CN216274745U

CN216274745U - Printing wiping machine cloth cyclic regeneration system

Info

Publication number: CN216274745U
Application number: CN202121392207.XU
Authority: CN
Inventors: 孙承前
Original assignee: Wuxi Aokang Environmental Protection Technology Co ltd
Current assignee: Wuxi Aokang Environmental Protection Technology Co ltd
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2022-04-12
Anticipated expiration: 2031-06-22

Abstract

The utility model discloses a cloth recycling system of a printing wiper, wherein a welding bracket is internally provided with a dryer, an exhaust pipe is arranged above the dryer, a discharge bin rail is arranged between the exhaust pipe and the dryer, one side of the dryer in the welding bracket is provided with a cleaning box, a heating box is arranged below the cleaning box, the heating box can pump heated water into the cleaning box, one side of the cleaning box, which is far away from the dryer, is provided with a bin frame, a plurality of bins are arranged in the bin frame, a supply cylinder is arranged below the bin frame, a grabbing arm is arranged above the welding bracket, the grabbing arm can grab the bins in the bin frame and convey the bins into the cleaning box for cleaning, a bin placing frame is arranged in the cleaning box, a medicament is stored in the bins, the medicament is contacted with liquid in the cleaning box so as to rinse the printing, the cleaned cloth is discharged from a drain valve on the cleaning box, and finally the cleaned cloth is conveyed into the discharge bin rail and then discharged, and (5) finishing the cleaning of the storage bin.

Description

Printing wiping machine cloth cyclic regeneration system

Technical Field

The utility model relates to the technical field of environment-friendly machinery, in particular to a printing wiper cloth recycling system.

Background

With the rise of printing industry, the requirement of people on the printing quality is higher and higher, so the optimization way is started on the printing process, in some large-scale printing processes, the use of the wiping cloth is greatly improved, but the recycling problem of the wiping cloth still troubles most of merchants and users, and the cleaning problem of the wiping cloth is also troubled by other people due to the special material and the special use environment of the wiping cloth.

In the traditional solution, what most users adopted is that manual cleaning or have traditional cleaning equipment to clean wiping machine cloth, clean inefficiency, clean effectual, finally lead to wiping machine cloth can't normally retrieve, compelled give up, extravagant financial resources and material resources, chinese utility model patent specification CN201910000403.9 discloses a water conservation retrieval and utilization washing machine against current, and this washing machine includes washing mechanism, dewatering mechanism and drying mechanism, washing mechanism and dewatering mechanism's bottom all is connected with the automatically cleaning water treatment ware through outlet conduit, is equipped with a water tank respectively on the inside left and right sides lateral wall of washing mechanism and passes through inlet channel and automatically cleaning water treatment ware intercommunication. The washing machine efficiently and thoroughly removes the color deposition, impurities and redundant dyes on the surface of the fabric by using the cooperation of the washing module, the dewatering module and the drying module, has good treatment effect, and ensures that the quality of a finished fabric product reaches the standard; water used in the treatment process can be reused after being treated by the self-cleaning water treatment equipment, so that water resources are saved remarkably, and the economic benefit of enterprises is improved.

But the cleaning effect can not reach the standard of the industrial wiping cloth and the problem is not solved.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a printing wiper cloth recycling system to solve the above problems of the prior art.

In order to solve the technical problems, the utility model provides the following technical scheme: printing wiping machine cloth cyclic regeneration system. The regeneration system includes: the device comprises a welding support, a grabbing arm, an exhaust pipe, a cleaning box, a heating pool, a bin, a dryer, a bin frame, a supply cylinder and a discharge bin rail, wherein the dryer is arranged in the welding support and can perform drying operation on the cleaned bin, the exhaust pipe is arranged above the dryer and is used for discharging water vapor dried by the dryer, the discharge bin rail is arranged above an air outlet of the dryer and can discharge the dried bin out of the machine to avoid the accumulation phenomenon of the bin, the discharge bin rail is arranged between the dryer and the exhaust pipe, the structural design does not influence the drying effect nor the discharge operation of the bin, the cleaning box is arranged at one side, close to the dryer, in the welding support and is used for cleaning cloth in the bin, the heating pool is arranged below the cleaning box and heats a clean water source, so that the cleaning of the water source is more active, the rinsing effect increases, be provided with silicon controlled heating element in the heating bath, clean water source after the heating will be sent into and wash the incasement, it is provided with the feed bin frame to wash case and keep away from drying-machine one side, the feed bin frame is used for depositing the feed bin, be provided with a plurality of feed bin in the feed bin frame, the feed bin piles up and places, conveniently snatch, feed bin frame below is provided with a plurality of and supplies with the cylinder, supply with the cylinder and can upwards push up the feed bin, welded support's top is provided with and snatchs the arm, be used for snatching the feed bin of supplying with the cylinder and pushing up.

The grabbing arm comprises; the grabbing track is arranged on a welding bracket and limits the range of a conveying bin, the grabbing track is provided with a sliding plate which is connected with the grabbing track in a sliding way and moves in the direction of the grabbing track, the sliding plate is provided with a signal receiver which is used for transmitting control and signals transmitted from a control box and acting on other accessories, the lifting plate is arranged below the sliding plate, the cylinder body part of the lifting cylinder is fixedly connected with the sliding plate, the output end of the lifting cylinder penetrates through the sliding plate and is connected with the lifting plate, four lifting screw rods penetrate through the sliding plate and are connected with the lifting plate, and the lifting plate can move up and down in the vertical direction of the sliding plate, thereby assisting in grabbing the bin, a plurality of sucker screws are arranged on the lower end face of the lifting plate, the sucker screws have an adjustable function and can be finely adjusted, thereby realizing more accurate grabbing, an electromagnetic sucker is arranged at the lower end of each sucker screw and is used for adsorbing the bin, the sucker screws have magnetism when being powered on, the electromagnetic sucker loses the magnetism after the power is off, the bin falls off, thereby realizing the grabbing effect, a transmission block is arranged on one side of the lifting plate, a first transmission shaft wheel and a second transmission shaft wheel are arranged on one side of the lifting plate close to the transmission block, the first transmission shaft wheel and the second transmission shaft wheel are connected through a crawler, the first transmission shaft wheel is fixedly connected with the output end of a transmission motor, the transmission block is fixedly connected with the crawler, the structural design can lead the sliding plate to move along with the movement of the crawler, the grabbing and conveying functions are realized, an optical fiber arm chute is arranged on one side of the first transmission shaft wheel and the second transmission shaft wheel far away from the lifting plate, be provided with the optic fibre arm in the optic fibre arm spout, optic fibre arm one end is connected with the transmission piece, optic fibre arm and optic fibre arm spout sliding connection, and optic fibre can be used for transmitting the displacement signal of sliding plate to in returning the signal transmission control box, the control box can carry out accurate control to the transmission motor.

Electromagnetic chuck, sucking disc screw rod, supply with the cylinder and pile up the column number with the feed bin and equal, adopt such structure cooperation, can be so that more accurate in the grabbing process, simultaneously also can not therefore the resource-wasting, the same feed bin quantity snatchs moreover, can guarantee that the rinsing effect at every turn is the same, can not produce the difference.

The conveying motor is a servo motor, and because the conveying motor needs to be accurately put in and grabbed, the operation can not be realized by a common motor, so that the servo motor is adopted, and the requirements can be met.

Wash the incasement and include: wash the box, feed bin arrangement frame, the cleaning motor, drive gear, the transmission shaft, the driven shaft, the atomizing valve, the drain valve, it is provided with the cleaning motor to wash box one side, the cleaning motor provides power for the flow at clean water source, the cleaning motor output passes the washing box, cleaning motor output and washing box swivelling joint, it is provided with the drain valve to wash box one side of keeping away from the cleaning motor, be used for discharging the waste water after wasing, the cleaning motor output is provided with drive gear, drive gear passes through the chain with the transmission shaft and is connected, the transmission shaft passes through two chains with the driven shaft and is connected, two chains are connected through a plurality of washing material strips, such structural design can effectually drive the flow at clean water source, thereby reinforcing rinsing effect and efficiency.

The feed bin includes: the magnetic suction device comprises a magnetic suction frame, a fixing head, a cloth blocking disc and a piece of machine wiping cloth, wherein the fixing head is embedded into the magnetic suction frame, the cloth blocking disc is embedded into the magnetic suction frame and is fixedly connected with the magnetic suction frame, the machine wiping cloth is sleeved outside the cloth blocking disc, and the machine wiping cloth and the cloth blocking disc are detachable devices.

The feed bin frame includes: go up the feed bin dish, the feed bin roof beam structure, lower feed bin dish, it is provided with a plurality of through-hole on the feed bin dish to go up, the through-hole radius is greater than the feed bin radius, the through-hole number piles up the column number with the feed bin and equals, the feed bin that such structural design can make is more smooth and easy when breaking away from the feed bin dish frame, it passes through feed bin roof beam structure fixed connection with lower feed bin dish to go up the feed bin dish, the feed bin roof beam structure plays the supporting role, lower feed bin dish is provided with a plurality of through-holes, lower feed bin dish through-hole shape is the same with supply with cylinder output end radius shape, lower feed bin dish through-hole number equals with supply with the cylinder number, such structural design makes each pile the feed bin all can ascending thrust.

The bin rail comprises: the discharge port is arranged on one side of the discharging frame close to the welding support, the discharge port is responsible for discharging dried bins out of the machine, the first discharging shaft and the second discharging shaft are arranged in the discharging frame, the first discharging shaft and the second discharging shaft are rotationally connected with the discharging frame, the first discharging shaft and the second discharging shaft are connected through two discharging chains, the first discharging shaft and the second discharging shaft synchronously run through the structural cooperation, the two discharging motors are connected through a plurality of material carrying bars, bins to be dried are placed on the material carrying bars, the discharging motor is arranged on one side of the discharging frame, the discharging motor provides power for the running of the first discharging shaft and the second discharging shaft, the output end of the motor is fixedly connected with the second discharging shaft, and the body part of the discharging motor is fixedly connected with the discharging frame, so that the discharging motor can run smoothly.

Compared with the prior art, the utility model has the following beneficial effects: 1. the utility model has a more coherent purification rinsing system, does not need to stop midway and does not need manual intervention, thereby not only ensuring the personal safety of operators, but also greatly saving labor force.

2. The utility model has good purification effect, finishes the whole set of operation flow by repeating grabbing-rinsing-drying operation, achieves the effect of repeated use, adopts the design of the replaceable stock bin, ensures that the rinsing effect does not generate larger difference every time, and effectively improves the cleaning effect and the efficiency of the wiping cloth.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

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

FIG. 2 is a schematic diagram of the right-hand side view of the present invention;

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

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic view of the grabber arm construction of the present invention;

FIG. 6 is a schematic top view of the cleaning tank of the present invention;

FIG. 7 is a schematic longitudinal sectional view of the storage bin of the present invention;

fig. 8 is a schematic view of the structure of the grain bin rack of the present invention;

FIG. 9 is a schematic view of a discharge bin rail configuration of the present invention;

in the figure: 1. welding a bracket; 2. a gripper arm; 2-1, grabbing a track; 2-2, electromagnetic chuck; 2-3, a lifting plate; 2-4, a sliding plate; 2-5, a signal receiver; 2-6, a lifting cylinder; 2-7, lifting screw rod; 2-8, a sucker screw; 2-9 parts of optical fiber arm sliding groove, 2-10 parts of optical fiber arm; 2-11, a transmission motor; 2-12, a first transfer sheave; 2-13, a second transfer sheave; 2-14, a transmission block; 3. an exhaust duct; 4. a cleaning tank; 4-1, cleaning the box body; 4-2, a storage bin placing frame; 4-3, cleaning the motor; 4-4, a transmission gear; 4-5, a transmission shaft; 4-6, a driven shaft; 4-7, an atomizing valve; 4-8, a drain valve; 4-9, cleaning the material strips; 5. a heating tank; 6. a storage bin; 6-1, a magnetic suction frame; 6-2, fixing the head; 6-3, a cloth blocking disc; 6-4, machine wiping cloth; 7. a dryer; 8. a stock bin rack; 8-1, feeding a bin tray; 8-2, a stock bin beam frame; 8-3, blanking a bin disc; 9. a supply cylinder; 10. a discharge bin rail; 10-1, a discharge hole; 10-2, a discharge motor; 10-3, a discharging chain; 10-4, a first discharging shaft; 10-5, a material discharging rack; 10-6, a second discharge shaft; 10-7, and carrying bars.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides the following technical solutions: as shown, the regeneration system includes: the device comprises a welding support 1, a grabbing arm 2, an exhaust pipe 3, a cleaning box 4, a heating pool 5, a bin 6, a dryer 7, a bin frame 8, a supply air cylinder 9 and a discharge bin rail 10, wherein the dryer 7 is arranged in the welding support 1, the dryer 7 can perform drying operation on the cleaned bin 6, the exhaust pipe 3 is arranged above the dryer 7 and used for discharging water vapor dried by the dryer 7, the discharge bin rail 10 is arranged above an air outlet of the dryer 7 and used for discharging the dried bin 6 out of the device to avoid the phenomenon of bin accumulation, the discharge bin rail 10 is arranged between the dryer 7 and the exhaust pipe, the drying effect and the discharge operation of the bin 6 cannot be influenced by the structural design, the cleaning box 4 is arranged on one side, close to the dryer 7, in the welding support 1 and used for rinsing the wiper cloth 6-4 in the bin 6, wash 4 below of case and be provided with heating bath 5, heating bath 5 heats clean water source, be provided with silicon controlled rectifier heating element in the heating bath 5, the water source after the heating will be sent into in wasing case 4, it is provided with feed bin frame 8 to wash 7 one side of drying-machine to keep away from 4 cases, feed bin frame 8 is used for depositing feed bin 6, be provided with a plurality of feed bin 6 in the feed bin frame 8, feed bin 6 piles up and places, conveniently snatch, feed bin frame 8 below is provided with a plurality of and supplies with cylinder 9, supply with cylinder 9 and can upwards push up feed bin 6, the top of welding support 1 is provided with and snatchs arm 2, be used for snatching feed bin 6 who supplies with the cylinder and push up.

As shown in fig. 5, the grabbing arm 2 comprises a grabbing track 2-1, an electromagnetic chuck 2-2, a lifting plate 2-3, a sliding plate 2-4, a signal receiver 2-5, a lifting cylinder 2-6, a lifting screw 2-7, a chuck screw 2-8, an optical fiber arm chute 2-9, an optical cable arm 2-10, a transmission motor 2-11 and a first transmission shaft wheel 2-12; 2-13, a second transmission shaft wheel 2-13; 2-14 and a transmission block 2-14, wherein a grabbing track 2-1 is arranged on a welding bracket 1 and limits the range of a conveying bin 6, a sliding plate 2-4 is arranged on the grabbing track 2-1, the sliding plate 2-4 is in sliding connection with the grabbing track 2-1 and moves in the direction of the grabbing track 2-1, a signal receiver 2-5 is arranged on the sliding plate 2-4, the signal receiver 2-5 is used for transmitting control and signals transmitted from a control box and acting on other accessories, a lifting plate 2-3 is arranged below the sliding plate 2-4, the cylinder body part of a lifting cylinder 2-6 is fixedly connected with the sliding plate 2-4, the output end of the lifting cylinder 2-6 passes through the sliding plate 2-4 and is connected with the lifting plate 2-3, four lifting screws 2-7 penetrate through a sliding plate 2-4 to be connected with a lifting plate 2-3, the lifting plate 2-3 can move up and down in the vertical direction of the sliding plate 2-4 to assist in grabbing a bin 6, a plurality of sucker screws 2-8 are arranged on the lower end face of the lifting plate 2-3, the sucker screws 2-8 have an adjustable function and can be finely adjusted to realize more accurate grabbing, an electromagnetic sucker 2-2 is arranged at the lower end of each sucker screw 2-8 and is used for adsorbing the bin 6 and has magnetism when being powered on, the electromagnetic sucker 2-2 loses magnetism after being powered off, the bin 6 falls to realize grabbing effect, a transmission block 2-14 is arranged on one side of the lifting plate 2-3, a first transmission shaft wheel 2-12 and a second transmission shaft wheel 2-13 are arranged on one side of the lifting plate 2-3 close to the transmission block 2-14, the first transmission shaft wheel 2-12 is connected with the second transmission shaft wheel 2-13 through a crawler belt, the first transmission shaft wheel 2-12 is fixedly connected with the output end of a transmission motor 2-11, the transmission block 2-14 is fixedly connected with the crawler belt, the structure design can enable the sliding plate 2-4 to move along with the movement of the crawler belt, the grabbing and conveying functions are realized, the optical fiber arm sliding groove 2-9 is arranged on one side, away from the lifting plate 2-3, of the first transmission shaft wheel 2-12 and the second transmission shaft wheel 2-13, the optical fiber arm 2-10 is arranged in the optical fiber arm sliding groove 2-9, one end of the optical fiber arm is connected with the transmission block 2-14, the optical fiber arm 2-10 is connected with the optical fiber arm sliding groove 2-9 in a sliding mode, the optical fiber can be used for transmitting displacement signals of the sliding plate 2-4 and transmitting the signals back to the control box, the control box can control the conveying motors 2-11 accurately.

Electromagnetic chuck 2-2, sucking disc screw rod 2-8, supply with cylinder 9 and feed bin 6 and pile up the column number and equal, adopt such structure cooperation, can be so that snatch the in-process more accurate, simultaneously also can not waste resources consequently, 6 quantity snatchs in the same feed bin moreover, can guarantee that the rinsing effect at every turn is the same, can not produce the difference.

The conveying motors 2-11 are servo motors, and because the conveying motors need to be accurately thrown and grabbed, the common motors cannot realize the operation, so that the servo motors are adopted, and the requirements can be met.

As shown in fig. 6, the cleaning tank 4 includes: a cleaning box body 4-1, a bin containing frame 4-2, a cleaning motor 4-3, a transmission gear 4-4, a transmission shaft 4-5, a driven shaft 4-6, an atomizing valve 4-7 and a drain valve 4-8, wherein the cleaning motor 4-3 is arranged on one side of the cleaning box body 4-1, the output end of the cleaning motor 4-3 passes through the cleaning box body 4-1, the output end of the cleaning motor 4-3 is rotationally connected with the cleaning box body 4-1, the drain valve 4-8 is arranged on one side of the cleaning box body 4-1 far away from the cleaning motor 4-3, the output end of the cleaning motor 4-3 is provided with the transmission gear 4-4, the transmission gear 4-4 is connected with the transmission shaft 4-5 through a chain, the transmission shaft 4-5 is connected with the driven shaft 4-6 through two chains, the two chains are connected by a plurality of cleaning material strips 4-9.

As shown in fig. 7, the silo 6 includes: the magnetic suction frame 6-1, the fixing head 6-2, the cloth blocking disc 6-3 and the wiping cloth 6-4 are arranged, the fixing head 6-2 is embedded into the magnetic suction frame 6-1, the cloth blocking disc 6-3 is fixedly connected with the magnetic suction frame 6-1, the wiping cloth 6-4 is sleeved outside the cloth blocking disc 6-3, and the wiping cloth 6-4 and the cloth blocking disc 6-3 are detachable devices.

As shown in fig. 8, the hopper frame 8 includes: the feeding bin disc 8-1, the bin beam frame 8-2 and the discharging bin disc 8-3 are arranged, a plurality of through holes are formed in the feeding bin disc 8-1, the radius of the through holes is larger than that of the bin 6, the number of the through holes is equal to that of stacked columns of the bin 6, the bin 6 can be more smooth when being separated from the bin beam frame 8 due to the structural design, the feeding bin disc 8-1 and the discharging bin disc 8-3 are fixedly connected through the bin beam frame 8-2, the bin beam frame 8-2 plays a supporting role, the discharging bin disc 8-3 is provided with a plurality of through holes, the shape of the through holes of the discharging bin disc 8-3 is the same as that of the output end of the supply cylinder 9, the number of the through holes of the discharging bin disc 8-3 is equal to that of the supply cylinder 9, and the structural design enables each stacked bin 6 to be capable of pushing upwards.

As shown in fig. 9, the discharge bin rail 10 includes: a discharge port 10-1, a discharge motor 10-2, discharge chains 10-3, a first discharge shaft 10-4, a discharge frame 10-5, a second discharge shaft 10-6 and a material carrying bar 10-7, wherein one side of the discharge frame 10-5, which is close to the welding support 1, is provided with the discharge port 10-1, the discharge port 10 is responsible for discharging the dried bin 6 out of the machine, the first discharge shaft 10-4 and the second discharge shaft 10-6 are arranged in the discharge frame 10-5, the first discharge shaft 10-4 and the second discharge shaft 10-6 are rotationally connected with the discharge frame 10-5, the first discharge shaft 10-4 and the second discharge shaft 10-6 are connected through the two discharge chains 10-3, and the structural cooperation enables the first discharge shaft 10-4 and the second discharge shaft 10-6 to synchronously run, two discharging motors 10-2 are connected through a plurality of material carrying strips 10-7, a storage bin to be dried is placed on each material carrying strip, one side of each discharging frame 10-5 is provided with the discharging motor 10-2, the discharging motors 10-2 provide power for the operation of the first discharging shaft 10-4 and the second discharging shaft 10-5, the output end of each discharging motor 10-2 is fixedly connected with the second discharging shaft 10-6, and the body part of each discharging motor 10-2 is fixedly connected with the corresponding discharging frame 10-5, so that the discharging motors 10-2 can smoothly operate.

The working principle of the utility model is as follows: the bin 6 is placed in the bin frame 8, the grabbing arm 2 is waited for extraction, the clean water source in the heating pool 5 reaches the temperature, the clean water source enters the cleaning box 4, the grabbing arm 2 quantitatively grabs the bin 6 and puts the bin into the cleaning box 4, the cleaning box 4 starts to work, the cleaning motor 4-3 operates to drive the clean water source to flow, in the process, the cleaning agent is added into the cleaning box 4, the cleaning motor 4-3 rotates forwards and backwards to operate alternatively, the cleaning effect is achieved, after cleaning is completed, the drain valve 4-8 is opened, sewage is drained, the bin 6 which is cleaned is grabbed by the grabbing arm 2 again and placed in the bin discharge rail 10, the bin discharge rail 10 operates, the bin 6 is sent into the dryer 7 to be dried, and finally the clean water source is separated from the bin discharge rail 10.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Printing wiping machine cloth cyclic regeneration system, its characterized in that: the regeneration system includes: the device comprises a welding support (1), a grabbing arm (2), an exhaust pipe (3), a cleaning box (4), a heating pool (5), a storage bin (6), a dryer (7), a storage bin frame (8), a supply cylinder (9) and a discharge bin rail (10), wherein the dryer (7) is arranged in the welding support (1), the dryer can perform drying operation on the cleaned storage bin, the exhaust pipe (3) is arranged above the dryer (7), the discharge bin rail (10) is arranged above an air outlet of the dryer (7), the discharge bin rail (10) is positioned between the dryer (7) and the exhaust pipe, the cleaning box (4) is arranged in the welding support (1) and close to one side of the dryer (7), the heating pool (5) is arranged below the cleaning box (4), a silicon controlled heating component is arranged in the heating pool (5), the storage bin frame (8) is arranged on one side of the cleaning box (4) far away from the dryer (7), be provided with a plurality of feed bin in feed bin frame (8), feed bin (6) are piled up and are placed, feed bin frame (8) below is provided with a plurality of and supplies with cylinder (9), the top of welding stent (1) is provided with and snatchs arm (2).

2. The printing wiper cloth recycling system of claim 1, wherein: the gripper arm (2) comprises: the device comprises a grabbing track (2-1), an electromagnetic chuck (2-2), a lifting plate (2-3), a sliding plate (2-4), a signal receiver (2-5), a lifting cylinder (2-6), a lifting screw rod (2-7), a chuck screw rod (2-8), an optical fiber arm sliding groove (2-9), an optical cable arm (2-10), a transmission motor (2-11), a first transmission shaft wheel (2-12) and a second transmission shaft wheel (2-13); 2-14 parts of a transmission block (2-14), wherein the grabbing track (2-1) is arranged on the welding support (1), a sliding plate (2-4) is arranged on the grabbing track (2-1), the sliding plate (2-4) is in sliding connection with the grabbing track (2-1), a signal receiver (2-5) is arranged on the sliding plate (2-4), a lifting plate (2-3) is arranged below the sliding plate (2-4), the cylinder body part of the lifting cylinder (2-6) is fixedly connected with the sliding plate (2-4), the output end of the lifting cylinder (2-6) penetrates through the sliding plate (2-4) to be connected with the lifting plate (2-3), and four lifting lead screws (2-7) penetrate through the sliding plate (2-4) to be connected with the lifting plate (2-3), the automatic conveying device is characterized in that a plurality of sucker screws (2-8) are arranged on the lower end face of the lifting plate (2-3), an electromagnetic sucker (2-2) is arranged at the lower end of each sucker screw (2-8), a transmission block (2-14) is arranged on one side of the lifting plate (2-3) close to the transmission block (2-14), a first conveying shaft wheel (2-12) and a second conveying shaft wheel (2-13) are arranged on one side of the lifting plate (2-3) close to the transmission block (2-14), the first conveying shaft wheel (2-12) and the second conveying shaft wheel (2-13) are connected through a crawler, the first conveying shaft wheel (2-12) is fixedly connected with the output end of a conveying motor (2-11), the transmission block (2-14) is fixedly connected with the crawler, and the first conveying shaft wheel (2-12) and the second conveying shaft wheel (2-13) are arranged on the side far away from the lifting plate (2-3) The optical fiber arm comprises optical fiber arm sliding grooves (2-9), optical fiber arms (2-10) are arranged in the optical fiber arm sliding grooves (2-9), one ends of the optical fiber arms are connected with transmission blocks (2-14), and the optical fiber arms (2-10) are connected with the optical fiber arm sliding grooves (2-9) in a sliding mode.

3. The printing wiper cloth recycling system as set forth in claim 2, wherein: the stacking number of the electromagnetic suckers (2-2), the sucker screws (2-8), the supply air cylinders (9) and the storage bin (6) is equal.

4. The printing wiper cloth recycling system of claim 1, wherein: the transmission motors (2-11) are servo motors.

5. The printing wiper cloth recycling system of claim 1, wherein: the cleaning tank (4) comprises: the cleaning device comprises a cleaning box body (4-1), a bin containing frame (4-2), a cleaning motor (4-3), a transmission gear (4-4), a transmission shaft (4-5), a driven shaft (4-6), an atomizing valve (4-7) and a drain valve (4-8), wherein the cleaning motor (4-3) is arranged on one side of the cleaning box body (4-1), the output end of the cleaning motor (4-3) penetrates through the cleaning box body (4-1), the output end of the cleaning motor (4-3) is rotatably connected with the cleaning box body (4-1), the drain valve (4-8) is arranged on one side, far away from the cleaning motor (4-3), of the cleaning box body (4-1), the output end of the cleaning motor (4-3) is provided with the transmission gear (4-4), the transmission gear (4-4) is connected with the transmission shaft (4-5) through chains, the transmission shaft (4-5) is connected with the driven shaft (4-6) through two chains, and the two chains are connected through a plurality of cleaning material strips (4-9).

6. The printing wiper cloth recycling system of claim 1, wherein: the silo (6) comprises: the magnetic suction frame comprises a magnetic suction frame (6-1), a fixing head (6-2), a cloth blocking disc (6-3) and machine wiping cloth (6-4), wherein the fixing head (6-2) is embedded into the magnetic suction frame (6-1), the fixing head (6-2) is communicated with the lower portion of the magnetic suction frame (6-1), the cloth blocking disc (6-3) is embedded into the magnetic suction frame (6-1), the cloth blocking disc (6-3) is fixedly connected with the magnetic suction frame (6-1), and the machine wiping cloth (6-4) is sleeved outside the cloth blocking disc (6-3).

7. The printing wiper cloth recycling system of claim 1, wherein: the magazine rack (8) comprises: go up feed bin dish (8-1), feed bin roof beam structure (8-2), feed bin dish (8-3) down, it is provided with a plurality of through-hole on feed bin dish (8-1) to go up, the through-hole radius is greater than feed bin (6) radius, the through-hole number piles up the column number with feed bin (6) and equals, it passes through feed bin roof beam structure (8-2) fixed connection with feed bin dish (8-3) down to go up feed bin dish (8-1), feed bin dish (8-3) is provided with a plurality of through-holes down, feed bin dish (8-3) through-hole shape is the same with supply with cylinder (9) output radius shape down, feed bin dish (8-3) through-hole number equals with supply with cylinder (9) number down.

8. The printing wiper cloth recycling system of claim 1, wherein: the discharge bin rail (10) comprises: the material discharging device comprises a material discharging port (10-1), a material discharging motor (10-2), material discharging chains (10-3), a first material discharging shaft (10-4), a material discharging frame (10-5), a second material discharging shaft (10-6) and material carrying bars (10-7), wherein the material discharging port (10-1) is arranged on one side of the material discharging frame (10-5) close to a welding support (1), the first material discharging shaft (10-4) and the second material discharging shaft (10-6) are arranged in the material discharging frame (10-5), the first material discharging shaft (10-4) and the second material discharging shaft (10-6) are rotatably connected with the material discharging frame (10-5), the first material discharging shaft (10-4) and the second material discharging shaft (10-6) are connected through the two material discharging chains (10-3), the two material discharging motors (10-2) are connected through the plurality of material carrying bars (10-7), a discharging motor (10-2) is arranged on one side of the discharging frame (10-5), the output end of the discharging motor (10-2) is fixedly connected with a second discharging shaft (10-6), and the body part of the discharging motor (10-2) is fixedly connected with the discharging frame (10-5).