CN215843884U - Equipment capable of uniformly coating optical fiber - Google Patents

Abstract

The utility model discloses a device capable of uniformly coating optical fibers, which comprises a shell with a handle, wherein a switch is arranged on one side of the shell, the operation of the whole device is controlled by the switch, a coating module for coating the optical fibers is arranged at the top of the shell, a control part electrically connected with the coating module is arranged on one side of the shell, which is far away from the coating module, and clamping modules for clamping the optical fibers and assisting the coating operation are arranged on two sides of the coating module respectively, so that the device capable of uniformly coating the optical fibers can limit the optical fibers to be coated by the coating module, the optical fibers are coated from a glue injection opening to an optical fiber cladding under the action of a glue injection pump, glue can be injected into a coating groove through the glue injection opening according to a preset glue injection speed under the control of an automatic glue injection button and a manual glue injection button, and an operator can observe the glue injection progress in real time from a touch screen control terminal, the injection amount of the glue is accurately controlled, the glue injection step is simplified, and the coating efficiency is improved.

Description

Equipment capable of uniformly coating optical fiber

Technical Field

The utility model relates to the technical field of optical fiber processing, in particular to equipment capable of uniformly coating optical fibers.

Background

Optical fibers, also called optical fibers, are fibers made of glass or plastic, also light-conducting means that use the principle of total internal reflection of light transmitted in these fibers, the tiny optical fiber being encapsulated in a protective layer so that it can be bent without breaking. The optical fiber is required to be cut and welded in the production process, before the cutting and welding, the coating (namely the optical fiber protective layer) of the optical fiber is required to be stripped firstly, so that the optical fiber cladding is exposed, and after the optical fiber is welded, the surface of the optical fiber cladding is coated by coating equipment in order to prevent the optical fiber cladding from being exposed in the air and corroded or damaged by external force.

The coating groove diameter among the existing coating equipment is not uniform, and the groove surface is rough, so that the coating layer diameter after the coating is finished is not uniform, the surface stress of the optical fiber is not uniform, and the surface is not smooth, so that the transmission performance of the coated optical fiber is directly influenced, the reliability is high, the length of the coating layer is difficult to control by the existing coating equipment, and the product consistency is influenced. To this end, we propose an apparatus that can uniformly coat an optical fiber.

SUMMERY OF THE UTILITY MODEL

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide an apparatus for uniformly coating an optical fiber.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an equipment that can evenly coat optic fibre, includes the casing of taking the handle, and casing one side is equipped with the switch, through the operation of the whole equipment of on-off control, the casing top is equipped with carries out the coating module that coats to optic fibre, the casing is kept away from coating module one side and is equipped with the control with coating module electric connection, coating module both sides all are equipped with the centre gripping module that carries out centre gripping, supplementary coating operation to optic fibre.

Preferably, the coating module comprises a coating support seat arranged at the top of the shell and provided with a coating lower groove, a coating cover plate for covering the optical fiber is arranged on one side of the coating support seat, the coating upper groove is formed in the position of the coating lower groove corresponding to the coating cover plate, a glue injection opening is formed in the coating cover plate, and the coating cover plate is connected with a glue injection piece for coating the optical fiber through the glue injection opening.

Preferably, the glue injection member is including seting up the sliding tray in casing one side, be equipped with electronic sliding door in the sliding tray, electronic sliding door has the glue storage bottle through the fixing base support, the glue storage bottle has the injecting glue pump through hose connection, the injecting glue pump passes through the hose and is connected with the glue filling opening, and injecting glue pump and control electric connection.

Preferably, the control is including setting up the three control button at the casing top, and is three control button includes manual injecting glue button, automatic injecting glue button and solidification button, manual injecting glue button and automatic injecting glue button respectively with injecting glue pump electric connection, solidification button and centre gripping module electric connection.

Preferably, the centre gripping module is including setting up the casing top, being located the centre gripping supporting seat of coating supporting seat one side, centre gripping supporting seat one side is rotated and is connected with the centre gripping apron, and centre gripping supporting seat and centre gripping apron have seted up last optic fibre spout and lower optic fibre spout respectively, the vacuum groove that link up with the casing is seted up to optic fibre spout both sides down, and just down the optic fibre spout is connected with the vacuum pump through the vacuum groove, vacuum pump and solidification button electric connection.

Preferably, a plurality of LED light sources are arranged at two ends of the coating support seat, which are positioned at the coating lower groove, and the LED light sources are electrically connected with the curing button.

And a touch screen control terminal is arranged on one side, away from the electric sliding door, of the shell.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the optical fiber to be coated is limited through the coating module, the coating is carried out on the optical fiber cladding from the glue injection port under the action of the glue injection pump, the glue can be injected into the coating groove through the glue injection port according to the preset glue injection speed under the control of the automatic glue injection button and the manual glue injection button, an operator can observe the glue injection progress in real time from the touch screen control terminal, the injection amount of the glue is accurately controlled, the glue injection step is simplified, and the coating efficiency is improved.

2. According to the utility model, the clamping modules positioned at two sides of the coating module limit the optical fiber, the vacuum pump performs a vacuum action on the optical fiber to enable the optical fiber to be positioned in the lower optical fiber sliding groove so as to limit the optical fiber and coat the lower groove, and the surface of the optical fiber is corrected under the limiting action of the lower optical fiber sliding groove so as to fix and straighten the optical fiber, so that the consistency of the diameter of the coated groove and the smoothness of the surface of the coated groove are ensured to be improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the structure of the present invention;

FIG. 3 is a side view of the structure of the present invention;

FIG. 4 is a sectional view of the internal structure of the housing;

fig. 5 is a schematic view of the structure of the coating module and the clamping module.

In the figure: 1-a shell; 11-a handle; 12-a switch; 2-a coating module; 21-coating a lower groove; 22-coating a support seat; 23-coating a cover plate; 24-coating an upper groove; 25-glue filling opening; 3-a control member; 31-control buttons; 311-manual glue injection button; 312-automatic glue injection button; 313-cure button; 4-a clamping module; 41-clamping a supporting seat; 42-clamping the cover plate; 43-upper fiber chute; 44-lower fiber chute; 45-vacuum pump; 5-glue injection; 51-a sliding groove; 52-electric pushing door; 53-glue storage bottle; 54-glue injection pump; 6-LED light source; and 7-a touch screen control terminal.

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, the present invention provides a technical solution: the utility model provides an equipment that can evenly coat optic fibre, includes casing 1 of taking handle 11, and casing 1 one side is equipped with switch 12, through the operation of the whole equipment of switch 12 control, 1 top of casing is equipped with carries out the coating module 2 that coats to optic fibre, casing 1 is kept away from coating module 2 one side and is equipped with control 3 with coating module 2 electric connection, 2 both sides of coating module all are equipped with the centre gripping module 4 that carries out centre gripping, supplementary coating operation to optic fibre.

Coating module 2 is including setting up at 1 top of casing, the coating supporting seat 22 of slot 21 under the area coating, coating supporting seat 22 one side is equipped with carries out the coating apron 23 that covers to optic fibre, and the position of slot 21 is equipped with coating groove 24 under the corresponding coating of coating apron 23, coating apron 23 one section is equipped with hall sensor, and it is spacing to carry out the angle that turns over under coating apron 23 through hall sensor, and coating apron 23 covers on coating supporting seat 22, and naked optic fibre surface is spacing by slot 21 under groove 24 and the coating of coating, coating apron 23 has seted up glue filling opening 25, and coating apron 23 is connected with through glue filling opening 25 and carries out the glue injection piece 5 that coats to optic fibre.

Glue injection member 5 is including seting up the sliding tray 51 in casing 1 one side, be equipped with electronic sliding door 52 in the sliding tray 51, electronic sliding door 52 has glue storage bottle 53 through the fixing base support, glue storage bottle 53 has glue injection pump 54 through hose connection, glue injection pump 54 passes through the hose to be connected with glue filling opening 25, and glue injection pump 54 and 3 electric connection of control, follow glue filling opening 25 coating to the optical fiber surface along the hose through glue injection pump 54 with the glue in the glue storage bottle 53, protects its surface.

Control 3 is including setting up three control button 31 at 1 top of casing, and is three control button 31 includes manual injecting glue button 311, automatic injecting glue button 312 and solidification button 313, manual injecting glue button 311 and automatic injecting glue button 312 respectively with injecting glue pump 54 electric connection, solidification button 313 and centre gripping module 4 electric connection, when holding manual injecting glue button 311, injecting glue pump 54 begins work, and the hand is loose then injecting glue pump 54 stops working, presses automatic injecting glue button 312, and glue can be according to injecting glue speed and the injecting glue volume that has set for in advance, injects glue in to the coating slot through glue filling opening 25.

The clamping module 4 comprises a clamping support 41 arranged at the top of the shell 1 and positioned at one side of the coating support 22, a clamping cover plate 42 is rotatably connected at one side of the clamping support 41, the clamping support base 41 and the clamping cover plate 42 are respectively provided with an upper optical fiber sliding groove 43 and a lower optical fiber sliding groove 44, both sides of the lower optical fiber sliding groove 44 are provided with vacuum grooves communicated with the shell 1, and the lower optical fiber sliding groove 44 is connected with a vacuum pump 45 through a vacuum groove, the vacuum pump 45 is electrically connected with a curing button 313, when the curing button 313 is pressed, the vacuum pump 45 starts to operate, the optical fiber is sucked into the clamping and supporting seats 41 at the left and right sides, the optical fiber is fixed and straightened through the clamping and supporting seats 41 at the left and right sides, meanwhile, the bare fiber area is positioned in the coating lower groove 21 of the coating support seat 22, the clamping cover plate 42 is closed, the optical fiber is limited, and the coating work is facilitated.

The coating support seat 22 is located the coating and is equipped with a plurality of LED lamp source 6 at the both ends of slot 21 down, and LED lamp source 6 and curing button 313 electric connection, the LED lamp source 6 that adopts in this example is 8, and its solid quantity can be designed according to concrete equipment, treats that the coating is accomplished the back, presses curing button 313 once more, and LED lamp source 6 lights one by one according to power, time and the sequence that set up in advance, treats that 8 minutes LED lamp sources 6 are all lighted and then indicates that the coating work is accomplished.

The touch screen control terminal 7 is arranged on one side, away from the electric sliding door 52, of the shell 1, when optical fibers on the coating support seat 22 are coated, the glue injection pump 54 controls the speed of glue injection and the amount of injected glue to reflect the touch screen control terminal 7 in real time, an operator can conveniently master the coating progress, and the amount of injected glue is accurately controlled.

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.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An apparatus for coating optical fiber uniformly, comprising a housing (1) with a handle (11), and a switch (12) arranged on one side of the housing (1), characterized in that: casing (1) top is equipped with carries out coating module (2) that coats optic fibre, casing (1) is kept away from coating module (2) one side and is equipped with control (3) with coating module (2) electric connection, coating module (2) both sides all are equipped with carry out centre gripping, supplementary clamping module (4) of coating operation to optic fibre.

2. The apparatus of claim 1, wherein: coating module (2) is including setting up coating supporting seat (22) at casing (1) top, area coating lower groove (21), coating supporting seat (22) one side is equipped with and carries out coating apron (23) that covers to optic fibre, and coats and has seted up coating upper groove (24) in the position of groove (21) under the corresponding coating of apron (23), glue filling opening (25) have been seted up in coating apron (23), and coating apron (23) are connected with through glue filling opening (25) and carry out glue injection member (5) coated to optic fibre.

3. The apparatus of claim 2, wherein: glue injection member (5) are including offering sliding tray (51) in casing (1) one side, be equipped with electronic sliding door (52) in sliding tray (51), electronic sliding door (52) have glue storage bottle (53) through the fixing base support, glue storage bottle (53) have injecting glue pump (54) through hose connection, injecting glue pump (54) are connected with glue filling opening (25) through the hose, and injecting glue pump (54) and control (3) electric connection.

4. An apparatus for uniformly coating an optical fiber according to claim 3, wherein: control piece (3) are including setting up three control button (31) at casing (1) top, three control button (31) are including manual injecting glue button (311), automatic injecting glue button (312) and solidification button (313), manual injecting glue button (311) and automatic injecting glue button (312) respectively with injecting glue pump (54) electric connection, solidification button (313) and centre gripping module (4) electric connection.

5. The apparatus of claim 4, wherein: centre gripping module (4) is including setting up casing (1) top, being located centre gripping supporting seat (41) of coating supporting seat (22) one side, centre gripping supporting seat (41) one side is rotated and is connected with centre gripping apron (42), and centre gripping supporting seat (41) and centre gripping apron (42) have seted up optic fibre spout (43) and lower optic fibre spout (44) respectively, the vacuum groove that link up with casing (1) is seted up to optic fibre spout (44) both sides down, and just optic fibre spout (44) are connected with vacuum pump (45) through the vacuum groove down, vacuum pump (45) and solidification button (313) electric connection.

6. The apparatus of claim 2, wherein: the coating support seat is provided with a plurality of LED light sources (6) at two ends of the coating lower groove (21), and the LED light sources (6) are electrically connected with the curing button (313).

7. An apparatus for uniformly coating an optical fiber according to claim 3, wherein: and a touch screen control terminal (7) is arranged on one side, away from the electric sliding door (52), of the shell (1).

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