with the top end of the pin connecting rope b4 in a nested manner, the surface of the pin connecting rope b4 is in clearance fit with the bottom of the smoothing seat b1, the smoothing seats b1 are distributed on the surface of the chuck body b3 for movable clamping, the number of the smoothing seats is four, the insides of the smoothing seats and the pin connecting rope b4 form clearance fit, the smoothing seat b1 is favorable for bearing cables wound and entered, and the cables are arranged and smoothed by matching with an internal structure in the bearing process.

Wherein, the seat b1 of stroking down with fingers includes leading wheel b11, seat b12, shock attenuation cover b13, mount b14, leading wheel b11 center is connected with mount b14 top is embedded firmly, the whole inside clearance fit with seat b12 of mount b14, seat b12 lower surface is connected with shock attenuation cover b13 is whole embedded firmly, the inside and mount b14 bottom nested joint of shock attenuation cover b13, shock attenuation cover b13 distributes and carries out embedded firmly at seat b12 bottom surface and is connected, and the upper end carries out nested cooperation with mount b14 lower surface, and wherein mount b14 is favorable to supporting leading wheel b11, also can receive the pressure simultaneously and carry out clearance fit with lower extreme shock attenuation cover b13 is inside to reach the pressure buffering.

Wherein, leading wheel b11 includes rotation plug shaft c1, interior recess wire casing c2, prevents scraping cushion c3, rotation plug shaft c1 is whole with the inside nested connection of interior recess wire casing c2, interior recess wire casing c2 surface with prevent scraping the inboard clearance fit of cushion c3, prevent scraping cushion c3 both sides and rotation plug shaft c1 surface clearance fit, interior recess wire casing c2 distributes and is preventing scraping cushion c3 inboard and carry out clearance fit, and the centre is inserted shaft c1 by the rotation and is carried out articulated cooperation, and wherein interior recess wire casing c2 is favorable to carrying out the block to the cable conductor surface of rolling, avoids carrying out the rolling according to the direction at the in-process cable conductor of rolling, and the crisscross overlapping extrusion of cable that causes takes place the problem together.

The specific working principle is as follows:

according to the invention, a coiled cable is borne by a wire carrying disc 141 in a capstan 14, a separation-preventing pin 142 is fixed at the outer end of the wire carrying disc by a limiting plate 143, a smoothing seat b1 clamped on the surface of a chuck body b3 assists a cable rope in the process of coiling the cable, an internal fixing bolt b2 and a connecting pin rope b4 support the bottom of the smoothing seat b1, so that a concave slot c2 on the surface of a guide wheel b11 is clamped on the surface of the cable under the pressure of the cable, then a self-rotation inserting shaft c1 and a scraping-preventing cushion block c3 assist the guide wheel b11 to rotate on the upper surface of a fixing frame b14, the guide wheel b11 sinks towards the inside of a seat cavity b12 when the pressure is higher, so that the fixing frame b14 is pressed down to the inside of a bottom shock-absorbing sleeve b13 to be nested, the guide wheel b11 is contracted into the seat cavity b12 to be stored, the guide wheel b1 is clamped into the concave slot c2 to be clamped in the inside the seat cavity b12 to effectively prevent the cable from rotating along a specified route when the cable is coiled, and the cable is coiled by the self-rotation inserting shaft c1 and the limiting plate c2, so that the cable rope is further rotated in the limiting plate 143 when the cable is coiled, and the cable is wound.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein; any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a wireless remote control's cable reel equipment, its structure includes equipment cabinet (1), fixing base (2), drive shaft (3), signal transceiver (4), equipment cabinet (1) upper surface is connected with signal transceiver (4) whole the embedded, signal transceiver (4) inside and drive shaft (3) inside clearance fit, drive shaft (3) whole and fixing base (2) upper end clearance fit, fixing base (2) surface and equipment cabinet (1) bottom bolt fastening, its characterized in that:

the equipment cabinet (1) comprises a stabilizer (11), a bidirectional motor (12), a reversing sleeve (13) and a winch (14), wherein the top end of the stabilizer (11) is movably matched with the surface of the winch (14), the left side of the winch (14) is in clearance fit with the inside of the reversing sleeve (13), the inside of the reversing sleeve (13) is meshed and connected with the top end of the bidirectional motor (12), and the top end of the bidirectional motor (12) is in clearance fit with the whole winch (14);

the stabilizer (11) comprises a top cable support (111), a support platform (112), a pressure reducing pull rope (113) and a telescopic column (114), wherein two sides of the top cable support (111) are in clearance fit with the inside of the pressure reducing pull rope (113), the inner side of the pressure reducing pull rope (113) is in movable fit with the inside of the support platform (112), the surface of the support platform (112) is connected with the bottom of the telescopic column (114) in a nested manner, and two sides of the telescopic column (114) are in clearance fit with the inner side of the top cable support (111);

the cable jacking strut (111) comprises a pressed block (a 1), a sliding clamping jaw (a 2), a sliding groove (a 3) and a spring column (a 4), the bottom surface of the pressed block (a 1) is fixedly connected with the surface of the spring column (a 4), the lower end of the spring column (a 4) is welded with the surface of the sliding clamping jaw (a 2), the surface of the sliding clamping jaw (a 2) is in sliding fit with the surface of the sliding groove (a 3), and the upper end of the sliding groove (a 3) is in overall clearance fit with the spring column (a 4);

the compression block (a 1) comprises an elastic strip (a 11), a limiting block (a 12), a scratch-resistant block (a 13) and a swing frame (a 14), two sides of the elastic strip (a 11) are connected with the side wall of the limiting block (a 12) in a clamping manner, the inner wall of the limiting block (a 12) is fixedly embedded with the outer wall of the swing frame (a 14), the upper surface of the swing frame (a 14) is fixedly embedded with the scratch-resistant block (a 13) integrally, and the surface of the elastic strip (a 11) is movably matched with the outer wall of the swing frame (a 14);

the winch (14) comprises a wire carrying disc (141), an anti-release pin (142) and a limiting plate (143), wherein the center of the wire carrying disc (141) is integrally connected with the anti-release pin (142) in a nested manner, the inner side of the anti-release pin (142) is in clearance fit with the surface of the limiting plate (143), and the inner side of the limiting plate (143) is connected with the surface of the wire carrying disc (141) in a clamping manner;

the wire carrying disc (141) comprises a smoothing seat (b 1), a fixed bolt (b 2), a chuck body (b 3) and a pin connecting rope (b 4), wherein two sides of the smoothing seat (b 1) are movably clamped with the surface of the chuck body (b 3), the surface of the chuck body (b 3) is integrally fixed with the fixed bolt (b 2) through bolts, the surface of the fixed bolt (b 2) is connected with the top end of the pin connecting rope (b 4) in a nested manner, and the surface of the pin connecting rope (b 4) is in clearance fit with the bottom of the smoothing seat (b 1);

the smoothing seat (b 1) comprises a guide wheel (b 11), a seat cavity (b 12), a damping sleeve (b 13) and a fixing frame (b 14), the center of the guide wheel (b 11) is fixedly embedded with the top end of the fixing frame (b 14), the whole fixing frame (b 14) is movably matched with the inside of the seat cavity (b 12), the lower surface of the seat cavity (b 12) is fixedly embedded with the damping sleeve (b 13) integrally, and the inside of the damping sleeve (b 13) is nested with the bottom of the fixing frame (b 14);

the guide wheel (b 11) comprises a rotation inserting shaft (c 1), an inner concave wire groove (c 2) and a scraping-proof cushion block (c 3), the rotation inserting shaft (c 1) is integrally connected with the inner part of the inner concave wire groove (c 2) in a nested manner, the surface of the inner concave wire groove (c 2) is in clearance fit with the inner side of the scraping-proof cushion block (c 3), and two sides of the scraping-proof cushion block (c 3) are in movable fit with the surface of the rotation inserting shaft (c 1);

the wireless remote control is achieved through the signal transceiver (4) on the fixed seat (2), then the equipment cabinet (1) triggers the driving shaft (3) on the fixed seat (2) to drive the winch (14), the bidirectional motor (12) is matched with the reversing sleeve (13) to trigger the winch (14) when the bidirectional motor is driven to rotate, in the process of winding the cable, the surface of the cable is movably matched with the stabilizer (11) so that the cable jacking strut (111) is contracted towards the inside of the supporting platform (112) under the matching of the telescopic column (114) at the inner side and the pressure reducing pull ropes (113) at the two ends in the process of continuously winding the cable, the sliding claw (a 2) slides on the inner surface of the sliding groove (a 3), the pressure released by the wound cable is buffered by the pressure-receiving block (a 1) at the top end under the matching of the spring post (a 4), and the scratch-proof block (a 13) in the limiting block (a 12) is attached to the surface of the cable under the assistance of the elastic strip (a 11) and the swing frame (a 14) during buffering, when the cable is wound by the winch (14), the cable is jacked up by the cable jacking strut (111) through the stabilizer (11), when in jacking, the spring column (a 4) is matched with the pressure block (a 1), the sliding clamping jaw (a 2) slides on the surface of the sliding groove (a 3), so that the pushing pressure of the cable is released, then the surface of the matched scratch-resistant block (a 13) and the surface of the cable are perfectly attached to jack the cable;

the coiled cable is borne by a wire carrying disc (141) in a twisting disc (14), a limiting plate (143) is arranged at the outer end of the wire carrying disc to fix a falling-off prevention pin (142), a smoothing seat (b 1) clamped on the surface of a clamping disc body (b 3) assists a cable rope in the process of coiling the cable, an internal fixing bolt (b 2) and a connecting pin rope (b 4) are matched to support the bottom of the smoothing seat (b 1), so that a concave slot (c 2) on the surface of a guide wheel (b 11) is clamped on the surface of the cable under the pressure of the cable, a self-rotation inserting shaft (c 1) on two sides and an anti-scraping cushion block (c 3) assist the guide wheel (b 11) to rotate on the upper surface of a fixing frame (b 14), the guide wheel (b 11) sinks towards the inside a seat cavity (b 12) when the pressure is higher, so that the guide wheel (b 14) is pressed to the inside a bottom damping sleeve (b 13) to be clamped, the guide wheel (b 11) is retracted into the seat cavity (b 12) to be stored, and the movable wire carrying disc is clamped with the limiting plate (b 1) of the cable rope (b 1) and the limiting plate (b 1) and the cable rope (b 1) is clamped on the surface of the fixing frame (b 1).