CN107161803A - A kind of multifunctional optical fiber coiling apparatus - Google Patents

Abstract

The invention discloses a multifunctional optical fiber coiling device, comprising a base, a rotating motor, a rotating shaft and an optical fiber coiling plate, the rotating motor is arranged on the base, the rotating shaft is arranged on the On the rotating motor and driven by the rotating motor, the optical fiber coiling plate is detachably arranged on the rotating shaft, and the upper surface of the optical fiber coiling plate is provided with a spiral "U" groove, and the spiral "U" The "shaped groove is filled with a heat-conducting silicone grease layer, and the innermost ring entrance and the outermost ring outlet of the spiral "U" groove are respectively provided with a straight transition "U" groove, and the straight transition "U" The depth of the groove is gradually changing on a slope. The invention can not only ensure that the optical fiber is coiled in one plane without loss, but also can take into account the protection of the melting point of the active optical fiber and the water cooling of the active optical fiber in the whole system.

Description

A multifunctional optical fiber coiling device

technical field

The invention relates to the technical field of mechanical tooling, in particular to a multifunctional optical fiber coiling device.

Background technique

Most of the existing optical fiber coiling technologies are coiled on a long cylinder, but this coiling method easily leads to overlapping of optical fibers, which is not conducive to the heat dissipation of optical fibers. At present, there are also a few optical fiber coiling devices that can coil in one plane, but they either cannot effectively fix the optical fiber, or do not take into account the later use of the optical fiber. Manually coiling the optical fiber has the disadvantages of cumbersome operation and long time consumption.

Contents of the invention

In view of this, it is necessary to provide a multi-functional optical fiber coiling device that can not only realize the coiling of the optical fiber in one plane, but also take into account the subsequent water cooling and fusion splicing operations of the optical fiber.

The technical solution adopted in the present invention: a multifunctional optical fiber coiling device, including a base, a rotating motor, a rotating shaft and an optical fiber coiling plate, the rotating motor is arranged on the base, and the rotating shaft is arranged On the rotating motor and driven by the rotating motor, the optical fiber coiling plate is detachably arranged on the rotating shaft, and the upper surface of the optical fiber coiling plate is provided with a spiral “U” groove, and the The heat-conducting silicone grease layer is filled in the shape "U" groove, and the innermost ring entrance and the outermost ring outlet of the spiral "U" groove are respectively provided with a straight transition "U" groove, and the straight transition The depth of the "U"-shaped groove gradually changes in a slope shape.

The multifunctional optical fiber coiling device in the present invention adopts "U" grooves arranged in a spiral shape to ensure equidistant arrangement of the gain fibers; a heat-conducting silicone grease layer is arranged in the "U" grooves, which is used for the gain fibers on the one hand. Heat dissipation, on the other hand, due to its certain adhesiveness, can play a role in fixing the optical fiber. The above design can ensure that the optical fiber is coiled in a plane efficiently and without loss. There is a straight transition "U" groove at the entrance of the innermost ring and the outlet of the outermost ring of the "U" groove, which is used to place and protect the melting point of the gain fiber and passive pigtail; the fiber coil plate can be rotated directly It is removed from the shaft and fixed on the water-cooled plate for use in the subsequent installation process. The invention can not only ensure that the optical fiber is coiled in one plane without loss, but also can take into account the protection of the melting point of the active optical fiber and the water cooling of the active optical fiber in the whole system.

Description of drawings

FIG. 1 is a schematic diagram of the connection structure of the multifunctional optical fiber coiling device in the present invention.

Fig. 2 is a central cross-sectional view of the fiber coil plate of the present invention.

Fig. 3 is a top view of the optical fiber coil plate in the present invention.

detailed description

The present invention will be further described below in conjunction with the accompanying drawings, and the examples given are only used to explain the present invention, and are not intended to limit the scope of the present invention.

As shown in Figures 1-3, it is a multi-functional optical fiber coiling device in the present invention, including a base 1, a rotating motor 2, a rotating shaft 3 and an optical fiber coiling plate 4, and the rotating motor 2 is set On the base 1, the rotating shaft 3 is set on the rotating motor 2 and driven by the rotating motor 2, the optical fiber coil plate 4 is detachably arranged on the rotating shaft 3, the The upper surface of the optical fiber coil plate 4 is provided with a spiral "U"-shaped groove 5, and the spiral "U"-shaped groove 5 is filled with a heat-conducting silicone grease layer 6, and the innermost part of the spiral "U"-shaped groove 5 The entrance of the circle and the exit of the outermost circle are respectively provided with a linear transition "U"-shaped groove 7, and the depth of the linear transition "U"-shaped groove 7 gradually changes in a slope shape.

The base 1, as the supporting body of the whole device, plays a role of fixing and supporting the whole device. The base 1 is in the shape of a circular truncated cone and has stronger stability. In order to further improve the stability of the base 1, a A vacuum suction cup can be arranged at the bottom of the base 1 .

The rotating motor 2 is arranged above the base 1 and is used as the power main body of the whole device to drive the rotation of the rotating shaft 3. The specific working principle is the prior art and will not be repeated here.

The rotating shaft 3 is arranged above the rotating motor 2 and is connected to the rotating motor 2 to be driven by the rotating motor 2. The rotating shaft 3 is vertically arranged and the end away from the rotating motor 2 is arranged as a step axis.

The base 1, the rotating motor 2 and the rotating shaft 3 are arranged coaxially.

The optical fiber coil plate 4 is the main station of the whole device, which is in the shape of a disc and coaxially arranged on the rotating shaft 3 . The optical fiber coil plate 4 is made of a conductor with good thermal conductivity such as aluminum or copper, and its thickness is 3-5mm, mainly to promote the heat dissipation of the optical fiber. A stepped hole 8 is formed on the lower surface of the optical fiber coiled plate 4 in conjunction with the stepped shaft, and the optical fiber coiled plate 4 is detachably arranged on the rotating shaft through the coordinated installation of the stepped hole 8 and the stepped shaft 3 on. In order to ensure equidistant distribution of optical fibers in the same plane, the adjacent rings of the helical "U" groove 5 are equally spaced, and the specific space can be set according to actual conditions. The depth of the helical "U" groove 5 is 0.5-0.8mm, which is slightly larger than the diameter of the optical fiber, so as to ensure that the optical fiber can be completely accommodated in the helical "U" groove 5, and it will not be caused by the optical fiber. If the containment is too deep, it will not be convenient for subsequent operations or affect the cooling effect of the gain fiber. The straight transition "U" groove 7 is designed to protect the melting point of the optical fiber, the length of the straight transition "U" groove 7 is 3-5 cm, and it is connected to the spiral "U" groove 5 From one end to the other end, the depth shows a slope shape and gradually decreases. In order to improve the stability of fixing the melting point of the optical fiber and enhance the heat dissipation, the linear transition "U"-shaped groove 7 is also filled with a heat-conducting silicone grease layer 6 .

When in use, one end of the optical fiber is fixed in the linear transition "U" groove 7 at the entrance of the innermost circle of the helical "U" groove 5, and then the rotating shaft is driven by the rotating motor 2 3 rotates, and then drives the optical fiber coiling plate 4 to rotate, so that the optical fiber can be coiled in the same plane efficiently and without damage. The straight line transition at the outlet of the outer ring can be in the "U"-shaped groove 7.

The multifunctional optical fiber coiling device in the present invention adopts "U" grooves arranged in a spiral shape to ensure equidistant arrangement of the gain fibers; a heat-conducting silicone grease layer is arranged in the "U" grooves, which is used for the gain fibers on the one hand. Heat dissipation, on the other hand, due to its certain adhesiveness, can play a role in fixing the optical fiber. The above design can ensure that the optical fiber is coiled in a plane efficiently and without loss. There is a straight transition "U" groove at the entrance of the innermost ring and the outlet of the outermost ring of the "U" groove, which is used to place and protect the melting point of the optical fiber and passive pigtail; the optical fiber coil plate can be directly removed from the rotating shaft It is removed from the top and fixed on the water-cooled plate for use in the subsequent installation process. The invention can not only ensure that the optical fiber is coiled in one plane without loss, but also can take into account the protection of the melting point of the active optical fiber and the water cooling of the active optical fiber in the whole system.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included in the protection of the present invention. within range.

Claims (7)

1. a kind of multifunctional optical fiber coiling apparatus, it is characterised in that including a pedestal, a rotation motor, a rotary shaft and a light Fibre coiling plate, the rotation motor is arranged on the pedestal, and the rotary shaft is arranged on the rotation motor and by described Rotation motor is driven, and the fiber reel winding board is detachably arranged in the rotary shaft, and the fiber reel winding board upper surface is opened Provided with helical form " U " type groove, filled out in helical form " U " type groove provided with thermal conductive silicon lipid layer, helical form " U " type groove it is most interior Ensphere mouth and outmost turns exit is respectively arranged with straight transitions " U " type groove, the depth of straight transitions " U " type groove is in domatic Gradual change.

2. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that the fiber reel winding board is by aluminium or copper etc. The good conductor of heat conduction is made.

3. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that the rotary shaft upper end is arranged to ladder The multi-diameter shaft is coordinated to offer a shoulder hole on axle, the fiber reel winding board lower surface.

4. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that helical form " U " type groove it is adjacent It is spaced between ring equal.

5. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that the depth of helical form " U " type groove For 0.5-0.8mm.

6. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that the length of straight transitions " U " type groove Spend for 3-5cm.

7. multifunctional optical fiber coiling apparatus as claimed in claim 1, it is characterised in that in straight transitions " U " type groove Fill out provided with thermal conductive silicon lipid layer.