CN113759461A - Communication optical cable head section port sheath stripping machine - Google Patents

Abstract

The invention relates to the field of communication optical cable installation, in particular to a communication optical cable head section port sheath stripping machine, which comprises a base, a working shell, a servo motor, a rotating assembly, a pulling clamping assembly and the like; the base top surface is provided with the work casing, and embedded servo motor that installs on the work casing, rotatory subassembly is located in the work casing, and pulling clamping component locates on the rotatory subassembly. The screw rod drives the fixed round seat and the device on the fixed round seat to rotate, the mounting seat drives the opposite rod and the device on the opposite rod to rotate around the fixed round ring through the clamping rod, the cutting seat drives the sheath of the optical cable to rotate, and the cutting seat can rapidly peel the sheath at the head end of the optical cable from the optical cable through the rotation of the sheath of the optical cable and the matching of the movement towards the direction close to the servo motor.

Description

Communication optical cable head section port sheath stripping machine

Technical Field

The invention relates to the field of communication optical cable installation, in particular to a stripping machine for a port sheath of a head section of a communication optical cable.

Background

The optical cable is a communication cable component which uses one or more optical fibers arranged in a coating sheath as transmission media and can be used independently or in groups, the optical cable mainly comprises optical fibers, a plastic protective sleeve and a plastic sheath, metals such as gold, silver, copper, aluminum and the like are arranged in the optical cable, the recovery value is generally avoided, the optical cable is a cable core formed by a certain number of optical fibers according to a certain mode, the sheath is coated outside the optical cable, and an outer protective layer is also coated outside the optical cable to realize the communication line of optical signal transmission.

In the existing optical cable laying technology, an optical cable needs to be added on a reinforcing piece of the optical cable, when an operator connects the optical cable, the cable sheath at the head end of the optical cable needs to be manually stripped, the optical cable is fine, the sheath at the head section of the optical cable is difficult to strip, and the optical cable is easy to twist.

Disclosure of Invention

The invention aims to provide a stripper for a port sheath of a head section of a communication optical cable, which can rapidly strip an optical cable head end sheath from an optical cable and strip the optical cable head end sheath in batches, so as to solve the problem that the optical cable head section sheath is difficult to strip in the background technology.

The technical scheme is as follows: the utility model provides a communication optical cable head end port sheath strips machine, the on-line screen storage device comprises a base, the work casing, servo motor, rotating assembly, the pulling clamping component, tensile subassembly of skinning, the subassembly is changed to the optical cable and the preliminary fixed subassembly of optical cable, the base top surface is provided with the work casing, embedded servo motor of installing on the work casing, rotating assembly is located in the work casing, pulling clamping component locates on the rotating assembly, tensile subassembly of skinning sets up on rotating assembly, the rotation type is connected with the optical cable and changes the subassembly on the work casing, the preliminary fixed subassembly of optical cable sets up in work casing outer wall.

Further, rotating assembly is including the gear wheel, the backup pad, the screw rod, the pinion, the guide bar, remove the seat, dead lever and fluting ring, fixedly connected with gear wheel on the servo motor output shaft, the welding of work shells inner wall one side has the backup pad, the rotation type is connected with the screw rod in the backup pad, the hookup has the pinion on the screw rod, the pinion agrees with each other with the gear wheel, the guide bar welds in the backup pad, the mode through threaded connection on the screw rod is connected with and removes the seat, remove seat and guide bar limit connection, dead lever symmetry fixed connection is in removing seat one side, two dead lever one ends support jointly has the fluting ring, the annular groove has on the fluting ring.

Further, the pulling clamping assembly comprises a fixed round seat, a sliding block, a compression spring, a rotating piece, a mounting seat, a clamping rod, a torsion spring, opposite rods, a cutting seat, a guide frame, a fixed round rod, a sliding support rod and a fixed ring, wherein the fixed round seat is arranged on the screw rod, the fixed round seat is provided with symmetrical strip-shaped grooves, the fixed round seat is symmetrically and slidably connected with the sliding block, at least one part of the sliding block is arranged in the strip-shaped groove, the sliding block is fixedly connected with the compression spring, one end of the compression spring is fixedly connected with the fixed round seat, the compression spring is positioned in the strip-shaped groove, the rotating piece is fixedly connected with one end of the sliding block, the rotating piece is slidably connected with the slotted ring, the mounting seat is welded on one side of the rotating piece, the mounting seat is rotatably connected with the clamping rod, the torsion spring is connected between the clamping rod and the mounting seat, the opposite rods are in limit fit on the clamping rod, one end of the opposite rods is welded with the cutting seat, the guide frame is connected to the two opposite rods in a sliding mode, the fixed round rods are symmetrically welded above the guide frame, the sliding support rods are connected to the upper portion of the support plate in a sliding mode, one end of each sliding support rod is provided with a fixed circular ring, an annular groove is formed in the fixed circular ring, and at least one part of each of the two fixed round rods is arranged in the annular groove.

Further, tensile subassembly of skinning is including the L capable pole, the fixed plate, the telescopic link, extrusion spring and push rod, L capable pole fixed connection is on the backup pad top surface, the fixed plate welding is on the L capable pole, fixed plate and slip bracing piece contact each other, the slip is connected with the telescopic link on the slip bracing piece, telescopic link and fixed plate contact each other, the rigid coupling has the extrusion spring on the telescopic link, extrusion spring one end links to each other with the slip bracing piece, the push rod rigid coupling is in fluting ring top surface.

Further, the subassembly is changed including freewheel clutch to the optical cable, big pivot, the rotating gear, the axis of rotation, transmitting gear and sheave, servo motor output shaft one end rigid coupling has freewheel clutch, the big pivot of freewheel clutch output shaft one end fixedly connected with, big pivot is connected with the work casing rotary type, the welding has rotating gear in the big pivot, the rotary type is connected with the axis of rotation in the work casing, the axis of rotation has at least partly to be located outside the work casing, the welding has transmitting gear in the axis of rotation, transmitting gear agrees with each other with rotating gear, fixedly connected with sheave in the axis of rotation, the sheave is opened through the mode of center scattering has U type groove.

Further, the preliminary fixed subassembly of optical cable is including mount, fixed arc pole, kelly, reset spring and fixed little disk, and the welding of work casing outer wall has the mount, and the welding has fixed arc pole on the mount, and fixed arc pole and sheave outer lane contact each other, and the slidable is connected with the kelly on the mount, fixedly connected with reset spring on the kelly, and reset spring one end links to each other with the mount, and sheave one side is through the fixed little disk of the mode fixedly connected with of central scattering.

The beneficial effects are that:

the clamping rod is pushed to move towards the direction of keeping away from the rotating shaft through the small fixed round block, when the small fixed round block is separated from the clamping rod, the reset spring in a compression state resets to drive the clamping rod to move towards the direction of being close to the rotating shaft, and the optical cable is clamped tightly by the clamping rod.

The fixed round rod drives the guide frame to move towards the direction close to the servo motor, so that the cutting seat pulls the sheath of the optical cable to move towards the direction close to the servo motor, and the clamping rod clamps the optical cable, so that the cutting seat pulls the sheath of the optical cable from the optical cable.

The screw rod drives the fixed round seat and the device on the fixed round seat to rotate, the mounting seat drives the opposite rod and the device on the opposite rod to rotate around the fixed round ring through the clamping rod, the cutting seat drives the sheath of the optical cable to rotate, and the cutting seat can rapidly peel the sheath at the head end of the optical cable from the optical cable through the rotation of the sheath of the optical cable and the matching of the movement towards the direction close to the servo motor.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the rotating assembly of the present invention.

Fig. 5 is a partial perspective view of the rotating assembly of the present invention.

FIG. 6 is a schematic perspective view of a portion of the pull clamp assembly of the present invention.

Fig. 7 is a perspective view of the stretching and peeling assembly of the present invention.

Fig. 8 is a perspective view of a cable replacement assembly according to the present invention.

Fig. 9 is a perspective view of the primary cable securing assembly of the present invention.

In the reference symbols: 1_ base, 2_ working housing, 3_ servo motor, 4_ rotating assembly, 41_ large gear, 42_ support plate, 43_ screw, 44_ small gear, 45_ guide bar, 46_ moving seat, 47_ fixed bar, 48_ grooved ring, 5_ pulling clamping assembly, 51_ fixed ring, 52_ sliding block, 521_ compression spring, 53_ rotating plate, 54_ mounting seat, 55_ clamping bar, 56_ torsion spring, 57_ opposing bar, 58_ cutting seat, 59_ guide frame, 510_ fixed ring, 511_ sliding support bar, 512_ fixed ring, 6_ pulling stripping assembly, 61_ L traveling bar, 62_ fixed plate, 63_ telescopic bar, 64_ pressing spring, 65_ push bar, 7_ replacing assembly, 71_ overrunning clutch, 72_ large rotating shaft, 73_ rotating gear, 74_ rotating shaft, 75_ rotating gear, 76_ sheave, 8_ optical cable primary fixing assembly, 81_ fixed frame, 82_ fixed arc rod, 83_ clamping rod, 84_ return spring and 85_ fixed small round block.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example (b): the utility model provides a communication optical cable head end port sheath strips machine, as shown in fig. 1-9, including base 1, work casing 2, servo motor 3, rotating assembly 4, pulling clamping component 5, tensile subassembly 6 of skinning, optical cable replacement subassembly 7 and the preliminary fixed subassembly 8 of optical cable, base 1 top surface is provided with work casing 2, embedded servo motor 3 of installing on work casing 2, rotating assembly 4 is located work casing 2, be used for locating the tight pulling clamping component 5 of optical cable crust chucking on rotating assembly 4, a tensile subassembly 6 of skinning for peeling off optical cable head end crust from the optical cable line sets up on rotating assembly 4, the last rotation type of work casing 2 is connected with optical cable replacement subassembly 7, an optical cable fixing subassembly 8 that is used for fixing the optical cable is set up in work casing 2 outer wall.

Rotating assembly 4 is including gear wheel 41, backup pad 42, screw rod 43, pinion 44, guide bar 45, remove seat 46, dead lever 47 and fluting ring 48, fixedly connected with gear wheel 41 on the servo motor 3 output shaft, backup pad 42 has been welded to work casing 2 inner wall one side, the last rotation type of backup pad 42 is connected with screw rod 43, the hookup has pinion 44 on screw rod 43, pinion 44 agrees with each other with gear wheel 41, a guide bar 45 for carrying out spacing to removing seat 46 welds on the backup pad 42 that is close to screw rod 43, be connected with removal seat 46 through threaded connection's mode on the screw rod 43, remove seat 46 and 45 spacing connection of guide bar, dead lever 47 symmetry fixed connection is in removing seat 46 one side, two dead lever 47 one end of keeping away from removal seat 46 support jointly has fluting ring 48, the annular groove has on the fluting ring 48.

The pulling clamping assembly 5 comprises a fixed circular seat 51, a sliding block 52, a compression spring 521, a rotating piece 53, a mounting seat 54, a clamping rod 55, a torsion spring 56, an opposite rod 57, a cutting seat 58, a guide frame 59, a fixed circular rod 510, a sliding support rod 511 and a fixed circular ring 512, wherein the fixed circular seat 51 is arranged on a screw 43 far away from the pinion 44, the fixed circular seat 51 is provided with symmetrical strip-shaped grooves, the fixed circular seat 51 is symmetrically and slidably connected with the sliding block 52, at least a part of the sliding block 52 is arranged in the strip-shaped grooves, the sliding block 52 is fixedly connected with the compression spring 521, one end of the compression spring 521 is fixedly connected with the fixed circular seat 51, the compression spring 521 is positioned in the strip-shaped grooves, the rotating piece 53 is fixedly connected with one end of the sliding block 52 far away from the fixed circular seat 51, the rotating piece 53 is connected with the slotted circular ring 48, the mounting seat 54 is welded on one side of the rotating piece 53 far away from the sliding block 52, the mounting seat 54 is rotatably connected with the clamping rod 55, a torsion spring 56 is connected between the clamping rod 55 and the mounting seat 54, an opposite rod 57 is arranged on the clamping rod 55 in a limiting fit mode, a cutting seat 58 is welded at one end of the opposite rod 57, the cutting seat 58 is used for clamping and cutting the sheath of the optical cable, a guide frame 59 is connected on the two opposite rods 57 in a sliding mode, a fixed round rod 510 is symmetrically welded above the guide frame 59, a sliding support rod 511 is connected above the support plate 42 close to the screw 43 in a sliding mode, a fixed round ring 512 is arranged at one end, far away from the support plate 42, of the sliding support rod 511, an annular groove is formed in the fixed round ring 512, the fixed round ring 512 is used for pushing the clamping rod 55 to swing, and at least one part of the two fixed round rods 510 is arranged in the annular groove.

The stretching and peeling assembly 6 comprises an L-shaped row rod 61, a fixing plate 62, an expansion rod 63, an extrusion spring 64 and a push rod 65, wherein the L-shaped row rod 61 is fixedly connected to the top surface of a supporting plate 42 close to a sliding supporting rod 511, the fixing plate 62 is welded on the L-shaped row rod 61, the fixing plate 62 is in contact with the sliding supporting rod 511, the fixing plate 62 is used for blocking the sliding supporting rod 511, the expansion rod 63 is connected with the expansion rod 63 in a sliding mode on the sliding supporting rod 511, the expansion rod 63 is in contact with the fixing plate 62, the expansion rod 63 is used for blocking the fixing plate 62, the extrusion spring 64 is fixedly connected to the expansion rod 63, one end, far away from the expansion rod 63, of the extrusion spring 64 is connected with the sliding supporting rod 511, the push rod 65 is welded on the top surface of the slotted ring 48, and the push rod 65 is used for pushing the expansion rod 63 to move upwards.

The optical cable replacing component 7 comprises an overrunning clutch 71, a large rotating shaft 72, a rotating gear 73, a rotating shaft 74, a rotating gear 75 and a grooved pulley 76, wherein the overrunning clutch 71 is fixedly connected to one end of an output shaft of the servo motor 3, the large rotating shaft 72 is fixedly connected to one end, far away from the output shaft of the overrunning clutch 71, of the servo motor 3, the large rotating shaft 72 is rotatably connected with the working shell 2, the rotating gear 73 is welded to the large rotating shaft 72, close to the working shell 2, the rotating shaft 74 is rotatably connected with the working shell 2, at least one part of the rotating shaft 74 is located outside the working shell 2, the rotating gear 75 is welded to the rotating shaft 74, the rotating gear 75 and the rotating gear 73 are mutually engaged, the grooved pulley 76 is fixedly connected to the rotating shaft 74, far away from the rotating gear 75, and the grooved pulley 76 is provided with a U-shaped groove for placing an optical cable in a center scattering mode.

The optical cable preliminary fixing assembly 8 comprises a fixing frame 81, a fixing arc rod 82, a clamping rod 83, a reset spring 84 and a fixing small round block 85, the fixing frame 81 is welded on the outer wall of the working shell 2, the fixing frame 81 is welded with the fixing arc rod 82, the fixing arc rod 82 is used for blocking an optical cable, the fixing arc rod 82 is in mutual contact with the outer ring of the grooved pulley 76, the clamping rod 83 is connected on the fixing frame 81 in a sliding mode, the clamping rod 83 is used for clamping the optical cable, the reset spring 84 is fixedly connected on the clamping rod 83, one end of the reset spring 84 far away from the clamping rod 83 is connected with the fixing frame 81, the fixing small round block 85 is fixedly connected with the mode of central scattering on one side of the grooved pulley 76, and the fixing small round block 85 is used for pushing the clamping rod 83 to move towards the direction far away from the rotating shaft 74.

When the sheath of the head section of the optical cable needs to be stripped, the optical cable is placed in a U-shaped groove on a grooved wheel 76, then a worker manually starts a servo motor 3, an output shaft of the servo motor 3 rotates to drive a large gear 41 to rotate anticlockwise, so that the large gear 41 drives a small gear 44 and an upper device thereof to rotate, a screw 43 rotates clockwise to drive a moving seat 46 and the upper device thereof to move towards the direction away from the servo motor 3, a slotted ring 48 drives a rotating sheet 53 and the upper device thereof to move towards the direction away from the servo motor 3, a mounting seat 54 drives a clamping rod 55 to move towards the direction away from the servo motor 3, the clamping rod 55 pulls an opposite rod 57 and the upper device thereof to move towards the direction away from the servo motor 3, a sliding support rod 511 and the upper device thereof move towards the direction away from the servo motor 3, and when the sliding support rod 511 is contacted with a fixing plate 62, the fixing plate 62 blocks the sliding support rod 511, the slotted ring 48 continuously drives the push rod 65 to move towards the direction away from the servo motor 3, the push rod 65 is separated from the telescopic rod 63, the compression-state extrusion spring 64 is reset to drive the telescopic rod 63 to move downwards, and the telescopic rod 63 blocks the fixing plate 62.

When the output shaft of the servo motor 3 rotates anticlockwise, the output shaft of the servo motor 3 drives the overrunning clutch 71 to rotate anticlockwise, the overrunning clutch 71 rotates anticlockwise to drive the large rotating shaft 72 and the rotating gear 73 to rotate, the rotating gear 73 drives the rotating gear 75 and the upper device thereof to rotate, according to the number of teeth of the rotary gear 73 and the rotary gear 75, the rotary gear 73 drives the rotary gear 75 and the device thereon to rotate one fifth of a turn, the grooved pulley 76 rotates to drive the optical cable to rotate one fifth of a turn, the fixed arc-shaped rod 82 blocks the optical cable to prevent the optical cable from falling off, a worker loosens the optical cable, the fixed small round block 85 pushes the clamping rod 83 to move in the direction away from the rotary shaft 74, and when the fixed small round block 85 is separated from the clamping rod 83, the return spring 84 in the compressed state returns to move the latch 83 toward the rotation shaft 74, and the latch 83 clamps the optical cable.

Then, the output shaft of the servo motor 3 is manually controlled by a worker to rotate clockwise, the output shaft of the servo motor 3 drives the overrunning clutch 71 to rotate clockwise, and the overrunning clutch 71 rotates clockwise and cannot transmit power to the large rotating shaft 72, so that the large rotating shaft 72 and the device on the large rotating shaft cannot rotate. The output shaft of the servo motor 3 drives the large gear 41 to rotate clockwise, the large gear 41 drives the small gear 44 and the upper device thereof to rotate, the screw 43 rotates anticlockwise to drive the moving seat 46 and the upper device thereof to move towards the direction close to the servo motor 3, the slotted ring 48 drives the rotary piece 53 and the upper device thereof to move towards the direction close to the servo motor 3, the mounting seat 54 drives the clamping rod 55 to move towards the direction close to the servo motor 3, the clamping rod 55 swings under the action of the fixed ring 512, the clamping rod 55 swings to drive the opposite rod 57 and the upper device thereof to move oppositely, and the cutting seat 58 moves oppositely to clamp the sheath of the optical cable. The slotted ring 48 drives the push rod 65 to move towards the direction close to the servo motor 3, when the push rod 65 contacts with the telescopic rod 63, the push rod 65 pushes the telescopic rod 63 to move upwards, the extrusion spring 64 is compressed, the telescopic rod 63 does not block the fixing plate 62 any more, the push rod 65 drives the sliding support rod 511 to move towards the direction close to the servo motor 3 through the telescopic rod 63, the fixed ring 512 drives the guide frame 59 to move towards the direction close to the servo motor 3 through the fixed round rod 510, so that the cutting seat 58 pulls the sheath of the optical cable to move towards the direction close to the servo motor 3, and the clamping rod 83 clamps the optical cable tightly, so that the cutting seat 58 pulls the sheath of the optical cable from the optical cable. Meanwhile, the screw 43 drives the fixed round seat 51 and the device thereon to rotate, the mounting seat 54 drives the opposite rod 57 and the device thereon to rotate around the fixed ring 512 through the clamping rod 55, the cutting seat 58 drives the sheath of the optical cable to rotate, and the cutting seat 58 can rapidly peel the sheath of the head end of the optical cable from the optical cable through the cooperation of the rotation of the sheath of the optical cable and the movement towards the direction close to the servo motor 3. And repeating the operation to peel off the outer skin of the head section of the optical cable, and after the operation is finished, manually closing the servo motor 3 by a worker to stop the operation of the equipment.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides a communication optical cable head end port sheath strips machine, which is characterized by, including base (1), work casing (2), servo motor (3), rotating assembly (4), pulling clamping component (5), tensile subassembly (6) of skinning, subassembly (7) and the preliminary fixed subassembly (8) of optical cable are changed to the optical cable, base (1) top surface is provided with work casing (2), embedded servo motor (3) of installing on work casing (2), rotating assembly (4) are located work casing (2), pulling clamping component (5) are located on rotating assembly (4), tensile subassembly (6) of skinning sets up on rotating assembly (4), the rotation type is connected with the optical cable on work casing (2) and is changed subassembly (7), the preliminary fixed subassembly (8) of optical cable sets up in work casing (2) outer wall.

2. The stripping machine for the port sheath of the head section of the communication optical cable as claimed in claim 1, wherein the rotating assembly (4) comprises a large gear (41), a support plate (42), a screw (43), a small gear (44), a guide rod (45), a moving seat (46), a fixed rod (47) and a slotted ring (48), the large gear (41) is fixedly connected to an output shaft of the servo motor (3), the support plate (42) is welded to one side of the inner wall of the working shell (2), the screw (43) is rotatably connected to the support plate (42), the small gear (44) is connected to the screw (43), the small gear (44) and the large gear (41) are mutually engaged, the guide rod (45) is welded to the support plate (42), the moving seat (46) is connected to the screw (43) in a threaded connection manner, the moving seat (46) is in limit connection with the guide rod (45), the fixed rod (47) is symmetrically and fixedly connected to one side of the moving seat (46), one end of each fixing rod (47) is commonly supported with a slotted ring (48), and the slotted ring (48) is provided with an annular groove.

3. The stripping machine for the port sheath of the head section of the communication optical cable as claimed in claim 2, characterized in that the pulling clamping assembly (5) comprises a fixed round seat (51), a sliding block (52), a compression spring (521), a rotating piece (53), a mounting seat (54), a clamping rod (55), a torsion spring (56), an opposite rod (57), a cutting seat (58), a guide frame (59), a fixed round rod (510), a sliding support rod (511) and a fixed round ring (512), wherein the fixed round seat (51) is arranged on the screw rod (43), the fixed round seat (51) is provided with symmetrical strip-shaped grooves, the sliding block (52) is symmetrically and slidably connected on the fixed round seat (51), at least a part of the sliding block (52) is arranged in the strip-shaped groove, the compression spring (521) is fixedly connected on the sliding block (52), one end of the compression spring (521) is fixedly connected with the fixed round seat (51), the compression spring (521) is positioned in the strip-shaped groove, the rotary piece (53) is fixedly connected to one end of the sliding block (52), the rotary piece (53) is connected with the slotted ring (48) in a sliding mode, the mounting seat (54) is welded on one side of the rotary piece (53), the mounting seat (54) is connected with the clamping rod (55) in a rotating mode, the clamping rod (55) and the mounting seat (54) are connected with the torsion spring (56) in a connecting mode, the clamping rod (55) is provided with the opposite rod (57) in a limiting fit mode, one end of the opposite rod (57) is welded with the cutting seat (58), the two opposite rods (57) are jointly connected with the guide frame (59) in a sliding mode, the fixed ring (510) is symmetrically welded above the guide frame (59), the supporting plate (42) is connected with the sliding supporting rod (511) in a sliding mode, one end of the sliding supporting rod (511) is provided with the fixed ring (512), the fixed ring (512) is provided with an annular groove, and at least one part of the two fixed ring (510) is arranged in the annular groove.

4. The stripping machine for the port sheath of the head section of the communication optical cable according to claim 3, characterized in that the stretching stripping assembly (6) comprises an L-shaped traveling bar (61), a fixing plate (62), an expansion link (63), an extrusion spring (64) and a push rod (65), wherein the L-shaped traveling bar (61) is fixedly connected to the top surface of the supporting plate (42), the fixing plate (62) is welded on the L-shaped traveling bar (61), the fixing plate (62) is in contact with the sliding supporting bar (511), the expansion link (63) is slidably connected to the sliding supporting bar (511), the expansion link (63) is in contact with the fixing plate (62), the extrusion spring (64) is fixedly connected to the expansion link (63), one end of the extrusion spring (64) is connected to the sliding supporting bar (511), and the push rod (65) is fixedly connected to the top surface of the slotted ring (48).

5. The communication optical cable head port sheath stripping machine as claimed in claim 4, characterized in that the optical cable replacement assembly (7) comprises an overrunning clutch (71), a large rotating shaft (72), a rotating gear (73), a rotating shaft (74), a rotating gear (75) and a grooved pulley (76), wherein the overrunning clutch (71) is fixedly connected to one end of an output shaft of the servo motor (3), the large rotating shaft (72) is fixedly connected to one end of the output shaft of the overrunning clutch (71), the large rotating shaft (72) is rotatably connected to the working housing (2), the rotating gear (73) is welded to the large rotating shaft (72), the rotating shaft (74) is rotatably connected to the working housing (2), at least a part of the rotating shaft (74) is located outside the working housing (2), the rotating gear (75) is welded to the rotating shaft (74), and the rotating gear (75) and the rotating gear (73) are engaged with each other, a grooved wheel (76) is fixedly connected to the rotating shaft (74), and a U-shaped groove is formed in the grooved wheel (76) in a center scattering mode.

6. The stripping machine for the port sheath of the head section of the communication optical cable according to claim 5, characterized in that the optical cable primary fixing assembly (8) comprises a fixing frame (81), a fixing arc-shaped rod (82), a clamping rod (83), a reset spring (84) and a fixing small round block (85), the fixing frame (81) is welded on the outer wall of the working shell (2), the fixing arc-shaped rod (82) is welded on the fixing frame (81), the fixing arc-shaped rod (82) is in mutual contact with the outer ring of the grooved pulley (76), the clamping rod (83) is slidably connected on the fixing frame (81), the reset spring (84) is fixedly connected on the clamping rod (83), one end of the reset spring (84) is connected with the fixing frame (81), and one side of the grooved pulley (76) is fixedly connected with the fixing small round block (85) in a center scattering manner.

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