CN111167674B

CN111167674B - Optical fiber coating quantitative recovery device

Info

Publication number: CN111167674B
Application number: CN202010162690.6A
Authority: CN
Inventors: 朱昀
Original assignee: Yiwu Xinmin Daily Necessities Co ltd
Current assignee: Yiwu Xinmin daily necessities Co.,Ltd.
Priority date: 2020-03-10
Filing date: 2020-03-10
Publication date: 2021-10-01
Anticipated expiration: 2040-03-10
Also published as: CN111167674A

Abstract

The invention discloses an optical fiber coating quantitative recovery device, which belongs to the technical field of optical fiber processing and comprises a support frame, a filter box, a waste filtering assembly, a waste receiving assembly and a waste mixing assembly, wherein the waste filtering assembly comprises a waste filtering piece and a cleaning spraying piece, the waste filtering piece is arranged on the filter box, the cleaning spraying piece is arranged on the filter box, the waste receiving piece comprises a waste conveying piece and a waste receiving piece, the waste conveying piece is arranged at the top of the filter box, the waste receiving piece is arranged on the filter box, and the waste mixing assembly is arranged beside the support frame. According to the invention, the rotating disc is driven to rotate by the work of the rotating motor so as to drive the first rotating rod to rotate, the first rotating rod drives the second rotating rod to rotate, the second rotating rod drives the positioning block to slide on the positioning seat, the positioning block moves to drive the receiving box to move up and down, and the receiving box moves up and down, so that the waste coatings at different positions can be collected.

Description

Optical fiber coating quantitative recovery device

Technical Field

The invention relates to the technical field of optical fiber processing, in particular to a quantitative recovery device for optical fiber coating.

Background

The optical fiber is generally composed of a bare fiber and a coating, and the optical fiber coating is formed by ultraviolet curing of liquid resin coating and has a protective effect on the optical fiber. The optical fiber coating is one of the most important materials in the optical fiber production process, an optical fiber coating supply system mainly comprises a single-wire independent supply system and a multi-wire centralized supply system, and the single-wire independent supply system is adopted by most optical fiber production enterprises at present because the coating centralized supply system has the defects of more coatings which are thrown in one time, difficult coating variety replacement, high equipment cost and the like.

The patent with publication number CN207025751U relates to an optical fiber coating quantitative recovery device, which comprises a coating tank, wherein the coating tank is provided with a coating storage cavity and a water bath heating cavity which are separately arranged on an inner layer and an outer layer, the coating tank is provided with a coating inlet, a coating outlet, a water inlet and a water outlet, the coating inlet and the coating outlet are both communicated with the coating storage cavity, and the water inlet and the water outlet are both communicated with the water bath heating cavity; the water inlet and the water outlet are both connected to the circulating water bath box through external water pipes, and the coating outlet is externally connected with a coating pipeline. The utility model discloses an optical fiber coating ration recovery unit retrieves optical fiber coating automatically, and convenient operation can improve the high-usage of retrieving coating, practices thrift the use cost of coating after using.

However, the above-mentioned devices also have the following problems in use: first, when collecting useless coating, can not adjust the position of collecting according to the height of collecting to influence the collection operation of useless coating, the second is collecting the waste material after, thereby can not filter and screen the useless coating of collection and influence the later stage use of useless coating.

Disclosure of Invention

The invention aims to provide an optical fiber coating quantitative recovery device, which aims to solve the technical problems that the collection position cannot be adjusted according to the collection height and the collected waste coatings cannot be filtered and screened so as to influence the later use of the waste coatings in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: an optical fiber coating quantitative recovery device comprises a support frame, a filter box, a waste filtering assembly, a waste receiving assembly and a waste mixing assembly, wherein the support frame is vertically arranged, the filter box is arranged at the top of the support frame, the waste filtering assembly is arranged on the filter box, the waste filtering assembly comprises a waste filtering piece and a cleaning spraying piece, the waste filtering piece is arranged on the filter box and is in running fit with the filter box, the cleaning spraying piece is arranged on the filter box and is in running connection with the filter box, the output end of the cleaning spraying piece is arranged towards the waste filtering piece, the waste receiving piece is arranged on the filter box and comprises a waste conveying piece and a waste receiving piece, the waste conveying piece is arranged at the top of the filter box and is communicated with the filter box, the waste receiving piece is arranged on the filter box and is communicated with the waste conveying piece, the waste mixing assembly is arranged beside the support frame and communicated with the filter box.

Further, the waste filtering element comprises a filtering screen plate, two rotating motors and two rotating shafts, wherein the two rotating motors are symmetrically arranged on the side wall of the filtering box, output shafts of the two rotating motors are rotationally connected with the filtering box, the two rotating shafts are symmetrically arranged on the filtering box and rotationally connected with the filtering box, one ends of the two rotating shafts are respectively fixedly connected with the output shafts of the two rotating motors, two rotating cams which are symmetrically arranged are arranged on each rotating shaft, a mounting groove is arranged in the filtering box, the filtering screen plate is horizontally arranged in the mounting groove, a plurality of connecting springs which are arranged in a rectangular shape are arranged at the top and the bottom of the filtering screen plate, two ends of each connecting spring are respectively fixedly connected with the filtering screen plate and the side wall of the mounting groove, two rotating wheels are arranged at the bottom of the filtering screen plate corresponding to the two rotating cams, and an opening and closing door hinged with the side wall of the filter box is arranged on the side wall of the filter box.

Further, the cleaning spraying part comprises a sliding plate, a connecting pipe, two driving motors, two driving screw rods and a plurality of spraying pipes, wherein the two driving screw rods are symmetrically arranged on the filter box, the two driving motors are symmetrically arranged on the side wall of the filter box, output shafts of the two driving motors are respectively and fixedly connected with one end of each of the two driving screw rods, the sliding plate is arranged on the two driving screw rods and is in threaded connection with the two driving screw rods, the sliding plate is in sliding fit with the side wall of the filter box, the plurality of spraying pipes are arranged on the sliding plate at equal intervals, the output end of each spraying pipe is vertically arranged downwards, the connecting pipe is communicated with a plurality of spray pipes, the spray pipes are provided with corrugated pipes extending to the outside of the filter box, the bottom of the filter box is provided with a material collecting cover communicated with the filter box, and the bottom of the material collecting cover is provided with a discharge pipe communicated with the material collecting cover.

Further, waste material receiving part includes rotating electrical machines, motor cabinet, rolling disc, first rotating rod, second rotating rod, positioning seat, locating piece and receiver box, the fixed setting of positioning seat is on the lateral wall of rose box, the locating piece set up on the positioning seat and with positioning seat sliding fit, the motor cabinet is fixed to be set up on the lateral wall of rose box, rotating electrical machines sets up on the motor cabinet, the rolling disc sets up on rotating electrical machines's output shaft, the fixed setting in the axis of rotation of one end of first rotating rod, the both ends of second rotating rod rotate with first rotating rod and locating piece respectively and are connected, the receiver box sets up the top at the locating piece.

Furthermore, the waste conveying piece comprises a conveying pipe, a receiving pipe and a conveying pump, the conveying pump is arranged at the top of the filter box, two ends of the conveying pipe are communicated with the conveying pump and the filter box respectively, and two ends of the receiving pipe are communicated with the conveying pump and the receiving box respectively.

Further, the waste mixing subassembly includes mounting bracket, mixing box, hybrid electric motor, mixing shaft and a plurality of mixing rod, the mounting bracket sets up the side at the support frame, the mixing box sets up the top at the mounting bracket, hybrid electric motor sets up on the mixing box and hybrid electric motor's the vertical downward setting of output shaft, the vertical setting of mixing shaft is in the mixing box and the top of mixing shaft and hybrid electric motor's output shaft fixed connection, and is a plurality of the mixing rod is the circumference and sets up on mixing shaft, be equipped with the row's of being linked together material pipe on the mixing box, arrange and be equipped with automatic control valve on the material pipe, the top of mixing box is equipped with the inlet pipe rather than being linked together.

Furthermore, a fixed plate is arranged on the mixing shaft, three horizontally arranged moving springs are arranged on the fixed plate, and one end of each moving spring is provided with a scraping plate in sliding fit with the filter box.

Furthermore, the mounting bracket side is equipped with the electronic scale, the electronic scale is located the below of arranging the material pipe, be equipped with the collecting bucket on the electronic scale.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the waste coating is recycled, the rotating motor works to drive the rotating disc to rotate, the rotating disc rotates to drive the first rotating rod to rotate, the first rotating rod rotates to drive the second rotating rod to rotate, the second rotating rod rotates to drive the positioning block to slide on the positioning seat, the positioning block moves to drive the receiving box to move up and down, and the receiving box moves up and down to realize the collection operation of the waste coating at different positions.

Secondly, when the waste coating is filtered, the two rotating motors work to drive the two rotating shafts to rotate on the filter box, the rotating shafts rotate to drive the two rotating cams to rotate, the rotating cams rotate to drive the two rotating wheels at the bottom of the filter screen plate to rotate so as to drive the filter screen plate to vibrate in the mounting groove through the connecting springs, and the filter screen plate vibrates to filter the waste coating collected on the filter screen plate, so that caking and impurities in the waste coating are filtered out.

Thirdly, after the waste coating is filtered, the filter screen plate can be blocked, the filter screen plate can also be cleaned, external cleaning water enters the connecting pipe through the corrugated pipe, the cleaning water is sprayed on the filter screen plate through the plurality of spray pipes to clean the filter screen plate, the two driving motors work to drive the two driving screw rods to rotate, the two driving screw rods move to drive the sliding plate to slide on the filter box, the sliding plate slides to drive the plurality of spray pipes to move, the plurality of spray pipes move to realize comprehensive cleaning operation on the filter screen plate, and the meshes of the filter screen plate are cleaned, so that the blockage of the filter screen plate and the accumulation of a large amount of coating on the filter screen plate are prevented from influencing the recovery operation of the coating.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a partial perspective view of the first embodiment of the present invention;

FIG. 4 is a partial perspective view of the second embodiment of the present invention;

FIG. 5 is a first perspective view of the waste filter assembly of the present invention;

fig. 6 is a schematic perspective view of a waste filter assembly according to the present invention.

The reference numbers in the figures are:

the waste filtering device comprises a support frame 1, a filtering box 2, a mounting groove 21, a collecting cover 22, a discharging pipe 23, a waste filtering component 3, a waste filtering component 31, a filtering screen plate 311, a rotating motor 312, a rotating shaft 313, a rotating cam 314, a connecting spring 315, a rotating wheel 316, a cleaning spraying component 32, a sliding plate 321, a connecting pipe 322, a driving motor 323, a driving screw rod 324, a spraying pipe 325, a waste receiving component 4, a waste conveying component 41, a conveying pipe 411, a receiving pipe 412, a conveying pump 413, a waste receiving component 42, a rotating motor 421, a motor base 422, a rotating disc 423, a first rotating rod 424, a second rotating rod 425, a positioning base 426, a positioning block 427, a receiving box 428, a waste mixing component 5, a mounting frame 50, a mixing box 51, a mixing motor 52, a mixing shaft 53, a mixing rod 54, a fixing plate 55, a moving spring 56, a

scraping plate

57, 58, a discharging pipe 59, an automatic control valve 591, electronic scale 6, collecting bucket 61.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 6, the present invention provides an optical fiber coating material quantitative recycling apparatus, including a support frame 1, a filter box 2, a waste material filter assembly 3, a waste material receiving assembly 4 and a waste material mixing assembly 5, wherein the support frame 1 is vertically disposed, the filter box 2 is disposed on the top of the support frame 1, the waste material filter assembly 3 is disposed on the filter box 2, the waste material filter assembly 3 includes a waste material filter element 31 and a cleaning shower element 32, the waste material filter element 31 is disposed on the filter box 2 and rotatably engaged with the filter box 2, the cleaning shower element 32 is disposed on the filter box 2 and rotatably engaged with the filter box 2, an output end of the cleaning shower element 32 is disposed toward the waste material filter element 31, the waste material receiving element 42 is disposed on the filter box 2, the waste material receiving element 42 includes a waste material conveying element 41 and a waste material receiving element 42, the waste material conveying element 41 is disposed on the top of the filter box 2 and communicated with the filter box 2, the scrap receiver 42 is arranged on the filter box 2 and communicated with the scrap conveyor 41, and the scrap mixing assembly 5 is arranged beside the support frame 1 and communicated with the filter box 2.

The waste filtering element 31 comprises a filtering screen 311, two rotating motors 312 and two rotating shafts 313, wherein the two rotating motors 312 are symmetrically arranged on the side wall of the filtering box 2, the output shafts of the two rotating motors 312 are rotationally connected with the filtering box 2, the two rotating shafts 313 are symmetrically arranged on the filtering box 2 and are rotationally connected with the filtering box 2, one end of each rotating shaft 313 is fixedly connected with the output shafts of the two rotating motors 312, each rotating shaft 313 is provided with two rotating cams 314 which are symmetrically arranged, a mounting groove 21 is arranged in the filtering box 2, the filtering screen 311 is horizontally arranged in the mounting groove 21, the top and the bottom of the filtering screen 311 are provided with a plurality of connecting springs 315 which are arranged in a rectangular shape, the two ends of each connecting spring 315 are fixedly connected with the side walls of the filtering screen 311 and the mounting groove 21 respectively, the bottom of the filtering screen 311 is provided with two rotating wheels 316 corresponding to the two rotating cams 314, an opening and closing door hinged with the side wall of the filter box 2 is arranged on the side wall of the filter box; when filtering useless coating, two rotation motor 312 work drive two axis of rotation 313 and rotate on rose box 2, axis of rotation 313 rotates and drives and rotate two cams and rotate, thereby rotate cam 314 and rotate two rotation wheels 316 that drive filter screen 311 bottom and rotate and drive filter screen 311 and produce vibrations in mounting groove 21 through a plurality of coupling spring 315, filter screen 311 produces vibrations and carries out filtering operation to the useless coating of filtering collection on screen 311, filter out caking and impurity in the useless coating, open the door that opens and shuts after carrying out a period of filtration and remove the impurity of accumulation, the waste material removes to in the cover 22 that gathers materials after filtering, it collects useless coating to gather materials cover 22, carry it to waste material mixing component 5 through discharging pipe 23 after collecting.

The cleaning spray part 32 comprises a sliding plate 321, a connecting pipe 322, two driving motors 323, two driving screw rods 324 and a plurality of spray pipes 325, wherein the two driving screw rods 324 are symmetrically arranged on the filter box 2, the two driving motors 323 are symmetrically arranged on the side wall of the filter box 2, output shafts of the two driving motors 323 are respectively fixedly connected with one ends of the two driving screw rods 324, the sliding plate 321 is arranged on the two driving screw rods 324 and is in threaded connection with the two driving screw rods 324, the sliding plate 321 is in sliding fit with the side wall of the filter box 2, the plurality of spray pipes 325 are arranged on the sliding plate 321 at equal intervals, output ends of each spray pipe 325 are vertically and downwards arranged, the connecting pipe 322 is communicated with the plurality of spray pipes 325, the spray pipes 325 are provided with corrugated pipes extending out of the filter box 2, the bottom of the filter box 2 is provided with a cover 22 communicated with the spray pipes, a discharge pipe 23 communicated with the material collecting cover 22 is arranged at the bottom of the material collecting cover 22; the filter screen 311 can be blocked after waste paint is filtered, the filter screen 311 can also be cleaned, external cleaning water enters the connecting pipe 322 through the corrugated pipe, the cleaning water is sprayed on the filter screen 311 through the spray pipes 325, the filter screen 311 is cleaned, the two driving screws 324 are driven to rotate by the work of the two driving motors 323, the two driving screws 324 move to drive the sliding plate 321 to slide on the filter box 2, the sliding plate 321 slides to drive the spray pipes 325 to move, the comprehensive cleaning operation of the filter screen 311 can be realized by the movement of the spray pipes 325, the meshes of the filter screen 311 are cleaned, the blockage of the filter screen 311 and the accumulation of a large amount of paint on the filter screen 311 are prevented, and the recovery operation of the paint is influenced.

The waste material receiving part 42 comprises a rotary motor 421, a motor seat 422, a rotary disc 423, a first rotary rod 424, a second rotary rod 425, a positioning seat 426, a positioning block 427 and a receiving box 428, wherein the positioning seat 426 is fixedly arranged on the side wall of the filter box 2, the positioning block 427 is arranged on the positioning seat 426 and is in sliding fit with the positioning seat 426, the motor seat 422 is fixedly arranged on the side wall of the filter box 2, the rotary motor 421 is arranged on the motor seat 422, the rotary disc 423 is arranged on an output shaft of the rotary motor 421, one end of the first rotary rod 424 is fixedly arranged on the rotary shaft 313, two ends of the second rotary rod 425 are respectively in rotary connection with the first rotary rod 424 and the positioning block 427, and the receiving box 428 is arranged at the top of the positioning block 427; when the waste coating is recovered, the rotary motor 421 works to drive the rotary disc 423 to rotate, the rotary disc 423 rotates to drive the first rotary rod 424 to rotate, the first rotary rod 424 rotates to drive the second rotary rod 425 to rotate, the second rotary rod 425 rotates to drive the positioning block 427 to slide on the positioning seat 426, the positioning block 427 moves to drive the receiving box 428 to move up and down, and the receiving box 428 moves up and down to realize the collection operation of the waste coating at different positions.

The waste conveying element 41 comprises a conveying pipe 411, a receiving pipe 412 and a conveying pump 413, the conveying pump 413 is arranged at the top of the filter box 2, two ends of the conveying pipe 411 are respectively communicated with the conveying pump 413 and the filter box 2, and two ends of the receiving pipe 412 are respectively communicated with the conveying pump 413 and the receiving box 428; after collecting the waste dope, the transfer pump 413 operates to pump the waste dope in the receiving tank 428 through the receiving pipe 412, and after the pumping, transfers the waste dope into the filtering tank 2 through the transfer pipe 411.

The waste mixing component 5 comprises a mounting frame 50, a mixing box 51, a mixing motor 52, a mixing shaft 53 and a plurality of mixing rods 54, wherein the mounting frame 50 is arranged at the side of the support frame 1, the mixing box 51 is arranged at the top of the mounting frame 50, the mixing motor 52 is arranged on the mixing box 51, an output shaft of the mixing motor 52 is vertically arranged downwards, the mixing shaft 53 is vertically arranged in the mixing box 51, the top of the mixing shaft 53 is fixedly connected with the output shaft of the mixing motor 52, the mixing rods 54 are circumferentially arranged on the mixing shaft 53, a discharging pipe 59 communicated with the mixing box 51 is arranged on the mixing box 51, an automatic control valve 591 is arranged on the discharging pipe 59, a feeding pipe 58 communicated with the mixing box 51 is arranged at the top of the mixing box 51, and the other end of the discharging pipe 23 extends into the mixing box 51; when waste paint is mixed, a mixing agent is conveyed into the mixing box 51 through the feeding pipe 58, the mixing motor 52 works to drive the mixing shaft 53 to rotate, the mixing shaft 53 rotates to drive the mixing rods 54 to rotate, the mixing rods 54 rotate to mix the waste paint and the mixing agent in the mixing box 51, after the mixing agent and the waste paint are mixed, the subsequent use of the waste paint is facilitated, the mixed paint is conveyed outwards through the discharging pipe 59 after being mixed, and the automatic control valve 591 can control the on-off of the discharging pipe 59.

A fixing plate 55 is arranged on the mixing shaft 53, three horizontally arranged moving springs 56 are arranged on the fixing plate 55, and a scraping plate 57 in sliding fit with the filter box 2 is arranged at one end of each of the three moving springs 56; drive the fixed plate 55 and rotate when mixing shaft 53 rotates, the fixed plate 55 rotates and drives scraper 57 and strike off the coating on the lateral wall of filter box 2, prevents that a large amount of coatings from gluing on the lateral wall of filter box 2 to cause the waste of coating.

An electronic scale 6 is arranged beside the mounting frame 50, the electronic scale 6 is positioned below the discharge pipe 59, and a material collecting barrel 61 is arranged on the electronic scale 6; the electronic scale 6 can accurately control the amount of the paint in the collecting bucket 61.

When the waste coating is recovered, the rotary motor 421 works to drive the rotary disc 423 to rotate, the rotary disc 423 rotates to drive the first rotary rod 424 to rotate, the first rotary rod 424 rotates to drive the second rotary rod 425 to rotate, the second rotary rod 425 rotates to drive the positioning block 427 to slide on the positioning seat 426, the positioning block 427 moves to drive the receiving box 428 to move up and down, the receiving box 428 can move up and down to collect the waste coating at different positions, after the waste coating is collected, the conveying pump 413 works to extract the waste coating in the receiving box 428 through the receiving pipe 412, after extraction, the waste coating is conveyed into the filtering box 2 through the conveying pipe 411, when the waste coating is filtered, the two rotary motors 312 work to drive the two rotary shafts 313 to rotate on the filtering box 2, the rotary shaft 313 rotates to drive the two rotary cams to rotate, the rotary cams 314 rotate to drive the two rotary wheels 316 at the bottom of the filtering screen plate 311 to rotate, thereby driving the filtering screen plate 311 to drive the filtering screen plate 311 to rotate through the plurality of connecting springs 315 The waste coating collected on the filter screen plate 311 is filtered by the vibration generated in the mounting groove 21, the waste coating is collected by the collecting cover 22 and is conveyed into the mixing box 51 through the discharging pipe 23 after being collected, the two driving motors 323 work to drive the two driving screw rods 324 to rotate, the two driving screw rods 324 move to drive the sliding plate 321 to slide on the filter box 2, the sliding plate 321 slides to drive the plurality of spraying pipes 325 to move, the plurality of spraying pipes 325 move to realize the comprehensive cleaning operation of the filter screen plate 311, the meshes of the filter screen plate 311 are cleaned, the blockage of the filter screen plate 311 is prevented from being caused, the accumulation of a large amount of coating on the filter screen plate 311 is prevented from being caused, the recovery operation of the coating is influenced, the mixing agent is conveyed into the mixing box 51 through the feeding pipe 58, the mixing shaft 53 is driven to rotate by the operation of the mixing motor 52, the mixing shaft 53 rotates to drive the mixing rods 54 to rotate, the mixing rods 54 rotate to mix the waste coating and the mixing agent in the mixing box 51, the mixing agent and the waste coating are mixed, the subsequent use of the waste coating is facilitated, the mixed coating is conveyed outwards through the discharging pipe 59 after being mixed, and the automatic control valve 591 can control the on-off of the discharging pipe 59.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an optical fiber coating ration recovery unit, includes support frame (1), support frame (1) is vertical setting, its characterized in that: still including filter tank (2), waste material filter assembly (3), waste material receiving assembly (4) and waste material mixing assembly (5), filter tank (2) set up the top at support frame (1), waste material filter assembly (3) set up on filter tank (2), waste material filter assembly (3) are including waste material filter piece (31) and washing shower (32), waste material filter piece (31) set up on filter tank (2) and with filter tank (2) normal running fit, washing shower (32) set up on filter tank (2) and with filter tank (2) normal running connection, the output of washing shower (32) sets up towards waste material filter piece (31), waste material receiving piece (42) sets up on filter tank (2), waste material receiving piece (42) include waste material transport piece (41) and waste material receiving piece (42), the waste material conveying piece (41) is arranged at the top of the filter box (2) and communicated with the filter box (2), the waste material receiving piece (42) is arranged on the filter box (2) and communicated with the waste material conveying piece (41), and the waste material mixing assembly (5) is arranged beside the support frame (1) and communicated with the filter box (2);

the waste material receiving part (42) comprises a rotary motor (421), a motor base (422), a rotary disc (423), a first rotary rod (424), a second rotary rod (425), a positioning seat (426), a positioning block (427) and a receiving box (428), wherein the positioning seat (426) is fixedly arranged on the side wall of the filtering box (2), the positioning block (427) is arranged on the positioning seat (426) and is in sliding fit with the positioning seat (426), the motor base (422) is fixedly arranged on the side wall of the filtering box (2), the rotary motor (421) is arranged on the motor base (422), the rotary disc (423) is arranged on an output shaft of the rotary motor (421), one end of the first rotary rod (424) is fixedly arranged on the rotary shaft (313), and two ends of the second rotary rod (425) are respectively in rotary connection with the first rotary rod (424) and the positioning block (427), the receiving box (428) is arranged at the top of the positioning block (427);

the waste conveying piece (41) comprises a conveying pipe (411), a receiving pipe (412) and a conveying pump (413), the conveying pump (413) is arranged at the top of the filtering box (2), two ends of the conveying pipe (411) are respectively communicated with the conveying pump (413) and the filtering box (2), and two ends of the receiving pipe (412) are respectively communicated with the conveying pump (413) and the receiving box (428);

the waste filtering piece (31) comprises a filtering screen plate (311), two rotating motors (312) and two rotating shafts (313), wherein the rotating motors (312) are symmetrically arranged on the side wall of a filtering box (2), the output shafts of the two rotating motors (312) are rotationally connected with the filtering box (2), the rotating shafts (313) are symmetrically arranged on the filtering box (2) and are rotationally connected with the filtering box (2), the rotating shafts (313) are fixedly connected with the output shafts of the two rotating motors (312) respectively, each rotating shaft (313) is provided with two rotating cams (314) which are symmetrically arranged, a mounting groove (21) is formed in the filtering box (2), the filtering screen plate (311) is horizontally arranged in the mounting groove (21), and the top and the bottom of the filtering screen plate (311) are provided with a plurality of connecting springs (315) which are arranged in a rectangular shape, two ends of each connecting spring (315) are respectively fixedly connected with the filter screen plate (311) and the side wall of the mounting groove (21), two rotating wheels (316) are arranged at the bottom of the filter screen plate (311) corresponding to the two rotating cams (314), and an opening and closing door hinged with the side wall of the filter box (2) is arranged on the side wall of the filter box; the bottom of the filter box (2) is provided with a material collecting cover (22) communicated with the filter box, and the bottom of the material collecting cover (22) is provided with a material discharging pipe (23) communicated with the material collecting cover;

waste mixing subassembly (5) includes mounting bracket (50), mixing box (51), hybrid electric machine (52), mixing shaft (53) and a plurality of hybrid rod (54), mounting bracket (50) set up the side at support frame (1), mixing box (51) set up the top at mounting bracket (50), hybrid electric machine (52) set up on mixing box (51) and the output shaft of hybrid electric machine (52) is vertical to setting down, mixing shaft (53) are vertical to be set up in mixing box (51) and the top of mixing shaft (53) and the output shaft fixed connection of hybrid electric machine (52), and a plurality of hybrid rod (54) are the circumference and set up on mixing shaft (53), be equipped with on mixing box (51) and arrange material pipe (59) rather than being linked together, be equipped with automatic control valve (591) on arranging material pipe (59), the top of mixing box (51) is equipped with inlet pipe (58) that are linked together with it, the other end of the discharge pipe (23) extends into the mixing box (51);

when the waste coating is recovered, a rotary motor (421) works to drive a rotary disc (423) to rotate, the rotary disc (423) rotates to drive a first rotary rod (424) to rotate, the first rotary rod (424) rotates to drive a second rotary rod (425) to rotate, the second rotary rod (425) rotates to drive a positioning block (427) to slide on a positioning seat (426), the positioning block (427) moves to drive a receiving box (428) to move up and down, the receiving box (428) moves up and down to collect the waste coating at different positions, after the waste coating is collected, a conveying pump (413) works to extract the waste coating in the receiving box (428) through a receiving pipe (412), and the waste coating is conveyed into a filter box (2) through a conveying pipe (411) after extraction; then, two rotating motors (3120) work to drive two rotating shafts (313) to rotate on the filter box (2), the rotating shafts (313) rotate to drive two rotating cams to rotate, the rotating cams (314) rotate to drive two rotating wheels (316) at the bottom of the filter screen plate (311) to rotate so as to drive the filter screen plate (311) to vibrate in the mounting groove (21) through a plurality of connecting springs (315), the filter screen plate (311) vibrates to filter the waste coating collected on the filter screen plate (311), then the aggregate cover (22) collects the waste coating, the waste coating is conveyed into a mixing box (51) through a discharge pipe (23) after being collected, then the mixing agent is conveyed into the mixing box (51) through a feed pipe (58), the mixing motor (52) work to drive a mixing shaft (53) to rotate, the mixing shaft (53) rotates to drive a plurality of mixing rods (54) to rotate, a plurality of mixing rods (54) rotate to mix the waste paint and the mixing agent in the mixing tank (51).

2. The apparatus for quantitatively recycling an optical fiber coating material according to claim 1, wherein: the cleaning and spraying part (32) comprises a sliding plate (321), a connecting pipe (322), two driving motors (323), two driving screw rods (324) and a plurality of spraying pipes (325), wherein the two driving screw rods (324) are symmetrically arranged on the filter box (2), the two driving motors (323) are symmetrically arranged on the side wall of the filter box (2), output shafts of the two driving motors (323) are respectively and fixedly connected with one ends of the two driving screw rods (324), the sliding plate (321) is arranged on the two driving screw rods (324) and is in threaded connection with the two driving screw rods (324), the sliding plate (321) is in sliding fit with the side wall of the filter box (2), the plurality of spraying pipes (325) are arranged on the sliding plate (321) at equal intervals, output ends of each spraying pipe (325) are vertically and downwards arranged, and the connecting pipe (322) is communicated with the plurality of spraying pipes (325), the spraying pipe (325) is provided with a corrugated pipe extending to the outside of the filter box (2).

3. The apparatus for quantitatively recycling an optical fiber coating material according to claim 1, wherein: the filter box is characterized in that a fixing plate (55) is arranged on the mixing shaft (53), three horizontally-arranged moving springs (56) are arranged on the fixing plate (55), and one end of each moving spring (56) is provided with a scraping plate (57) in sliding fit with the filter box (2).

4. The apparatus for quantitatively recycling an optical fiber coating material according to claim 1, wherein: mounting bracket (50) side is equipped with electronic scale (6), electronic scale (6) are located the below of arranging material pipe (59), be equipped with collecting bucket (61) on electronic scale (6).