CN112573295A - Anti-coil-falling winding mechanism for communication optical cable processing production - Google Patents

Abstract

The invention discloses an anti-coil-falling winding mechanism for processing and producing a communication optical cable, which belongs to the technical field of communication optical cables and comprises a bottom plate, a winding mechanism, an anti-coil-falling mechanism and a guide mechanism; the communication optical cable winding device is scientific, reasonable and convenient to use, and is provided with the guide mechanism, so that the inclination direction of the guide frame is reversed, the communication optical cable moves towards the opposite direction again, if the communication optical cable winding device reciprocates, the communication optical cable is wound, the communication optical cable is automatically moved by completely utilizing the gravity of the communication optical cable in the whole process, additional electric power is not needed for driving, and the communication optical cable winding device is more energy-saving and environment-friendly.

Description

Anti-coil-falling winding mechanism for communication optical cable processing production

Technical Field

The invention relates to the technical field of communication optical cables, in particular to an anti-coil-falling winding mechanism for processing and producing communication optical cables.

Background

The communication optical cable is composed of a cable core composed of a plurality of optical fibers and an outer protective layer. Compared with the traditional symmetrical copper loop and coaxial copper loop, the optical fiber has the advantages of much larger transmission capacity, less attenuation, long transmission distance, small volume, light weight, no electromagnetic interference and low cost, and is the most promising communication transmission medium at present. It is being widely used for signal transmission of various departments of telecommunication, power, broadcasting and the like, and will gradually become a main body of future communication networks. The main difference between the optical cable and the cable is that the optical cable must have a reinforcing member to bear external mechanical load so as to protect the optical fiber from various external mechanical forces;

after the communication optical cable is produced and manufactured, the communication optical cable needs to be rolled, when the communication optical cable is rolled by the existing rolling device, the position of the communication optical cable needs to be adjusted by a screw rod and a motor, so that the communication optical cable is rolled orderly, but the mode needs to be realized by electric energy and other structural structures, and is complex;

therefore, people urgently need an anti-coil-loosening winding mechanism for processing and producing communication optical cables to solve the problems.

Disclosure of Invention

The invention aims to provide an anti-coil-falling winding mechanism for processing and producing communication optical cables, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: an anti-coil-off winding mechanism for processing and producing communication optical cables comprises a bottom plate, a winding mechanism, an anti-coil-off mechanism and a guide mechanism;

the bottom plate upper surface mounting has the winding mechanism that is used for carrying out the roll-up to communication optical cable, winding mechanism top joint has the anti-disengaging mechanism who is used for preventing the communication optical cable slippage, the guide mechanism that is used for guiding the neat roll-up of communication optical cable is installed to bottom plate upper surface on one side of winding mechanism.

As a preferred technical scheme, the winding mechanism comprises a fixing plate, a winding roller and a driving motor;

welded connection, two between bottom plate and the fixed plate install the roll-up roller between the fixed plate, the roll-up roller is used for carrying out the roll-up to communication optical cable, driving motor is installed to roll-up roller both sides, driving motor is used for driving the roll-up roller and rotates and carry out the roll-up to communication optical cable.

As a preferred technical scheme, the winding mechanism further comprises a limiting plate, a limiting groove and a fixing hole;

limiting plates are arranged on two sides of the top end of the fixing plate, a limiting groove is formed between the two limiting plates, a fixing hole is formed in the top end of the outer side of the fixing plate, and the limiting groove and the fixing hole are used for limiting and fixing the anti-falling mechanism;

the anti-falling mechanism comprises a supporting plate, a limiting block, a hinged plate, a fixed column, a fixed strip and a limiting seat;

the utility model discloses a spacing anti-disengaging mechanism, including stopper, hinged joint, fixed strip, stopper one side rotatable mounting has spacing seat, but the fixed strip rotatable joint is in spacing seat for fixing articulated slab, make anti-disengaging mechanism spacing and fixed later more firm, can not the in-process landing that uses in the spacing of backup pad both sides all be provided with the stopper, the stopper joint is in the spacing groove for spacing to anti-disengaging mechanism's spacing, stopper one side articulates there is the articulated slab, articulated slab one side is provided with the fixed column, the fixed column joint is in the fixed orifices for fixed to anti-disengaging mechanism, but stopper one side rotatable mounting has the fixed strip, stopper one side fixed.

As a preferred technical scheme, the anti-falling mechanism further comprises an anti-falling block, a telescopic cavity, an adjusting spring and a first ball;

the utility model discloses a communication optical cable winding device, including roll-up roller, anticreep piece, flexible chamber, first ball, second ball, first ball, and second ball, the spacing anticreep piece of installing in backup pad bottom, the anticreep piece is used for carrying on spacingly to the communication optical cable of roll-up on the roll-up roller, prevents that communication optical cable from sliding off from the roll-up roller at the in-process of roll-up, flexible chamber has been seted up to backup pad inside, flexible chamber is used for accomodating the anticreep piece for the anticreep piece can be according to the different realization automatically regulated of the number of turns of the communication optical cable of roll-up on the roll-up roller, it is provided with adjusting spring to accomodate intracavity portion, adjusting spring is used for carrying.

As a preferred technical scheme, the guiding mechanism comprises a supporting column, a guiding frame, a communication optical cable, a supporting rod and an adjusting mechanism;

the utility model discloses a communication optical cable, including guide frame, support column, communication optical cable, bracing piece, support column welding, two install rotatable guide frame between the support column top, the inside interlude of guide frame has communication optical cable, the guide frame is used for realizing the guide to communication optical cable for communication optical cable can rotatory winding roll-up on the roll-up roller, the articulated bracing piece of installing in guide frame bottom middle part, the bracing piece is used for supporting the guide frame, makes the guide frame can be rotatory around the bracing piece when rotatory, realizes the regulation to guide frame inclination, the inside guiding frame angle that is used for of being provided with in support column top is adjusted and fixed adjustment mechanism.

As a preferred technical scheme, the adjusting mechanism comprises an adjusting cavity, a first clamping block, a clamping strip and a second clamping block;

the utility model discloses a guide frame, including guide frame, support column, regulation chamber, leading frame, first joint piece, regulation intracavity portion one side articulates there is the joint strip, joint strip bottom is close to guide frame one side and is provided with the second joint piece, first joint piece and the mutual block of second joint piece are fixed after the guide frame angle modulation to the inclination of guide frame, regulation chamber is used for adjusting and fixes the guide frame, the guide frame both ends bottom is provided with first joint piece, it has the joint strip to adjust intracavity portion one side, joint strip bottom is close to guide frame one side, first joint.

As a preferred technical scheme, the adjusting mechanism further comprises a supporting spring, a release lever, a ball seat and a release ball;

the utility model discloses a quick adjustment device for optical fiber cable, including leading frame, release lever, ball seat, release ball, leading frame, release lever one end bottom that the leading frame is located the inside one end bottom of regulation chamber is provided with supporting spring, supporting spring is used for realizing the angle readjustment after the leading frame adjusts, the leading frame both ends are run through and are provided with the release lever, the release lever is used for releasing first joint piece and second joint piece after the joint, realizes leading frame inclination's reversal once more, return spring has been cup jointed in the release lever outside, return spring is used for driving the release lever return after the extrusion, and convenient next time continues to use, release lever one end is provided with the ball seat, the inside embedding of.

According to the preferable technical scheme, second balls are embedded into the upper side and the lower side of the interior of the guide frame and used for reducing the contact friction force between the communication optical cable and the guide frame, so that the communication optical cable slides to the other end from one end of the guide frame more smoothly.

As a preferred technical scheme, one side of the clamping strip, which is close to the guide frame, is arc-shaped, so that the guide frame cannot influence the normal rotation of the guide frame due to the existence of the first clamping block when rotating, the rotation angle of the guide frame is alpha, alpha is larger than or equal to-5 degrees and smaller than or equal to 5 degrees, the communication optical cable can automatically move under the action of gravity when being furled, a screw rod is not needed to additionally provide power drive, and the energy-saving and environment-friendly effects are achieved.

As preferred technical scheme, the joint strip is located the axis top under the guide frame horizontality with the pin joint of adjusting the chamber for the release lever can touch the lower extreme of pin joint, releases the mutual block of first joint piece and second joint piece, makes the inclination that can be automatically to the guide frame reverse and adjust.

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

1. the invention is provided with a guide mechanism, the communication optical cable is guided by a guide frame to be wound on a winding roller in a movable and rotatable manner, the inclined guide frame is fixed by a first clamping block and a second clamping block, so that the communication optical cable can automatically move from one end of the guide frame to the other end, a motor and a screw rod are not required to be additionally utilized to drive the communication optical cable to move, when the communication optical cable moves to the bottom end of the guide frame, the communication optical cable impacts a release ball and a release lever, so that the release lever impacts a clamping strip, the first clamping block and the second clamping block are released, and the guide frame is driven to rotate around a hinge point of a support rod under the action of a support spring, so that the first clamping block and the second clamping block at the other end are mutually clamped, the inclination direction of the guide frame is reversed, and the communication optical cable moves towards the reverse direction again, if reciprocating, realize the roll-up to communication optical cable, utilize communication optical cable's gravity to realize the automatic movement completely at whole in-process, do not need extra electric drive, more energy-concerving and environment-protective.

2. The anti-drop device is provided with the anti-drop mechanism, the anti-drop mechanism can be rapidly installed and detached by utilizing the limiting groove, the fixing hole, the limiting block and the fixing column, the limiting in the winding process of the communication optical cable can be realized by utilizing the telescopic cavity, the adjusting spring and the anti-drop block, the communication optical cable is prevented from being separated in the winding process, and the anti-drop treatment in the winding process of the communication optical cable is realized.

Drawings

FIG. 1 is a schematic structural view of an anti-coil-off winding mechanism for processing and producing a communication optical cable according to the present invention;

FIG. 2 is a schematic structural view of an anti-coil-off winding mechanism guiding mechanism for processing and producing a communication optical cable according to the present invention;

FIG. 3 is a schematic diagram of a first state of a guiding mechanism of an anti-coil-off winding mechanism for processing and producing a communication optical cable according to the present invention;

FIG. 4 is a schematic diagram of a second state of the guiding mechanism of the anti-coil-off winding mechanism for processing and producing the communication optical cable according to the present invention;

FIG. 5 is a schematic structural diagram of an adjusting mechanism in coil-off prevention winding mechanism diagram 2 for communication optical cable processing production according to the present invention;

FIG. 6 is a schematic structural view of an anti-releasing mechanism of an anti-releasing winding mechanism for processing and producing a communication optical cable according to the present invention;

FIG. 7 is a schematic view of a mounting structure of a first ball of an anti-knocking-over winding mechanism for processing and producing a communication optical cable according to the present invention;

FIG. 8 is a schematic structural view of the inside of an anti-releasing mechanism of an anti-releasing winding mechanism for processing and producing a communication optical cable according to the present invention;

fig. 9 is a schematic structural diagram of an area a in an anti-unrounding winder composition 6 for communications cable processing production according to the present invention.

Reference numbers in the figures: 1. a base plate;

201. a fixing plate; 202. a winding roller; 203. a drive motor; 204. a limiting plate; 205. a limiting groove; 206. a fixing hole;

3. an anti-drop mechanism; 301. a support plate; 302. a limiting block; 303. a hinged block; 304. fixing a column; 305. a fixing strip; 306. a limiting seat; 307. an anti-drop block; 308. a telescoping chamber; 309. adjusting the spring; 310. a first ball bearing;

4. a guide mechanism; 401. a support pillar; 402. a guide frame; 4021. a second ball bearing; 403. a communications cable; 404. a support bar;

405. an adjustment mechanism; 4051. an adjustment chamber; 4052. a first clamping block; 4053. a clamping strip; 4054. a second clamping block; 4055. a support spring; 4056. a release lever; 4057. a return spring; 4058. a ball seat; 4059. the ball is released.

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 (b): as shown in fig. 1 to 9, an anti-coil-off winding mechanism for processing and producing a communication optical cable comprises a bottom plate 1, a winding mechanism, an anti-coil-off mechanism 3 and a guide mechanism 4;

the upper surface of the bottom plate 1 is provided with a winding mechanism used for winding the communication optical cable, an anti-drop mechanism 3 used for preventing the communication optical cable from slipping is clamped above the winding mechanism, and a guide mechanism 4 used for guiding the communication optical cable to be regularly wound is arranged on one side of the winding mechanism on the upper surface of the bottom plate 1.

The winding mechanism comprises a fixing plate 201, a winding roller 202 and a driving motor 203;

the bottom plate 1 and the fixing plates 201 are connected in a welding mode, the winding roller 202 is installed between the two fixing plates 201, the winding roller 202 is used for winding the communication optical cable, the driving motors 203 are installed on two sides of the winding roller 202, and the driving motors 203 are used for driving the winding roller 202 to rotate to wind the communication optical cable.

The winding mechanism further comprises a limiting plate 204, a limiting groove 205 and a fixing hole 206;

limiting plates 204 are arranged on two sides of the top end of the fixing plate 201, a limiting groove 205 is formed between the two limiting plates 204, a fixing hole 206 is formed in the top end of the outer side of the fixing plate 201, and the limiting groove 205 and the fixing hole 206 are used for limiting and fixing the anti-falling mechanism 3;

the anti-dropping mechanism 3 comprises a supporting plate 301, a limiting block 302, a hinge plate 303, a fixing column 304, a fixing strip 305 and a limiting seat 306;

backup pad 301 both sides all are provided with stopper 302, stopper 302 joint is in spacing groove 205, be used for spacing to anti-disengaging mechanism 3, stopper 302 one side articulates there is articulated slab 303, articulated slab 303 one side is provided with fixed column 304, fixed column 304 joint is in fixed orifices 206, be used for fixed to anti-disengaging mechanism 3, stopper 302 one side rotatable mounting has fixed strip 305, stopper 302 one side fixed mounting has spacing seat 306, rotatable joint of fixed strip 305 is in spacing seat 306, be used for fixing articulated slab 303, make anti-disengaging mechanism 3 spacing and fixed later more firm, can not be at the in-process landing of using.

The anti-falling mechanism 3 further comprises an anti-falling block 307, a telescopic cavity 308, an adjusting spring 309 and a first ball 310;

anti-disengaging block 307 is installed at the limit of backup pad 301 bottom, anti-disengaging block 307 is used for spacing to the communication cable of roll-up on roll-up roller 202, prevent that communication cable from sliding off roll-up roller 202 at the in-process of roll-up, backup pad 301 is inside to have seted up flexible chamber 308, flexible chamber 308 is used for accomodating anti-disengaging block 307, make anti-disengaging block 307 can be according to the different realization automatically regulated of the number of turns of the communication cable of roll-up on roll-up roller 202, it is provided with adjusting spring 309 to accomodate chamber 308 inside, adjusting spring 309 is used for carrying out automatically regulated and compress tightly according to the number of turns difference of the communication cable of roll-up, first ball 310 is installed in anti-disengaging block 307 bottom embedding, first ball 310 is used for reducing the frictional force between anti-disengaging.

The guide mechanism 4 includes a support column 401, a guide frame 402, a communication cable 403, a support rod 404, and an adjustment mechanism 405;

support column 401 welds on bottom plate 1, install rotatable guide frame 402 between two support column 401 tops, communication cable 403 has been alternate to inside guide frame 402, guide frame 402 is used for realizing the guide to communication cable 403, make communication cable 403 can rotatory winding roll-up on take-up roller 202, the articulated bracing piece 404 that installs in guide frame 402 bottom middle part, bracing piece 404 is used for supporting guide frame 402, make guide frame 402 can rotate around bracing piece 404 when rotatory, the realization is to the regulation of guide frame 402 inclination, support column 401 top inside is provided with and is used for guide frame 402 angle to adjust and fixed adjustment mechanism 405.

The adjusting mechanism 405 includes an adjusting cavity 4051, a first clamping block 4052, a clamping strip 4053, and a second clamping block 4054;

support column 401 top has been seted up and has been adjusted chamber 4051, adjust chamber 4051 and be used for adjusting the inclination of leading truck 402 and fix leading truck 402, leading truck 402 both ends bottom is provided with first joint piece 4052, it has joint strip 4053 to adjust the inside one side of chamber 4051 and articulate, joint strip 4053 bottom is close to leading truck 402 one side and is provided with second joint piece 4054, first joint piece 4052 and the mutual block of second joint piece 4054, to fixed after leading truck 402 angle modulation.

The adjustment mechanism 405 further includes a support spring 4055, a release lever 4056, a ball seat 4057, and a release ball 4058;

the bottom end of one end of the guide frame 402, which is located inside the adjusting cavity 4051, is provided with a supporting spring 4055, the supporting spring 4055 is used for realizing angle readjustment after the adjustment of the guide frame 402, the two ends of the guide frame 402 are provided with a release lever 4056 in a penetrating manner, the release lever 4056 is used for releasing the first clamping block 4052 and the second clamping block 4054 after clamping, the inclination angle of the guide frame 402 is reversed again, a return spring 4057 is sleeved outside the release lever 4056, the return spring 4057 is used for driving the release lever 4056 after extrusion to return, so that the next continuous use is facilitated, one end of the release lever 4056 is provided with a ball seat 4058, a release ball 4059 is embedded inside the ball seat 4058, and the release ball 4059 is used for reducing the contact friction force between the communication optical cable 403.

The second balls 4021 are embedded in the upper side and the lower side of the interior of the guide frame 402, and the second balls 4021 are used for reducing the friction force of the contact between the communication optical cable 403 and the guide frame 402, so that the communication optical cable 403 can slide more smoothly from one end of the guide frame 402 to the other end.

One side of the clamping strip 4053 close to the guide frame is arc-shaped, so that the guide frame 402 cannot influence the normal rotation of the guide frame 402 due to the existence of the first clamping block 4052 when rotating, the rotation angle of the guide frame 402 is alpha, alpha is larger than or equal to-5 degrees and smaller than or equal to 5 degrees, the communication optical cable 403 can automatically move under the action of gravity when being wound, the screw rod is not required to additionally provide power for driving, and the energy-saving and environment-friendly effects are achieved.

Joint strip 4053 is located the axis top under the guide frame 402 horizontal state with the pin joint of adjusting chamber 4051 for release lever 4056 can touch the lower extreme of pin joint, releases first joint piece 4052 and the mutual block of second joint piece 4054, makes the inclination that can be automatically to guide frame 402 reverse and adjust.

The working principle is as follows: when in use, firstly, one end of the communication optical cable 403 passes through the guide frame 402 and is fixed on the take-up roller 202, and after the communication optical cable 403 is fixed on the take-up roller 202, the anti-drop mechanism 3 needs to be fixedly installed;

the hinge point is used for rotating the hinge plate 303, so that the limiting block 302 is clamped in the limiting groove 205 to limit the anti-falling mechanism 3, then the hinge plate 303 is rotated, the fixing column 304 can be clamped in the fixing hole 206 to fix the anti-falling mechanism 3, at the moment, the anti-falling mechanism 3 after being fixed needs to be fixed again, the fixing strip 305 is rotated, one end of the fixing strip 305 is clamped in the limiting seat 306 to fix the hinge point of the hinge plate 303, the hinge plate 303 cannot rotate any more, when the anti-falling mechanism 3 needs to be disassembled, reverse operation is performed according to the sequence, and then the anti-falling mechanism 3 can be disassembled;

when the communication cable 403 needs to be wound after the drop-off prevention mechanism 3 is mounted, the guide frame 402 is rotated, so that the guide frame 402 is inclined, the inclined guide frame 402 is fixed by the first and second clamping blocks 4052 and 4054, the telecommunication cable 403 is then moved to a raised point inside the guide frame 402, as shown in fig. 3, at which time the drive motor 203 is driven to rotate, and releases the fixation of the optical communication cable 403, so that the take-up roller 202 takes up the optical communication cable 403, and the optical communication cable 403 moves to the lower end inside the guide frame 402, at this time, the movement and the take-up of the optical communication cable on the take-up roller 202 are completed, and, in the whole winding process, the anti-drop block 307 is extruded by the adjusting spring 309, the anti-falling block 307 can extrude the communication optical cable 403 wound on the winding roller 202, so that the communication optical cable 403 is prevented from falling off in the winding process;

when the optical communication cable 403 moves to the lowest end inside the guiding frame 402, the optical communication cable 403 may collide with the release ball 4059 and the release lever 4056, so that the release lever 4056 moves towards the inside of the adjustment cavity 4051, and the movement of the release lever 4056 collides with the snap strip 4053, so that the first snap block 4052 is separated from the second snap block 4054, at this time, under the action of the two supporting springs 4055, the guiding frame 402 rotates around the hinge point of the supporting rod 404, and the second snap block 4054 and the first snap block 4052 at the other end are used to complete the re-fixing of the guiding frame 402, at this time, the optical communication cable 403 is located at the high point of the guiding frame 402, as shown in fig. 4, the optical communication cable 403 may move from the highest point to the lowest point again, and is furled again under the action of the furling roller 202, and so on and off until the furling of the optical communication cable 403 is completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an anticreep circle winding mechanism for communication optical cable processing production which characterized in that: the winding mechanism comprises a bottom plate (1), a winding mechanism, an anti-falling mechanism (3) and a guide mechanism (4);

bottom plate (1) upper surface mounting has the winding mechanism who is used for carrying out the roll-up to communication optical cable, winding mechanism top joint has anti-disengaging mechanism (3) that are used for preventing the communication optical cable slippage, bottom plate (1) upper surface is located winding mechanism one side and installs guiding mechanism (4) that are used for guiding the neat roll-up of communication optical cable.

2. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 1, characterized in that: the winding mechanism comprises a fixing plate (201), a winding roller (202) and a driving motor (203);

welded connection, two between bottom plate (1) and fixed plate (201) install roll-up (202) between fixed plate (201), driving motor (203) are installed to roll-up (202) both sides.

3. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 2, characterized in that: the winding mechanism further comprises a limiting plate (204), a limiting groove (205) and a fixing hole (206);

limiting plates (204) are arranged on two sides of the top end of the fixing plate (201), a limiting groove (205) is formed between the two limiting plates (204), and a fixing hole (206) is formed in the top end of the outer side of the fixing plate (201);

the anti-falling mechanism (3) comprises a supporting plate (301), a limiting block (302), a hinge plate (303), a fixing column (304), a fixing strip (305) and a limiting seat (306);

the utility model discloses a spacing fixed plate, including backup pad (301), backup pad (301) both sides all are provided with stopper (302), stopper (302) joint is in spacing groove (205), stopper (302) one side articulates there is articulated board (303), articulated board (303) one side is provided with fixed column (304), fixed column (304) joint is in fixed orifices (206), but stopper (302) one side rotary mounting has fixed strip (305), stopper (302) one side fixed mounting has spacing seat (306), but fixed strip (305) rotary joint is in spacing seat (306).

4. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 3, characterized in that: the anti-falling mechanism (3) further comprises an anti-falling block (307), a telescopic cavity (308), an adjusting spring (309) and a first ball (310);

anti-disengaging block (307) are installed in a limiting mode at the bottom end of the supporting plate (301), a telescopic cavity (308) is formed in the supporting plate (301), an adjusting spring (309) is arranged in the accommodating cavity (308), and a first ball (310) is installed at the bottom end of the anti-disengaging block (307) in an embedded mode.

5. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 1, characterized in that: the guide mechanism (4) comprises a support column (401), a guide frame (402), a communication optical cable (403), a support rod (404) and an adjusting mechanism (405);

the support column (401) is welded on the bottom plate (1), two rotatable guide frame (402) is installed between support column (401) top, communication optical cable (403) have been interlude to guide frame (402) inside, support bar (404) are installed in guide frame (402) bottom middle part articulated, support column (401) top inside is provided with and is used for guide frame (402) angle to adjust and fixed adjustment mechanism (405).

6. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 5, characterized in that: the adjusting mechanism (405) comprises an adjusting cavity (4051), a first clamping block (4052), a clamping strip (4053) and a second clamping block (4054);

support column (401) top has been seted up and has been adjusted chamber (4051), guide frame (402) both ends bottom is provided with first joint piece (4052), it has joint strip (4053) to adjust inside one side of chamber (4051) and articulate, joint strip (4053) bottom is close to guide frame (402) one side and is provided with second joint piece (4054), first joint piece (4052) and the mutual block of second joint piece (4054) are fixed after guide frame (402) angle modulation.

7. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 6, wherein the coil-off preventing winding mechanism comprises: the adjustment mechanism (405) further comprises a support spring (4055), a release lever (4056), a ball seat (4057), and a release ball (4058);

the one end bottom that guide frame (402) is located regulation chamber (4051) inside is provided with supporting spring (4055), guide frame (402) both ends are run through and are provided with release lever (4056), release lever (4056) outside has cup jointed return spring (4057), release lever (4056) one end is provided with ball seat (4058), release ball (4059) are installed to ball seat (4058) inside embedding.

8. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 7, characterized in that: and second balls (4021) are embedded and mounted at the upper side and the lower side in the guide frame (402).

9. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 8, characterized in that: one side of the clamping strip (4053) close to the guide frame is arc-shaped, and the rotation angle of the guide frame (402) is alpha which is larger than or equal to minus 5 degrees and smaller than or equal to 5 degrees.

10. The coil-off preventing winding mechanism for processing and producing the communication optical cable according to claim 9, wherein: the hinge point of the clamping bar (4053) and the adjusting cavity (4051) is positioned above the central axis of the guide frame (402) in the horizontal state.

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