CN113181690A

CN113181690A - Glass fiber waste water treatment equipment

Info

Publication number: CN113181690A
Application number: CN202110457462.6A
Authority: CN
Inventors: 王丽; 刘�东; 王彩云
Original assignee: Individual
Current assignee: Wuhe Weijia Composite Material Co ltd
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-07-30
Anticipated expiration: 2041-04-27
Also published as: CN113181690B

Abstract

The invention belongs to the technical field of wastewater treatment equipment, and particularly relates to glass fiber wastewater treatment equipment which comprises a driving motor, a rotating rod, a polished rod, a supporting rod, a first sliding block, a second sliding block, an electric push rod, a driving push plate, a clamping block, a driven push plate, a clamping groove and a connecting rope, wherein the rotating rod is connected with the first sliding block; the driving motor is arranged on one side of the machine frame, which is used for placing one end of the pressing plate; one end of the rotating rod is rotationally connected with the driving motor, and the other end of the rotating rod is rotationally connected with the supporting rod; the other end of the supporting rod is connected with the other end of the rack; the polish rod is positioned at the other side of the frame, and two ends of the polish rod are fixedly connected with the frame; the first sliding block is sleeved on the rotating rod; the second sliding block is sleeved on the polished rod; the electric push rod is connected to the lower parts of the first sliding block and the second sliding block; the upper part of the active push plate is fixedly connected with the electric push rod, and one end of the active push plate is connected with a clamping block; the driven push plate is arranged at the upper part of the filter frame, and a clamping groove is formed in the driven push plate; a connecting rope is fixedly connected between every two support frames; the problem of the separation filter frame time is longer is solved.

Description

Glass fiber waste water treatment equipment

Technical Field

The invention belongs to the technical field of wastewater treatment equipment, and particularly relates to glass fiber wastewater treatment equipment.

Background

The glass fiber industry of China is in the top world, the production capacity of glass fibers is the top, the environment protection situation of China is getting stricter, the supervision on waste water and waste gas is strict, and enterprises are prompted to adopt more advanced and efficient waste water treatment processes. The glass fiber waste water is an organic waste water, the property of which is related to the type of the contained impregnating compound, and mainly comprises lipid, emulsifier, water-soluble organic matter, toxic substances, a small amount of glass fibers and residues, when the glass fiber is produced, in order to make the glass fiber soft and elastic, a brightening agent prepared from unsaturated polyester resin, petroleum ether, mechanical lubricating oil and other chemical raw materials is sprayed on the glass fiber before cooling, and the brightening agent is discharged along with cooling water, so that milky glass fiber production waste water is generated, and the recovery and the reutilization of resources are influenced.

The Chinese patent with the application number of CN201210466381.3 discloses a filter press, which consists of a plurality of pressing frames arranged in a stacking way, wherein each pressing frame comprises two parallel filter plates, an elastomer frame is arranged between the two filter plates, the elastomer frame and the filter plates are in sealing joint, the elastomer frame and the two filter plates form a filter chamber in a surrounding way, and a feed inlet communicated with the filter chamber is arranged on the elastomer frame. The elastic body frame is provided with iron turns around the flange to hoop the elastic body frame.

Although the technical scheme is that the elastomer frame is arranged between the two filter plates, the materials are pressed and filtered by the two filter plates and then pressed by the elastomer frame after entering the filter chamber, so that the dryness and the humidity of the filter cake are improved; but the drying humidity of the filter cake cannot be guaranteed to be improved, no filter residue is left on the filter plate, and the filter residue can remain on the elastic body frame and cannot fall off due to the fact that the coverage area of the filter cake is increased; based on this, the invention designs a glass fiber wastewater treatment device to solve the technical problems in the prior art.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that in the prior art, after the filter pressing process is finished, the time for separating the filter frame is long, and filter residues sometimes remain on the filter paper and do not fall off after filter cakes on the filter frame fall off, the invention provides glass fiber wastewater treatment equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to glass fiber wastewater treatment equipment which comprises a controller, a filter frame, a support frame, a rack, a pressing plate, a thrust plate and a hydraulic push rod, wherein the filter frame is arranged on the top of the rack; the filter frame is placed in the middle of the frame, and two sides of the filter frame are fixedly connected with support frames; a pressing plate is placed at one end of the rack, and a thrust plate is fixedly connected to the other end of the rack; the hydraulic push rod is fixedly connected with the pressing plate; the processing equipment also comprises a dispersion module and a cleaning module; the dispersion module comprises a driving motor, a rotating rod, a polished rod, a support rod, a first sliding block, a second sliding block, an electric push rod, a driving push plate, a clamping block, a driven push plate, a clamping groove and a traction rope; the driving motor is placed on one side of the rack where the pressing plate is placed; one end of the rotating rod is rotationally connected with the driving motor, and the other end of the rotating rod is rotationally connected with the support rod; the other end of the supporting rod is fixedly connected with one end, close to the thrust plate, of the rack; the polished rod is positioned at the other side of the rack, and two ends of the polished rod are fixedly connected with the rack; the first sliding block is sleeved on the rotating rod; the second sliding block is sleeved on the polished rod; the two electric push rods are respectively and fixedly connected to the lower parts of the first sliding block and the second sliding block; the upper part of the driving push plate is fixedly connected with the two electric push rods, and one end of the driving push plate, which faces the compression plate, is fixedly connected with a clamping block; the driven push plate is fixedly arranged at the upper part of the filter frame close to the compression plate, and a clamping groove corresponding to the position of the clamping block is formed in the driven push plate; a connecting rope is fixedly connected between every two support frames;

during working, after the filter pressing process is finished, the time for separating the filter frame is long, and filter residues sometimes remain and do not fall after filter cakes on the filter frame fall;

therefore, the invention arranges a dispersing module; when the hydraulic push rod pushes the compression plate to compress the group of filter frames, the filter frames drive the support frame to move along the direction from the support to the thrust plate, so that the group of filter frames are tightly pressed between the thrust plate and the compression plate, and then filter pressing is carried out; after filter pressing is finished, the hydraulic push rod drives the pressing plate to return to an initial state, the controller controls the driving motor to drive the rotary rod to rotate, the rotary rod drives the first sliding block to drive the electric push rod to move towards the thrust plate, so that the electric push rod drives the driving push plate to drive the second sliding block to move towards the thrust plate, and the rotary rod, the polished rod, the first sliding block, the second sliding block and the driving push plate form a screw rod sliding block pair; the lower end surface of the driving push plate is higher than the upper end surface of the driven push plate in an initial state; when the driving push plate crosses the driven push plate, the driving motor stops rotating, and the electric push rod extends to drive the driving push plate to drive the clamping block to move downwards to a position corresponding to the clamping groove; the driving motor drives the rotating rod to rotate reversely, so that the driving push plate drives the clamping block to enter the clamping groove of the driven push plate; then the driving push plate drives the filter frames to move towards the direction of the compression plate by driving the driven push plate, and all the filter frames move towards the direction of the compression plate by driving of the traction ropes between every two filter frames; in the process of separating every two filter frames, the glass fiber filter cake falls from the middle of the filter frames; the filter frame is driven to separate through the traction rope, so that the filter frame can shake in the separation process, and the glass fiber filter residues remained on the filter frame can fall off better;

compared with the traditional technical scheme; the elastomer frame is arranged between the two filter plates to improve the dryness and humidity of the filter cake, but the dryness and humidity of the filter cake cannot be improved, no filter residue is left on the filter plates, and the filter residue can remain on the elastomer frame and cannot fall off due to the fact that the coverage area of the filter cake is improved; the invention is provided with the driving push plate, the driven push plate and the connecting rope; the process of separating the filter frame after filter pressing is quicker, and the glass fiber filter residue is more thoroughly dropped.

Preferably, the cleaning module comprises a scraper, a cavity, a water dripping hole and a water pipe; the two scraping plates are respectively and fixedly connected to two sides of the driving push plate; a cavity is formed in each of the two scraping plates; one ends of the two scraping plates, which are far away from the electric push rod, are provided with a row of water dripping holes, and the upper parts of the scraping plates are connected with a water pipe; when the cleaning device works, the cleaning module is arranged; when the driving push plate drives the driven push plate to separate every two filter frames; the driving motor drives the rotating rod to rotate to drive the electric push rod and the scraper to move between every two filter frames, then the electric push rod pushes the scraper to move downwards to a position corresponding to the upper end of the filter paper on one filter frame, the driving motor drives the rotating rod to rotate again to drive the scraper to move to be in contact with the filter paper, and meanwhile water starts to enter the water pipe, so that when the scraper scrapes off residue of filter residues on the filter paper, water in the water pipe flows into the cavity and drips on the filter paper through the water dripping holes to further clean the filter frames, and the electric push rod drives the scraper to move upwards after the cleaning is finished; then the scraper on the other side moves to a position corresponding to the upper end of the filter paper on the filter frame on the other side, the electric push rod drives the scraper to clean and wash the filter paper downwards, then the electric push rod drives the scraper to return to an initial state, the driving motor drives the rotating rod to drive the scraper to move to a position between every two filter frames, and the operation is repeated; through the cooperation between scraper blade and the electric putter, reduced the residue of filter residue, because set up the water pipe again for glass fiber waste water treatment equipment abluent is cleaner.

Preferably, the bottom end of the support frame is embedded with a ball; rolling grooves are formed in two ends of the rack; when the filter frame works, the ball bearings are embedded at the bottom end of the support frame, and the rolling grooves are formed below the ball bearings, so that sliding friction between the filter frame and the support frame is converted into rolling friction when the filter frame is driven by the traction ropes to move along the support frame, the filter frame is more convenient to move, and meanwhile, the vibration spring drives the filter frame to vibrate; the functionality of the use of the glass fiber wastewater treatment equipment is enhanced.

Preferably, a vibration spring is sleeved outside the traction rope; two ends of the vibration spring are respectively fixedly connected with every two supporting frames; an elastic rope is connected between each traction rope and each vibration spring; when the filter frame is in work, the vibration spring is sleeved outside the traction rope, and when the driving push plate drives the driven push plate to drive the filter frames to move, two filter frames move in sequence through the traction rope; when the filter frame moves, the vibration spring can make the filter frame vibrate, so that residual glass fiber filter residues on the filter frame can completely fall off; the elastic rope is connected between the traction rope and the vibration spring, and the shape changes of the traction rope and the vibration spring are inconsistent in the process that the traction rope and the vibration spring drive every two filter frames to move, so that the elastic rope drives the vibration spring to vibrate again, and the glass fiber filter residues on the filter frames can drop more thoroughly; the working effect of the glass fiber wastewater treatment equipment is improved.

Preferably, one end of the scraper far away from the electric push rod is arranged into an arc shape, and a sponge wiper is fixedly connected above one end of the scraper; when the filter paper scraper works, the sponge wiper is arranged above the scraper, when the scraper scrapes on the filter paper, water drips from the upper part of the dripping hole and flows onto the sponge wiper along the filter paper, and the sponge wiper can wipe some intractable filter residues completely; the glass fiber wastewater treatment equipment is scraped by the scraper, wiped by the sponge and washed by clear water, so that the cleaning effect of the glass fiber wastewater treatment equipment is improved.

Preferably, a through groove is formed in the position, between the water dripping hole and the sponge wiper, of the scraper; when the filter paper wiping device works, the through groove is formed between the water dropping hole and the sponge wiper, so that part of water can flow into the sponge wiper along the through groove in the process that the water dropping hole sprays water to the filter paper, and clean water in the through groove can clean the sponge wiper when the filter paper is wiped by the sponge wiper; further improving the cleaning effect of the glass fiber wastewater treatment equipment after use.

The invention has the following beneficial effects:

1. according to the glass fiber wastewater treatment equipment, the driven push plate is driven by the driving push plate to drive the filter frames to move towards the direction of the compression plate, and the filter frames can shake in the separation process under the drive of the traction ropes between every two filter frames; the invention is provided with the driving push plate, the driven push plate and the connecting rope; the process of separating the filter frame after filter pressing is quicker, and the glass fiber filter residue is more thoroughly dropped.

2. According to the glass fiber wastewater treatment equipment, the electric push rod and the scraper are driven to move between every two filter frames through the rotation of the rotary rod, then the electric push rod pushes the scraper to move downwards to a position corresponding to the upper end of the filter paper on one filter frame, the drive motor drives the rotary rod to rotate again, the scraper is driven to move to be in contact with the filter paper, and meanwhile water enters the water pipe, so that when the scraper scrapes off residue of filter residues on the filter paper, water in the water pipe flows into the cavity and drips on the filter paper through the water dripping holes, the filter frames are further cleaned, and the operation is repeated; so that the glass fiber wastewater treatment equipment is cleaner.

Drawings

The invention will be further explained with reference to the drawings.

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view at A in FIG. 1;

FIG. 4 is an enlarged view at B in FIG. 2;

in the figure: the device comprises a filter frame 1, a support frame 2, a rack 3, a pressing plate 4, a thrust plate 5, a hydraulic push rod 6, a dispersion module 7, a driving motor 71, a rotating rod 72, a polished rod 73, a supporting rod 74, a first sliding block 75, a second sliding block 76, an electric push rod 77, a driving push plate 78, a clamping block 79, a driven push plate 710, a clamping groove 711, a connecting rope 712, a cleaning module 8, a scraping plate 81, a cavity 82, a water dripping hole 83, a water pipe 84, a vibrating spring 9, an elastic rope 10, a ball 11, a rolling groove 12, a sponge wiper 13 and a through groove 14.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, the glass fiber wastewater treatment equipment of the present invention comprises a controller, a filter frame 1, a support frame 2, a frame 3, a pressing plate 4, a thrust plate 5 and a hydraulic push rod 6; the filter frame 1 is placed in the middle of the frame 3, and two sides of the filter frame 1 are fixedly connected with the support frames 2; a pressing plate 4 is arranged at one end of the rack 3, and a thrust plate 5 is fixedly connected to the other end of the rack 3; the hydraulic push rod 6 is fixedly connected with the pressing plate 4; the processing equipment also comprises a dispersion module 7 and a cleaning module 8; the dispersion module 7 comprises a driving motor 71, a rotating rod 72, a polished rod 73, a supporting rod 74, a first sliding block 75, a second sliding block 76, an electric push rod 77, a clamping block 79, a driven push plate 710, a clamping groove 711 and a traction rope 712; the driving motor 71 is arranged on one side of the frame 3 where the pressing plate 4 is arranged; one end of the rotating rod 72 is rotationally connected with the driving motor 71, and the other end of the rotating rod 72 is rotationally connected with the supporting rod 74; the other end of the strut 74 is fixedly connected to one end of the frame 3 close to the thrust plate 5; the polish rod 73 is positioned at the other side of the frame 3, and two ends of the polish rod 73 are fixedly connected with the frame 3; the first sliding block 75 is sleeved on the rotating rod 72; the second sliding block 76 is sleeved on the polish rod 73; the two electric push rods 77 are respectively and fixedly connected to the lower parts of the first sliding block 75 and the second sliding block 76; the upper part of the driving push plate 78 is fixedly connected with two electric push rods 77, and one end of the driving push plate 78 facing the compression plate 4 is fixedly connected with a clamping block 79; the driven push plate 710 is fixedly arranged at the upper part of the filter frame 1 close to the compression plate 4, and the driven push plate 710 is provided with a clamping groove 711 corresponding to the position of the clamping block 79; a traction rope 712 is fixedly connected between every two support frames 2;

during working, after the filter pressing process is finished, the time for separating the filter frame 1 is long, and filter residues sometimes remain and do not fall off after filter cakes on the filter frame 1 fall off;

therefore, the invention is provided with a dispersion module 7; when the hydraulic push rod 6 pushes the compression plate 4 to compress the group of filter frames 1, the filter frames 1 drive the support frame 2 to move towards the thrust plate 5 along the support, so that the group of filter frames 1 are tightly pressed between the thrust plate 5 and the compression plate 4, and then filter pressing is carried out; after filter pressing is finished, the hydraulic push rod 6 drives the compacting plate 4 to return to an initial state, the controller controls the driving motor 71 to drive the rotating rod 72 to rotate, the rotating rod 72 drives the first sliding block 75 to drive the electric push rod 77 to move towards the direction of the thrust plate 5, so that the electric push rod 77 drives the driving push plate 78 to drive the second sliding block 76 to move towards the direction of the thrust plate 5, and the rotating rod 72, the polished rod 73, the first sliding block 75, the second sliding block 76 and the driving push plate 78 form a screw-rod sliding-block pair; the lower end surface of the driving push plate 78 is higher than the upper end surface of the driven push plate 710 in the initial state; when the driving push plate 78 passes over the driven push plate 710, the driving motor 71 stops rotating, and the electric push rod 77 extends to drive the driving push plate 78 to drive the clamping block 79 to move downwards to a position corresponding to the clamping groove 711; the driving motor 71 drives the rotating rod 72 to rotate reversely, so that the driving push plate 78 drives the clamping block 79 to enter the clamping groove 711 of the driven push plate 710; then, the driving push plate 78 drives the driven push plate 710 to drive the filter frames 1 to move towards the direction of the compression plate 4, and all the filter frames 1 move towards the direction of the compression plate 4 under the drive of the traction rope 712 between every two filter frames 1; in the process of separating every two filter frames 1, the glass fiber filter cake falls from the middle of the filter frames 1; the filter frame 1 is driven to separate through the traction rope 712, so that the filter frame 1 can shake in the separation process, and the glass fiber filter residue remained on the filter frame 1 can better fall down;

compared with the traditional technical scheme; the elastomer frame is arranged between the two filter plates to improve the dryness and humidity of the filter cake, but the dryness and humidity of the filter cake cannot be improved, no filter residue is left on the filter plates, and the filter residue can remain on the elastomer frame and cannot fall off due to the fact that the coverage area of the filter cake is improved; the driving push plate 78, the driven push plate 710 and the traction rope 712 are arranged; the process of separating the filter frame 1 after filter pressing is quicker, and the glass fiber filter residues drop more thoroughly.

As an embodiment of the present invention, the cleaning module 8 includes a scraper 81, a cavity 82, a drip hole 83 and a water pipe 84; the two scraping plates 81 are respectively and fixedly connected to two sides of the driving push plate 78; a cavity 82 is formed in each of the two scraping plates 81; one ends of the two scraping plates 81 far away from the electric push rod 77 are both provided with a row of water dripping holes 83, and the upper parts of the scraping plates 81 are connected with water pipes 84; when the cleaning device works, the cleaning module 8 is arranged; when the driving push plate 78 drives the driven push plate 710 to separate every two filter frames 1; the driving motor 71 drives the rotating rod 72 to rotate to drive the electric push rod 77 and the scraper 81 to move between every two filter frames 1, then the electric push rod 77 pushes the scraper 81 to move downwards to a position corresponding to the upper end of the filter paper on one side of the filter frame 1, the driving motor 71 drives the rotating rod 72 to rotate to drive the scraper 81 to move to be in contact with the filter paper, water starts to enter the water pipe 84 at the same time, when the scraper 81 scrapes off the residue on the filter paper, the water in the water pipe 84 flows into the cavity 82 and drips on the filter paper through the dripping holes 83, the filter frames 1 are further cleaned, and after the cleaning is finished, the electric push rod 77 drives the scraper 81 to move upwards; then the scraper 81 on the other side moves to a position corresponding to the upper end of the filter paper on the filter frame 1 on the other side, the electric push rod 77 drives the scraper 81 to clean and wash the filter paper downwards, then the electric push rod 77 drives the scraper 81 to return to the initial state, the driving motor 71 drives the rotating rod 72 to drive the scraper 81 to move to the position between every two next filter frames 1, and the like is repeated; through the cooperation between scraper blade 81 and electric putter 77, reduced the residue of filter residue, because set up water pipe 84 again for glass fiber waste water treatment equipment abluent cleaner.

As an embodiment of the present invention, a ball 11 is embedded in the bottom end of the supporting frame 2; two ends of the frame 3 are provided with rolling grooves 12; when the filter frame works, the ball 11 is embedded at the bottom end of the support frame 2, and the rolling groove 12 is formed below the ball 11, so that sliding friction between the filter frame 1 and the support is converted into rolling friction when the traction rope 712 drives the filter frame 1 to move along the support, the filter frame 1 is more convenient to move, and meanwhile, the vibration spring 9 drives the filter frame 1 to vibrate; the functionality of the use of the glass fiber wastewater treatment equipment is enhanced.

As an embodiment of the present invention, the outer part of the traction rope 712 is sleeved with a vibration spring 9; two ends of the vibration spring 9 are respectively fixedly connected with every two support frames 2; an elastic rope 10 is connected between each traction rope 712 and the vibration spring 9; when the filter frame works, the vibration spring 9 is sleeved outside the traction rope 712, and when the driving push plate 78 drives the driven push plate 710 to drive the filter frames 1 to move, two filter frames 1 move in sequence through the traction rope 712; when the filter frame 1 moves, the vibration spring 9 can make the filter frame 1 vibrate, so that residual glass fiber filter residues on the filter frame 1 can completely fall off; because the elastic rope 10 is connected between the traction rope 712 and the vibration spring 9, in the process that the traction rope 712 and the vibration spring 9 drive two filter frames 1 to move, the form changes of the traction rope 712 and the vibration spring 9 are inconsistent, so that the elastic rope 10 drives the vibration spring 9 to vibrate again, and the glass fiber filter residues on the filter frames 1 drop more thoroughly; the working effect of the glass fiber wastewater treatment equipment is improved.

As an embodiment of the invention, one end of the scraping plate 81 far away from the electric push rod 77 is arranged in an arc shape, and a sponge wiper 13 is fixedly connected above one end of the scraping plate 81; when the filter paper scraping device works, the sponge wiper 13 is arranged above the scraper 81, when the scraper 81 scrapes on the filter paper, water drips from the upper part of the water dripping hole 83 and flows onto the sponge wiper 13 along the filter paper, and the sponge wiper 13 can wipe some intractable filter residues completely; scraping by the scraper 81, wiping by the sponge wiper 13 and washing by clear water, thereby improving the cleaning effect of the glass fiber wastewater treatment equipment.

As an embodiment of the present invention, the scraper 81 is provided with a through groove 14 at a position between the dripping hole 83 and the sponge wiper 13; when the filter paper cleaning device works, the through groove 14 is formed between the water dropping hole 83 and the sponge wiper 13, so that part of water flows into the sponge wiper 13 along the through groove 14 in the process that the water dropping hole 83 sprays water towards the filter paper, and clean water in the through groove 14 can clean the sponge wiper 13 when the sponge wiper 13 wipes the filter paper; further improving the cleaning effect of the glass fiber wastewater treatment equipment after use.

The specific working process is as follows:

after the filter pressing process is finished, the time for separating the filter frame 1 is long, and filter residues sometimes remain and do not fall after filter cakes on the filter frame 1 fall; therefore, the invention is provided with a dispersion module 7; when the hydraulic push rod 6 pushes the compression plate 4 to compress the group of filter frames 1, the filter frames 1 drive the support frame 2 to move towards the thrust plate 5 along the support, so that the group of filter frames 1 are tightly pressed between the thrust plate 5 and the compression plate 4, and then filter pressing is carried out; after filter pressing is finished, the hydraulic push rod 6 drives the compacting plate 4 to return to an initial state, the controller controls the driving motor 71 to drive the rotating rod 72 to rotate, the rotating rod 72 drives the first sliding block 75 to drive the electric push rod 77 to move towards the direction of the thrust plate 5, so that the electric push rod 77 drives the driving push plate 78 to drive the second sliding block 76 to move towards the direction of the thrust plate 5, and the rotating rod 72, the polished rod 73, the first sliding block 75, the second sliding block 76 and the driving push plate 78 form a screw-rod sliding-block pair; the lower end surface of the driving push plate 78 is higher than the upper end surface of the driven push plate 710 in the initial state; when the driving push plate 78 passes over the driven push plate 710, the driving motor 71 stops rotating, and the electric push rod 77 extends to drive the driving push plate 78 to drive the clamping block 79 to move downwards to a position corresponding to the clamping groove 711; the driving motor 71 drives the rotating rod 72 to rotate reversely, so that the driving push plate 78 drives the clamping block 79 to enter the clamping groove 711 of the driven push plate 710; then, the driving push plate 78 drives the driven push plate 710 to drive the filter frames 1 to move towards the direction of the compression plate 4, and all the filter frames 1 move towards the direction of the compression plate 4 under the drive of the traction rope 712 between every two filter frames 1; in the process of separating every two filter frames 1, the glass fiber filter cake falls from the middle of the filter frames 1; the filter frame 1 is driven to separate through the traction rope 712, so that the filter frame 1 can shake in the separation process, and the glass fiber filter residue remained on the filter frame 1 can better fall down; compared with the traditional technical scheme; the elastomer frame is arranged between the two filter plates to improve the dryness and humidity of the filter cake, but the dryness and humidity of the filter cake cannot be improved, no filter residue is left on the filter plates, and the filter residue can remain on the elastomer frame and cannot fall off due to the fact that the coverage area of the filter cake is improved; the driving push plate 78, the driven push plate 710 and the traction rope 712 are arranged; the process of separating the filter frame 1 after filter pressing is quicker, and simultaneously, the glass fiber filter residues are more thoroughly dropped; because the cleaning module 8 is arranged; when the driving push plate 78 drives the driven push plate 710 to separate every two filter frames 1; the driving motor 71 drives the rotating rod 72 to rotate to drive the electric push rod 77 and the scraper 81 to move between every two filter frames 1, then the electric push rod 77 pushes the scraper 81 to move downwards to a position corresponding to the upper end of the filter paper on one side of the filter frame 1, the driving motor 71 drives the rotating rod 72 to rotate to drive the scraper 81 to move to be in contact with the filter paper, water starts to enter the water pipe 84 at the same time, when the scraper 81 scrapes off the residue on the filter paper, the water in the water pipe 84 flows into the cavity 82 and drips on the filter paper through the dripping holes 83, the filter frames 1 are further cleaned, and after the cleaning is finished, the electric push rod 77 drives the scraper 81 to move upwards; then the scraper 81 on the other side moves to a position corresponding to the upper end of the filter paper on the filter frame 1 on the other side, the electric push rod 77 drives the scraper 81 to clean and wash the filter paper downwards, then the electric push rod 77 drives the scraper 81 to return to the initial state, the driving motor 71 drives the rotating rod 72 to drive the scraper 81 to move to the position between every two next filter frames 1, and the like is repeated; residue of filter residue is reduced by matching the scraper 81 and the electric push rod 77, and the glass fiber wastewater treatment equipment is cleaned more cleanly due to the arrangement of the water pipe 84; because the ball 11 is embedded at the bottom end of the support frame 2 and the rolling groove 12 is arranged below the ball 11, when the traction rope 712 drives the filter frame 1 to move along the support, the sliding friction between the filter frame 1 and the support is converted into rolling friction, so that the filter frame 1 is more convenient to move, and meanwhile, the vibration spring 9 drives the filter frame 1 to vibrate; the functionality of the glass fiber wastewater treatment equipment is enhanced; therefore, the vibration spring 9 is sleeved outside the traction rope 712, and when the driving push plate 78 drives the driven push plate 710 to drive the filter frames 1 to move, two filter frames 1 move in sequence through the traction rope 712; when the filter frame 1 moves, the vibration spring 9 can make the filter frame 1 vibrate, so that residual glass fiber filter residues on the filter frame 1 can completely fall off; because the elastic rope 10 is connected between the traction rope 712 and the vibration spring 9, in the process that the traction rope 712 and the vibration spring 9 drive two filter frames 1 to move, the form changes of the traction rope 712 and the vibration spring 9 are inconsistent, so that the elastic rope 10 drives the vibration spring 9 to vibrate again, and the glass fiber filter residues on the filter frames 1 drop more thoroughly; the working effect of the glass fiber wastewater treatment equipment is improved; because the sponge wiper 13 is arranged above the scraper 81, when the scraper 81 scrapes off the filter paper, the water drops from the upper part of the water dropping hole 83, the water flows onto the sponge wiper 13 along the filter paper, and the sponge wiper 13 can wipe some intractable filter residues completely; scraping by the scraper 81, wiping by the sponge wiper 13, and washing by clear water, so that the cleaning effect of the glass fiber wastewater treatment equipment is improved; in addition, the through groove 14 is formed between the water dropping hole 83 and the sponge eraser 13, so that part of water flows into the sponge eraser 13 along the through groove 14 in the process that the water dropping hole 83 sprays water towards the filter paper, and the clean water in the through groove 14 can clean the sponge eraser 13 when the filter paper is wiped by the sponge eraser 13; further improving the cleaning effect of the glass fiber wastewater treatment equipment after use.

The front, the back, the left, the right, the upper and the lower are based on the observation angle of the person, the side of the device facing the observer is defined as the front, the left side of the observer is defined as the left, and so on.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A glass fiber wastewater treatment device comprises a controller, a group of filter frames (1), a support frame (2), a frame (3), a compression plate (4), a thrust plate (5) and a hydraulic push rod (6); the filter frame (1) is placed in the middle of the rack (3), and two sides of the filter frame (1) are fixedly connected with the support frames (2); a pressing plate (4) is placed at one end of the rack (3), and a thrust plate (5) is fixedly connected to the other end of the rack (3); the hydraulic push rod (6) is fixedly connected with the pressing plate (4); the method is characterized in that: the treatment device also comprises a dispersion module (7) and a cleaning module (8); the dispersion module (7) comprises a driving motor (71), a rotating rod (72), a polished rod (73), a supporting rod (74), a first sliding block (75), a second sliding block (76), an electric push rod (77), a driving push plate (78), a clamping block (79), a driven push plate (710), a clamping groove (711) and a traction rope (712); the driving motor (71) is arranged on one side of the rack (3) where the pressing plate (4) is arranged; one end of the rotating rod (72) is rotationally connected with the driving motor (71), and the other end of the rotating rod (72) is rotationally connected with the support rod (74); the other end of the support rod (74) is fixedly connected to one end, close to the thrust plate (5), of the rack (3); the polish rod (73) is positioned at the other side of the rack (3), and two ends of the polish rod (73) are fixedly connected with the rack (3); the first sliding block (75) is sleeved on the rotating rod (72); the second sliding block (76) is sleeved on the polish rod (73); the two electric push rods (77) are respectively and fixedly connected to the lower parts of the first sliding block (75) and the second sliding block (76); the upper part of the driving push plate (78) is fixedly connected with two electric push rods (77), and one end of the driving push plate (78) facing the compression plate (4) is fixedly connected with a clamping block (79); the driven push plate (710) is fixedly arranged at the upper part of the filter frame (1) close to the compression plate (4), and a clamping groove (711) corresponding to the position of the clamping block (79) is formed in the driven push plate (710); and a traction rope (712) is fixedly connected between every two support frames (2).

2. The glass fiber wastewater treatment facility according to claim 1, wherein: the cleaning module (8) comprises a scraper (81), a cavity (82), a water dripping hole (83) and a water pipe (84); the two scraping plates (81) are respectively and fixedly connected to two sides of the driving push plate (78); a cavity (82) is formed in each of the two scraping plates (81); two one end that scraper blade (81) kept away from electric putter (77) has all been seted up one row of water hole (83), and the upper portion of scraper blade (81) is connected with water pipe (84).

3. The glass fiber wastewater treatment facility according to claim 1, wherein: the bottom end of the support frame (2) is embedded with a ball (11); the two ends of the frame (3) are provided with rolling grooves (12).

4. A glass fiber wastewater treatment plant according to claim 3, characterized in that: a vibration spring (9) is sleeved outside the traction rope (712); two ends of the vibration spring (9) are respectively fixedly connected with every two support frames (2); an elastic rope (10) is connected between each traction rope (712) and the vibration spring (9).

5. The glass fiber wastewater treatment facility according to claim 2, wherein: one end of the scraper (81), which is far away from the electric push rod (77), is arranged into an arc shape, and a sponge wiper (13) is fixedly connected above one end of the scraper (81).

6. The glass fiber wastewater treatment facility according to claim 2, wherein: a through groove (14) is formed in the position, between the dripping hole (83) and the sponge wiper (13), of the scraper (81).