阅读说明：本技术 一种光纤表面防护层用自均匀涂覆并加速成型的辅助设备 (Optical fiber surface protective layer is with from even coating and fashioned auxiliary assembly with higher speed ) 是由 陈明威 于 2021-01-18 设计创作，主要内容包括：本发明涉及光纤制造技术领域,且公开了一种光纤表面防护层用自均匀涂覆并加速成型的辅助设备,包括安装座,所述安装座外部活动连接有传动板,所述传动板左侧活动连接有配重块,所述配重块左侧活动连接有挤压弹簧,所述配重块顶部活动连接有拉杆,所述拉杆顶部活动连接有拉块,所述拉块顶部活动连接有拉伸弹簧,通过在使用时外部驱动源带动设备转动,在设备转动时配重块会受到一个离心力,从而压缩挤压弹簧使其发生形变后带动拉杆运动,拉杆运动带动拉块运动,拉块运动带动挤压活塞挤压储料腔的内部空间,将储料腔内部的涂料经渗透板挤出,挤出的涂料会浸满涂覆轮,如此便达到了自动对光纤均匀涂覆的效果。(The invention relates to the technical field of optical fiber manufacturing, and discloses an auxiliary device for self-uniform coating and accelerated molding of an optical fiber surface protective layer, which comprises a mounting seat, wherein a transmission plate is movably connected to the outside of the mounting seat, a balancing weight is movably connected to the left side of the transmission plate, an extrusion spring is movably connected to the left side of the balancing weight, a pull rod is movably connected to the top of the balancing weight, a pull block is movably connected to the top of the pull rod, an external driving source drives the device to rotate when in use, the balancing weight can be subjected to a centrifugal force when the device rotates, so that the extrusion spring is compressed to deform and then drive the pull rod to move, the pull rod drives the pull block to move, the extrusion piston is driven by the pull block to extrude the internal space of a material storage cavity, the coating in the material storage cavity is extruded through a penetration plate, and the extruded coating, thus, the effect of automatically and uniformly coating the optical fiber is achieved.)

1. An optical fiber surface protective coating is with from even coating and fashioned auxiliary assembly with higher speed, includes mount pad (1), its characterized in that: the outer portion of the mounting seat (1) is movably connected with a transmission plate (2), the left side of the transmission plate (2) is movably connected with a balancing weight (3), the left side of the balancing weight (3) is movably connected with an extrusion spring (4), the top of the balancing weight (3) is movably connected with a pull rod (5), the top of the pull rod (5) is movably connected with a pull block (6), the top of the pull block (6) is movably connected with a tension spring (7), the bottom of the pull block (6) is movably connected with an extrusion piston (8), the bottom of the extrusion piston (8) is movably connected with a storage cavity (9), the bottom plate of the storage cavity (9) is movably connected with a penetration plate (10), the bottom of the penetration plate (10) is movably connected with a coating wheel (11), the right side of the pull block (6) is movably connected with a push rod (12), the utility model discloses a fan blade assembly, including ejector pad (13), rotating screw rod (14) bottom swing joint has buffer spring (15), buffer spring (15) bottom swing joint has roating seat (16), roating seat (16) bottom swing joint has axis of rotation (17), axis of rotation (17) bottom swing joint has rotation fan blade (18).

2. The optical fiber surface protective coating of claim 1, wherein the auxiliary device for self-uniform coating and accelerated molding comprises: the surface of the inner wall of the rotating seat (16) is movably connected with teeth, and the teeth are meshed with the rotating screw (14).

3. The optical fiber surface protective coating of claim 1, wherein the auxiliary device for self-uniform coating and accelerated molding comprises: the central axis of the rotating shaft (17) and the central axes of the rotating screw (14), the buffer spring (15) and the rotating seat (16) are in the same straight line.

4. The optical fiber surface protective coating of claim 1, wherein the auxiliary device for self-uniform coating and accelerated molding comprises: the number of the pull rods (5) is four, and the pull rods are distributed at the upper end and the lower end of the balancing weight (3) in a pairwise symmetrical manner.

5. The optical fiber surface protective coating of claim 1, wherein the auxiliary device for self-uniform coating and accelerated molding comprises: the diameter of the extrusion piston (8) is consistent with that of the inner wall of the material storage cavity (9), and the extrusion piston (8) is connected with the material storage cavity (9) in a sliding mode.

6. The optical fiber surface protective coating of claim 1, wherein the auxiliary device for self-uniform coating and accelerated molding comprises: the central axis of the extrusion piston (8) is in the same straight line with the central axes of the pull block (6) and the extension spring (7).

Technical Field

The invention relates to the technical field of optical fiber manufacturing, in particular to auxiliary equipment for automatically and uniformly coating and accelerating forming of an optical fiber surface protective layer.

Background

With the development of electronic computer technology, people formally enter an information era, the internet is now an essential tool in daily life, work and social contact of people, and people can transmit information in real time through the internet to know the real-time conditions of other places.

Information transmission of the internet is generally carried out through optical fibers, a layer of coating made of materials such as acrylic ester and silicon rubber is often coated on the surface of the optical fibers in order to prevent the optical fibers from being broken and improve the use quality of the optical fibers during manufacturing of the optical fibers, the phenomenon of uneven coating often occurs due to the defects of coating equipment in the coating process of the traditional optical fibers, so that the follow-up use of the optical fibers is affected, the optical fibers are often wound and wait to be used after the coating is finished, and the coating needs to be completely solidified before the winding.

Therefore, in view of the above, research and improvement are made on the existing structure and defects, and an auxiliary device for self-uniform coating and accelerated molding of an optical fiber surface protective layer is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the auxiliary equipment for automatically and uniformly coating and accelerating the forming of the protective layer on the surface of the optical fiber, which has the advantages of automatically and uniformly coating the optical fiber and automatically accelerating the air flow speed around the coating to accelerate the solidification, and solves the problems that the traditional optical fiber coating equipment is easily uneven in coating and needs to wait for the solidification of the coating to carry out winding after the coating is finished.

(II) technical scheme

In order to realize the purposes of automatically and uniformly coating the optical fiber and automatically accelerating the air flow speed around the coating to accelerate the solidification, the invention provides the following technical scheme: an optical fiber surface protective layer is with from even coating and accelerating fashioned auxiliary assembly, includes the mount pad, the mount pad outside swing joint has the driving plate, driving plate left side swing joint has the balancing weight, balancing weight left side swing joint has the extrusion spring, balancing weight top swing joint has the pull rod, pull rod top swing joint has the pull block, pull block top swing joint has the extension spring, pull block bottom swing joint has the extrusion piston, extrusion piston bottom swing joint has the storage cavity, storage cavity bottom plate swing joint has the infiltration board, infiltration board bottom swing joint has the coating wheel, pull block right side swing joint has the push rod, push rod top swing joint has the ejector pad, push block bottom swing joint has the rotation screw rod, rotation screw rod bottom swing joint has buffer spring, buffer spring bottom swing joint has the roating seat, the rotary base is movably connected with a rotating shaft at the bottom, and the rotating fan blades are movably connected at the bottom of the rotating shaft.

Preferably, the surface of the inner wall of the rotating seat is movably connected with teeth, and the teeth are meshed with the rotating screw rod.

Preferably, the central axis of the rotating shaft and the central axes of the rotating screw, the buffer spring and the rotating seat are collinear.

Preferably, the number of the pull rods is four, and the pull rods are distributed at the upper end and the lower end of the balancing weight in a pairwise symmetrical manner.

Preferably, the diameter of the extrusion piston is consistent with that of the inner wall of the storage cavity, and the extrusion piston is connected with the storage cavity in a sliding mode.

Preferably, the central axis of the extrusion piston is collinear with the central axes of the pull block and the extension spring.

(III) advantageous effects

Compared with the prior art, the invention provides the auxiliary equipment for the self-uniform coating and accelerated forming of the optical fiber surface protective layer, and the auxiliary equipment has the following beneficial effects:

1. the optical fiber surface protective layer is formed by self-uniformly coating and accelerating, when in use, an optical fiber needs to pass through equipment through a mounting seat and is properly fixed through a transmission plate, at the moment, a driving source for starting an external winding roller winds the optical fiber, a driving source drives the equipment to rotate simultaneously in the running process of the winding roller, when the equipment rotates, a balancing weight can be subjected to a centrifugal force, the centrifugal force acts on an extrusion spring through the balancing weight, the extrusion spring is finally compressed to deform and then drives the balancing weight to move, the balancing weight can pull a pull rod, the pull rod can apply a thrust to a pull block, the thrust acts on an extension spring through the pull block and finally compresses the extension spring to form the extension spring, at the moment, the pull block moves to drive an extrusion piston to move, and the extrusion piston can extrude the inner space of a material storage cavity, make the inside pressure increase of storage cavity, the pressure of increase is acted on the coating of the inside storage of storage cavity, thereby extrude it through the infiltration board, the coating wheel can be soaked to the coating of extruding, the coating wheel that soaks the coating this moment rotates around optic fibre, coat it at the pivoted in-process, and because the coating wheel is the runner, it can break away its inside coating at the rotation in-process, make the inside precipitate of coating and coating intensive mixing, so just reached automatic even coated effect to optic fibre.

2. The optical fiber surface protective layer is made by self-uniformly coating and accelerating the forming auxiliary equipment, the equipment is driven to rotate by an external driving source when in use, when the equipment rotates, a balancing weight can be subjected to a centrifugal force, thereby compressing an extrusion spring to deform the extrusion spring and then driving a pull rod to move, the pull rod moves and drives a pull block to move, the pull block moves and pulls a push rod, the push rod moves and applies a thrust to a push block, the thrust acts on a buffer spring through the push block, finally, the buffer spring is compressed to deform the buffer spring and then drive a rotating screw rod to move, and because the rotating screw rod is meshed with a rotating base, the rotating base is simultaneously driven to rotate in the moving process of the rotating screw rod, the rotating base rotates and drives a rotating shaft to rotate, the rotating fan blade is driven to rotate by the rotating shaft to generate airflow, the airflow is blown to the surface of an optical fiber through the, thereby achieving the effect of automatically accelerating the air flow speed around the coating and accelerating the solidification.

Drawings

FIG. 1 is a schematic view of a mounting base according to the present invention;

FIG. 2 is a schematic view of a counterweight according to the present invention;

FIG. 3 is a schematic view of a rotating screw according to the present invention;

FIG. 4 is a schematic view of a material storage chamber according to the present invention;

FIG. 5 is a schematic view of the structure of the compression spring of the present invention.

In the figure: 1. a mounting seat; 2. a drive plate; 3. a balancing weight; 4. a compression spring; 5. a pull rod; 6. pulling the block; 7. an extension spring; 8. a squeeze piston; 9. a material storage cavity; 10. a permeate sheet; 11. a coating wheel; 12. a push rod; 13. a push block; 14. rotating the screw; 15. a buffer spring; 16. a rotating base; 17. a rotating shaft; 18. the fan blades are rotated.

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.

Referring to fig. 1-5, an auxiliary device for self-uniform coating and accelerated molding of an optical fiber surface protective layer comprises a mounting base 1, wherein the outside of the mounting base 1 is movably connected with a transmission plate 2, the left side of the transmission plate 2 is movably connected with a balancing weight 3, the left side of the balancing weight 3 is movably connected with an extrusion spring 4, the top of the balancing weight 3 is movably connected with a pull rod 5, the four pull rods 5 are symmetrically distributed on the upper end and the lower end of the balancing weight 3 in pairs, the top of the pull rod 5 is movably connected with a pull block 6, the top of the pull block 6 is movably connected with a tension spring 7, the bottom of the pull block 6 is movably connected with an extrusion piston 8, the central axis of the extrusion piston 8 is in the same straight line with the central axes of the pull block 6 and the tension spring 7, the bottom of the extrusion piston 8 is movably connected with a storage cavity 9, the diameter of the, 9 bottom plate swing joint in storage cavity has infiltration board 10, infiltration board 10 bottom swing joint has coating wheel 11, draw 6 right side swing joint of piece to have push rod 12, push rod 12 top swing joint has ejector pad 13, ejector pad 13 bottom swing joint has rotation screw rod 14, 14 bottom swing joint of rotation screw rod has buffer spring 15, buffer spring 15 bottom swing joint has roating seat 16, the surperficial swing joint of 16 inner walls of roating seat has tooth, and this tooth and the 14 meshing of rotation screw rod, 16 bottom swing joint of roating seat has axis of rotation 17, axis of rotation 17's the central axis and rotation screw rod 14, buffer spring 15, the central axis of roating seat 16 is same straight line, 17 bottom swing joint of axis of rotation has rotation fan blade 18.

The working principle is as follows: the optical fiber surface protective layer is formed by self-uniformly coating and accelerating auxiliary equipment, when in use, an optical fiber needs to pass through equipment through a mounting seat 1 and is properly fixed through a transmission plate 2, at the moment, a driving source of an external winding roller is started to wind the optical fiber, the driving source simultaneously drives the equipment to rotate in the operation process of the winding roller, when the equipment rotates, a balancing weight 3 can bear a centrifugal force, the centrifugal force acts on an extrusion spring 4 through the balancing weight 3 and finally compresses the extrusion spring 4 to deform and then drives the balancing weight 3 to move, the balancing weight 3 can pull a pull rod 5, the pull rod 5 can apply a thrust to a pull block 6 through the pull block 6, the thrust acts on an extension spring 7 through the pull block 6 and finally compresses the extension spring 7 to form the extension spring, at the moment, the pull block 6 moves to drive an extrusion piston 8 to move, the extrusion piston 8 can extrude the internal space of a material storage cavity 9, make the inside pressure increase of storage cavity 9, the pressure of increase is used in the coating of the inside storage of storage cavity 9, thereby extrude it through infiltration board 10, the coating wheel 11 can be soaked to the coating of extruding, the coating wheel 11 that soaks the coating this moment rotates around optic fibre, coat it at the pivoted in-process, and because the coating wheel 11 is the runner, it can break away its inside coating at the rotation in-process, make the inside precipitate of coating and coating intensive mixing, so just reached the effect of automatic even coating of optic fibre, this coating equipment can effectual improvement optic fibre coating effect and carry out the rolling when the coating, thereby more energy-concerving and environment-protective than traditional coating equipment.

The optical fiber surface protective layer is made of self-uniformly coated and accelerated molding auxiliary equipment, when in use, an external driving source drives the equipment to rotate, when the equipment rotates, a balancing weight 3 can be subjected to a centrifugal force, so as to compress an extrusion spring 4 to deform and then drive a pull rod 5 to move, the pull rod 5 moves and drives a pull block 6 to move, the pull block 6 moves and pulls a push rod 12, the push rod 12 moves and applies a thrust to a push block 13, the thrust acts on a buffer spring 15 through the push block 13, and finally the buffer spring 15 is compressed to deform and then drive a rotating screw 14 to move, because the rotating screw 14 is meshed with the rotating base 16, the rotating base 16 is simultaneously driven to rotate in the moving process of the rotating screw 14, the rotating base 16 rotates and drives a rotating shaft 17 to rotate, the rotating shaft 17 rotates and drives rotating fan blades 18 to rotate so as to generate airflow, and the airflow is blown to the surface of an optical fiber through, the air flow rate around the coating is accelerated, so that the effect of automatically accelerating the air flow rate around the coating and accelerating the solidification is achieved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.