CN219058144U - Optical fiber disc dust removing mechanism - Google Patents

Abstract

The utility model discloses a fiber optic disc dust removing mechanism, which comprises a base, wherein a coiling mechanism is arranged on the base; the coiling mechanism comprises a motor, a supporting plate and a transmission shaft, wherein an output shaft of the motor is fixedly connected with the transmission shaft through a coupler; the optical fiber disc pressing roller assembly and the optical fiber disc dust removal assembly are arranged on the supporting plate and are respectively connected with the supporting plate in a rotating mode. According to the utility model, the motor drives the transmission shaft to rotate, so that the optical fiber disc is driven to rotate, the air nozzle is controlled to blow and dust the optical fiber coiled on the optical fiber disc in the process of rotating the optical fiber disc, the extrusion roller rotates along with the optical fiber disc under the action of friction force along with the rotation of the optical fiber disc, the optical fiber is compressed under the action of the reset spring, and the cleaning cloth arranged on the outer side of the extrusion roller can further clean the surface of the optical fiber, so that the dust removing effect is good, and the dust removing efficiency is greatly improved.

Description

Optical fiber disc dust removing mechanism

Technical Field

The utility model relates to the technical field of optical fiber discs, in particular to an optical fiber disc dust removing mechanism.

Background

At present, in the production and the use of optic fibre, for the depositing and the use of convenient optic fibre, often receive the coiling device through rolling with optic fibre and deposit on coiling device, in order to prevent that optic fibre is disordered, and in order to the transportation of convenient optic fibre, need twine optic fibre on the wire reel and form the optic fibre dish. Before the optical fiber disc is enveloped and put in storage, pollutants such as dirt, dust and the like may fall on the optical fibers of the optical fiber disc to influence the recognition of the appearance of the optical fibers, so that the optical fiber disc needs to be dedusted. Most of the existing dust removing modes are to blow and remove dust on the optical fiber disc by using an air gun manually, but the manual dust removing cost is high, the dust removing effect is poor and the efficiency is low.

Disclosure of Invention

The utility model aims to provide an optical fiber disc dust removing mechanism which aims to solve the problems of poor dust removing effect and low dust removing efficiency of the conventional optical fiber disc.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the fiber disc dust removing mechanism comprises a base, wherein a coiling mechanism is arranged on the base; the optical fiber disc is sleeved outside the coiling mechanism and is detachably connected with the coiling mechanism; the coiling mechanism comprises a motor, a supporting plate and a transmission shaft, wherein the motor is arranged below the base, and the supporting plate is arranged above the base; a through hole is formed in the middle of the supporting plate, and the transmission shaft is arranged in the through hole; the output shaft of the motor upwards penetrates through the base, and the output shaft of the motor is fixedly connected with the transmission shaft through a coupler; the optical fiber disc pressing roller assembly and the optical fiber disc dust removal assembly are respectively connected with the supporting plate in a rotating way; the optical fiber disc press roller assembly comprises a first rotary support frame, wherein the lower part of the first rotary support frame is rotationally connected with the support plate, and a telescopic pipe is arranged above the first rotary support frame; a reset spring is arranged in the telescopic tube, and a telescopic rod is arranged at the front end of the telescopic tube; one end of the return spring is connected with the bottom of the inner cavity of the telescopic pipe, and the other end of the return spring is fixedly connected with the telescopic rod; the front end of the telescopic rod is provided with a bracket, and the bracket is rotationally connected with a squeeze roller; the optical fiber disc dust removal assembly comprises a second rotary support frame, wherein the lower part of the second rotary support frame is rotationally connected with the support plate; and a cleaning plate is arranged above the second rotary supporting frame, wherein a plurality of air nozzles are arranged on the cleaning plate.

Preferably, a guide plate is arranged on one side of the coiling mechanism, and a groove is formed below the guide plate; one end of the guide plate, which is close to the coiling mechanism, is provided with a guide rod, wherein the guide rod is arranged in the groove; guide grooves matched with the guide rods are formed in two sides of the groove, and one end of each guide rod penetrates through each guide groove and extends outwards; and one side of the guide plate is provided with an electric telescopic rod, wherein the top of the telescopic end of the electric telescopic rod is fixedly connected with the guide rod.

Preferably, one end of the guide plate, which is far away from the coiling mechanism, is provided with a guide roller assembly, wherein the guide roller assembly is rotationally connected with the guide plate; the guide roller assembly comprises two rollers which are arranged side by side, gears are respectively arranged below each roller, and the two gears are meshed with each other.

Preferably, an air compressor is arranged below the base, and an air outlet end of the air compressor is communicated with the air nozzle through an exhaust pipe.

Preferably, a cleaning sleeve is arranged on the outer side of the squeeze roller, and cleaning cloth is fixed on the cleaning sleeve.

Preferably, a guide ring is arranged in the middle of the guide rod, and a foam-rubber cushion is arranged in the guide ring.

Compared with the prior art, the utility model has the beneficial effects that: the utility model inserts the center hole of the optical fiber disc into the transmission shaft and fixes the optical fiber disc by rotating the nut; the motor is started, so that the motor drives the transmission shaft to rotate, and the optical fiber disc is driven to rotate, the guide rod is driven to move up and down through the electric telescopic rod in the optical fiber disc rotating process, the optical fiber disc can be orderly coiled in the coiling process, then the air nozzle is controlled to blow and dust the optical fiber coiled on the optical fiber disc, meanwhile, the extrusion roller closely attached to the optical fiber disc rotates along with the rotation of the optical fiber disc, the extrusion roller also rotates along with the rotation of the optical fiber disc under the action of friction force, the optical fiber is compressed under the action of the reset spring, and the cleaning cloth arranged outside the extrusion roller can further clean the surface of the optical fiber, so that dust on the optical fiber of the optical fiber disc is cleaned in all directions, the dust removing effect is good, manual operation is not needed, and the dust removing efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the coiling mechanism of the present utility model;

FIG. 3 is a schematic view of the construction of the guide roller assembly of the present utility model;

fig. 4 is a schematic view of the structure of the optical fiber tray pressing roller assembly of the present utility model.

Wherein: 1. a base; 2. a coiling mechanism; 201. a motor; 202. a support plate; 203. a transmission shaft; 204. a through hole; 3. an optical fiber tray; 4. rotating the nut; 5. an optical fiber disc press roller assembly; 501. a first rotary support frame; 502. a telescopic tube; 503. a return spring; 504. a telescopic rod; 505. a bracket; 506. a squeeze roll; 6. a fiber optic disc dust removal assembly; 601. a second rotary support frame; 602. a cleaning plate; 603. an air nozzle; 7. a guide plate; 8. a groove; 9. a guide rod; 10. a guide groove; 11. an electric telescopic rod; 12. a guide roller assembly; 1201. a roller; 1202. a gear; 13. cleaning the sleeve; 14. a guide ring.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 4, a dust removing mechanism for an optical fiber disc includes a base 1, wherein the base 1 is provided with a coiling mechanism 2; the optical fiber disc 3 is arranged on the coiling mechanism 2, wherein the optical fiber disc 3 is sleeved outside the coiling mechanism 2, and the optical fiber disc 3 is detachably connected with the coiling mechanism 2; the coiling mechanism 3 comprises a motor 201, a supporting plate 202 and a transmission shaft 203, wherein the motor 201 is arranged below the base 1, and the supporting plate 202 is arranged above the base 1; a through hole 204 is formed in the middle of the supporting plate 202, wherein a transmission shaft 203 is arranged in the through hole 204, and a rotary nut 4 is arranged on the transmission shaft 203; the output shaft of the motor 201 penetrates through the base 1 upwards, wherein the output shaft of the motor 201 is fixedly connected with the transmission shaft 203 through a coupler; the center hole of the optical fiber disc 3 is inserted into the transmission shaft 203, the rotating nut 4 is screwed to fix the optical fiber disc 3 and the transmission shaft 203, the motor 201 is started, and the motor 201 drives the transmission shaft 203 to rotate, so that the optical fiber disc 3 is driven to rotate; the optical fiber disc pressing roller assembly 5 and the optical fiber disc dust removal assembly 6 are arranged on the supporting plate 202, wherein the optical fiber disc pressing roller assembly 5 and the optical fiber disc dust removal assembly 6 are respectively connected with the supporting plate 202 in a rotating way; the optical fiber disc press roller assembly 5 comprises a first rotary support frame 501, wherein the lower part of the first rotary support frame 501 is rotationally connected with the support plate 202, and a telescopic pipe 502 is arranged above the first rotary support frame 501; a return spring 503 is arranged in the telescopic pipe 502, wherein a telescopic rod 504 is arranged at the front end of the telescopic pipe 502; one end of the return spring 503 is connected with the bottom of the inner cavity of the telescopic pipe 502, and the other end of the return spring 503 is fixedly connected with the telescopic rod 504; the front end of the telescopic rod 504 is provided with a bracket 505, wherein the bracket 505 is rotatably connected with a squeeze roller 506; the first rotary support frame 501 can drive the squeeze roller 506 to rotate by taking the center of the first rotary support frame 501 as the axis, when in use, the first rotary support frame 501 is rotated to drive the squeeze roller 506 to be clung to the optical fiber disc 3, the optical fiber disc 3 is coiled along with the rotation of the optical fiber disc, the squeeze roller 506 plays a role in compacting the optical fiber on one side, the attractiveness and stability of the optical fiber coiling are maintained, and on the other side, the squeeze roller 506 is used for cleaning dust on the surface of the optical fiber; the optical fiber disc dust removal assembly 6 comprises a second rotary support frame 601, wherein the lower part of the second rotary support frame 601 is rotationally connected with the support plate 202; a cleaning plate 602 is arranged above the second rotary supporting frame 601, wherein a plurality of air nozzles 603 are arranged on the cleaning plate 602; the second rotary support frame 601 can drive the cleaning plate 602 to rotate by taking the center of the second rotary support frame 601 as the axis, and when in use, the second rotary support frame 601 is rotated to drive the cleaning plate 602 to be aligned with the optical fiber disc 3, and the optical fibers coiled on the optical fiber disc 3 are blown to remove dust through a plurality of air nozzles 603 arranged on the cleaning plate 602, so that dust on the optical fibers of the optical fiber disc 3 is removed in an omnibearing manner, and the dust removing effect is good.

Specifically, a guide plate 7 is arranged on one side of the coiling mechanism 2, and a groove 8 is formed below the guide plate 7; a guide rod 9 is arranged at one end of the guide plate 7, which is close to the coiling mechanism 2, wherein the guide rod 9 is arranged in the groove 8; guide grooves 10 matched with the guide rods 9 are formed in two sides of the groove 8, and one end of each guide rod 9 penetrates through each guide groove 10 and extends outwards; an electric telescopic rod 11 is arranged on one side of the guide plate 7, and the top of the telescopic end of the electric telescopic rod 11 is fixedly connected with the guide rod 9. The electric telescopic rod 11 stretches up and down to drive guide bar 9 along guide way 10 reciprocates, and then satisfy guide bar 9 to the guide effect that optical fiber coiled, can make optical fiber dish 3 to coil in order to optical fiber at the in-process of coiling, avoid the optical fiber to receive and release the time sequence confusion, lead to optic fibre concentrated distribution in same position, unable evenly distributed's problem, thereby keep the pleasing to the eye and firm that optical fiber coiled.

Specifically, one end of the guide plate 7 far away from the coiling mechanism 2 is provided with a guide roller assembly 12, wherein the guide roller assembly 12 is rotationally connected with the guide plate 7; the guide roller assembly 12 comprises two rollers 1201 arranged side by side, wherein a gear 1202 is provided under each roller 1201, wherein the two gears 1202 are intermeshed. The gears 1202 are driven by a micro motor, so that the two gears 1202 are meshed to rotate and are used for driving the two rollers 1201 to rotate in opposite directions, and therefore the guiding effect on the optical fiber incoming line is achieved, and the optical fiber is convenient to coil subsequently.

Specifically, an air compressor (not shown) is disposed below the base 1, wherein an air outlet end of the air compressor is communicated with the air nozzle 603 through an exhaust pipe. When the optical fiber needs to be dedusted, the second rotary support frame 601 is rotated to drive the cleaning plate 602 to be aligned with the optical fiber disc 3, the air compressor is started to generate high-pressure air, and the air nozzle 603 arranged on the cleaning plate 602 is used for blowing and dedusting the optical fiber coiled on the optical fiber disc 3, so that dust on the optical fiber of the optical fiber disc 3 is removed in an omnibearing manner.

Specifically, the cleaning sleeve 13 is installed on the outer side of the squeeze roller 506, wherein cleaning cloth is fixed on the cleaning sleeve 13, the cleaning cloth is fixed on the cleaning sleeve 13 through double faced adhesive tape, the first rotary support frame 501 is rotated during use, the squeeze roller 506 is driven to be clung to the optical fiber disc 3, the optical fiber disc 3 is wound in a rotary mode along with the optical fiber disc 3, the squeeze roller 506 plays a role in compacting the optical fiber on one hand, attractiveness and stability of optical fiber winding are maintained, and on the other hand, the cleaning cloth on the squeeze roller 506 is used for cleaning dust on the surface of the optical fiber.

Specifically, be equipped with guide ring 14 in the middle of the guide bar 9, install the foam-rubber cushion in this guide ring 14, optic fibre passes guide ring 14 before coiling, and wherein the foam-rubber cushion in guide ring 14 cleans the optic fibre surface, clears away dust and other impurity on its surface, improves optic fibre surface's cleanliness factor, and the optic fibre of being convenient for carries out follow-up coiling.

To sum up: according to the utility model, the central hole of the optical fiber disc 3 is inserted into the transmission shaft 203, the rotating nut 4 is tightly twisted to fix the optical fiber disc, the motor 201 is started, the motor 201 drives the transmission shaft 203 to rotate, so that the optical fiber disc 3 is driven to rotate, the electric telescopic rod 11 drives the guide rod 9 to move up and down in the process of rotating the optical fiber disc 3, the optical fiber disc 3 can be orderly coiled in the coiling process, then the air nozzle 603 is controlled to blow and dust the optical fiber coiled on the optical fiber disc 3, meanwhile, the extrusion roller 506 closely attached to the optical fiber disc 3 rotates along with the rotation of the optical fiber disc 3 under the action of friction force, the optical fiber is tightly pressed under the action of the reset spring 503, and the cleaning cloth arranged outside the extrusion roller 506 can further clean the surface of the optical fiber, so that dust on the optical fiber of the optical fiber disc 3 can be cleaned in an all-around manner, the dust removing effect is good, manual operation is not required, and the dust removing efficiency is greatly improved.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (6)

1. The optical fiber disc dust removing mechanism comprises a base (1), wherein a coiling mechanism (2) is arranged on the base (1); the optical fiber coiling mechanism (2) is provided with an optical fiber coil (3), wherein the optical fiber coil (3) is sleeved outside the coiling mechanism (2), and the optical fiber coil (3) is detachably connected with the coiling mechanism (2); the coiling mechanism (2) is characterized by comprising a motor (201), a supporting plate (202) and a transmission shaft (203), wherein the motor (201) is arranged below the base (1), and the supporting plate (202) is arranged above the base (1); a through hole (204) is formed in the middle of the supporting plate (202), and the transmission shaft (203) is arranged in the through hole (204); the output shaft of the motor (201) upwards penetrates through the base (1), wherein the output shaft of the motor (201) is fixedly connected with the transmission shaft (203) through a coupler; the optical fiber disc pressing roller assembly (5) and the optical fiber disc dust removal assembly (6) are arranged on the supporting plate (202), and the optical fiber disc pressing roller assembly (5) and the optical fiber disc dust removal assembly (6) are respectively connected with the supporting plate (202) in a rotating mode; the optical fiber disc press roller assembly (5) comprises a first rotary support frame (501), wherein the lower part of the first rotary support frame (501) is rotationally connected with the support plate (202), and a telescopic pipe (502) is arranged above the first rotary support frame (501); a return spring (503) is arranged in the telescopic tube (502), wherein the front end of the telescopic tube (502) is provided with a telescopic rod (504); one end of the return spring (503) is connected with the bottom of the inner cavity of the telescopic pipe (502), and the other end of the return spring (503) is fixedly connected with the telescopic rod (504); the front end of the telescopic rod (504) is provided with a bracket (505), wherein the bracket (505) is rotationally connected with a squeeze roller (506); the optical fiber disc dust removal assembly (6) comprises a second rotary support frame (601), wherein the lower part of the second rotary support frame (601) is rotationally connected with the support plate (202); a cleaning plate (602) is arranged above the second rotary supporting frame (601), wherein a plurality of air nozzles (603) are arranged on the cleaning plate (602).

2. The fiber tray dust removing mechanism according to claim 1, wherein a guide plate (7) is arranged on one side of the coiling mechanism (2), and a groove (8) is formed below the guide plate (7); one end of the guide plate (7) close to the coiling mechanism (2) is provided with a guide rod (9), wherein the guide rod (9) is arranged in the groove (8); guide grooves (10) matched with the guide rods (9) are formed in two sides of the groove (8), and one end of each guide rod (9) penetrates through each guide groove (10) and extends outwards; an electric telescopic rod (11) is arranged on one side of the guide plate (7), and the top of the telescopic end of the electric telescopic rod (11) is fixedly connected with the guide rod (9).

3. A fiber optic disc dust removal mechanism according to claim 2, wherein the end of the guide plate (7) remote from the coiling mechanism (2) is provided with a guide roller assembly (12), wherein the guide roller assembly (12) is rotatably connected with the guide plate (7); the guide roller assembly (12) comprises two rollers (1201) arranged side by side, wherein gears (1202) are respectively arranged below each roller (1201), and the two gears (1202) are meshed with each other.

4. The fiber tray dust removing mechanism according to claim 1, wherein an air compressor is arranged below the base (1), and an air outlet end of the air compressor is communicated with the air nozzle (603) through an exhaust pipe.

5. The fiber tray dust removing mechanism according to claim 1, wherein a cleaning sleeve (13) is installed outside the squeeze roller (506), and a cleaning cloth is fixed on the cleaning sleeve (13).

6. A fiber optic disc dust removal mechanism according to claim 2, wherein a guide ring (14) is provided in the middle of the guide rod (9), and a sponge cushion is mounted in the guide ring (14).

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