CN110752555B - Cable treatment equipment - Google Patents

Abstract

The invention relates to cable equipment, in particular to cable processing equipment which comprises a wire cutting mechanism, a casing mechanism, a peeling driving mechanism, a peeling executing mechanism and a speed-regulating winding mechanism.

Description

Cable treatment equipment

Technical Field

The invention relates to cable equipment, in particular to cable processing equipment.

Background

In the cable stringing process, the peeling of some thicker cables is very difficult, and the various functions of the processing equipment are mutually split, so that the one-machine-multiple-purpose can not be realized, and the cable processing equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a cable processing device, which can perform winding, adjust the winding speed, peel cables with different specifications and cut the cables.

In order to solve the technical problem, the invention relates to cable equipment, in particular to cable processing equipment which comprises a wire cutting mechanism, a shell mechanism, a peeling driving mechanism, a peeling executing mechanism and a speed-regulating winding mechanism.

The wire cutting mechanism is connected with the casing mechanism, the peeling driving mechanism is connected with the casing mechanism, the peeling executing mechanism is connected with the peeling driving mechanism, and the speed-regulating winding mechanism is connected with the peeling driving mechanism.

As a further optimization of the technical scheme, the wire cutting mechanism of the cable processing equipment comprises a seat body mechanism, a linkage mechanism and a cutting execution mechanism, wherein the seat body mechanism is connected with the linkage mechanism, and the linkage mechanism is connected with the cutting execution mechanism; the seat body mechanism comprises a seat body, a stepped groove and a matching hole, wherein the stepped groove is formed in the seat body, and the matching hole is formed in the seat body; the linkage mechanism comprises a hydraulic cylinder, a hydraulic rod and a pushing ring, the hydraulic cylinder is connected with the hydraulic rod, and the hydraulic rod is connected with the pushing ring; the cutting executing mechanism comprises a cutting knife, a spring, a sliding rod, a stepped sliding block and a linkage rod, the cutting knife is connected with the sliding rod, the spring is sleeved on the sliding rod, the sliding rod is connected with the stepped sliding block, the stepped sliding block is connected with the linkage rod, the sliding rod is matched with the matching hole, and the stepped sliding block is matched with the stepped groove.

As a further optimization of the technical scheme, the housing mechanism of the cable processing equipment comprises a housing body, an outlet, an inlet, a handle and a long groove, wherein the outlet is formed in the housing body, the inlet is formed in the housing body, the handle is connected with the housing body, and the long groove is formed in the housing body.

As a further optimization of the technical scheme, the peeling driving mechanism of the cable processing equipment comprises a frame body mechanism, a hydraulic pushing mechanism, a driving rod and a driving groove, wherein the frame body mechanism is hinged with the hydraulic pushing mechanism, the hydraulic pushing mechanism is hinged with the driving rod, the driving groove is formed in the driving rod, and the driving rod is hinged with the frame body mechanism; the frame body mechanism comprises a special-shaped seat, a bearing seat I, a stepped hole, a stepped groove I, a bearing seat II, a reset spring, a polished rod, a cross seat, a cable hole and a cable hole II, wherein the special-shaped seat is connected with the bearing seat I; the hydraulic pushing mechanism comprises a hydraulic cylinder I, a hydraulic rod I and a hinged connecting seat, the hydraulic cylinder I is connected with the hydraulic rod I, the hydraulic rod I is connected with the hinged connecting seat, the hydraulic cylinder I is hinged with the cross seat, and the hinged connecting seat is hinged with the driving rod.

As a further optimization of the technical scheme, the peeling actuating mechanism of the cable processing equipment comprises a movable support frame mechanism, a telescopic knife mechanism, a gear ring mechanism, a toggle mechanism, a sliding support mechanism, a limiting mechanism, an arc frame mechanism, a driving gear and a servo motor, wherein the movable support frame mechanism is connected with the telescopic knife mechanism; the movable support frame mechanism comprises a step boss, a pulley seat, an unthreaded hole I, an adjusting hole and a movable support frame body, the step boss is connected with the movable support frame body, the pulley is connected with the pulley seat in a bearing manner, the pulley seat is connected with the movable support frame body, the unthreaded hole I is formed in the movable support frame body, the adjusting hole is formed in the movable support frame body, and the unthreaded hole I is matched with the polished rod; the telescopic knife mechanism comprises a telescopic knife body, a telescopic rod, a telescopic spring and a limiting head, wherein the telescopic knife body is connected with the telescopic rod, the telescopic rod is connected with the limiting head, the telescopic spring is sleeved on the telescopic rod, the telescopic rod is matched with the adjusting hole, and the telescopic spring is abutted against the movable support frame body; the gear ring mechanism comprises a ratchet, an outer gear ring and an inner ring groove, the ratchet is arranged on the outer gear ring, the inner ring groove is arranged on the outer gear ring, and the inner ring groove is matched with the pulley; the toggle mechanism comprises a toggle rod, a toggle rod shaft and a gear, the toggle rod is connected with the toggle rod shaft through a key, the toggle rod shaft is connected with the gear, and the gear is meshed with the outer gear ring; the sliding support mechanism comprises a sliding support seat body, a sliding hole A and an intermediate support, wherein the sliding hole A is formed in the sliding support seat body, and the intermediate support is connected with the sliding support seat body; the limiting mechanism comprises a long handle, a long connecting rod, a limiting platform I, a limiting spring A, a secondary limiting platform and a wedge block, the long handle is connected with the long connecting rod, the long connecting rod is connected with the limiting platform I, the limiting spring A is sleeved on the long connecting rod, the secondary limiting platform is connected with the long connecting rod, the limiting spring A is abutted against the secondary limiting platform, the wedge block is connected with the long connecting rod, the long connecting rod is slidably connected with the sliding hole A, the long connecting rod is slidably connected with the middle support, the limiting spring A is abutted against the sliding support base body, and the wedge block is matched with the ratchet; the arc frame mechanism comprises an arc frame body and an arc groove, the arc groove is formed in the arc frame body, the arc frame body is connected with the movable support frame body, and the servo motor is connected with the arc frame body.

As a further optimization of the technical scheme, the speed-regulating winding mechanism of the cable processing equipment comprises a winding wheel, a sliding speed-regulating wheel, a winding driving mechanism, a hydraulic cylinder A, a speed-regulating executing mechanism, a primary gear, a secondary gear, a gear shaft, a clamping spring seat, a stepped clamping sliding rod and a wire clamping seat, wherein the winding wheel is connected with the gear shaft, the gear shaft is connected with the secondary gear, the gear shaft is connected with the primary gear, the speed-regulating executing mechanism is connected with the hydraulic cylinder A, the hydraulic cylinder A is arranged in a stepped hole, the winding driving mechanism is connected with the sliding speed-regulating wheel, the sliding speed-regulating wheel is meshed with the secondary gear, the clamping spring is sleeved on the stepped clamping sliding rod, the stepped clamping sliding rod is connected with the clamping spring seat in a sliding manner, the clamping spring seat is connected with the winding wheel, the stepped clamping sliding rod is connected with the wire clamping, (ii) a The sliding speed regulating wheel comprises a matching boss, a hollow shaft A, a large gear, a small gear and a sliding step seat A, the matching boss is connected with the hollow shaft A, the hollow shaft A is connected with the large gear, the small gear is connected with the hollow shaft A, the hollow shaft A is connected with the sliding step seat A, and the small gear is meshed with the secondary gear; the winding driving mechanism comprises a speed regulating spring, a speed regulating slide bar, a shaft A, a motor belt pulley A, a transmission belt, a secondary belt pulley and a speed regulating stepped groove, wherein the speed regulating spring is sleeved on the speed regulating slide bar which is connected with the shaft A, the speed regulating stepped groove is formed in the shaft A, the motor A is connected with the motor belt pulley A, the motor belt pulley A is connected with the transmission belt, the transmission belt is connected with the secondary belt pulley, the secondary belt pulley is connected with the shaft A, a sliding stepped seat A is connected with the speed regulating slide bar in a sliding manner, the sliding stepped seat A is matched with the speed regulating stepped groove, a bearing seat I is connected with the shaft A in a bearing manner, and the shaft A is connected with a special-shaped seat; the speed regulation actuating mechanism comprises a step support and a pushing pulley, the pushing pulley is connected with the step support through a bearing, the step support is connected with a step groove I in a sliding mode, the step support is connected with a hydraulic cylinder A, and the pushing pulley is in contact fit with a matching boss.

As further optimization of the technical scheme, the cutting knife of the cable processing equipment is made of stainless steel.

The cable treatment equipment has the beneficial effects that:

the invention provides a cable processing device, which can perform winding, adjust the winding speed, peel cables with different specifications and cut the cables.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic cross-sectional view of a cable treatment apparatus according to the present invention.

Fig. 2 is a schematic structural view of a cable treatment apparatus according to the present invention.

Fig. 3 is a schematic structural diagram of the wire cutting mechanism 1 of the cable processing device of the present invention.

Fig. 4 is a schematic sectional view of the wire cutting mechanism 1 of the cable processing apparatus according to the present invention.

Fig. 5 is a schematic structural diagram of a seat mechanism 1-1 of a cable processing apparatus according to the present invention.

Fig. 6 is a schematic structural view of a link mechanism 1-2 of a cable treatment apparatus according to the present invention.

Fig. 7 is a schematic view of the structure of a cutting actuator 1-3 of a cable treatment device according to the invention.

Fig. 8 is a schematic structural view of a housing mechanism 2 of a cable processing apparatus according to the present invention.

Fig. 9 is a schematic structural diagram of the peeling drive mechanism 3 of the cable processing device of the present invention.

Fig. 10 is a schematic structural view of a frame mechanism 3-1 of a cable treatment apparatus according to the present invention.

Fig. 11 is a partial sectional structural view of a frame mechanism 3-1 of a cable treatment apparatus according to the present invention.

Fig. 12 is a schematic structural view of a hydraulic pushing mechanism 3-2 of a cable treatment apparatus according to the present invention.

Fig. 13 is a schematic structural diagram of a peeling actuator 4 of a cable processing device according to the present invention.

Fig. 14 is a supplementary structural schematic diagram of the peeling actuator 4 of the cable processing device of the present invention.

Fig. 15 is a schematic cross-sectional structural view of the peeling actuator 4 of the cable processing device of the present invention.

Fig. 16 is a schematic view of a supplementary sectional structure of the peeling actuator 4 of the cable processing device.

Fig. 17 is a schematic structural view of a movable support frame mechanism 4-1 of the cable processing apparatus of the present invention.

Fig. 18 is a schematic structural view of a telescopic knife mechanism 4-2 of a cable treatment apparatus according to the present invention.

Fig. 19 is a schematic structural view of a ring gear mechanism 4-3 of a cable treatment apparatus of the present invention.

Fig. 20 is a schematic view of a toggle mechanism 4-4 of a cable treatment apparatus according to the present invention.

Fig. 21 is a schematic structural view of a sliding support mechanism 4-5 of a cable treatment apparatus of the present invention.

Fig. 22 is a schematic structural view of a limiting mechanism 4-6 of the cable processing device of the present invention.

Fig. 23 is a schematic structural view of an arc-shaped frame mechanism 4-7 of the cable treatment device of the present invention.

Fig. 24 is a schematic structural view of a speed-regulating winding mechanism 5 of the cable processing device of the present invention.

Fig. 25 is a supplementary structural view of the speed control winding mechanism 5 of the cable processing device of the present invention.

Fig. 26 is a schematic sectional view of the speed control winding mechanism 5 of the cable processing device according to the present invention.

Fig. 27 is a schematic view of the construction of a sliding flywheel 5-2 of a cable treatment apparatus according to the present invention.

Fig. 28 is a schematic view of a cord driving mechanism 5-3 of a cable treatment apparatus according to the present invention.

Fig. 29 is a schematic structural view of a speed regulating actuator 5-5 of a cable treatment device according to the present invention.

In the figure: a thread cutting mechanism 1; a seat body mechanism 1-1; a seat body 1-1-1; 1-1-2 of a stepped groove; 1-1-3 of a matching hole; a linkage mechanism 1-2; 1-2-1 of a hydraulic cylinder; a hydraulic rod 1-2-2; pushing the ring 1-2-3; a cutting actuator 1-3; 1-3-1 parts of a cutting knife; 1-3-2 of a spring; 1-3-3 slide bars; 1-3-4 parts of a stepped sliding block; 1-3-5 of a linkage rod; a housing mechanism 2; a case body 2-1; an outlet 2-2; 2-3 of an inlet; 2-4 of a handle; 2-5 of long grooves; a peeling drive mechanism 3; a frame body mechanism 3-1; 3-1-1 of a special-shaped seat; bearing seat I3-1-2; 3-1-3 of a stepped hole; a step groove I3-1-4; bearing seats II 3-1-5; 3-1-6 of a return spring; a polish rod 3-1-7; 3-1-8 parts of a cross seat; 3-1-9 of a cable hole; cable holes II 3-1-10; a hydraulic pushing mechanism 3-2; a hydraulic cylinder I3-2-1; a hydraulic rod I3-2-2; 3-2-3 of a hinged connecting seat; a drive rod 3-3; 3-4 of a driving groove; a peeling actuator 4; a movable support frame mechanism 4-1; 4-1-1 of a step boss; 4-1-2 of a pulley; 4-1-3 pulley seats; unthreaded hole I4-1-4; adjusting holes 4-1-5; 4-1-6 parts of a movable support frame body; a telescopic knife mechanism 4-2; 4-2-1 of a telescopic knife body; 4-2-2 of a telescopic rod; 4-2-3 of a telescopic spring; 4-2-4 of a limiting head; a gear ring mechanism 4-3; 4-3-1 parts of ratchets; 4-3-2 of an outer gear ring; 4-3-3 of an inner ring groove; 4-4 of a toggle mechanism; 4-4-1 of a poke rod; a toggle rod shaft 4-4-2; 4-4-3 of a gear; 4-5 of a sliding support mechanism; 4-5-1 of a sliding support seat body; a slide hole A4-5-2; 4-5-3 of middle support; 4-6 of a limiting mechanism; 4-6-1 of a long handle; 4-6-2 of a long connecting rod; a limit station I4-6-3; a limit spring A4-6-4; 4-6-5 of a secondary limiting table; 4-6-6 of wedge-shaped blocks; 4-7 of an arc-shaped frame mechanism; 4-7-1 of an arc frame body; 4-7-2 of an arc-shaped groove; driving gears 4-8; 4-9 parts of a servo motor; a speed-regulating winding mechanism 5; 5-1 of a wire winding wheel; 5-2 of a sliding speed regulating wheel; matching with a boss 5-2-1; hollow shaft A5-2-2; 5-2-3 of a bull gear; pinion gears 5-2-4; a sliding step seat A5-2-5; a winding driving mechanism 5-3; 5-3-1 of a speed regulating spring; 5-3-2 parts of a speed regulation slide bar; axis A5-3-3; motor A5-3-4; a motor belt pulley A5-3-5; 5-3-6 parts of a transmission belt; 5-3-7 of a secondary belt pulley; 5-3-8 parts of a speed-regulating stepped groove; a hydraulic cylinder A5-4; 5-5 of a speed regulation actuating mechanism; 5-5-1 of a step support; pushing the pulley 5-5-2; 5-6 parts of a primary gear; 5-7 parts of a secondary gear; 5-8 parts of a gear shaft; 5-9 parts of a clamping spring; 5-10 parts of a clamping spring seat; 5-11 of a stepped clamping slide bar; 5-12 parts of a wire clamping seat.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the present invention relates to a cable processing apparatus, and more specifically to a cable processing apparatus including a wire cutting mechanism 1, a housing mechanism 2, a peeling drive mechanism 3, a peeling actuator 4, and a speed-adjusting winding mechanism 5, which can perform winding, can adjust winding speed, can peel cables of different specifications, and can cut the cables.

The wire cutting mechanism 1 is connected with the casing mechanism 2, the peeling driving mechanism 3 is connected with the casing mechanism 2, the peeling executing mechanism 4 is connected with the peeling driving mechanism 3, and the speed-regulating winding mechanism 5 is connected with the peeling driving mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the present embodiment further describes a first embodiment, in which the wire cutting mechanism 1 includes a seat mechanism 1-1, a linkage mechanism 1-2, and a cutting actuator 1-3, the seat mechanism 1-1 is connected to the linkage mechanism 1-2, and the linkage mechanism 1-2 is connected to the cutting actuator 1-3; the seat body mechanism 1-1 comprises a seat body 1-1-1, a step groove 1-1-2 and a matching hole 1-1-3, wherein the step groove 1-1-2 is formed on the seat body 1-1-1, and the matching hole 1-1-3 is formed on the seat body 1-1-1; the linkage mechanism 1-2 comprises a hydraulic cylinder 1-2-1, a hydraulic rod 1-2-2 and a push ring 1-2-3, the hydraulic cylinder 1-2-1 is connected with the hydraulic rod 1-2-2, and the hydraulic rod 1-2-2 is connected with the push ring 1-2-3; the cutting executing mechanism 1-3 comprises a cutting knife 1-3-1, a spring 1-3-2, a sliding rod 1-3-3, a step sliding block 1-3-4 and a linkage rod 1-3-5, wherein the cutting knife 1-3-1 is connected with the sliding rod 1-3-3, the spring 1-3-2 is sleeved on the sliding rod 1-3-3, the sliding rod 1-3-3 is connected with the step sliding block 1-3-4, the step sliding block 1-3-4 is connected with the linkage rod 1-3-5, the sliding rod 1-3-3 is matched with a matching hole 1-1-3, the step sliding block 1-3-4 is matched with a step groove 1-1-2, hydraulic oil is injected through a hydraulic cylinder 1-2-1, under the drive of oil pressure, the hydraulic rod 1-2-2 extends outwards to drive the push ring 1-2-3 to move, the push ring 1-2-3 moves to drive the linkage rod 1-3-5 to move, the linkage rod 1-3-5 moves to drive the step slider 1-3-4 to move, the step slider 1-3-4 moves to drive the slide rod 1-3-3 to move, the slide rod 1-3-3 moves to drive the cutting knife 1-3-1 to move, and the cutting knife 1-3-1 closing to the middle cuts off the cable.

The third concrete implementation mode:

the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the present embodiment is directed to the first embodiment, in which the housing mechanism 2 includes a housing body 2-1, an outlet 2-2, an inlet 2-3, a handle 2-4, and a strip groove 2-5, the outlet 2-2 is opened on the housing body 2-1, the inlet 2-3 is opened on the housing body 2-1, the handle 2-4 is connected to the housing body 2-1, and the strip groove 2-5 is opened on the housing body 2-1.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and will be described further with reference to the first embodiment, the peeling driving mechanism 3 comprises a frame body mechanism 3-1, a hydraulic pushing mechanism 3-2, a driving rod 3-3 and a driving groove 3-4, wherein the frame body mechanism 3-1 is hinged with the hydraulic pushing mechanism 3-2, the hydraulic pushing mechanism 3-2 is hinged with the driving rod 3-3, the driving groove 3-4 is formed in the driving rod 3-3, and the driving rod 3-3 is hinged with the frame body mechanism 3-1; the frame body mechanism 3-1 comprises a special-shaped seat 3-1-1, a bearing seat I3-1-2, a step hole 3-1-3, a step groove I3-1-4, a bearing seat II3-1-5, a return spring 3-1-6, a polish rod 3-1-7, a cross seat 3-1-8, a cable hole 3-1-9, a cable hole II3-1-10, the special-shaped seat 3-1-1 is connected with the bearing seat I3-1-2, the step hole 3-1-3 is arranged on the special-shaped seat 3-1-1, the step groove I3-1-4 is arranged on the special-shaped seat 3-1-1, the bearing seat II3-1-5 is connected with the special-shaped seat 3-1-1, the return spring 3-1-6 is sleeved on the polish rod 3-1-7, the return spring 3-1-6 is abutted against the special-shaped seat 3-1-1, the polished rod 3-1-7 is arranged between the special-shaped seat 3-1-1 and the cross seat 3-1-8, the cable hole 3-1-9 is arranged on the cross seat 3-1-8, the cable hole II3-1-10 is arranged on the special-shaped seat 3-1-1, the driving rod 3-3 is hinged with the special-shaped seat 3-1-1, the cross seat 3-1-8 is connected with the machine shell body 2-1, and the special-shaped seat 3-1-1 is connected with the machine shell body 2-1; the hydraulic pushing mechanism 3-2 comprises a hydraulic cylinder I3-2-1, a hydraulic rod I3-2-2 and a hinged connecting seat 3-2-3, the hydraulic cylinder I3-2-1 is connected with the hydraulic rod I3-2-2, the hydraulic rod I3-2-2 is connected with the hinged connecting seat 3-2-3, the hydraulic cylinder I3-2-1 is hinged with a cross seat 3-1-8, the hinged connecting seat 3-2-3 is hinged with a driving rod 3-3, a servo motor 4-9 is operated to drive a driving gear 4-8 to rotate, the driving gear 4-8 rotates to drive an outer gear ring 4-3-2 to rotate clockwise, the outer gear ring 4-3-2 rotates to drive the gear 4-4-3 to rotate, the gear 4-4-3 rotates to drive the poke rod 4-4-1 to rotate through the poke rod shaft 4-4-2, the poke rod 4-4-1 rotates to drive the limiting head 4-2-4 to move towards the direction in which the telescopic spring 4-2-3 is compressed, and thus the telescopic knife body 4-2-1 is driven to approach the circle center direction of the movable support frame body 4-1-6, so that the telescopic knife body 4-2-1 is cut into the cable sheath, then hydraulic oil is injected into the hydraulic cylinder I3-2-1, the hydraulic rod I3-2-2 extends outwards under the driving of the oil pressure, the hydraulic rod I3-2-2 drives the hinged connecting seat 3-2-3 to move, and the hinged connecting seat 3-2-3 moves to drive the driving rod 3-3 to be close to the hinged connecting seat 3 2-3, the driving groove 3-4 moving along with the driving rod 3-3 drives the stepped boss 4-1-1 to drive the whole peeling executing mechanism 4 to move horizontally, so that the moving telescopic knife body 4-2-1 can pull the outer skin of the cable, in the process, the wedge block 4-6-6 can prevent the phenomenon that the telescopic knife body 4-2-1 rebounds due to the reverse rotation of the outer gear ring 4-3-2 when the cable is cut through the matching with the ratchet 4-3-1, the long handle 4-6-1 can be pulled after peeling is finished, the long handle 4-6-1 can drive the wedge block 4-6-6 to be separated from the matching with the ratchet 4-3-1, the servo motor 4-9 which runs reversely drives the outer gear ring 4-3-2 to rotate reversely, the outer gear ring 4-3-2 rotates reversely to drive the poke rod 4-4-1 to reset, so that the telescopic knife body 4-2-1 can be separated from the cable under the elastic force of the telescopic spring 4-2-3, and the cable can be used.

The fifth concrete implementation mode:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the embodiment is further described, in which the peeling executing mechanism 4 includes a movable supporting frame mechanism 4-1, a telescopic knife mechanism 4-2, a gear ring mechanism 4-3, a toggle mechanism 4-4, a sliding supporting mechanism 4-5, a limiting mechanism 4-6, an arc-shaped frame mechanism 4-7, a driving gear 4-8, and a servo motor 4-9, the movable supporting frame mechanism 4-1 is connected with the telescopic knife mechanism 4-2, the gear ring mechanism 4-3 is matched with the movable supporting frame mechanism 4-1, the toggle mechanism 4-4 is connected with the arc-shaped frame mechanism 4-7, the arc-shaped frame mechanism 4-7 is connected with the movable support frame mechanism 4-1, the toggle mechanism 4-4 is contacted with the telescopic cutter mechanism 4-2, the sliding support mechanism 4-5 is connected with the arc-shaped frame mechanism 4-7, the limiting mechanism 4-6 is connected with the sliding support mechanism 4-5, the limiting mechanism 4-6 is matched with the gear ring mechanism 4-3, the driving gear 4-8 is meshed with the gear ring mechanism 4-3, the driving gear 4-8 is connected with the servo motor 4-9, and the servo motor 4-9 is connected with the arc-shaped frame mechanism 4-7; the movable support frame mechanism 4-1 comprises a step boss 4-1-1, a pulley 4-1-2, a pulley seat 4-1-3, a unthreaded hole I4-1-4, an adjusting hole 4-1-5 and a movable support frame body 4-1-6, the step boss 4-1-1 is connected with the movable support frame body 4-1-6, the pulley 4-1-2 is connected with the pulley seat 4-1-3 by a bearing, the pulley seat 4-1-3 is connected with the movable support frame body 4-1-6, the unthreaded hole I4-1-4 is arranged on the movable support frame body 4-1-6, the adjusting hole 4-1-5 is arranged on the movable support frame body 4-1-6, the light hole I4-1-4 is matched with the light rod 3-1-7; the telescopic knife mechanism 4-2 comprises a telescopic knife body 4-2-1, a telescopic rod 4-2-2, a telescopic spring 4-2-3 and a limit head 4-2-4, wherein the telescopic knife body 4-2-1 is connected with the telescopic rod 4-2-2, the telescopic rod 4-2-2 is connected with the limit head 4-2-4, the telescopic spring 4-2-3 is sleeved on the telescopic rod 4-2-2, the telescopic rod 4-2-2 is matched with the adjusting hole 4-1-5, and the telescopic spring 4-2-3 is propped against the movable support frame body 4-1-6; the gear ring mechanism 4-3 comprises a ratchet 4-3-1, an outer gear ring 4-3-2 and an inner ring groove 4-3-3, the ratchet 4-3-1 is arranged on the outer gear ring 4-3-2, the inner ring groove 4-3-3 is arranged on the outer gear ring 4-3-2, and the inner ring groove 4-3-3 is matched with the pulley 4-1-2; the toggle mechanism 4-4 comprises a toggle rod 4-4-1, a toggle rod shaft 4-4-2 and a gear 4-4-3, the toggle rod 4-4-1 is connected with the toggle rod shaft 4-4-2 through a key, the toggle rod shaft 4-4-2 is connected with the gear 4-4-3, and the gear 4-4-3 is meshed with the outer gear ring 4-3-2; the sliding support mechanism 4-5 comprises a sliding support seat body 4-5-1, a sliding hole A4-5-2 and a middle support 4-5-3, wherein the sliding hole A4-5-2 is arranged on the sliding support seat body 4-5-1, and the middle support 4-5-3 is connected with the sliding support seat body 4-5-1; the limiting mechanism 4-6 comprises a long handle 4-6-1, a long connecting rod 4-6-2, a limiting table I4-6-3, a limiting spring A4-6-4, a secondary limiting table 4-6-5 and a wedge block 4-6-6, the long handle 4-6-1 is connected with the long connecting rod 4-6-2, the long connecting rod 4-6-2 is connected with the limiting table I4-6-3, the limiting spring A4-6-4 is sleeved on the long connecting rod 4-6-2, the secondary limiting table 4-6-5 is connected with the long connecting rod 4-6-2, the limiting spring A4-6-4 is abutted on the secondary limiting table 4-6-5, the wedge block 4-6-6 is connected with the long connecting rod 4-6-2, the long connecting rod 4-6-2 is in sliding connection with the sliding hole A4-5-2, the long connecting rod 4-6-2 is in sliding connection with the middle support 4-5-3, the limiting spring A4-6-4 is abutted against the sliding support seat body 4-5-1, and the wedge-shaped block 4-6-6 is matched with the ratchet 4-3-1; the arc-shaped frame mechanism 4-7 comprises an arc-shaped frame body 4-7-1 and an arc-shaped groove 4-7-2, the arc-shaped groove 4-7-2 is formed in the arc-shaped frame body 4-7-1, the arc-shaped frame body 4-7-1 is connected with the movable support frame body 4-1-6, and the servo motor 4-9 is connected with the arc-shaped frame body 4-7-1.

The sixth specific implementation mode:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the embodiment includes a speed governing winding mechanism 5-1, a sliding speed governing wheel 5-2, a winding driving mechanism 5-3, a hydraulic cylinder a5-4, a speed governing actuator 5-5, a primary gear 5-6, a secondary gear 5-7, a gear shaft 5-8, a clamping spring 5-9, a clamping spring seat 5-10, a stepped clamping slide rod 5-11, a wire clamping seat 5-12, and a winding wheel 5-1 connected to a gear shaft 5-8, a gear shaft 5-8 is connected with a secondary gear 5-7, a gear shaft 5-8 is connected with a primary gear 5-6, a speed-regulating actuating mechanism 5-5 is connected with a hydraulic cylinder A5-4, the hydraulic cylinder A5-4 is arranged in a stepped hole 3-1-3, a winding driving mechanism 5-3 is connected with a sliding speed regulating wheel 5-2, the sliding speed regulating wheel 5-2 is meshed with the secondary gear 5-7, a clamping spring 5-9 is sleeved on a stepped clamping slide bar 5-11, the stepped clamping slide bar 5-11 is connected with a clamping spring seat 5-10 in a sliding manner, the clamping spring seat 5-10 is connected with a winding wheel 5-1, the stepped clamping slide bar 5-11 is connected with a wire clamping seat 5-12, and the gear shaft 5-8 is connected with a bearing seat II3-1-5 in a bearing manner; the sliding speed regulating wheel 5-2 comprises a matching boss 5-2-1, a hollow shaft A5-2-2, a big gear 5-2-3, a small gear 5-2-4 and a sliding step seat A5-2-5, the matching boss 5-2-1 is connected with the hollow shaft A5-2-2, the hollow shaft A5-2-2 is connected with the big gear 5-2-3, the small gear 5-2-4 is connected with the hollow shaft A5-2-2, the hollow shaft A5-2-2 is connected with the sliding step seat A5-2-5, the small gear 5-2-4 is meshed with a secondary gear 5-7, and the pulling action of the hydraulic cylinder A5-4 drives the speed regulating actuating mechanism 5-5 to move towards the direction of retracting a hydraulic rod of the hydraulic cylinder A5-4, thus, the pulley 5-5-2 is pushed to push the matching boss 5-2-1 to move towards the direction of compressing the speed regulating spring 5-3-1, the matching boss 5-2-1 drives the pinion 5-2-4 to be disengaged from the secondary gear 5-7, and the bull gear 5-2-3 is engaged with the primary gear 5-6, so that the speed of the wire winding wheel 5-1 is increased under the condition that the rotating speed of the motor A5-3-4 is not changed, and the wire winding speed is changed; the winding driving mechanism 5-3 comprises a speed regulating spring 5-3-1, a speed regulating slide bar 5-3-2, a shaft A5-3-3, a motor A5-3-4, a motor belt pulley A5-3-5, a driving belt 5-3-6, a secondary belt pulley 5-3-7 and a speed regulating stepped groove 5-3-8, wherein the speed regulating spring 5-3-1 is sleeved on the speed regulating slide bar 5-3-2, the speed regulating slide bar 5-3-2 is connected with the shaft A5-3-3, the speed regulating stepped groove 5-3-8 is arranged on the shaft A5-3-3, the motor A5-3-4 is connected with the motor belt pulley A5-3-5, the motor belt pulley A5-3-5 is connected with the driving belt 5-3-6, a transmission belt 5-3-6 is connected with a secondary belt pulley 5-3-7, the secondary belt pulley 5-3-7 is connected with a shaft A5-3-3, a sliding step seat A5-2-5 is in sliding connection with a speed regulation slide bar 5-3-2, a sliding step seat A5-2-5 is matched with a speed regulation step groove 5-3-8, a bearing seat I3-1-2 is connected with the shaft A5-3-3 in a bearing connection mode, and a shaft A5-3-3 is connected with a special-shaped seat 3-1-1 in a bearing connection mode; the speed regulation actuating mechanism 5-5 comprises a step support 5-5-1 and a pushing pulley 5-5-2, the pushing pulley 5-5-2 is connected with the step support 5-5-1 through a bearing, the step support 5-5-1 is connected with a step groove I3-1-4 through a sliding way, the step support 5-5-1 is connected with a hydraulic cylinder A5-4, the pushing pulley 5-5-2 is in contact fit with a matching boss 5-2-1, firstly, cables penetrate through a pushing ring 1-2-3 and an inlet 2-3, a cable hole 3-1-9 and a cable hole II3-1-10, a wire clamping seat 5-12 is pulled upwards, the wire clamping seat 5-12 pulls the step clamping slide rod 5-11 upwards, the stepped clamping slide rod 5-11 compresses a clamping spring 5-9, then a cable to be wound is placed between a cable clamping seat 5-12 and a wire winding wheel 5-1, then the cable clamping seat 5-12 is loosened, under the resilience action of the clamping spring 5-9, the cable clamping seat 5-12 moves downwards to clamp the cable between the cable clamping seat 5-12 and the wire winding wheel 5-1, an operating motor A5-3-4 drives a motor belt pulley A5-3-5 to rotate, the motor belt pulley A5-3-5 rotates to drive a secondary belt pulley 5-3-7 to rotate through a transmission belt 5-3-6, the secondary belt pulley 5-3-7 rotates to drive a shaft A5-3-3 to rotate, the shaft A5-3-3 rotates to drive a hollow shaft A5-2-2 to rotate, the hollow shaft A5-2-2 rotates to drive the pinion 5-2-4 to rotate, the pinion 5-2-4 rotates to drive the secondary gear 5-7 to rotate, the secondary gear 5-7 rotates to drive the gear shaft 5-8 to rotate, the gear shaft 5-8 rotates to drive the wire winding wheel 5-1 to rotate, and the wire winding wheel 5-1 rotates to wind the cable.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, and fig. 29, and the present embodiment further describes the first embodiment in which the cutting blade 1-3-1 is made of stainless steel.

The working principle of the device is as follows: the equipment can perform winding, firstly, cables penetrate through the pushing ring 1-2-3 and the inlet 2-3, pass through the cable hole 3-1-9 and the cable hole II3-1-10, the wire clamping seat 5-12 is pulled upwards, the wire clamping seat 5-12 pulls the stepped clamping slide bar 5-11 upwards, the stepped clamping slide bar 5-11 compresses the clamping spring 5-9, then the cables to be wound are placed between the wire clamping seat 5-12 and the winding wheel 5-1, then the wire clamping seat 5-12 is loosened, under the rebounding action of the clamping spring 5-9, the wire clamping seat 5-12 moves downwards to clamp the cables between the wire clamping seat 5-12 and the winding wheel 5-1, the motor A5-3-4 is operated to drive the motor pulley A5-3-5 to rotate, the motor belt pulley A5-3-5 rotates to drive the secondary belt pulley 5-3-7 to rotate through the transmission belt 5-3-6, the secondary belt pulley 5-3-7 rotates to drive the shaft A5-3-3 to rotate, the shaft A5-3-3 rotates to drive the hollow shaft A5-2-2 to rotate, the hollow shaft A5-2-2 rotates to drive the pinion 5-2-4 to rotate, the pinion 5-2-4 rotates to drive the secondary gear 5-7 to rotate, the secondary gear 5-7 rotates to drive the gear shaft 5-8 to rotate, the gear shaft 5-8 rotates to drive the wire winding wheel 5-1 to rotate, and the wire winding wheel 5-1 rotates to wind a cable; the equipment can adjust the winding speed, the speed-regulating executing mechanism 5-5 is driven to move towards the retraction direction of a hydraulic rod of the hydraulic cylinder A5-4 by the pulling action of the hydraulic cylinder A5-4, so that the pulley 5-5-2 is pushed to push the matching boss 5-2-1 to move towards the direction of compressing the speed-regulating spring 5-3-1, the matching boss 5-2-1 drives the pinion 5-2-4 to be disengaged from the secondary gear 5-7, and the bull gear 5-2-3 is engaged with the primary gear 5-6, so that the speed of the winding wheel 5-1 is increased under the condition that the rotating speed of the motor A5-3-4 is not changed, and the winding speed is changed; the equipment can peel cables with different specifications, the servo motor 4-9 is operated to drive the driving gear 4-8 to rotate, the driving gear 4-8 rotates to drive the outer gear ring 4-3-2 to rotate clockwise, the outer gear ring 4-3-2 rotates to drive the gear 4-4-3 to rotate, the gear 4-4-3 rotates to drive the poking rod 4-4-1 to rotate through the poking rod shaft 4-4-2, the poking rod 4-4-1 rotates to drive the limiting head 4-2-4 to move towards the direction in which the telescopic spring 4-2-3 is compressed, so that the telescopic cutter body 4-2-1 is driven to approach to the circle center direction of the movable support frame body 4-1-6, therefore, the telescopic knife body 4-2-1 can be cut into a cable sheath, then hydraulic oil is injected into the hydraulic cylinder I3-2-1, the hydraulic rod I3-2-2 extends outwards under the driving of the hydraulic oil, the hydraulic rod I3-2-2 can drive the hinged connecting seat 3-2-3 to move, the hinged connecting seat 3-2-3 moves to drive the driving rod 3-3 to arch upwards close to the side of the hinged connecting seat 3-2-3, the driving groove 3-4 moving along with the driving rod 3-3 can drive the stepped boss 4-1 to be matched with the stepped boss 4-1 to drive the whole peeling executing mechanism 4 to move horizontally, the telescopic knife body 4-2-1 moving in the way can pull down the cable sheath, and in the process, the wedge-shaped block 4-6-6 can be prevented from being matched with the ratchet 4-3-1 to prevent the cable sheath from moving downwards When a cable is cut, the outer gear ring 4-3-2 rotates reversely to cause the phenomenon that the telescopic knife body 4-2-1 rebounds, after peeling is finished, the long handle 4-6-1 can be pulled, the long handle 4-6-1 can drive the wedge-shaped block 4-6-6 to be separated from the matching with the ratchet 4-3-1, the servo motor 4-9 which operates reversely drives the outer gear ring 4-3-2 to rotate reversely, the outer gear ring 4-3-2 rotates reversely to drive the poke rod 4-4-1 to reset, and therefore under the elastic force action of the telescopic spring 4-2-3, the telescopic knife body 4-2-1 can be separated from the cable, and the cable can be used; the device can cut off a cable, hydraulic oil is injected into the hydraulic cylinder 1-2-1, under the drive of the oil pressure, the hydraulic rod 1-2-2 extends outwards to drive the push ring 1-2-3 to move, the push ring 1-2-3 moves to drive the linkage rod 1-3-5 to move, the linkage rod 1-3-5 moves to drive the step slider 1-3-4 to move, the step slider 1-3-4 moves to drive the slide rod 1-3-3 to move, the slide rod 1-3-3 moves to drive the cutting knife 1-3-1 to move, and the cutting knife 1-3-1 which is closed to the middle can cut off the cable.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a cable treatment facility, includes tangent line mechanism (1), casing mechanism (2), takes off skin actuating mechanism (3), takes off skin actuating mechanism (4), speed governing kinking mechanism (5), its characterized in that: the peeling driving mechanism (3) comprises a frame body mechanism (3-1), a hydraulic pushing mechanism (3-2), a driving rod (3-3) and a driving groove (3-4), the frame body mechanism (3-1) is hinged with the hydraulic pushing mechanism (3-2), the hydraulic pushing mechanism (3-2) is hinged with the driving rod (3-3), the driving groove (3-4) is formed in the driving rod (3-3), and the driving rod (3-3) is hinged with the frame body mechanism (3-1); the frame body mechanism (3-1) comprises a special-shaped seat (3-1-1), a bearing seat I (3-1-2), a stepped hole (3-1-3), a stepped groove I (3-1-4), a bearing seat II (3-1-5), a reset spring (3-1-6), a polish rod (3-1-7), a cross seat (3-1-8), a cable hole (3-1-9) and a cable hole II (3-1-10), the special-shaped seat (3-1-1) is connected with the bearing seat I (3-1-2), the stepped hole (3-1-3) is arranged on the special-shaped seat (3-1-1), the stepped groove I (3-1-4) is arranged on the special-shaped seat (3-1-1), the bearing seat II (3-1-5) is connected with the special-shaped seat (3-1-1), the return spring (3-1-6) is sleeved on the polish rod (3-1-7), the return spring (3-1-6) is abutted on the special-shaped seat (3-1-1), the polish rod (3-1-7) is arranged between the special-shaped seat (3-1-1) and the cross seat (3-1-8), the cable hole (3-1-9) is arranged on the cross seat (3-1-8), the cable hole II (3-1-10) is arranged on the special-shaped seat (3-1-1), the driving rod (3-3) is hinged with the special-shaped seat (3-1-1), the cross seat (3-1-8) is connected with the machine shell body (2-1), the special-shaped seat (3-1-1) is connected with the machine shell body (2-1); the hydraulic pushing mechanism (3-2) comprises a hydraulic cylinder I (3-2-1), a hydraulic rod I (3-2-2) and a hinged connecting seat (3-2-3), the hydraulic cylinder I (3-2-1) is connected with the hydraulic rod I (3-2-2), the hydraulic rod I (3-2-2) is connected with the hinged connecting seat (3-2-3), the hydraulic cylinder I (3-2-1) is hinged with the cross seat (3-1-8), and the hinged connecting seat (3-2-3) is hinged with the driving rod (3-3);

the peeling actuating mechanism (4) comprises a movable support frame mechanism (4-1), a telescopic knife mechanism (4-2), a gear ring mechanism (4-3), a toggle mechanism (4-4), a sliding support mechanism (4-5), a limiting mechanism (4-6), an arc frame mechanism (4-7), a driving gear (4-8) and a servo motor (4-9), wherein the movable support frame mechanism (4-1) is connected with the telescopic knife mechanism (4-2), the gear ring mechanism (4-3) is matched with the movable support frame mechanism (4-1), the toggle mechanism (4-4) is connected with the arc frame mechanism (4-7), the arc frame mechanism (4-7) is connected with the movable support frame mechanism (4-1), the toggle mechanism (4-4) is contacted with the telescopic knife mechanism (4-2), the sliding support mechanism (4-5) is connected with the arc frame mechanism (4-7), the limiting mechanism (4-6) is connected with the sliding support mechanism (4-5), the limiting mechanism (4-6) is matched with the gear ring mechanism (4-3), the driving gear (4-8) is meshed with the gear ring mechanism (4-3), the driving gear (4-8) is connected with the servo motor (4-9), and the servo motor (4-9) is connected with the arc frame mechanism (4-7); the movable support frame mechanism (4-1) comprises a step boss (4-1-1), a pulley (4-1-2), a pulley seat (4-1-3), a unthreaded hole I (4-1-4), an adjusting hole (4-1-5) and a movable support frame body (4-1-6), the step boss (4-1-1) is connected with the movable support frame body (4-1-6), the pulley (4-1-2) is connected with the pulley seat (4-1-3) in a bearing manner, the pulley seat (4-1-3) is connected with the movable support frame body (4-1-6), the unthreaded hole I (4-1-4) is arranged on the movable support frame body (4-1-6), the adjusting hole (4-1-5) is arranged on the movable support frame body (4-1-6), and the unthreaded hole I (4-1-4) is matched with the unthreaded rod (3-1-7); the telescopic knife mechanism (4-2) comprises a telescopic knife body (4-2-1), a telescopic rod (4-2-2), a telescopic spring (4-2-3) and a limiting head (4-2-4), the telescopic knife body (4-2-1) is connected with the telescopic rod (4-2-2), the telescopic rod (4-2-2) is connected with the limiting head (4-2-4), the telescopic spring (4-2-3) is sleeved on the telescopic rod (4-2-2), the telescopic rod (4-2-2) is matched with the adjusting hole (4-1-5), and the telescopic spring (4-2-3) is abutted against the movable support frame body (4-1-6); the gear ring mechanism (4-3) comprises a ratchet (4-3-1), an outer gear ring (4-3-2) and an inner ring groove (4-3-3), the ratchet (4-3-1) is arranged on the outer gear ring (4-3-2), the inner ring groove (4-3-3) is arranged on the outer gear ring (4-3-2), and the inner ring groove (4-3-3) is matched with the pulley (4-1-2); the toggle mechanism (4-4) comprises a toggle rod (4-4-1), a toggle rod shaft (4-4-2) and a gear (4-4-3), the toggle rod (4-4-1) is connected with the toggle rod shaft (4-4-2) through a key, the toggle rod shaft (4-4-2) is connected with the gear (4-4-3), and the gear (4-4-3) is meshed with the outer gear ring (4-3-2); the sliding support mechanism (4-5) comprises a sliding support base body (4-5-1), a sliding hole A (4-5-2) and a middle support (4-5-3), the sliding hole A (4-5-2) is arranged on the sliding support base body (4-5-1), and the middle support (4-5-3) is connected with the sliding support base body (4-5-1); the limiting mechanism (4-6) comprises a long handle (4-6-1), a long connecting rod (4-6-2), a limiting table I (4-6-3), a limiting spring A (4-6-4), a secondary limiting table (4-6-5) and a wedge block (4-6-6), the long handle (4-6-1) is connected with the long connecting rod (4-6-2), the long connecting rod (4-6-2) is connected with the limiting table I (4-6-3), the limiting spring A (4-6-4) is sleeved on the long connecting rod (4-6-2), the secondary limiting table (4-6-5) is connected with the long connecting rod (4-6-2), the limiting spring A (4-6-4) is propped against the secondary limiting table (4-6-5), the wedge-shaped block (4-6-6) is connected with the long connecting rod (4-6-2), the long connecting rod (4-6-2) is in sliding connection with the sliding hole A (4-5-2), the long connecting rod (4-6-2) is in sliding connection with the middle support (4-5-3), the limiting spring A (4-6-4) abuts against the sliding support seat body (4-5-1), and the wedge-shaped block (4-6-6) is matched with the ratchet (4-3-1); the arc-shaped frame mechanism (4-7) comprises an arc-shaped frame body (4-7-1) and an arc-shaped groove (4-7-2), the arc-shaped groove (4-7-2) is formed in the arc-shaped frame body (4-7-1), the arc-shaped frame body (4-7-1) is connected with the movable support frame body (4-1-6), and the servo motor (4-9) is connected with the arc-shaped frame body (4-7-1);

the speed-regulating winding mechanism (5) comprises a winding wheel (5-1), a sliding speed-regulating wheel (5-2), a winding driving mechanism (5-3), a hydraulic cylinder A (5-4), a speed-regulating executing mechanism (5-5), a primary gear (5-6), a secondary gear (5-7), a gear shaft (5-8), a clamping spring (5-9), a clamping spring seat (5-10), a stepped clamping slide rod (5-11) and a wire clamping seat (5-12), the winding wheel (5-1) is connected with the gear shaft (5-8), the gear shaft (5-8) is connected with the secondary gear (5-7), the gear shaft (5-8) is connected with the primary gear (5-6), the speed-regulating executing mechanism (5-5) is connected with the hydraulic cylinder A (5-4), the hydraulic cylinder A (5-4) is arranged in a stepped hole (3-1-3), the winding driving mechanism (5-3) is connected with a sliding speed regulating wheel (5-2), the sliding speed regulating wheel (5-2) is meshed with a secondary gear (5-7), a clamping spring (5-9) is sleeved on a stepped clamping sliding rod (5-11), the stepped clamping sliding rod (5-11) is connected with a clamping spring seat (5-10) in a sliding manner, the clamping spring seat (5-10) is connected with a winding wheel (5-1), the stepped clamping sliding rod (5-11) is connected with a winding clamping seat (5-12), and a gear shaft (5-8) is connected with a bearing seat II (3-1-5) in a bearing connection manner; the sliding speed regulating wheel (5-2) comprises a matching boss (5-2-1), a hollow shaft A (5-2-2), a big gear (5-2-3), a small gear (5-2-4) and a sliding step seat A (5-2-5), the matching boss (5-2-1) is connected with a hollow shaft A (5-2-2), the hollow shaft A (5-2-2) is connected with a large gear (5-2-3), a small gear (5-2-4) is connected with the hollow shaft A (5-2-2), the hollow shaft A (5-2-2) is connected with a sliding stepped seat A (5-2-5), and the small gear (5-2-4) is meshed with a secondary gear (5-7); the winding driving mechanism (5-3) comprises a speed regulating spring (5-3-1), a speed regulating slide bar (5-3-2), a shaft A (5-3-3), a motor A (5-3-4), a motor belt pulley A (5-3-5), a transmission belt (5-3-6), a secondary belt pulley (5-3-7) and a speed regulating stepped groove (5-3-8), wherein the speed regulating spring (5-3-1) is sleeved on the speed regulating slide bar (5-3-2), the speed regulating slide bar (5-3-2) is connected with the shaft A (5-3-3), the speed regulating stepped groove (5-3-8) is arranged on the shaft A (5-3-3), the motor A (5-3-4) is connected with the motor belt pulley A (5-3-5), the motor belt pulley A (5-3-5) is connected with the transmission belt (5-3-6), the transmission belt (5-3-6) is connected with the secondary belt pulley (5-3-7), the secondary belt pulley (5-3-7) is connected with the shaft A (5-3-3), the sliding stepped seat A (5-2-5) is connected with the speed regulation slide bar (5-3-2) in a sliding mode, the sliding stepped seat A (5-2-5) is matched with the speed regulation stepped groove (5-3-8), the bearing seat I (3-1-2) is connected with the shaft A (5-3-3) in a bearing mode, and the shaft A (5-3-3) is connected with the special-shaped seat (3-1-1) in a bearing mode; the speed regulation actuating mechanism (5-5) comprises a step support (5-5-1) and a pushing pulley (5-5-2), the pushing pulley (5-5-2) is connected with the step support (5-5-1) in a bearing mode, the step support (5-5-1) is connected with a step groove I (3-1-4) in a sliding mode, the step support (5-5-1) is connected with a hydraulic cylinder A (5-4), and the pushing pulley (5-5-2) is in contact fit with a matching boss (5-2-1);

the wire cutting mechanism (1) is connected with the casing mechanism (2), the peeling driving mechanism (3) is connected with the casing mechanism (2), the peeling executing mechanism (4) is connected with the peeling driving mechanism (3), and the speed-regulating winding mechanism (5) is connected with the peeling driving mechanism (3).

2. A cable treatment device according to claim 1, characterized in that: the wire cutting mechanism (1) comprises a seat body mechanism (1-1), a linkage mechanism (1-2) and a cutting executing mechanism (1-3), wherein the seat body mechanism (1-1) is connected with the linkage mechanism (1-2), and the linkage mechanism (1-2) is connected with the cutting executing mechanism (1-3); the seat body mechanism (1-1) comprises a seat body (1-1-1), a step groove (1-1-2) and a matching hole (1-1-3), wherein the step groove (1-1-2) is formed in the seat body (1-1-1), and the matching hole (1-1-3) is formed in the seat body (1-1-1); the linkage mechanism (1-2) comprises a hydraulic cylinder (1-2-1), a hydraulic rod (1-2-2) and a push ring (1-2-3), the hydraulic cylinder (1-2-1) is connected with the hydraulic rod (1-2-2), and the hydraulic rod (1-2-2) is connected with the push ring (1-2-3); the cutting executing mechanism (1-3) comprises a cutting knife (1-3-1), a spring (1-3-2) and a sliding rod (1-3-3), the cutting device comprises a stepped sliding block (1-3-4) and a linkage rod (1-3-5), a cutting knife (1-3-1) is connected with a sliding rod (1-3-3), a spring (1-3-2) is sleeved on the sliding rod (1-3-3), the sliding rod (1-3-3) is connected with the stepped sliding block (1-3-4), the stepped sliding block (1-3-4) is connected with the linkage rod (1-3-5), the sliding rod (1-3-3) is matched with a matching hole (1-1-3), and the stepped sliding block (1-3-4) is matched with a stepped groove (1-1-2).

3. A cable treatment device according to claim 1, characterized in that: the machine shell mechanism (2) comprises a machine shell body (2-1), an outlet (2-2), an inlet (2-3), a handle (2-4) and a long groove (2-5), wherein the outlet (2-2) is formed in the machine shell body (2-1), the inlet (2-3) is formed in the machine shell body (2-1), the handle (2-4) is connected with the machine shell body (2-1), and the long groove (2-5) is formed in the machine shell body (2-1).

4. A cable treatment device according to claim 2, characterized in that: the cutting knife (1-3-1) is made of stainless steel.

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