CN110133812A - A kind of manufacturing method of optical cable - Google Patents

Abstract

This application discloses a kind of manufacturing methods of optical cable, comprising the following steps: 1) optical cable come out from sheath extruding machine structure is cooled down and is dried；2) defects detection is carried out to the sheath of dried optical cable, when detecting that sheath has defect: through clamp defect area two sides；By tool envelope in the non-defective region of sheath, controls cutter and moved along sheath axis direction, sheath concave portion is cut off；Second of defects detection is carried out to sheath；3) optical cable is wound.This manufacturing method can online cut off the defective lug boss of sheath when detecting that sheath has defect, and this manufacturing method can be avoided the later period and handle the sheath of optical cable, effectively increase the production efficiency of optical cable；Also secondary detection is carried out to the outer diameter of sheath after excision then to be recorded when a defect is detected, the region can be handled again with the later period, this mode can prevent cutting operation from influencing product quality when something goes wrong.

Description

A kind of manufacturing method of optical cable

The application be on 09 20th, 2017, application No. is 201710854103.8, entitled " optical cable the applying date Manufacturing method " divisional application.

Technical field

The present invention relates to optical cables, and in particular to the manufacturing method of optical cable.

Background technique

The sheath of optical cable is by extrusion molding mechanism extrusion moulding, and since extrusion temperature controls, machine thorax, head, die surface are clean The cleanliness of cleanliness or even insulating materials itself can all influence the extrusion performance of insulating materials, and it is convex all to may cause outer diameter sheath Become, in existing production technology, can monitor on-line, then mark, the later period is again handled finished product, by manually cutting off outside sheath Prominent part.This processing mode needs pull out the product wound again, and efficiency is lower；It manually cuts off and is easy to appear meaning Outside, internal optical fiber is damaged when cutting off.

Summary of the invention

The present invention proposes a kind of manufacturing method of optical cable in view of the above-mentioned problems, overcome deficiency.

The technical solution adopted by the present invention is as follows:

A kind of manufacturing method of optical cable, comprising the following steps:

1) optical cable come out from sheath extruding machine structure is cooled down and is dried；

2) defects detection is carried out to the sheath of dried optical cable, when detecting that sheath has defect:

Pass through clamp defect area two sides；

By tool envelope in the non-defective region of sheath, controls cutter and moved along sheath axis direction, by sheath male part Cutting removes；

Second of defects detection is carried out to sheath；

3) optical cable is wound.

This manufacturing method can online cut off the defective lug boss of sheath when detecting that sheath has defect, This manufacturing method can be avoided the later period and handle the sheath of optical cable, effectively increase the production efficiency of optical cable；Excision with Afterwards will also to the outer diameter of sheath carry out secondary detection then be recorded when a defect is detected, can with the later period again to the region into Row processing, this mode can prevent cutting operation from influencing product quality when something goes wrong.

Optionally, step 2) is operated by evagination cutter device, and the evagination cutter device includes:

First defects detection mechanism carries out defects detection for the sheath to optical cable；

Pedestal；

Movable stand is slidably arranged on the pedestal；

Driving mechanism, for driving the movable stand to move at the same speed with optical cable；

Two groups of clamping devices, are mounted on movable stand, clamp for the optical cable respectively to defect area two sides；

Lug boss cutting mechanism is arranged between two groups of clamping devices, cuts for the concave portion to defect area Cut operation；

Second defects detection mechanism carries out secondary detection for sheath.

When the first defects detection mechanism detects that sheath has defect, driving mechanism driving movable stand is transported at the same speed with optical cable Dynamic, then clamping device works, and clamps respectively to the optical cable of defect area two sides, subsequent lug boss cutting mechanism work, Cutting operation is carried out to the concave portion of defect area, after cutting, is detected by the second defects detection mechanism, under normal circumstances, Defect expressivity；When device break down when, cause defect there is also, at this time the second defects detection mechanism record defective locations, after Phase is again handled fault location.

In order to guarantee that movable stand moves at the same speed with optical cable, need to be monitored the movement velocity of optical cable, when there is operation, The revolving speed of Hall sensor awareness driven wheel can be set in production line on the driving wheel or rotating wheel of optical cable, by conversion The conveying speed of available optical cable only needs to control driving mechanism at this time, makes the speed of movable stand and the conveying speed of optical cable It is identical.The conveying speed of optical cable can also be obtained when practice by other means.

Optionally, the pedestal has the first sliding rail and rack gear, and the movable stand is slidably matched with the first sliding rail, described Driving mechanism is driving motor, and the output shaft of driving motor is engaged by gear with the rack gear.

Optionally, every group of clamping device includes:

Two grip blocks, the week along optical cable, grip block had the first holding tank, institute towards the end face of optical cable along being uniformly distributed The length direction for stating the first holding tank is parallel with the length direction of first sliding rail, and the cross section of the first holding tank is semicircle Shape；

Two the first cylinders, are mounted on movable stand, and the piston rod of each first cylinder is fixed with corresponding grip block, and two One cylinder cooperates, for pushing two grip blocks mutually to draw close and clamping optical cable.

Optionally, the movable stand is liftable movable stand.The light for enabling a device to adapt to a variety of height is set in this way Cable；The first holding tank and optical cable of two grip blocks cooperate, and can firmly clamp optical cable, and subsequent polishing is facilitated to grasp Make；The cross section of first holding tank is semicircle, is cylinder after two the first holding tank cooperations, this structure type can protect Demonstrate,proving grip block and optical cable has maximum contact area.

Optionally, the lug boss cutting mechanism includes:

Two the second sliding rails are arranged on movable stand, and are located at the two sides of optical cable, and it is sliding that the second sliding rail is parallel to first Rail；

Two the second cylinders, the cylinder body of each second cylinder are slidably arranged in respectively on corresponding second sliding rail；

Two cutters, each cutter are separately fixed on the piston rod of corresponding second cylinder, and the cutter includes semicircular Second holding tank, the second holding tank at least side are the cutting edge of semi-circular shape, and two cutters are under the action of the second cylinder It cooperates, forms cyclic annular cutter of the housing on cable jacket；

Two third cylinders, the piston rod of third cylinder is connected with the cylinder body of corresponding second cylinder respectively, for pushing Second cylinder is moved along the second slide direction.

When lug boss cutting mechanism works, the piston rod of two the second cylinders is displaced outwardly, so that two cutters mutually support It leans on, the cutting edge of the semi-circular shape of two cutters constitutes cyclic annular cutter of the housing on optical cable, then third cylinder operation, band Dynamic second cylinder moves on the second sliding rail, i.e., so that cyclic annular cutter are moved relative to optical cable, can cut off optical cable and lack Fall into the lug boss in region.

Optionally, the third cylinder is mounted on movable stand or is mounted on the cylinder body of the first cylinder.

Optionally, the upper and lower sides of the cutter all have connecting plate, have between corresponding two connecting plates of two cutters There is location structure, the location structure includes the location hole being disposed therein on connecting plate, and is arranged on another grip block Positioning column, the location hole and positioning column, which correspond, to be cooperated.

It by the setting of connecting plate and location structure, can guarantee the reliable location of two cutters, and have preferable Stress-bearing capability.

It optionally, further include the garbage collection mechanism being arranged on movable stand, the setting of garbage collection mechanism is clamped at two Between mechanism, the garbage collection mechanism includes:

Lifting cylinder is mounted on movable stand, and the piston rod of lifting cylinder is vertically arranged；

Collection box is fixed on the piston rod of lifting cylinder, and the collection box includes the ontology of upper end opening, and the two of ontology Side, which has, to be upwardly extended and to the occlusion part bent on the inside of ontology, has the gap passed through for optical cable, institute between two occlusion parts The evacuation recess that occlusion part has strip adjacent to the side of the second cylinder is stated, the length direction of the evacuation recess is parallel to second The length direction of sliding rail, the evacuation recess are used to cooperate with the piston rod of the second cylinder.

When garbage collection mechanism works, the piston rod of lifting cylinder rises, and drives collection box to rise, after optical cable passes through gap In collection box, lug boss cutting mechanism works at this time, and the second cylinder is mobile, and (cyclic annular cutter are moved relative to optical cable It is dynamic), the piston rod of the second cylinder enters corresponding evacuation recess, the lug boss of optical cable defect area is cut off, in the work of occlusion part Under, the waste material cut down can be fallen into ontology, will not be flown out.

Optionally, the cylinder body of two the second cylinders is connected by connector.

It can guarantee the cylinder body synchronizing moving of two the second cylinders by the way that connector is arranged.

Optionally, the connector is C-shaped, and the both ends of connector are separately fixed at the cylinder body upper end of corresponding second cylinder, When garbage collection mechanism works, and the piston rod of the second cylinder is located at evacuation recess, the sheltering part on the inside of the connector, There is interval between occlusion part and connector.

Connector is C-shaped configuration, can effectively avoid collection box, prevents the two from interfering.

The beneficial effects of the present invention are: this manufacturing method can online have sheath when detecting that sheath has defect Defective bump portion is cut off, and this manufacturing method can be avoided the later period and handle the sheath of optical cable, effectively increases light The production efficiency of cable；Also secondary detection is carried out to the outer diameter of sheath after excision then to be recorded when a defect is detected, The region can be handled again with the later period, this mode can prevent cutting operation from influencing product quality when something goes wrong.

Detailed description of the invention:

Fig. 1 is the flow chart of the manufacturing method of optical cable；

Fig. 2 is the schematic diagram of evagination cutter device；

Fig. 3 is the schematic diagram under another angle of evagination cutter device；

Fig. 4 is the enlarged drawing in Fig. 3 at A；

Fig. 5 is the schematic diagram with the evagination cutter device of connector.

Each appended drawing reference in figure are as follows:

1, the first defects detection mechanism；2, optical cable；3, the second defects detection mechanism；4, pedestal；5, movable stand；6, clamping machine Structure；7, lug boss cutting mechanism；8, garbage collection mechanism；9, grip block；10, the first cylinder；11, collection box；12, lifting air Cylinder；13, the second sliding rail；14, the second cylinder；15, cutter；16, third cylinder；17, the first holding tank；18, the first sliding rail；19, Rack gear；20, lug boss；21, ontology；22, occlusion part；23, recess is avoided；24, cutting edge；25, connecting plate；26, the second clamping Slot；27, positioning column；28, location hole；29, connector；30, gap.

Specific embodiment:

Below with reference to each attached drawing, the present invention will be described in detail.

As shown in Figure 1, a kind of manufacturing method of optical cable, comprising the following steps:

1) optical cable come out from sheath extruding machine structure is cooled down and is dried；

2) defects detection is carried out to the sheath of dried optical cable, when detecting that sheath has defect:

Pass through clamp defect area two sides；

By 15 housing of cutter in the non-defective region of sheath, controls cutter 15 and moved along sheath axis direction, it will be outside sheath Convex portion excision；

Second of defects detection is carried out to sheath；

3) optical cable is wound.

This manufacturing method can online cut the defective lug boss of sheath 20 when detecting that sheath has defect It removes, this manufacturing method can be avoided the later period and handle the sheath of optical cable, effectively increase the production efficiency of optical cable；Excision Also secondary detection is carried out to the outer diameter of sheath later then to be recorded when a defect is detected, it can be with the later period again to the region It is handled, this mode can prevent cutting operation from influencing product quality when something goes wrong.

As shown in figs. 2 to 4, in this present embodiment, step 2) is operated by evagination cutter device, evagination cutter device Include:

First defects detection mechanism 1 carries out defects detection for the sheath to optical cable 2；

Pedestal 4；

Movable stand 5 is slidably arranged on pedestal 4；

Driving mechanism, for driving movable stand 5 to move at the same speed with optical cable；

Two groups of clamping devices 6, are mounted on movable stand 5, clamp for the optical cable respectively to defect area two sides；

Lug boss cutting mechanism 7 is arranged between two groups of clamping devices 6, carries out for the concave portion to defect area Cutting operation；

Second defects detection mechanism 3 carries out secondary detection for sheath.

When the first defects detection mechanism 1 detects that sheath has defect, driving mechanism drives movable stand 5 and optical cable 2 same Speed movement, then clamping device 6 works, and clamps respectively to the optical cable 2 of defect area two sides, subsequent lug boss cutting mechanism 7 work carry out cutting operation to the concave portion of defect area, after cutting, are detected by the second defects detection mechanism 3, normally In the case of, defect expressivity；When device breaks down, leading to defect, there is also the second defects detection mechanism 3 records defect at this time Position, later period are again handled fault location.

In order to guarantee that movable stand 5 and optical cable 2 move at the same speed, needs to be monitored the movement velocity of optical cable, there is operation When, in production line the revolving speed of Hall sensor awareness driven wheel can be set, by changing on the driving wheel or rotating wheel of optical cable The conveying speed for calculating available optical cable only needs to control driving mechanism at this time, makes the speed of movable stand 5 and the conveying speed of optical cable It spends identical.The conveying speed of optical cable can also be obtained when practice by other means.

As described in Figure 4, in this present embodiment, pedestal 4 has the first sliding rail 18 and rack gear 19, and movable stand 5 and first are slided Rail 18 is slidably matched, and driving mechanism is driving motor (being not drawn into figure), and the output shaft of driving motor passes through wheel and rack 19 Engagement.

As shown in figure 4, in this present embodiment, every group of clamping device 6 includes:

Two grip blocks 9, the week along optical cable, grip block 9 had the first holding tank towards the end face of optical cable along being uniformly distributed 17, the length direction of the first holding tank 17 is parallel with the length direction of the first sliding rail 18, and the cross section of the first holding tank 17 is half It is round；

Two the first cylinders 10, are mounted on movable stand 5, and the piston rod of each first cylinder 10 is fixed with corresponding grip block 9, Two the first cylinders 10 cooperate, for pushing two grip blocks 9 mutually to draw close and clamping optical cable.

In this present embodiment, movable stand 5 is liftable movable stand 5.Setting enables a device to adapt to a variety of height in this way Optical cable；First holding tank 17 of two grip blocks 9 cooperates with optical cable, can firmly clamp optical cable, facilitate subsequent Sanding operation；The cross section of first holding tank 17 is semicircle, is cylindrical, this structure after two the first holding tank 17 cooperations Form can guarantee that grip block 9 and optical cable have maximum contact area.

As shown in figure 4, in this present embodiment, lug boss cutting mechanism 7 includes:

Two the second sliding rails 13 are arranged on movable stand 5, and are located at the two sides of optical cable, and the second sliding rail 13 is parallel to First sliding rail 18；

Two the second cylinders 14, the cylinder body of each second cylinder 14 are slidably arranged in respectively on corresponding second sliding rail 13；

Two cutters 15, each cutter 15 are separately fixed on the piston rod of corresponding second cylinder 14, and cutter 15 includes semicircle Second holding tank 26 of shape, the second holding tank 26 at least side are the cutting edge 24 of semi-circular shape, and two cutters 15 are second It cooperates under the action of cylinder 14, forms cyclic annular cutter of the housing on cable jacket；

Two third cylinders 16, the piston rod of third cylinder 16 are connected with the cylinder body of corresponding second cylinder 14 respectively, are used It is moved in the second cylinder 14 of promotion along 13 direction of the second sliding rail.

When lug boss cutting mechanism 7 works, the piston rod of two the second cylinders 14 is displaced outwardly, so that two 15 phases of cutter Mutually against the cutting edge 24 of the semi-circular shape of two cutters 15 constitutes cyclic annular cutter of the housing on optical cable, then third gas Cylinder 16 works, and the second cylinder 14 is driven to move on the second sliding rail 13, i.e., so that cyclic annular cutter are moved relative to optical cable, The lug boss 20 of optical cable defect area can be cut off.

As shown in figure 4, in this present embodiment, third cylinder 16 is mounted on movable stand 5 or is mounted on the first cylinder 10 Cylinder body on.

As shown in figure 4, in this present embodiment, the upper and lower sides of cutter 15 all have connecting plate 25, two cutters 15 are corresponding Two connecting plates 25 between have location structure, location structure includes the location hole 28 being disposed therein on connecting plate 25, with And the positioning column 27 on another grip block 9 is set, location hole 28 and positioning column 27 correspond and cooperate.

By the setting of connecting plate 25 and location structure, can guarantee the reliable location of two cutters 15, and have compared with Good stress-bearing capability.

As shown in figure 4, further including the garbage collection mechanism 8 being arranged on movable stand 5, garbage collection in this present embodiment Mechanism 8 is arranged between two clamping devices 6, and garbage collection mechanism 8 includes:

Lifting cylinder 12 is mounted on movable stand 5, and the piston rod of lifting cylinder 12 is vertically arranged；

Collection box 11 is fixed on the piston rod of lifting cylinder 12, and collection box 11 includes the ontology 21 of upper end opening, ontology 21 two sides, which have, to be upwardly extended and to the occlusion part 22 bent on the inside of ontology 21, is had between two occlusion parts 22 and is worn for optical cable The gap 30 crossed, occlusion part 22 have the evacuation recess 23 of strip adjacent to the side of the second cylinder 14, avoid the length of recess 23 It is oriented parallel to the length direction of the second sliding rail 13, evacuation recess 23 is used to cooperate with the piston rod of the second cylinder 14.

When garbage collection mechanism 8 works, the piston rod of lifting cylinder 12 rises, and collection box 11 is driven to rise, and optical cable passes through It is located in collection box 11 behind gap 30, lug boss cutting mechanism 7 works at this time, and the second cylinder 14 is mobile, and (cyclic annular cutter are opposite Moved in optical cable), the piston rod of the second cylinder 14 enters corresponding evacuation recess 23, cuts off the protrusion of optical cable defect area Portion 20, under the action of occlusion part 22, the waste material cut down can be fallen into ontology 21, will not be flown out.

As shown in figure 5, in this present embodiment, the cylinder body of two the second cylinders 14 is connected by connector 29.Pass through setting Connector 29 can guarantee the cylinder body synchronizing moving of two the second cylinders 14.In this present embodiment, connector 29 is C-shaped, connection The both ends of part 29 are separately fixed at the cylinder body upper end of corresponding second cylinder 14, when garbage collection mechanism 8 works, and the second cylinder 14 Piston rod when being located at evacuation recess 23, occlusion part 22 is located on the inside of connector 29, has between occlusion part 22 and connector 29 Interval.Connector 29 is C-shaped configuration, can effectively avoid collection box 11, prevents the two from interfering.

The above description is only a preferred embodiment of the present invention, not thereby limits scope of patent protection of the invention, all It is directly or indirectly to be used in other relevant technologies with equivalent structure transformation made by description of the invention and accompanying drawing content Field similarly includes within the scope of the present invention.

Claims (9)

1. a kind of manufacturing method of optical cable, which comprises the following steps:

1) optical cable come out from sheath extruding machine structure is cooled down and is dried；

2) defects detection is carried out to the sheath of dried optical cable, when detecting that sheath has defect:

Pass through clamp defect area two sides；

By tool envelope in the non-defective region of sheath, controls cutter and moved along sheath axis direction, sheath male part is cut It removes；

Second of defects detection is carried out to sheath；

3) optical cable is wound.

2. the manufacturing method of optical cable as described in claim 1, which is characterized in that step 2) is grasped by evagination cutter device Make, the evagination cutter device includes:

First defects detection mechanism carries out defects detection for the sheath to optical cable；

Pedestal；

Movable stand is slidably arranged on the pedestal；

Driving mechanism, for driving the movable stand to move at the same speed with optical cable；

Two groups of clamping devices, are mounted on movable stand, clamp for the optical cable respectively to defect area two sides；

Lug boss cutting mechanism is arranged between two groups of clamping devices, carries out cutting behaviour for the concave portion to defect area Make；

Second defects detection mechanism carries out secondary detection for sheath.

3. the manufacturing method of optical cable as claimed in claim 2, which is characterized in that the pedestal has the first sliding rail and tooth Item, the movable stand are slidably matched with the first sliding rail, and the driving mechanism is driving motor, and the output shaft of driving motor passes through tooth Wheel is engaged with the rack gear.

4. the manufacturing method of optical cable as claimed in claim 3, which is characterized in that every group of clamping device include:

Two grip blocks, the week along optical cable, grip block had the first holding tank towards the end face of optical cable along being uniformly distributed, and described the The length direction of one holding tank is parallel with the length direction of first sliding rail, and the cross section of the first holding tank is semicircle；

Two the first cylinders, are mounted on movable stand, and the piston rod of each first cylinder is fixed with corresponding grip block, two the first gas Cylinder cooperates, for pushing two grip blocks mutually to draw close and clamping optical cable.

5. the manufacturing method of optical cable as claimed in claim 4, which is characterized in that the lug boss cutting mechanism includes:

Two the second sliding rails are arranged on movable stand, and are located at the two sides of optical cable, and the second sliding rail is parallel to the first sliding rail；

Two the second cylinders, the cylinder body of each second cylinder are slidably arranged in respectively on corresponding second sliding rail；

Two cutters, each cutter are separately fixed on the piston rod of corresponding second cylinder, and the cutter includes semicircular second Holding tank, the second holding tank at least side are the cutting edge of semi-circular shape, and two cutters are mutual under the action of the second cylinder Cooperation forms cyclic annular cutter of the housing on cable jacket；

Two third cylinders, the piston rod of third cylinder are connected with the cylinder body of corresponding second cylinder respectively, for pushing second Cylinder is moved along the second slide direction.

6. the manufacturing method of optical cable as claimed in claim 5, which is characterized in that the third cylinder be mounted on movable stand or Person is mounted on the cylinder body of the first cylinder.

7. the manufacturing method of optical cable as claimed in claim 5, which is characterized in that the upper and lower sides of the cutter all have connection Plate, has location structure between corresponding two connecting plates of two cutters, and the location structure includes being disposed therein connection Location hole on plate, and the positioning column being arranged on another grip block, the location hole and positioning column, which correspond, to be cooperated.

8. the manufacturing method of optical cable as claimed in claim 5, which is characterized in that further include that the waste material being arranged on movable stand is received Collecting mechanism, garbage collection mechanism are arranged between two clamping devices, and the garbage collection mechanism includes:

Lifting cylinder is mounted on movable stand, and the piston rod of lifting cylinder is vertically arranged；

Collection box is fixed on the piston rod of lifting cylinder, and the collection box includes the ontology of upper end opening, the two sides tool of ontology Have and upwardly extend and to the occlusion part bent on the inside of ontology, there is the gap passed through for optical cable, the screening between two occlusion parts Stopper has the evacuation recess of strip adjacent to the side of the second cylinder, and the length direction of the evacuation recess is parallel to the second sliding rail Length direction, it is described evacuation recess be used for and the second cylinder piston rod cooperate.

9. the manufacturing method of optical cable as claimed in claim 8, which is characterized in that the cylinder body of two the second cylinders passes through connector Connection.