CN205318930U - Intelligence optic fibre power cable optic fibre fibre core laying apparatus - Google Patents
Intelligence optic fibre power cable optic fibre fibre core laying apparatus Download PDFInfo
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- CN205318930U CN205318930U CN201520992259.9U CN201520992259U CN205318930U CN 205318930 U CN205318930 U CN 205318930U CN 201520992259 U CN201520992259 U CN 201520992259U CN 205318930 U CN205318930 U CN 205318930U
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- rotator
- optic fibre
- optical fiber
- power cable
- fiber core
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Abstract
The utility model provides an intelligence optic fibre power cable optic fibre fibre core laying apparatus, including L die bed seat 5, fixed set up runing rest 4 and at the fixed gear motor 1 that sets up of lateral part, runing rest 4 is seted up cable through -hole 12 and is seted up a pair of optic fibre fibre core through -hole I 13 in its circumference direction at the axial direction of rotator 11 through 3 suit rotators 11 on the bearing, sets up the link mechanism that drive rotator 11 carries out the motion of pendulum clock formula between rotator 11 and gear motor 1 on L die bed seat 5 upper portions. The utility model provides an intelligence optic fibre power cable optic fibre fibre core laying apparatus no longer artifically carries out laying of optic fibre, has improved the efficiency that optic fibre laid, simultaneously no longer do not have effectual control to optic fibre wave form cycle and the amplitude that lays, satisfied the technological requirement.
Description
Technical field
The utility model relates to cable production unit field, and specifically a kind of Intelligent optical fiber power cable fiber core lays device.
Background technology
In intelligent power cable is produced, it is necessary to lay two optical fiber at cable wicking surface, owing to optical fiber quality is more crisp, physical strength is low, so processing requirement optical fiber must in wave shape lay, and to laying wave period, amplitude have requirement. At present, in intelligent power cable is produced, owing to not having optical fiber to lay device, optical fiber lays all to adopt and manually lays, and labour intensity is big, and production efficiency is low, and optical fiber wave period, amplitude cannot be unified.
Summary of the invention
In order to overcome above-mentioned technical disadvantages, the utility model provides a kind of Intelligent optical fiber power cable fiber core to lay device, no longer manually carries out laying of optical fiber, it is to increase the efficiency that optical fiber lays; Simultaneously no longer optical fiber wave period and amplitude to laying effectively does not control, and meets processing requirement.
For achieving the above object, the technical scheme that the utility model is taked is: comprise L-type base, it is fixedly installed swinging strut on L-type base top and it is fixedly installed deceleration motor at its sidepiece, swinging strut is set with rotator by bearing, axial direction due at rotator is offered cable through-hole and is offered one pair of fiber core through hole I in its circumferential direction, arranges the linkage assembly that driving rotating bodies carries out pendulum clock formula motion between rotator and deceleration motor.
When carrying out when laying of optical fiber, first cable is worn into cable through-hole and two optical fiber are worn into fiber core through hole I respectively, cable and optical fiber are moved forward by towing mechanism respectively simultaneously, start deceleration motor, owing to arranging the linkage assembly that driving rotating bodies carries out pendulum clock formula motion between rotator and deceleration motor, the rotator carrying out pendulum clock formula motion can drive the optical fiber moved in its optical fiber through hole to produce waveform trace forward, on the cable that the optical fiber that continuous print has a waveform trace will constantly be laid in cable through-hole to move forward, therefore this lays device no longer by manually manually laying optical fiber, level of automation is higher, liberate staff, this lays plant running and stablizes simultaneously, makes the more even by power of optical fiber, avoids the generation of phenomenon of rupture, according to processing requirement, by regulating the rotating speed of deceleration motor thus regulate the swing rate of rotator, meeting the requirement in different wave cycle, simultaneously waveform is more evenly and consistent, no longer owing to manually laying and cycle and amplitude to optical fiber waveform does not effectively control.
The utility model devises, described linkage assembly comprises the crank that the output shaft with deceleration motor is connected and the swiveling ring being embedded in rotator end, the end of crank articulated linkage, arranging angle regulator between the other end of connecting rod and swiveling ring, the circumference at swiveling ring arranges one to the fiber core through hole II being connected with fiber core through hole I.
The utility model devises, the circumference that described angle regulator is included in swiveling ring extends to form the extension portion with rectangle chute outward, the other end of connecting rod extends to form bend, the hinged column slide block being arranged in rectangle chute in the end of bend, arranges set screw nut between the other end of column slide block and rectangle chute.
The utility model devises, and arranges the bearing back-up ring being sleeved in rotator at the two ends of bearing, and swiveling ring is embedded in the end of rotator by jump ring.
The utility model devises, and described deceleration motor is set to cycloidal planetary gear speed reducer.
Accompanying drawing explanation
Fig. 1 is state one figure of the present utility model;
Fig. 2 is state two figure of the present utility model;
Fig. 3 is decomposing schematic representation of the present utility model;
Fig. 4 is cable through-hole and fiber core through hole schematic diagram.
Embodiment
Fig. 1-4 is an embodiment of the present utility model, the present embodiment is specifically described by reference to the accompanying drawings, comprise L-type base 5, it is fixedly installed swinging strut 4 on L-type base 5 top and it is fixedly installed deceleration motor 1 at its sidepiece, it is set with rotator 11 by bearing 8 in the middle through-hole of swinging strut 4, for the ease of installing and location, the turning shaft shoulder on rotator 11, bearing 8 two ends arrange the bearing back-up ring 9 being sleeved in rotator 11, center axial direction due at rotator 11 is offered cable through-hole 12 and is offered one pair of fiber core through hole I 13 in its circumferential direction, output shaft at deceleration motor 1 connects crank 14 and inlays swiveling ring 3 in rotator 11 end by jump ring 7, jump ring 7 ensures swiveling ring 3 driven rotary body 11 synchronous axial system, circumferential direction at swiveling ring 3 arranges one to the fiber core through hole II being connected with fiber core through hole I 13, optical fiber can through in the through hole of this two couple connection, the end of crank 14 articulated linkage 2, the circumference of swiveling ring 3 extends to form the extension portion 15 with rectangle chute 6 outward, the other end of connecting rod 2 extends to form bend 16, the hinged column slide block being arranged in rectangle chute 6 in the end of bend 16, between the other end of column slide block and rectangle chute 6, set screw nut is set, unclamping set screw nut can make column slide block slide in rectangle chute 6, by changing the position of column slide block in rectangle chute 6 thus change the swing angle of swiveling ring 3, with the swiveling ring 3 in extension portion 15, connecting rod and crank 14 with bend 16 form crank and rocker mechanism, this mechanism is a kind of structure formation of linkage assembly, before optical fiber lays, first arranging the position of column slide block in rectangle chute 6 according to process requirements, thus change the swing angle of swiveling ring 3, different swing angles can lay out the optical fiber waveform of various amplitude, when laying, cable is each passed through one pair of fiber core through hole I 13 through cable through-hole 12 and two optical fiber, cable and optical fiber are carried forward under the drive of traction mechanism, deceleration motor 1 drives crank 14 to carry out circumferential motion, the bend driven rotary ring 3 of crank 14 drivening rod 2 and connecting rod 2 carries out pendulum clock formula motion in the end of rotator 11, swiveling ring 3 and the rotator 11 swung can drive the optical fiber moved through two in both through holes to produce waveform trace forward, now cable is constantly pulled in cable through-hole 12 and to move forward, the optical fiber therefore with waveform trace can be laid on the cable advanced and formation thereon has the waveform of fixed cycle and amplitude by continuous print.
In this example, described deceleration motor 1 is set to cycloidal planetary gear speed reducer, it is possible to regulate the rotating speed of this step-down gear according to process requirements, rotator 11 adopts nylon material to process simultaneously, nylon material allows and easily carries out turnery processing, and wear resistance is better simultaneously, durable in use.
Effective effect of the present utility model:
1. owing to devising rotator 11, deceleration motor 1, linkage assembly, cable through-hole 12 and fiber core through hole I 13, achieve the formation of optical fiber waveform, the optical fiber with stable wave period and amplitude is laid on cable simultaneously, lay state of the art higher, achieve the automatic laying of optical fiber, it is to increase whole optical fiber lays the automatization level of industry.
2. owing to devising angle regulator, by regulating this device, the optical fiber waveform of various amplitude can be laid out, it is to increase this versatility laying device.
3. owing to devising the extension portion 15 with rectangle chute 6, column slide block, set screw nut, by degree of tightness set screw nut thus change the position of column slide block in rectangle chute, under the drive of toggle thus change the rotation angle of swiveling ring and rotator, structure is simple and is convenient to regulate.
Certainly; above-mentioned explanation is not to restriction of the present utility model; the utility model is also not limited in above-mentioned citing, change, remodeling, interpolation or the replacement that those skilled in the art make in essential scope of the present utility model, also should belong to protection domain of the present utility model.
Claims (5)
1. an Intelligent optical fiber power cable fiber core lays device, it is characterized in that: comprise L-type base (5), it is fixedly installed swinging strut (4) on L-type base (5) top and it is fixedly installed deceleration motor (1) at its sidepiece, swinging strut (4) is set with rotator (11) by bearing (8), axial direction due at rotator (11) is offered cable through-hole (12) and is offered one pair of fiber core through hole I (13) in its circumferential direction, the linkage assembly that driving rotating bodies (11) carries out pendulum clock formula motion is set between rotator (11) and deceleration motor (1).
2. a kind of Intelligent optical fiber power cable fiber core according to claim 1 lays device, it is characterized in that: described linkage assembly comprises the crank (14) that the output shaft with deceleration motor (1) is connected and the swiveling ring (3) being embedded in rotator (11) end, the end of crank (14) articulated linkage (2), arranging angle regulator between the other end of connecting rod (2) and swiveling ring (3), the circumference at swiveling ring (3) arranges one to the fiber core through hole II being connected with fiber core through hole I (13).
3. a kind of Intelligent optical fiber power cable fiber core according to claim 2 lays device, it is characterized in that: the circumference that described angle regulator is included in swiveling ring (3) extends to form the extension portion (15) with rectangle chute (6) outward, the other end of connecting rod (2) extends to form bend (16), the hinged column slide block being arranged in rectangle chute (6) in the end of bend (16), arranges set screw nut between the other end of column slide block and rectangle chute (6).
4. a kind of Intelligent optical fiber power cable fiber core according to claim 2 lays device, it is characterized in that: arrange the bearing back-up ring (9) being sleeved in rotator (11) at the two ends of bearing (8), swiveling ring (3) is embedded in the end of rotator (11) by jump ring (7).
5. a kind of Intelligent optical fiber power cable fiber core according to the arbitrary item of claim 1-4 lays device, it is characterized in that: described deceleration motor (1) is set to cycloidal planetary gear speed reducer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520992259.9U CN205318930U (en) | 2015-12-04 | 2015-12-04 | Intelligence optic fibre power cable optic fibre fibre core laying apparatus |
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CN201520992259.9U CN205318930U (en) | 2015-12-04 | 2015-12-04 | Intelligence optic fibre power cable optic fibre fibre core laying apparatus |
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CN205318930U true CN205318930U (en) | 2016-06-15 |
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CN201520992259.9U Active CN205318930U (en) | 2015-12-04 | 2015-12-04 | Intelligence optic fibre power cable optic fibre fibre core laying apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110126441A (en) * | 2019-05-23 | 2019-08-16 | 王改 | A kind of single recessed printing machine of high speed |
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2015
- 2015-12-04 CN CN201520992259.9U patent/CN205318930U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110126441A (en) * | 2019-05-23 | 2019-08-16 | 王改 | A kind of single recessed printing machine of high speed |
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