CN208308080U - Zero tension coil-winding machine - Google Patents
Zero tension coil-winding machine Download PDFInfo
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- CN208308080U CN208308080U CN201820833020.0U CN201820833020U CN208308080U CN 208308080 U CN208308080 U CN 208308080U CN 201820833020 U CN201820833020 U CN 201820833020U CN 208308080 U CN208308080 U CN 208308080U
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- arm
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- tension coil
- winding machine
- zero tension
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Abstract
The utility model discloses a kind of zero tension coil-winding machines, including traction component, curved hollow windings' arm is provided with below the traction component, hollow windings' arm is arranged on rotary components, the traction component includes drive roll and driven voller, the drive roll and driven voller cooperation rotation send optical fiber to hollow windings' arm, and the drive roll is connect with speed regulating motor, and the rotary components and speed regulating motor rotate synchronously and be arranged.The utility model no-station pole canopy in lopping, guarantees high detection accuracy.
Description
Technical field
The utility model relates to fiber laser arrays fields, and in particular to a kind of zero tension coil-winding machine.
Background technique
Fiber laser arrays main purpose is the quality of guarantee system connection, finds out optical fiber when reducing failure factor and failure
Fault point.
When detecting, it is generally tested using one direction, therefore the difference of the numerical value of the test of different directions, generally understands very little,
And mostly as caused by the precision of test equipment or test gimmick;But since fiber laser arrays length is longer, it is therefore desirable to
Pitch of the laps is stand-by, and in lopping, any tension applied to optical fiber surface will affect fiber laser arrays result.
And conventional method is all to apply minimum tension winding by winding displacement using fiber reel, such method cannot be guaranteed
Absolutely not tension, therefore there is influence to fiber laser arrays.
Summary of the invention
The technical problem to be solved by the present invention is to provide a kind of zero tension coil-winding machine, the no-station pole canopy in lopping guarantees
High detection accuracy.
In order to solve the above-mentioned technical problem, the utility model provides a kind of zero tension coil-winding machine, including traction component, institute
It states and is provided with curved hollow windings' arm below traction component, hollow windings' arm is arranged on rotary components, the traction
Component includes drive roll and driven voller, and the drive roll and driven voller cooperation rotation send optical fiber to hollow windings' arm, described
Drive roll is connect with speed regulating motor, and the rotary components and speed regulating motor rotate synchronously and be arranged.
Further, the traction component setting is in mounting platform surface, the rotary components and the setting of hollow windings' arm
On mounting platform bottom, it is additionally provided with optical fiber line of fall disk below hollow windings' arm, is also set on the mounting platform surface
It is equipped with support frame, support frame as described above is provided with V-groove at the top of support frame as described above, the fiber reel is arranged for placing fiber reel
On the rotary shaft, the rotary shaft end is arranged in V-groove.
Further, it is provided with above the traction component into line guide sleeve, the traction component lower section is provided with out
Line guide sleeve, the outlet guide sleeve are connect with hollow windings' arm.
Further, the drive roll and driven voller are arranged on roller-way mounting rack, and the roller-way mounting rack includes parallel
Two mounting plates being arranged, the mounting plate for placing installation guide groove, be provided in the installation guide groove active block with
Slave Block, the active block are connect by bearing with active roll end, and the Slave Block is connect by bearing with driven roll end,
Adjustable clearance is provided between the active block and Slave Block.
Further, be respectively provided on the active block and Slave Block there are two supporting plate, the active block and two supporting plates it
Between and Slave Block and two supporting plates between cooperatively form T-type structure, the corresponding installation plate surface of two supporting plates is also set
It is equipped with L-type backplate, the L-type backplate and mounting plate surface engagement form guiding conduit, and the supporting plate is arranged in corresponding guiding
In conduit, the supporting plate of the active block is fixedly connected with mounting plate, and the supporting plate of the Slave Block can be reciprocal in guiding conduit
Movement, is additionally provided with spring and compresses component, the spring compresses component and presses to Slave Block between the Slave Block and mounting plate
Active block.
Further, it is respectively provided with that there are two supporting plate, the active block and two branch on the active block and Slave Block
T-type structure is cooperatively formed between plate and between Slave Block and two supporting plates, the supporting plate is described for placing oblong hole
Supporting plate is locked and connected by oblong hole with mounting plate.
Further, the rotary components include an input terminal and two output ends in a straight line, two outputs
End perforation connects and is formed wire channel, and hollow windings' arm setting is in guide channel one end or is arranged in guide channel
Portion, the input terminal are connect by transmission component with drive roll, and the transmission component is gear assembly or belt component.
Further, the drive roll and driven roller surface are provided with rubber protective layer.
Further, proximity sensor and sensor block are additionally provided between the rotary components and hollow windings' arm, it is described
Proximity sensor is also connect with counter.
The utility model has the beneficial effects that
Drive roll and driven voller can be sent constantly into optical fiber in hollow windings' arm of lower section by rotating, it is final it is hollow around
Line arm can put optical fiber lopping in rotation, since optical fiber is the power and self weight downlink by sending constantly into, at
No-station pole canopy when circle will not damage optical fiber.
Rotary components and drive roll synchronization action, at the end of lopping, rotary components can be also simultaneously stopped with drive roll
Rotation, to guarantee that lopping terminates that the strain problem that asynchronous behavior mismatches generation is not present.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the schematic top plan view of Fig. 1;
Fig. 3 is the structural schematic diagram with fiber reel of the utility model;
Fig. 4 is the utility model mounting plate partial schematic diagram.
Figure label explanation: 1, traction component, 2, hollow windings' arm, 3, rotary components, 4, drive roll, 5, driven voller, 6,
Speed regulating motor, 7, mounting platform, 8, optical fiber line of fall disk, 9, support frame, 10, fiber reel, 11, V-groove, 12, rotary shaft, 13, enter
Line guide sleeve, 14, outlet guide sleeve, 15, roller-way mounting rack, 16, mounting plate, 17, installation guide groove, 18, active block,
19, Slave Block, 20, supporting plate, 21, L-type backplate, 22, guiding conduit, 23, transmission component.
Specific embodiment
The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art
The utility model may be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.
Shown in referring to Figures 1 and 2, an embodiment of zero tension coil-winding machine of the utility model, including traction component 1, sky
Heart coiling arm 2, rotary components 3 and speed regulating motor 6, speed regulating motor drive rotary components and traction component to move synchronously, it is hollow around
Line arm 2 is warp architecture and is arranged below traction component that optical fiber is sent into hollow windings' arm by traction component downward during exercise
Interior, optical fiber hangs from reforming, consistent with downward, thus when being sent into hollow windings' arm there is no tensile force and
Pull power etc., and when optical fiber comes out out of hollow windings arm, also without the presence of above-mentioned power, hollow windings' arm by with rotation
Component connection, rotates, after rotation, the outlet end of hollow windings' arm, which can rotate, draws a circle, finally to be driven by rotary components
Guiding optical cable lopping is put;Rotary components and speed regulating motor rotate synchronously, and rotate since traction component is also driven by speed regulating motor,
Therefore traction component can be with drive roll synchronization action, and at the end of lopping, rotary components can be also simultaneously stopped with drive roll
Rotation, to guarantee that lopping terminates that the strain problem that asynchronous behavior mismatches generation is not present.
And traction component includes drive roll 4 and driven voller 5, and drive roll is connect with speed regulating motor 6, when drive roll rotates, energy
Driven voller direction is enough driven to rotate backward, it is achieved that the effect of rotary squeezing discharging, thus drive roll and driven voller cooperation
Rotation send optical fiber to hollow windings' arm.
Above-mentioned rotary components include an input terminal and two output ends in a straight line, can be hollow speed reducer
Device, two output end perforations connect and are formed wire channel, and hollow windings' arm is arranged in guide channel one end, and optical fiber passes through guiding
It is entered back into behind channel in hollow windings' arm;Or can also by hollow windings' arm be arranged inside guide channel, optical fiber directly into
Enter in hollow windings' arm, joining place is avoided to cause friction to injure optical fiber surface;Certain two output ends can also directly have by
Hollow windings' arm replaces;Input terminal is connect by transmission component 23 with drive roll, and transmission component is gear assembly or belt group
Part reaches Synchronous Transmission needs, and passes through the change of the number of teeth in gear assembly or the tune to belt component middle belt pulley size
It is whole to change rotation speed, to achieve the effect that different optical fiber perfection lopping.
Above-mentioned drive roll and driven roller surface are provided with rubber protective layer, will not be to optical fiber when pushing against with optical fiber
Surface and inside damage, and are used by the optical fiber that the elasticity of itself is adapted to different-diameter, improve use scope.
In order to guarantee the stability of lopping, it is provided with above traction component into line guide sleeve 13, traction component lower section
It is provided with outlet guide sleeve 14, outlet guide sleeve is connect with hollow windings' arm, stabilized fiber is oriented by lower conveying by guiding,
Avoid optical fiber unwrapping wire angle difference that optical fiber lopping is caused tension occur.
Shown in referring to Figure 1 and Figure 3, traction component setting is in 7 surface of mounting platform, rotary components and the setting of hollow windings' arm
On mounting platform bottom, it is additionally provided with optical fiber line of fall disk 8 below hollow windings' arm, in lopping, is accepted by optical fiber line of fall disk,
Optical fiber line of fall disk periphery also has annular flange, is scattering into outside optical fiber line of fall disk after avoiding optical fiber lopping;Mounting platform surface
On be additionally provided with support frame 9, support frame is provided with V-groove 11 at the top of support frame, fiber reel is set in for placing fiber reel 10
In rotary shaft 12, rotary shaft end is arranged in V-groove, and in operation, rotary shaft stable can be fixed position by V-groove,
And easy disassembly, convenient for putting manually.
Referring to shown in Fig. 4, drive roll and driven voller are arranged on roller-way mounting rack 15, and roller-way mounting rack includes being arranged in parallel
Two mounting plates 16, mounting plate for place installation guide groove 17, install guide groove in be provided with active block 18 and Slave Block
19, active block is connect by bearing with active roll end, and Slave Block is connect by bearing with driven roll end, by active block
Gap between Slave Block, which is adjusted, enables to the spacing between drive roll and driven voller to change, to reach to difference
The compression feeding effect of diameter optical fiber, will not damage optical fiber;Wherein installation guide groove, which has, plays guiding when adjusting
Effect facilitates adjustment.
It is respectively provided in active block and Slave Block there are two supporting plate 20, between active block and two supporting plates and Slave Block and two
T-type structure is cooperatively formed between a supporting plate, the corresponding installation plate surface of two supporting plates is additionally provided with L-type backplate 21, L-type backplate
Guiding conduit 22 is formed with mounting plate surface engagement, supporting plate is arranged in corresponding guiding conduit, can substantially reduce equipment system
Standby difficulty, and it is at low cost;The supporting plate of active block is fixedly connected with mounting plate, and the supporting plate of Slave Block can be past in guiding conduit
Multiple movement, is additionally provided with spring and compresses component, the active force that spring compresses component is applied to driven between Slave Block and mounting plate
On block, and active force is towards active block, therefore Slave Block can be compressed towards active block in real time, when different-diameter optical fiber into
When entering between drive roll and driven voller, driven voller can change with fibre diameter and be changed, and reach adaptive effect, without adjustment
Mechanism further increases using effect use scope.
In one embodiment, be respectively provided with that there are two supporting plates on active block and Slave Block, between active block and two supporting plates with
And T-type structure is cooperatively formed between Slave Block and two supporting plates, supporting plate passes through oblong hole for placing oblong hole, supporting plate
It is locked and connected with mounting plate, it, can be according to the adjustable clearance size of adjustment active block and Slave Block by the setting in oblong hole
And guarantee that the optical fiber of different-diameter uses, in feeding, spacing is fixed, and can stablize output.
Above embodiments are only preferred embodiments for fully illustrating the utility model, the guarantor of the utility model
It is without being limited thereto to protect range.Those skilled in the art made equivalent substitute or transformation on the basis of the utility model,
It is within the protection scope of the utility model.The protection scope of the utility model is subject to claims.
Claims (9)
1. a kind of zero tension coil-winding machine, which is characterized in that including traction component, be provided with curved sky below the traction component
Heart coiling arm, hollow windings' arm are arranged on rotary components, and the traction component includes drive roll and driven voller, the master
Dynamic roller and driven voller cooperation rotation send optical fiber to hollow windings' arm, and the drive roll is connect with speed regulating motor, the rotation
Component and speed regulating motor rotate synchronously.
2. zero tension coil-winding machine as described in claim 1, which is characterized in that the traction component is arranged in mounting platform table
Face, the rotary components and hollow windings' arm are arranged on mounting platform bottom, are additionally provided with light below hollow windings' arm
Fine line of fall disk is additionally provided with support frame on the mounting platform surface, and support frame as described above is for placing fiber reel, support frame as described above
Top is provided with V-groove, and the fiber reel is arranged on the rotary shaft, and the rotary shaft end is arranged in V-groove.
3. zero tension coil-winding machine as described in claim 1, which is characterized in that be provided with above the traction component and be oriented into line
Casing, the traction component lower section are provided with outlet guide sleeve, and the outlet guide sleeve is connect with hollow windings' arm.
4. zero tension coil-winding machine as described in claim 1, which is characterized in that the drive roll and driven voller setting are pacified in roller-way
It shelves, the roller-way mounting rack includes two mounting plates disposed in parallel, and the mounting plate is for placing installation guide groove, institute
State in installation guide groove and be provided with active block and Slave Block, the active block is connect by bearing with active roll end, it is described from
Motion block is connect by bearing with driven roll end, is provided with adjustable clearance between the active block and Slave Block.
5. zero tension coil-winding machine as claimed in claim 4, which is characterized in that be provided with two on the active block and Slave Block
A supporting plate, cooperatively forms T-type structure between the active block and two supporting plates and between Slave Block and two supporting plates, and two
The corresponding installation plate surface of the supporting plate is additionally provided with L-type backplate, and the L-type backplate and mounting plate surface engagement form guide groove
Road, the supporting plate are arranged in corresponding guiding conduit, and the supporting plate of the active block is fixedly connected with mounting plate, the Slave Block
Supporting plate can guiding conduit in move back and forth, spring is additionally provided between the Slave Block and mounting plate and compresses component, institute
It states spring and compresses component and Slave Block is pressed into active block.
6. zero tension coil-winding machine as claimed in claim 4, which is characterized in that be provided with two on the active block and Slave Block
A supporting plate cooperatively forms T-type structure between the active block and two supporting plates and between Slave Block and two supporting plates, described
For placing oblong hole, the supporting plate is locked and connected by oblong hole with mounting plate supporting plate.
7. zero tension coil-winding machine as described in claim 1, which is characterized in that the rotary components include an input terminal and
Two output ends on one straight line, two output end perforations connect and are formed wire channel, and hollow windings' arm setting is being led
To one end of the channel or it is arranged inside guide channel, the input terminal is connect by transmission component with drive roll, the transmission
Component is gear assembly or belt component.
8. zero tension coil-winding machine as described in claim 1, which is characterized in that the drive roll and driven roller surface are provided with
Rubber protective layer.
9. zero tension coil-winding machine as described in claim 1, which is characterized in that between the rotary components and hollow windings' arm also
It is provided with proximity sensor and sensor block, the proximity sensor is also connect with counter.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820833020.0U CN208308080U (en) | 2018-05-31 | 2018-05-31 | Zero tension coil-winding machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820833020.0U CN208308080U (en) | 2018-05-31 | 2018-05-31 | Zero tension coil-winding machine |
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Publication Number | Publication Date |
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CN208308080U true CN208308080U (en) | 2019-01-01 |
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CN201820833020.0U Active CN208308080U (en) | 2018-05-31 | 2018-05-31 | Zero tension coil-winding machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108516399A (en) * | 2018-05-31 | 2018-09-11 | 江苏永鼎光纤科技有限公司 | Zero tension coil-winding machine |
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2018
- 2018-05-31 CN CN201820833020.0U patent/CN208308080U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108516399A (en) * | 2018-05-31 | 2018-09-11 | 江苏永鼎光纤科技有限公司 | Zero tension coil-winding machine |
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