CN219169004U

CN219169004U - Optical fiber cleaning device

Info

Publication number: CN219169004U
Application number: CN202223600536.6U
Authority: CN
Inventors: 黄涛; 叶继维; 高普; 陈有林; 林江晓
Original assignee: O Net Technologies Shenzhen Group Co Ltd
Current assignee: O Net Technologies Shenzhen Group Co Ltd
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-06-13
Anticipated expiration: 2032-12-30

Abstract

The utility model relates to the field of optical fiber cleaning, in particular to an optical fiber cleaning device. The cleaning belt is driven by the winding mechanism to move in a winding way; the clamping mechanism comprises a first clamp and a second clamp which can be mutually closed and clamped, a U-shaped structure is formed between the first clamp and the second clamp by the cleaning belts, and an optical fiber to be cleaned is placed between two cleaning belts of the U-shaped structure; the cleaning agent output mechanism comprises a storage bin, an output module and an output pipeline, wherein the output module is respectively communicated with the storage bin and the output pipeline, and an output port of the output pipeline is arranged at the first clamp or/and the second clamp. Compared with the prior art, the utility model solves the problem of cleaning the optical fibers by using the cleaning cloth manually, saves a great amount of labor cost, has high efficiency and thorough cleaning, uses air as a power source, and effectively avoids the hidden danger of inflammability and explosiveness.

Description

Optical fiber cleaning device

Technical Field

The utility model relates to the field of optical fiber cleaning, in particular to an optical fiber cleaning device.

Background

In the optical communication industry, a small amount of scraps can be remained after the optical fiber is peeled, the optical fiber is cleaned by using the alcohol-dipped cleaning cloth, the traditional mode is to manually clean the optical fiber by using the alcohol-dipped cleaning cloth, a large amount of labor cost is consumed, the efficiency is low, and the phenomenon of uncleanness exists.

Disclosure of Invention

The utility model aims to solve the technical problems of the prior art, and provides an optical fiber cleaning device which solves the problems of uncleanness and low cleaning efficiency.

The technical scheme adopted for solving the technical problems is as follows: there is provided an optical fiber cleaning apparatus comprising:

the cleaning belt is driven by the winding mechanism to move in a winding way;

the clamping mechanism comprises a first clamp and a second clamp which can be mutually closed and clamped, a U-shaped structure is formed between the first clamp and the second clamp by the cleaning belts, and an optical fiber to be cleaned is placed between two cleaning belts of the U-shaped structure;

the cleaning agent output mechanism comprises a storage bin, an output module and an output pipeline, wherein the output module is respectively communicated with the storage bin and the output pipeline, and an output port of the output pipeline is arranged at the first clamp or/and the second clamp; wherein,,

the output module sucks the cleaning agent stored in the storage bin into the output pipeline, and outputs the cleaning agent to the cleaning belt at the clamping position of the first clamp or the second clamp through the output pipeline, and the cleaning belt is driven by the winding mechanism to wind and move and wipe and clean the optical fiber to be cleaned.

Among them, the preferred scheme is: the optical fiber cleaning device further comprises a main support and an opening arranged on the main support, the clamping mechanism further comprises a finger clamping cylinder, the finger clamping cylinder is fixed on one end face of the main support, clamping jaws of the finger clamping cylinder penetrate through the opening and are arranged on the other end face of the main support, the first clamp and the second clamp are respectively arranged on the two clamping jaws, and the first clamp and the second clamp are clamped or kept away under the driving of the finger clamping cylinder.

Among them, the preferred scheme is: the first clamp comprises a first clamp main body and a first silica gel pad, the first silica gel pad is arranged on the clamping end face of the first clamp main body, the first clamp main body is provided with a first liquid guide channel, the first silica gel pad is provided with a second liquid guide channel communicated with the first liquid guide channel, the first liquid guide channel is communicated with the output pipeline, and a second liquid outlet of the second liquid guide channel is arranged on the clamping end face of the first silica gel pad; the second clamp comprises a second clamp main body and a second silica gel pad, and the second silica gel pad is arranged on the clamping end surface of the second clamp main body; wherein,,

the cleaning belt forms a U-shaped structure between the first silica gel pad and the second silica gel pad.

Among them, the preferred scheme is: the first liquid guide channel comprises a first liquid inlet arranged at the top of the first clamp main body, the output pipeline is communicated with the first liquid inlet through a liquid guide joint, the first liquid guide channel further comprises a first liquid outlet arranged on the clamping end face of the first clamp main body, and the first liquid outlet of the first liquid guide channel is aligned with the second liquid inlet of the second liquid guide channel.

Among them, the preferred scheme is: the winding mechanism comprises a first roll arranged on one side of the first clamp and the second clamp, a second roll and a third roll arranged on the other side of the first clamp and the second clamp, and a cleaning belt sequentially winds around the second roll, the first roll and the third roll, and forms a U-shaped structure between the first clamp and the second clamp.

Among them, the preferred scheme is: the winding mechanism comprises a first roll arranged on one side of the first clamp and the second clamp, a second roll arranged on the other side of the first clamp and the second clamp and a third roll, the optical fiber cleaning device further comprises an auxiliary support fixedly arranged on the main support, a finger clamping cylinder is fixedly arranged on the auxiliary support, the auxiliary support is partially arranged at the opening, the first roll is arranged on the auxiliary support, and the second roll and the third roll are arranged on the main support.

Among them, the preferred scheme is: the winding mechanism comprises a winding disc and a winding motor driving the winding disc to rotate, and the cleaning belt is arranged around the winding disc and is driven by the winding motor to move in a winding mode.

Among them, the preferred scheme is: the output module is including setting up the pressing of bottleneck department at the storage storehouse and go out liquid joint to and clamp plate, slip table cylinder and backup pad, and the slip table cylinder sets firmly in the backup pad, and the expansion end is connected with the clamp plate, presses out liquid joint and clamp plate connection, and the slip table cylinder drives the clamp plate and presses out liquid joint to pressing, and makes the detergent in the storage storehouse output to the output pipeline in.

Among them, the preferred scheme is: the detergent output mechanism further comprises a bottom plate, and the supporting plate and the storage bin are both fixedly arranged on the bottom plate.

Among them, the preferred scheme is: the output module further comprises a buffer piece fixedly arranged on the supporting plate, and the buffer end of the buffer piece is close to the pressing plate.

Compared with the prior art, the utility model solves the problem of cleaning the optical fibers by using the cleaning cloth manually, saves a great amount of labor cost, has high efficiency and thorough cleaning, uses air as a power source, and effectively avoids the hidden danger of inflammability and explosiveness.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of the structure of an optical fiber cleaning device of the present utility model;

FIG. 2 is a schematic view of the structure of the clamping mechanism and winding mechanism of the present utility model;

FIG. 3 is a schematic view of the clamping mechanism of the present utility model;

FIG. 4 is a schematic view of the structure of a first clip and a second clip of the present utility model;

FIG. 5 is a schematic elevational view of the first clip body of the present utility model;

FIG. 6 is a schematic view of the back structure of the first clip body of the present utility model;

FIG. 7 is a schematic front view of a first silicone pad of the present utility model;

FIG. 8 is a schematic view of the back structure of a first silica gel pad of the present utility model;

FIG. 9 is a schematic view of the structure of the detergent delivery mechanism of the present utility model;

fig. 10 is a schematic view of the back structure of the winding mechanism of the present utility model.

Detailed Description

Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, the present utility model provides a preferred embodiment of an optical fiber cleaning device.

The utility model provides an optical fiber cleaning device, including winding mechanism 210, cleaning tape 220, clamping mechanism and detergent output mechanism, the cleaning tape 220 is rolled up the motion under the drive of winding mechanism 210, clamping mechanism includes first clip 310 and second clip 320 that can draw close each other and press from both sides tightly, cleaning tape 220 forms U type structure between first clip 310 and second clip 320, and the optical fiber that waits to clean is placed between two cleaning tape 220 of U type structure, detergent output mechanism includes storage bin 110, output module 120 and output pipeline 130, output module 120 communicates with storage bin 110 and output pipeline 130 respectively, output port setting of output pipeline 130 is in first clip 310 or/and second clip 320 department; the output module 120 sucks the cleaning agent stored in the storage bin 110 into the output pipeline 130, and outputs the cleaning agent to the cleaning belt 220 at the clamping position of the first clamp 310 or the second clamp 320 through the output pipeline 130, and the cleaning belt 220 is driven by the winding mechanism 210 to wind and move and wipe and clean the optical fiber to be cleaned.

Specifically, the cleaning tape 220 is driven by the winding mechanism 210 to form a clean cleaning tape 220 at the clamping position of the first clamp 310 and the second clamp 320, the cleaning agent output mechanism outputs the cleaning agent to the cleaning tape 220 at the corresponding position through the output pipeline 130, and controls the first clamp 310 and the second clamp 320 to only enable the cleaning tape 220 to form an upper surface and a lower surface to clamp the optical fiber to be cleaned, and the optical fiber to be cleaned is pulled out by automatic equipment or manual work, and friction is carried out between the pulling-out process and the cleaning tape 220 for realizing the cleaning of the optical fiber to be cleaned. After cleaning is completed, the first clamp 310 and the second clamp 320 are opened and reset, and simultaneously the cleaning belt 220 is wound again under the driving of the winding mechanism 210, so that a clean cleaning belt 220 is formed at the clamping position of the first clamp 310 and the second clamp 320.

The problem of the manual work with clean cloth go clean optic fibre is solved, saves a large amount of cost of labor, and is efficient, clean thoroughly to use air as the power supply, effectively avoided inflammable and explosive hidden danger.

Wherein the cleaning agent stored in the storage bin 110 is preferably alcohol.

Wherein the cleaning is aimed at removing fiber optic debris residues.

The optical fiber to be cleaned is clamped through the optical fiber clamp, and the optical fiber clamp is controlled to realize the movement of the optical fiber to be cleaned. The optical fiber clamp comprises a lower clamping seat and a positioning clamp moving around the lower clamping seat, a clamping block is further arranged between the positioning clamp and the lower clamping seat, the lower clamping seat comprises a groove matched with the clamping block, and the lower clamping seat further comprises an optical fiber groove for accommodating an optical fiber to be cleaned.

As shown in fig. 4-8, the present utility model provides a preferred embodiment of a clamping mechanism.

The optical fiber cleaning device further comprises a main support 301 and an opening arranged on the main support 301, the clamping mechanism further comprises a finger clamping cylinder 330, the finger clamping cylinder 330 is fixed on one end face of the main support 301, clamping jaws of the finger clamping cylinder 330 penetrate through the opening and are arranged on the other end face of the main support 301, a first clamp 310 and a second clamp 320 are respectively arranged on the two clamping jaws (331 and 332), and the first clamp 310 and the second clamp 320 are clamped or far away under the driving of the finger clamping cylinder 330.

Specifically, the finger grip cylinder 330 controls the two gripping jaws to be moved close to or away from each other in the use configuration, thereby controlling the gripping operation and the separating operation of the first gripper 310 and the second gripper 320, and the first gripper 310 and the second gripper 320 grip the optical fiber to be cleaned under the control of the finger grip cylinder 330 and through the cleaning belt 220, and the first gripper 310 and the second gripper 320 are separated under the control of the finger grip cylinder 330 after cleaning is completed, so that the winding movement of the cleaning belt 220 is facilitated. In order to more stably mount the above structure, a main support 301 is provided, the main support 301 is in a plate structure, an opening is provided, a finger grip cylinder 330 is fixedly provided on one side of the main support 301, a jaw for working is provided on the other side of the main support 301 through the opening, and the clamping and cleaning operation is completed.

In one embodiment, the first clip 310 includes a first clip body 311 and a first silicone pad 312, the first silicone pad 312 is disposed on a clamping end surface of the first clip body 311, the first clip body 311 is provided with a first liquid guide channel, the first silicone pad 312 is provided with a second liquid guide channel in communication with the first liquid guide channel, the first liquid guide channel is in communication with the output pipe 130, and a second liquid outlet 3122 of the second liquid guide channel is disposed on the clamping end surface of the first silicone pad 312; the second clip 320 includes a second clip body 321 and a second silica gel pad 322, the second silica gel pad 322 being disposed on a clamping end surface of the second clip body 321; wherein the cleaning tape 220 forms a U-shaped structure between the first silicone pad 312 and the second silicone pad 322. Specifically, the first clamp main body 311 and the second clamp main body 321 are arranged, the clamping jaw is prolonged, more area of the cleaning belt 220 can be pressed, meanwhile, the first silica gel pad 312 and the second silica gel pad 322 are adopted, certain elastic acting force is provided when the optical fiber to be cleaned is pressed, the pressing force of the optical fiber to be cleaned is reduced, and the optical fiber is protected. Meanwhile, a first liquid guide channel and a second liquid guide channel are respectively arranged between the first clip main body 311 and the first silica gel pad 312, so that the cleaning liquid can be conveniently and smoothly guided into the cleaning belt 220.

In one embodiment, the first fluid guide channel includes a first fluid inlet 3111 disposed at the top of the first clip body 311, the output pipe 130 communicates with the first fluid inlet 3111 through a fluid guide connector, the first fluid guide channel further includes a first fluid outlet 3112 disposed at a clamping end surface of the first clip body 311, and the first fluid outlet 3112 of the first fluid guide channel is aligned with the second fluid inlet 3121 of the second fluid guide channel. The cleaning liquid flows from the output pipe 130 of the cleaning agent output mechanism into the first liquid guide channel in the first clip body 311, then into the second liquid guide channel of the first silicone pad 312, and flows into the cleaning belt 220 from the second liquid outlet 3122 of the second liquid guide channel.

The first clamp body 311 and the first silica gel pad 312 are fixed in a clamping manner, and the first clamp body 311 and the clamping jaw are fixed through screws. Similarly, the second clip body 321 and the second silica gel pad 322 are fixed in the same manner as the first clip body 311 and the first silica gel pad 312.

As shown in fig. 2 and 3, the present utility model provides a preferred embodiment of a winding mechanism 210.

The winding mechanism 210 includes a first roll 231 provided at one side of the first and

second clips

310 and 320, and a second roll 232 and a third roll 233 provided at the other side of the first and

second clips

310 and 320, and the cleaning belt 220 is wound around the second roll 232, the first roll 231 and the third roll 233 in this order, and forms a U-shaped structure between the first and

second clips

310 and 320.

Specifically, the cleaning belt 220 is formed to have a vertically opened structure by the second roll 232 and the third roll 233, and then the cleaning belt 220 is connected by the first roll 231, so that an opened structure is formed at the first clip 310 and the second clip 320, thereby facilitating the placement of the optical fiber to be cleaned.

In one embodiment, the winding mechanism 210 includes a first roll 231 disposed at one side of the first and

second clips

310 and 320, and a second roll 232 and a third roll 233 disposed at the other side of the first and

second clips

310 and 320, and the optical fiber cleaning apparatus further includes a sub-frame 302 fixed to the main frame 301, a finger grip cylinder 330 fixed to the sub-frame 302, the sub-frame 302 partially disposed at the opening, the first roll 231 disposed on the sub-frame 302, and the second roll 232 and the third roll 233 disposed on the main frame 301, and the finger grip cylinder 330 and the first roll 231 are easily installed by providing the sub-frame 302.

Further, other rollers may be disposed at corresponding positions of the second roller 232 and the third roller 233, so as to realize smooth operation of the cleaning belt 220.

In one embodiment, referring to fig. 10, the winding mechanism 210 includes a winding drum around which the cleaning belt 220 is disposed and is wound by a winding motor 240 that rotates the winding drum. The winding motor 240 moves the winding reels, thereby moving the cleaning tape 220, for example, two winding reels are provided, so that the cleaning tape 220 cleanly wound on one winding reel is wound into the other winding reel without cleanly used cleaning tape 220.

As shown in FIG. 9, the present utility model provides a preferred embodiment of a winding mechanism 210.

The output module 120 includes a pressing liquid outlet joint 121 disposed at the bottleneck of the storage bin 110, a pressing plate 122, a sliding table cylinder 123 and a supporting plate 141, wherein the sliding table cylinder 123 is fixedly disposed on the supporting plate 141, the movable end is connected with the pressing plate 122, the pressing liquid outlet joint 121 is connected with the pressing plate 122, the sliding table cylinder 123 drives the pressing plate 122 to press the pressing liquid outlet joint 121, and the cleaning agent in the storage bin 110 is output to the output pipeline 130.

Pressing out liquid joint 121 extrudes the cleaning solution of storage storehouse 110 in pressing out the in-process, through the setting of slip table cylinder 123, drives clamp plate 122 and presses out the operation to realize pressing out liquid joint 121, realize automatic play liquid. And the detergent output mechanism further comprises a bottom plate 142, and the supporting plate 141 and the storage bin 110 are fixedly arranged on the bottom plate 142, so that the stability of the whole structure is improved. Wherein, a baffle 143 is further disposed between the bottom plate 142 and the storage bin 110 for fixing the storage bin 110.

In one embodiment, the output module 120 further includes a buffer member 124 fixed on the support plate 141, where a buffer end of the buffer member 124 is disposed close to the pressing plate 122, and the buffer member 124 prevents the pressing plate 122 from being excessively pressed to damage the device.

The foregoing description of the preferred embodiments of the present utility model is not intended to limit the scope of the utility model, but rather is intended to cover all modifications and variations within the scope of the present utility model as defined in the appended claims.

Claims

1. An optical fiber cleaning apparatus, comprising:

the cleaning belt is driven by the winding mechanism to move in a winding way;

the output module sucks out the cleaning agent stored in the storage bin into the output pipeline, and outputs the cleaning agent to the cleaning belt at the clamping position of the first clamp or the second clamp through the output pipeline, and the cleaning belt is driven by the winding mechanism to perform winding motion and clean the optical fiber to be cleaned.

2. The optical fiber cleaning apparatus according to claim 1, wherein: the optical fiber cleaning device further comprises a main support and an opening arranged on the main support, the clamping mechanism further comprises a finger clamping cylinder, the finger clamping cylinder is fixed on one end face of the main support, clamping jaws of the finger clamping cylinder penetrate through the opening and are arranged on the other end face of the main support, the first clamp and the second clamp are respectively arranged on the two clamping jaws, and the first clamp and the second clamp are clamped or kept away under the driving of the finger clamping cylinder.

3. The optical fiber cleaning apparatus according to claim 1 or 2, wherein: the first clamp comprises a first clamp main body and a first silica gel pad, the first silica gel pad is arranged on the clamping end face of the first clamp main body, the first clamp main body is provided with a first liquid guide channel, the first silica gel pad is provided with a second liquid guide channel communicated with the first liquid guide channel, the first liquid guide channel is communicated with the output pipeline, and a second liquid outlet of the second liquid guide channel is arranged on the clamping end face of the first silica gel pad; the second clamp comprises a second clamp main body and a second silica gel pad, and the second silica gel pad is arranged on the clamping end face of the second clamp main body; wherein,,

4. A fiber optic cleaning apparatus according to claim 3, wherein: the first liquid guide channel comprises a first liquid inlet arranged at the top of the first clamp main body, the output pipeline is communicated with the first liquid inlet through a liquid guide joint, the first liquid guide channel further comprises a first liquid outlet arranged on the clamping end face of the first clamp main body, and the first liquid outlet of the first liquid guide channel is aligned with the second liquid inlet of the second liquid guide channel.

5. The optical fiber cleaning apparatus according to claim 1, wherein: the winding mechanism comprises a first roll arranged on one side of the first clamp and the second clamp, a second roll and a third roll arranged on the other side of the first clamp and the second clamp, and the cleaning belt is wound around the second roll, the first roll and the third roll in sequence, and a U-shaped structure is formed between the first clamp and the second clamp.

6. The optical fiber cleaning apparatus according to claim 2, wherein: the winding mechanism comprises a first roll roller arranged on one side of the first clamp and one side of the second clamp, a second roll roller arranged on the other side of the first clamp and the other side of the second clamp and a third roll roller, the optical fiber cleaning device further comprises an auxiliary support fixedly arranged on the main support, the finger-clamping cylinder is fixed on the auxiliary support, the auxiliary support is partially arranged at the opening, the first roll roller is arranged on the auxiliary support, and the second roll roller and the third roll roller are arranged on the main support.

7. The optical fiber cleaning apparatus according to claim 1, 5 or 6, wherein: the winding mechanism comprises a winding disc and a winding motor driving the winding disc to rotate, and the cleaning belt is arranged around the winding disc and is driven by the winding motor to move in a winding mode.

8. The optical fiber cleaning apparatus according to claim 1, wherein: the output module is including setting up the pressing liquid joint in the bottleneck department of storing the storehouse to and clamp plate, slip table cylinder and backup pad, the slip table cylinder sets firmly in the backup pad, and the expansion end is connected with the clamp plate, pressing liquid joint is connected with the clamp plate, the slip table cylinder drives the clamp plate and presses to press to go out liquid joint to make the detergent in the storing storehouse output to the output pipeline in.

9. The fiber cleaning apparatus of claim 8, wherein: the cleaning agent output mechanism further comprises a bottom plate, and the supporting plate and the storage bin are fixedly arranged on the bottom plate.

10. The fiber cleaning apparatus of claim 8, wherein: the output module further comprises a buffer piece fixedly arranged on the supporting plate, and the buffer end of the buffer piece is close to the pressing plate.