CN112027799A

CN112027799A - Guider is used in communication cable production

Info

Publication number: CN112027799A
Application number: CN202010791762.3A
Authority: CN
Inventors: 孙悦
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-08
Filing date: 2020-08-08
Publication date: 2020-12-04
Anticipated expiration: 2040-08-08
Also published as: CN112027799B

Abstract

The invention discloses a guiding device for communication cable production, wherein the cable is directly fixed on a carrier by the existing communication cable guiding device, so that the flexibility of the cable is reduced, the body is easily damaged under the condition that the cable has torsion, and the cable can have torsion when being guided, so that the whole guiding process is influenced. The two ends of the cross rod are provided with guide blocks, the outer surface of the bundling block is fixedly provided with a connecting piece, the outer surface of the connecting piece is provided with an L-shaped connecting block, the L-shaped connecting block is movably connected with the connecting piece through a movable shaft, when a communication cable has self torsion, the self torsion can be removed through the rotation of the L-shaped connecting block and the rotation of the cross rod, the upper surface of the guide plate is provided with a fixed seat and a dredging cylinder, the upper surface of the fixed seat is fixedly provided with a dredging cylinder, the upper surface of the dredging cylinder is provided with a dredging bolt, the interior of the dredging cylinder is provided with a through hole, and the dredging bolt is communicated with the.

Description

Guider is used in communication cable production

Technical Field

The invention relates to the technical field of cable production, in particular to a guiding device for communication cable production.

Background

The communication cable is a cable for transmitting telephone, telegraph, fax document, television and radio program, data and other electric signals, and is formed by twisting more than one pair of mutually insulated wires, compared with the overhead open wire, the communication cable has the advantages of large communication capacity, high transmission stability, good confidentiality, less influence by natural conditions and external interference, etc., the communication cable is a communication line formed by a cable core twisted by a plurality of mutually insulated wires or conductors and an outer sheath for protecting the cable core from moisture and mechanical damage, in a place with particularly severe environment, a protective layer can be arranged outside the communication cable sheath if necessary, the manufacturing processes of different cables have certain difference, but the general processing method has the commonality, in order to ensure the stable structural size and good electric performance of the cable, the production sequence of the cable is carried out from inside to outside according to the structure, the whole manufacturing process comprises the steps of manufacturing an insulating wire core, twisting a wire group, manufacturing a coaxial pair, a cabling process, drying a cable core, manufacturing a metal sleeve and an outer protective layer of the cable, wherein the cable mainly comprises the following 4 parts, and a conductive wire core: made of high-conductivity material (copper or aluminum), each wire core may be formed by twisting a single wire or a plurality of wires according to the requirement of laying use conditions on the flexibility degree of the cable, and the insulating layer: the insulating material used for the cable should have high insulation resistance, high breakdown field strength, low dielectric loss and low dielectric constant, and the insulating materials commonly used in the cable are oil-impregnated paper, polyvinyl chloride, polyethylene, cross-linked polyethylene, rubber and the like. Cables are often classified in insulating materials, such as oil-impregnated paper insulated cables, polyvinyl chloride cables, crosslinked polyethylene cables, etc., sealing sheaths: protecting the insulated wire core from damage by mechanical, moisture, humidity, chemicals, light, etc., for moisture-sensitive insulation, a lead or aluminum extruded sealing sheath is generally used to protect the cover layer: the cable is used for protecting a sealing sheath from mechanical damage, a galvanized steel belt, a steel wire or a copper belt, a copper wire and the like are generally adopted as armor to wrap the sheath (called an armored cable), an armor layer simultaneously plays a role in electric field shielding and preventing external electromagnetic wave interference, in order to avoid corrosion of surrounding media to the steel belt and the steel wire, asphalt is generally coated or a soaked jute layer or a polyethylene and polyvinyl chloride sleeve is wrapped outside the steel belt and the steel wire, and the cable is frequently required to be guided in the processing and production process, such as a cable pressure resistance test, and the procedures of drying and processing after the cable is wrapped, and the like, and the cable is required to be guided.

Present communication cable guider is all with the cable snap-on the carrier, leads to the flexibility of cable to reduce to caused when the cable has under the situation of torsion, caused the injury to the body easily, secondly when leading to the cable, cable itself can have torsion, thereby influenced holistic direction process.

In order to solve the problems, the prior device is improved, and the guiding device for producing the communication cable is provided.

Disclosure of Invention

The invention aims to provide a guiding device for producing a communication cable, wherein two ends of a cross rod are provided with guide blocks, a bundling block is inserted on the outer surface of the cross rod, two ends of the cross rod are provided with rotary seats, the outer surface of the guide blocks is provided with guide holes, the guide blocks are connected with a stretching rod through the guide holes, the outer surface of the bundling block is fixedly provided with a connecting piece, the outer surface of the connecting piece is provided with an L-shaped connecting block, the outer surface of the L-shaped connecting block is provided with a bundling hole, one end of the L-shaped connecting block is provided with a movable shaft, the L-shaped connecting block is movably connected with the connecting piece through the movable shaft, when the communication cable has self torsion, the self torsion can be removed through the rotation of the L-shaped connecting block and the rotation of the cross rod, the upper surface of a guide plate is provided with a fixed seat and a dredging cylinder, the upper surface, the dredging cylinder is internally provided with a through hole, and the dredging bolt is communicated with the through hole, so that the problem in the background technology is solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a guider is used in communication cable production, including supporting mechanism and main part mechanism, the upper end of supporting mechanism is provided with main part mechanism, the supporting mechanism includes PMKD and install bin, PMKD's upper end fixed mounting has the install bin, the upper end of install bin is provided with main part mechanism, main part mechanism includes the deflector, dredge the mechanism, moving mechanism, complementary unit and bundling mechanism, the upper surface of deflector is provided with dredges the mechanism, the both sides of deflector all are provided with moving mechanism, moving mechanism's upper end is provided with complementary unit, complementary unit's one end is provided with bundling mechanism, the bottom of deflector is connected with the install bin.

Further, the mounting box includes mounting groove, carousel, access panel, screens seat and motor, and the mounting groove has been seted up to the upper surface of mounting box, and the inside of mounting groove is provided with the carousel, and one side of mounting box is provided with the access panel, and the last fixed surface of mounting box installs the screens seat, and the inside of mounting box is provided with the motor.

Furthermore, be provided with the stagnation hole on the surface of carousel, fixed mounting has the telescopic link on the surface of screens seat, and the screens seat is connected with the carousel through the telescopic link, is provided with connecting bolt on the surface of access panel, and access panel passes through connecting bolt and install bin swing joint, and the output of motor is connected with the carousel.

Further, the deflector includes flange, T type groove and dog, and one side fixed mounting of deflector has the flange, and the opposite side of deflector is provided with T type groove, and fixed mounting has the dog on the surface of deflector, is provided with the connecting bolt on the surface of flange, and the flange passes through connecting bolt and deflector swing joint, and the deflector is connected with the carousel through the flange, and one side fixed mounting of dog has electric putter, and electric putter's one end is connected with moving mechanism.

Further, moving mechanism includes montant, T type slider, installation piece and connecting plate, and the one end of connecting plate is provided with T type slider, and the other end of connecting plate is provided with the installation piece, and the montant passes the connecting plate and is connected with the installation piece.

Further, the one end of montant is provided with connecting thread, and one side of installation piece is provided with locking bolt A, and the upper surface of connecting plate is provided with screw thread mouth and locking bolt B, and the connecting plate passes through locking bolt B and T type slider swing joint, and the montant passes through connecting thread and installation piece swing joint, and the montant passes through T type slider and deflector swing joint, and locking bolt A's one end is passed the installation piece and is connected with the deflector surface.

Further, the dredging mechanism comprises a fixing seat and a dredging cylinder, the upper surface of the fixing seat is fixedly provided with the dredging cylinder, the upper surface of the dredging cylinder is provided with a dredging bolt, a through hole is formed in the dredging cylinder, and the dredging bolt is communicated with the through hole.

Further, the auxiliary mechanism comprises a stretching rod and a moving block, the moving block is arranged at each of two ends of the stretching rod, a locking bolt C is arranged on one side of the moving block, and the moving block is movably connected with the vertical rod.

Furthermore, the bundling mechanism comprises a cross rod, guide blocks and bundling blocks, the guide blocks are arranged at two ends of the cross rod, the bundling blocks are inserted on the outer surface of the cross rod, rotary seats are arranged at two ends of the cross rod, guide holes are formed in the outer surface of the guide blocks, and the guide blocks are connected with the stretching rod through the guide holes.

Furthermore, a connecting piece is fixedly mounted on the outer surface of the bundling block, an L-shaped connecting block is arranged on the outer surface of the connecting piece, a bundling hole is formed in the outer surface of the L-shaped connecting block, a movable shaft is arranged at one end of the L-shaped connecting block, and the L-shaped connecting block is movably connected with the connecting piece through the movable shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a guiding device for producing communication cables, wherein guide blocks are arranged at two ends of a cross rod, a bundling block is inserted on the outer surface of the cross rod, rotary seats are arranged at two ends of the cross rod, guide holes are arranged on the outer surface of the guide blocks, the guide blocks are connected with a stretching rod through the guide holes, a connecting piece is fixedly arranged on the outer surface of the bundling block, an L-shaped connecting block is arranged on the outer surface of the connecting piece, a bundling hole is arranged on the outer surface of the L-shaped connecting block, a movable shaft is arranged at one end of the L-shaped connecting block, the L-shaped connecting block is movably connected with the connecting piece through the movable shaft, the communication cables start to be guided after passing through the bundling hole, certain torsion force exists in the cables, the torsion force of the cables can be removed through the rotation between the L-shaped connecting block and the connecting piece, the damage, the direction of the cable can be changed, the flexibility of the cable is improved, and meanwhile the torsion of the cable can be reduced.

2. The invention provides a guiding device for producing communication cables, wherein a dredging cylinder is fixedly mounted on the upper surface of a fixed seat, a dredging bolt is arranged on the upper surface of the dredging cylinder, a through hole is formed in the dredging cylinder, the dredging bolt is communicated with the through hole, the fixed seat and the dredging cylinder are both fixed on the upper surface of a guide plate, the communication cables penetrate through the through hole and are connected with a bundling hole, and the diameter of the through hole is changed by adjusting the dredging bolt when the communication cables penetrate through the through hole, so that the dredging cylinder can be suitable for communication cables of various models, and meanwhile, when the diameter of the through hole is adjusted, the self-rotation force of the communication cables can be reduced, and the damage of the self-rotation force to the cables is reduced.

3. The invention provides a guiding device for communication cable production, which is characterized in that the upper surface of an installation box is provided with an installation groove, a rotary table is arranged inside the installation groove, one side of the installation box is provided with an inspection window, the upper surface of the installation box is fixedly provided with a clamping seat, a motor is arranged inside the installation box, a stagnation hole is arranged on the outer surface of the rotary table, a telescopic rod is fixedly arranged on the outer surface of the clamping seat, the clamping seat is connected with the rotary table through the telescopic rod, the output end of the motor is connected with the rotary table, and when the whole body is in a non-working state, the telescopic rod can play a braking effect and prevent the rotary table from rotating automatically to damage.

Drawings

FIG. 1 is a schematic view of the overall structure of a guiding device for producing a communication cable according to the present invention;

FIG. 2 is a structural diagram of a supporting mechanism of a guiding device for producing a communication cable according to the present invention in a non-operating state;

FIG. 3 is a structural diagram of the supporting mechanism of the guiding device for producing communication cable according to the present invention in an operating state;

FIG. 4 is a schematic structural diagram of a main body mechanism of a guiding device for producing a communication cable according to the present invention;

FIG. 5 is a schematic view of the bottom structure of the guide plate of the guide device for producing communication cables according to the present invention;

FIG. 6 is a schematic view of the whole structure of the guide plate of the guide device for producing communication cables according to the present invention;

FIG. 7 is a schematic structural view of a moving mechanism of a guiding device for producing a communication cable according to the present invention;

FIG. 8 is a schematic structural view of an auxiliary mechanism of a guiding device for producing a communication cable according to the present invention;

fig. 9 is a schematic structural view of a bundling mechanism of a guiding device for producing communication cables according to the present invention.

In the figure: 1. a support mechanism; 11. fixing the bottom plate; 12. installing a box; 121. mounting grooves; 122. a turntable; 1221. a stagnation hole; 123. an access panel; 1231. a connecting bolt; 124. a clamping seat; 1241. a telescopic rod; 125. a motor; 2. a main body mechanism; 21. a guide plate; 211. a flange; 2111. a connecting bolt; 212. a T-shaped groove; 213. a stopper; 2131. an electric push rod; 22. a dredging mechanism; 221. fixing a seat; 222. a dredging cylinder; 2221. dredging the bolt; 2222. a through hole; 23. a moving mechanism; 231. a vertical rod; 2311. connecting threads; 232. a T-shaped slider; 233. mounting blocks; 2331. locking the bolt A; 234. a connecting plate; 2341. a threaded opening; 2342. locking the bolt B; 24. an auxiliary mechanism; 241. a stretch rod; 242. a moving block; 2421. locking the bolt C; 25. a bundling mechanism; 251. a cross bar; 2511. a rotating base; 252. a guide block; 2521. a guide hole; 253. a bundling block; 2531. a connecting member; 2532. an L-shaped connecting block; 25321. a bundling hole; 25322. a movable shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, 2 and 4, a guiding device for communication cable production, including supporting mechanism 1 and main body mechanism 2, supporting mechanism 1's upper end is provided with main body mechanism 2, supporting mechanism 1 includes PMKD 11 and install bin 12, PMKD 11's upper end fixed mounting has install bin 12, install bin 12's upper end is provided with main body mechanism 2, main body mechanism 2 includes deflector 21, dredge mechanism 22, moving mechanism 23, complementary unit 24 and bundling mechanism 25, the upper surface of deflector 21 is provided with dredge mechanism 22, the both sides of deflector 21 all are provided with moving mechanism 23, the upper end of moving mechanism 23 is provided with complementary unit 24, complementary unit 24's one end is provided with bundling mechanism 25, the bottom of deflector 21 is connected with install bin 12.

Example two

Referring to fig. 3 and 5, the installation box 12 includes an installation groove 121, a turntable 122, an access window 123, a clamping seat 124 and a motor 125, the installation groove 121 is formed on the upper surface of the installation box 12, the turntable 122 is disposed inside the installation groove 121, the access window 123 is disposed on one side of the installation box 12, the clamping seat 124 is fixedly disposed on the upper surface of the installation box 12, the motor 125 is disposed inside the installation box 12, a stagnation hole 1221 is disposed on the outer surface of the turntable 122, an expansion link 1241 is fixedly disposed on the outer surface of the clamping seat 124, the clamping seat 124 is connected to the turntable 122 through the expansion link 1241, a connection bolt 1231 is disposed on the outer surface of the access window 123, the access window 123 is movably connected to the installation box 12 through a connection bolt 1231, the output end of the motor 125 is connected to the turntable 122, the guide plate 21 includes a flange 211, a T212 and a stopper 213, a flange 211 is fixedly disposed on one side of the guide, the outer surface of the guide plate 21 is fixedly provided with a stop block 213, the outer surface of the flange 211 is provided with a connecting bolt 2111, the flange 211 is movably connected with the guide plate 21 through the connecting bolt 2111, the guide plate 21 is connected with the rotary disc 122 through the flange 211, one side of the stop block 213 is fixedly provided with an electric push rod 2131, and one end of the electric push rod 2131 is connected with the moving mechanism 23.

EXAMPLE III

Referring to fig. 7, the moving mechanism 23 includes a vertical rod 231, a T-shaped slider 232, a mounting block 233 and a connecting plate 234, the T-shaped slider 232 is disposed at one end of the connecting plate 234, the mounting block 233 is disposed at the other end of the connecting plate 234, the vertical rod 231 passes through the connecting plate 234 to be connected to the mounting block 233, a connecting thread 2311 is disposed at one end of the vertical rod 231, a locking bolt a2331 is disposed at one side of the mounting block 233, a threaded opening 2341 and a locking bolt B2342 are disposed on the upper surface of the connecting plate 234, the connecting plate 234 is movably connected to the T-shaped slider 232 through the locking bolt B2342, the vertical rod 231 is movably connected to the mounting block 233 through the connecting thread 2311, the vertical rod 231 is movably connected to the guide plate 21 through the T-shaped slider 232, and one.

Example four

Referring to fig. 6, 8 and 9, the canalizing mechanism 22 includes a fixing base 221 and a canalizing cylinder 222, the canalizing cylinder 222 is fixedly installed on the upper surface of the fixing base 221, a canalizing bolt 2221 is installed on the upper surface of the canalizing cylinder 222, a through hole 2222 is installed inside the canalizing cylinder 222, the canalizing bolt 2221 is communicated with the through hole 2222, the auxiliary mechanism 24 includes a stretching rod 241 and a moving block 242, both ends of the stretching rod 241 are respectively provided with a moving block 242, one side of the moving block 242 is provided with a locking bolt C2421, the moving block 242 is movably connected with a vertical rod 231, the bundling mechanism 25 includes a cross bar 251, a guide block 252 and a bundling block 253, both ends of the cross bar are provided with guide blocks 252, the bundling block 253 is inserted on the outer surface of the cross bar 251, both ends of the cross bar 251 are provided with rotating bases 2511, a guide hole 2521 is installed on the outer surface of the guide block 252, the guide block 252 is connected with the stretching, an L-shaped connecting block 2532 is arranged on the outer surface of the connecting piece 2531, a cluster hole 25321 is arranged on the outer surface of the L-shaped connecting block 2532, a movable shaft 25322 is arranged at one end of the L-shaped connecting block 2532, and the L-shaped connecting block 2532 is movably connected with the connecting piece 2531 through the movable shaft 25322.

EXAMPLE five

Referring to fig. 3 and 6, a mounting groove 121 is formed on the upper surface of the mounting box 12, a turntable 122 is disposed inside the mounting groove 121, an access window 123 is disposed on one side of the mounting box 12, a clamping seat 124 is fixedly mounted on the upper surface of the mounting box 12, a motor 125 is disposed inside the mounting box 12, a stagnation hole 1221 is disposed on the outer surface of the turntable 122, an expansion link 1241 is fixedly mounted on the outer surface of the clamping seat 124, the clamping seat 124 is connected to the turntable 122 through the expansion link 1241, an output end of the motor 125 is connected to the turntable 122, when the whole body is in a non-working state, the expansion link 1241 can play a role of braking, the turntable 122 is prevented from rotating automatically to cause damage to a cable, a dredging mechanism 22 is disposed on the upper surface of the guide plate 21, a dredging cylinder 222 is fixedly mounted on the upper surface of the fixing seat 221, a dredging bolt 2221 is disposed on the upper surface of the dredging cylinder 222, the dredging bolt 2221 is communicated with the through hole 2222, the fixing seat 221 and the dredging cylinder 222 are both fixed on the upper surface of the guide plate 21, the communication cable penetrates through the through hole 2222 and is connected with the bundling hole 25321, when the communication cable penetrates through the through hole 2222, the diameter of the through hole 2222 is changed by adjusting the dredging bolt 2221, so that the dredging cylinder 222 can be suitable for communication cables of various models, meanwhile, when the diameter of the through hole 2222 is adjusted, the self-rotation force of the communication cable can be reduced, and the damage to the cable caused by the self-rotation force is reduced.

Example III

Referring to fig. 9, an auxiliary mechanism 24 is disposed at an upper end of a moving mechanism 23, a bundling mechanism 25 is disposed at one end of the auxiliary mechanism 24, guide blocks 252 are disposed at two ends of a crossbar 251, a bundling block 253 is inserted into an outer surface of the crossbar 251, rotary seats 2511 are disposed at two ends of the crossbar 251, guide holes 2521 are disposed on outer surfaces of the guide blocks 252, the guide blocks 252 are connected to a stretching rod 241 through the guide holes 2521, a connecting member 2531 is fixedly mounted on an outer surface of the bundling block 253, an L-shaped connecting block 2532 is disposed on an outer surface of the connecting member 2531, a bundling hole 25321 is disposed on an outer surface of the L-shaped connecting block 2532, a movable shaft 25322 is disposed at one end of the L-shaped connecting block 2532, the L-shaped connecting block 2532 is movably connected to the connecting member 2531 through the movable shaft 25322, a communication cable starts to be guided after passing through the bundling hole 25321, the torsion of the cable can be removed, the damage of the torsion to the cable is reduced, meanwhile, the rotation of the rotating base 2511 drives the cross rod 251 to integrally rotate, the direction of the cable can be changed, the flexibility of the cable is improved, and meanwhile, the torsion of the cable can be reduced.

The working principle is as follows: the two ends of the cross bar 251 are provided with guide blocks 252, the bunching block 253 is inserted on the outer surface of the cross bar 251, the two ends of the cross bar 251 are provided with rotating seats 2511, the outer surface of the guide block 252 is provided with a guide hole 2521, the guide block 252 is connected with the stretching rod 241 through the guide hole 2521, the outer surface of the bunching block 253 is fixedly provided with a connecting piece 2531, the outer surface of the connecting piece 2531 is provided with an L-shaped connecting block 2532, the outer surface of the L-shaped connecting block 2532 is provided with a bunching hole 25321, one end of the L-shaped connecting block 2532 is provided with a movable shaft 25322, the L-shaped connecting block 2532 is movably connected with the connecting piece 2531 through the movable shaft 25322, a communication cable starts to guide after passing through the bunching hole 25321, the rotating seats 2511 drive the cross bar 251 to integrally rotate, the upper surface of the fixing seat 221 is fixedly provided with a dredging cylinder 222, the upper surface of the dredging cylinder 222 is provided with, the fixing seat 221 and the dredging cylinder 222 are both fixed on the upper surface of the guide plate 21, the communication cable passes through the through hole 2222 and is connected with the bundling hole 25321, when the communication cable passes through the through hole 2222, the diameter of the through hole 2222 is changed by adjusting the dredging bolt 2221, the upper surface of the installation box 12 is provided with an installation groove 121, a rotary table 122 is arranged inside the installation groove 121, one side of the installation box 12 is provided with an inspection window 123, the upper surface of the installation box 12 is fixedly provided with a clamping seat 124, the inside of the installation box 12 is provided with a motor 125, the outer surface of the rotary table 122 is provided with a stagnation hole 1221, the outer surface of the clamping seat 124 is fixedly provided with a telescopic rod 1241, the clamping seat 124 is connected with the rotary table 122 through the telescopic rod 1241, the output end of the motor 125 is connected with the rotary table 124122, and when the.

In summary, the following steps: the guiding device for producing the communication cable comprises a main body mechanism 2 arranged at the upper end of a supporting mechanism 1, an installation box 12 fixedly arranged at the upper end of a fixed bottom plate 11, a main body mechanism 2 arranged at the upper end of the installation box 12, an installation groove 121 arranged on the upper surface of the installation box 12, a rotary table 122 arranged inside the installation groove 121, an access window 123 arranged at one side of the installation box 12, a clamping seat 124 fixedly arranged on the upper surface of the installation box 12, a motor 125 arranged inside the installation box 12, a stagnation hole 1221 arranged on the outer surface of the rotary table 122, a telescopic rod 1241 fixedly arranged on the outer surface of the clamping seat 124, the clamping seat 124 connected with the rotary table 122 through the telescopic rod 1241, an output end of the motor 125 connected with the rotary table 122, when the whole body is in a non-working state, the telescopic rod 1241 can play a braking effect to prevent the rotary table 122 from self-rotating and causing damage to the cable, the upper surface of the fixed seat 221 is fixedly provided with a dredging cylinder 222, the upper surface of the dredging cylinder 222 is provided with a dredging bolt 2221, the inside of the dredging cylinder 222 is provided with a through hole 2222, the dredging bolt 2221 is communicated with the through hole 2222, the fixed seat 221 and the dredging cylinder 222 are both fixed on the upper surface of the guide plate 21, the communication cable passes through the through hole 2222 and is connected with the bundling hole 25321, when the communication cable passes through the through hole 2222, the diameter of the through hole 2222 is changed by adjusting the dredging bolt 2221, so that the dredging cylinder 222 can be suitable for communication cables of various types, meanwhile, when the diameter of the through hole 2222 is adjusted, the self-rotation force of the communication cable can be reduced, the damage of the self-rotation force to the cable is reduced, the two sides of the guide plate 21 are both provided with the moving mechanisms 23, the upper end of the moving mechanism 23 is provided with the auxiliary mechanism 24, one end of the auxiliary mechanism 24 is provided with the bundling, the bundling block 253 is inserted on the outer surface of the crossbar 251, the two ends of the crossbar 251 are provided with rotating seats 2511, the outer surface of the guide block 252 is provided with a guide hole 2521, the guide block 252 is connected with the stretching rod 241 through the guide hole 2521, the outer surface of the bundling block 253 is fixedly provided with a connecting piece 2531, the outer surface of the connecting piece 2531 is provided with an L-shaped connecting block 2532, the outer surface of the L-shaped connecting block 2532 is provided with a bundling hole 25321, one end of the L-shaped connecting block 2532 is provided with a movable shaft 25322, the L-shaped connecting block 2532 is movably connected with the connecting piece 2531 through the movable shaft 25322, a communication cable starts to be guided after passing through the bundling hole 25321, a certain torsion force exists in the cable, the torsion force of the cable can be removed through the rotation between the L-shaped connecting block 2532 and the connecting piece 2531, the damage of the torsion force to the cable is reduced, meanwhile, the flexibility of the cable is improved, and meanwhile, the torsion of the cable can be reduced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a guider is used in communication cable production, includes supporting mechanism (1) and main part mechanism (2), and the upper end of supporting mechanism (1) is provided with main part mechanism (2), its characterized in that: the supporting mechanism (1) comprises a fixed bottom plate (11) and an installation box (12), the installation box (12) is fixedly installed at the upper end of the fixed bottom plate (11), and a main body mechanism (2) is arranged at the upper end of the installation box (12);

the main body mechanism (2) comprises a guide plate (21), a dredging mechanism (22), a moving mechanism (23), an auxiliary mechanism (24) and a bundling mechanism (25), the dredging mechanism (22) is arranged on the upper surface of the guide plate (21), the moving mechanism (23) is arranged on each of two sides of the guide plate (21), the auxiliary mechanism (24) is arranged at the upper end of each moving mechanism (23), the bundling mechanism (25) is arranged at one end of each auxiliary mechanism (24), and the bottom of the guide plate (21) is connected with the installation box (12).

2. The guide device for use in the production of communication cables of claim 1, wherein: the mounting box (12) comprises a mounting groove (121), a rotary table (122), an access window (123), a clamping seat (124) and a motor (125), the mounting groove (121) is formed in the upper surface of the mounting box (12), the rotary table (122) is arranged inside the mounting groove (121), the access window (123) is arranged on one side of the mounting box (12), the clamping seat (124) is fixedly mounted on the upper surface of the mounting box (12), and the motor (125) is arranged inside the mounting box (12).

3. The guide for use in the production of communication cables of claim 2, wherein: be provided with stagnation hole (1221) on the surface of carousel (122), fixed mounting has telescopic link (1241) on the surface of screens seat (124), screens seat (124) are connected with carousel (122) through telescopic link (1241), be provided with connecting bolt (1231) on the surface of access panel (123), access panel (123) are through connecting bolt (1231) and install bin (12) swing joint, the output of motor (125) is connected with carousel (122).

4. The guide device for use in the production of communication cables of claim 1, wherein: the guide plate (21) comprises a flange (211), a T-shaped groove (212) and a stop block (213), the flange (211) is fixedly installed on one side of the guide plate (21), the T-shaped groove (212) is arranged on the other side of the guide plate (21), the stop block (213) is fixedly installed on the outer surface of the guide plate (21), a connecting bolt (2111) is arranged on the outer surface of the flange (211), the flange (211) is movably connected with the guide plate (21) through the connecting bolt (2111), the guide plate (21) is connected with the rotary disc (122) through the flange (211), an electric push rod (2131) is fixedly installed on one side of the stop block (213), and one end of the electric push rod (2131) is connected with the moving mechanism (23).

5. The guide device for use in the production of communication cables of claim 1, wherein: the moving mechanism (23) comprises a vertical rod (231), a T-shaped sliding block (232), a mounting block (233) and a connecting plate (234), the T-shaped sliding block (232) is arranged at one end of the connecting plate (234), the mounting block (233) is arranged at the other end of the connecting plate (234), and the vertical rod (231) penetrates through the connecting plate (234) to be connected with the mounting block (233).

6. The guide for use in the production of communication cables of claim 5, wherein: one end of the vertical rod (231) is provided with a connecting thread (2311), one side of the mounting block (233) is provided with a locking bolt A (2331), the upper surface of the connecting plate (234) is provided with a thread opening (2341) and a locking bolt B (2342), the connecting plate (234) is movably connected with the T-shaped slider (232) through the locking bolt B (2342), the vertical rod (231) is movably connected with the mounting block (233) through the connecting thread (2311), the vertical rod (231) is movably connected with the guide plate (21) through the T-shaped slider (232), and one end of the locking bolt A (2331) penetrates through the mounting block (233) to be connected with the outer surface of the guide plate (21).

7. The guide device for use in the production of communication cables of claim 1, wherein: the dredging mechanism (22) comprises a fixed seat (221) and a dredging cylinder (222), the upper surface of the fixed seat (221) is fixedly provided with the dredging cylinder (222), the upper surface of the dredging cylinder (222) is provided with a dredging bolt (2221), a through hole (2222) is formed in the dredging cylinder (222), and the dredging bolt (2221) is communicated with the through hole (2222).

8. The guide device for use in the production of communication cables of claim 1, wherein: the auxiliary mechanism (24) comprises a stretching rod (241) and a moving block (242), the moving block (242) is arranged at each of two ends of the stretching rod (241), a locking bolt C (2421) is arranged on one side of the moving block (242), and the moving block (242) is movably connected with the vertical rod (231).

9. The guide device for use in the production of communication cables of claim 1, wherein: the bundling mechanism (25) comprises a cross rod (251), guide blocks (252) and bundling blocks (253), the guide blocks (252) are arranged at two ends of the cross rod (251), the bundling blocks (253) are inserted into the outer surface of the cross rod (251), rotating seats (2511) are arranged at two ends of the cross rod (251), guide holes (2521) are arranged on the outer surface of the guide blocks (252), and the guide blocks (252) are connected with the stretching rods (241) through the guide holes (2521).

10. The guide for use in the production of communication cables of claim 9, wherein: the outer surface of the bundling block (253) is fixedly provided with a connecting piece (2531), the outer surface of the connecting piece (2531) is provided with an L-shaped connecting block (2532), the outer surface of the L-shaped connecting block (2532) is provided with a bundling hole (25321), one end of the L-shaped connecting block (2532) is provided with a movable shaft (25322), and the L-shaped connecting block (2532) is movably connected with the connecting piece (2531) through the movable shaft (25322).