CN113059846A - Environment-friendly waste paper scrap treatment system - Google Patents

Abstract

The application relates to the technical field of waste paper scrap treatment, in particular to a waste paper scrap environment-friendly treatment system which comprises a waste paper scrap recovery device and a waste paper scrap compression treatment device, wherein a waste paper scrap conveying device used for leading waste paper scraps to be compressed to the waste paper scrap compression treatment device through the waste paper scrap recovery device is arranged between the waste paper scrap recovery device and the waste paper scrap compression treatment device; the waste paper scrap recovery device comprises a waste paper scrap storage bin, a collection fan is arranged in the waste paper scrap storage bin, and the collection fan is connected with an extraction pipe for absorbing waste paper scrap; the waste paper scrap processing and compressing device comprises a waste paper scrap compressing box, and a compressing assembly is erected on the waste paper scrap compressing box; the waste paper scrap conveying device comprises a material taking mechanism for extracting waste paper scraps to be compressed and a driving mechanism for driving the material taking mechanism to reciprocate between a waste paper scrap storage bin and a waste paper scrap compression box. This application has the quick recovery processing books page of replacement manual work and cuts the wastepaper bits that produce, reduces books and binds the effect that on-the-spot wastepaper bits are piled up.

Description

Environment-friendly waste paper scrap treatment system

Technical Field

The application relates to the technical field of waste paper scrap treatment, in particular to a waste paper scrap environment-friendly treatment system.

Background

In the binding process of the book, the page of the book needs to be trimmed orderly, redundant and uneven page margins are cut off, and the subsequent book is bound orderly conveniently.

Book trimming can produce a large amount of scrap, i.e., wastepaper. A large amount of wastepaper bits are piled up and are being cut machine department, influence operational environment's operation order easily, and the wastepaper bits is as circulated renewable resources, retrieves and recycles just can exert the wastepaper bits value of at utmost, promotes resource recycle and environmental protection, and the arrangement to a large amount of wastepaper bits at this moment, collect and transport all need consume a large amount of manual works to the efficiency of manual collection arrangement and transportation is not high.

Disclosure of Invention

In order to replace artifical rapid recovery processing books page and cut the wastepaper bits that produce, reduce books and bind the pile up of on-spot wastepaper bits, this application provides a wastepaper bits environmental protection processing system.

The application provides a wastepaper bits environmental protection processing system adopts following technical scheme:

an environment-friendly waste paper scrap treatment system comprises a waste paper scrap recovery device and a waste paper scrap compression treatment device, wherein a waste paper scrap conveying device used for leading waste paper scraps to be compressed to the waste paper scrap compression treatment device through the waste paper scrap recovery device is arranged between the waste paper scrap recovery device and the waste paper scrap compression treatment device;

the waste paper scrap recovery device comprises a waste paper scrap storage bin, a collection fan is arranged in the waste paper scrap storage bin, and the collection fan is connected with an extraction pipe for absorbing waste paper scrap;

the waste paper scrap processing and compressing device comprises a waste paper scrap compressing box, and a compressing assembly for compressing waste paper scrap is erected on the waste paper scrap compressing box;

the waste paper scrap conveying device comprises a material taking mechanism for extracting waste paper scraps to be compressed and a driving mechanism for driving the material taking mechanism to reciprocate between the waste paper scrap storage bin and the waste paper scrap compression box.

By adopting the technical scheme, an operator presets the extraction end of the extraction pipe at the working end of the page cutting and waste paper scrap guiding, the extraction pipe is connected with the collection fan, in the page cutting process, the collection fan is started to extract the waste paper scrap and guide the waste paper scrap to be accumulated in the waste paper scrap storage bin, the driving mechanism is started to drive the material taking mechanism to enter the waste paper scrap storage bin, the material taking mechanism is driven to extract part of the waste paper scrap to be compressed, then the driving mechanism is started to drive the material taking mechanism to move to one side of the waste paper scrap compression box, the extracted part of the waste paper scrap is driven to be put into the waste paper scrap compression box by the material taking mechanism, then the compression assembly is driven to extrude the waste paper scrap, the waste paper scrap pressed block which is extruded and formed is guided out and continuously extrudes the waste paper scrap which is subsequently guided in, the accumulation of the waste paper scrap in the book binding site is favorably reduced, the waste paper, Occupy too much space, make things convenient for operating personnel to collect, transport and cyclic utilization.

Optionally, a discharge end of the collection fan is connected with a dust filter shell, a settling water tank is arranged in the dust filter shell, a dust falling port is formed in the settling water tank towards the discharge end of the collection fan, a dust filter screen is arranged on the settling water tank and positioned above the dust falling port in a covering manner, a waste paper scrap guide outlet is formed in the bottom of the dust filter shell, and an inclined guide surface which inclines towards the waste paper scrap guide outlet is formed on the dust filter screen;

the bottom support that the dust filtered the shell has the support, just the bottom surface that the dust filtered the shell is provided with and is used for accepting the wastepaper bits that the wastepaper bits export was derived and derives the wastepaper bits conveyer belt of dust filter shell bottom.

Through adopting above-mentioned technical scheme, it draws in the wastepaper bits and leading-in dust filter shell to collect the fan through the extraction pipe, the wastepaper bits mix with impurity such as dust and blow towards the dust filter screen, operating personnel is leading-in water in subsiding the water tank in advance, the wastepaper bits pass the leading-in water tank that subsides of dust filter screen by impurity such as dust when the dust filter screen separation, impurity such as dust subsides in the water storage of subsiding the water tank, the wastepaper bits is led by oblique guide surface and is fallen and derive the wastepaper bits export, conveniently supply feeding agencies and actuating mechanism cooperation to extract, reduce the wastepaper bits and retrieve impurity such as too much dust in-process.

Optionally, a cleaning opening is formed in the side wall of the settling water tank, a sealing door is arranged on the cleaning opening, a drain pipe is connected to the bottom of the settling water tank, and a drain valve is arranged on the drain pipe;

the top of the sedimentation water tank is connected with an overflow pipe, and the connecting end of the overflow pipe and the sedimentation water tank is positioned below the dust falling port.

Through adopting above-mentioned technical scheme, subside the water tank and use after a period, operating personnel opens the closed door and can scrape the accumulational impurity of clearance by the clearance mouth to the subside water tank bottom of the case, opens the blowoff valve simultaneously and carries out discharge impurity by the blow off pipe, operating personnel is by the clearance mouth when leading-in water in to subside the water tank, the water level rises to overflow pipe department and discharges outside the water tank that subsides promptly, avoid subside the water tank and fill into excessive water and spill over, avoid subside interior ponding of water tank and wastepaper bits contact.

Optionally, the outer wall orientation of storehouse is stored to the wastepaper bits compression case has seted up out the storehouse mouth, just the inner wall that the storehouse was stored to the wastepaper bits is located it is provided with the door to go out storehouse mouth top, just be provided with on the wastepaper bits storage storehouse and be used for the drive the subassembly that lifts by crane that the door was opened and close.

Through adopting above-mentioned technical scheme, when operating personnel drive collection fan extraction wastepaper bits, the drive lifts by crane the subassembly and drives the door and drop and seal the exit, is favorable to reducing the leading-in wastepaper bits of wastepaper bits and stores the storehouse and pile up the in-process and derive by the exit, makes things convenient for the wastepaper bits to concentrate and piles up in the wastepaper bits storage storehouse, when needing to draw the wastepaper bits in the wastepaper bits storage storehouse, the drive once more lifts by crane the subassembly and lifts by crane the door and can open the exit.

Optionally, the driving mechanism includes a moving vehicle, wheels are rotatably disposed on a bottom surface of the moving vehicle, and a first driving part for driving the wheels to rotate is disposed on the moving vehicle;

the material taking mechanism comprises a base arranged on the top surface of the moving vehicle, a material taking arm is arranged on the base in a rotating mode, a material taking claw is arranged on the material taking arm in a relatively rotating mode, a driving part II used for driving the material taking arm and the two material taking claws to rotate towards the ground is arranged on the base, and a driving part III used for driving the two material taking claws to grab waste paper scraps relatively is arranged on the material taking arm;

and the moving vehicle is provided with a driving part IV for driving the base to rotate along the circumferential direction of the moving vehicle.

Through adopting above-mentioned technical scheme, operating personnel starts drive part one and drives the wheel rotation and remove in order to realize the locomotive, the drive locomotive drives the base, get the material arm and get the material claw and remove to the wastepaper bits and store the storehouse in, it drives the material arm and gets the material claw towards ground to start drive part two, then it drives a pair of the wastepaper bits of getting to drive part three and snatchs the wastepaper bits relatively to start drive part three, the redrive locomotive removes to wastepaper bits compression case department, it opens a pair of the material claw to start drive part three relatively, thereby make the leading-in wastepaper bits compression incasement of the wastepaper bits of snatching compress, be favorable to replacing artifical quick extraction wastepaper bits and compress the blocking.

Optionally, a pushing shovel for pushing the waste paper scraps towards the outlet is arranged on one side of the moving vehicle in the moving direction of the moving vehicle.

Through adopting above-mentioned technical scheme, operating personnel will move the locomotive setting in advance and push away one side of shovel towards the bin outlet, and when the drive locomotive stored the storehouse towards the wastepaper and removed, push away shovel and promote loose waste paper bits piled up subaerial in the bin outlet, be favorable to gathering together loose accumulational wastepaper bits fast, conveniently get the material claw and snatch.

Optionally, the top surface of the waste paper scrap compression box is open, the compression assembly includes a hydraulic cylinder erected on the top surface of the waste paper scrap compression box, a piston rod of the hydraulic cylinder vertically faces the top surface opening of the waste paper scrap compression box, an end of the piston rod of the hydraulic cylinder is fixed with a squeezing plate, and the squeezing plate faces the inner bottom wall of the waste paper scrap compression box;

the lateral wall of wastepaper bits compression case has seted up the discharge gate, just it has the extrusion door to articulate on the discharge gate, be provided with on the extrusion door and be used for the lock to connect the extrusion door with the locking part of wastepaper bits compression case.

Through adopting above-mentioned technical scheme, operating personnel is with the leading-in wastepaper bits compression case of wastepaper bits, and drive pneumatic cylinder drives the stripper plate and extrudees the wastepaper bits towards the bottom surface of wastepaper bits compression case to compress into the piece fluffy accumulational wastepaper bits fast, open the collecting part of unblanking and open the extrusion door and can derive the wastepaper bits that extrude into the piece, reduce the wastepaper bits and take up an area of space, make things convenient for operating personnel to pack and deposit, transport and cyclic utilization.

Optionally, an elastic pressing plate is arranged on the surface of the extrusion plate facing the bottom wall in the waste paper scrap compression box, a plurality of guide rods are fixed on the surface of the elastic pressing plate facing the extrusion plate, the guide rods penetrate through the extrusion plate, a buffer spring is sleeved on the rod wall of the guide rods between the extrusion plate and the elastic pressing plate, one end of the buffer spring is fixedly connected with the extrusion plate, and the other end of the buffer spring is fixedly connected with the elastic pressing plate;

when a piston rod of the hydraulic cylinder extends, the peripheral walls of the elastic pressing plate abut against the inner side wall of the waste paper scrap compression box.

Through adopting above-mentioned technical scheme, operating personnel drives pneumatic cylinder and drives the stripper plate and extrude towards waste paper bits compression box bottom, stripper plate and elastic pressing plate cooperation extrusion are piled up the waste paper bits in waste paper bits compression box, a plurality of guide arms provide the guide effect for the stripper plate, buffer spring provides the buffering effect for elastic pressing plate towards the stripper plate motion, simultaneously elastic pressing plate supports the inner wall of pasting waste paper bits compression box, be favorable to reducing elastic pressing plate and stripper plate extrusion waste paper bits in-process, the waste paper bits is by scurrying out between elastic pressing plate and the waste paper bits compression box inner wall, improve the by extrusion rate of the waste paper bits volume of the leading-in waste paper bits compression box of single.

Optionally, the waste paper bits compression case top surface is located self open end and is provided with the drip pipe of external water source, just be provided with a plurality of water injection mouths that are used for towards dripping in the waste paper bits compression case on the drip pipe.

Through adopting above-mentioned technical scheme, operating personnel drips in the leading-in wastepaper bits compression case of wastepaper bits, through dripping pipe and a plurality of water delivery mouth orientation wastepaper bits compression incasement, and the wastepaper bits is soaked along wastepaper bits compression incasement wall circumference to the water droplet, reduces fluffy accumulational wastepaper bits and stretches out by the extrusion board perisporium outside.

Optionally, plate grooves are oppositely penetrated through two opposite side walls of the bottom of the waste paper scrap compression box, a bearing plate is inserted between a pair of the plate grooves and extends out of the waste paper scrap compression box towards one end of one of the plate grooves, a groove is formed in the bottom surface of the bearing plate along the opposite direction of the pair of the plate grooves, a transmission rack is arranged in the groove along the extending direction of the groove, a drawing plate motor is arranged below the extending end of the bearing plate on the outer wall of the waste paper scrap compression box, the output end of the drawing plate motor is coaxially and fixedly connected with a transmission gear, and the transmission gear is meshed with the transmission rack;

the bottom surface of the waste paper scrap compression box is supported with a base frame, a discharge conveyer belt used for carrying waste paper scrap guided on the bearing plate is arranged below the waste paper scrap compression box, and the conveying direction of the discharge conveyer belt faces the discharge port.

Through adopting above-mentioned technical scheme, after the piece is extruded at waste paper bits compression incasement to the waste paper bits in batches, the waste paper bits of extrusion blocking are born by the bearing plate, operating personnel opens the extrusion door in advance, then drive take out the trigger motor and drive gear and rotate, drive gear meshing transmission rack drives the bearing plate and derives by a curb plate groove, thereby make the waste paper bits of extrusion blocking fall to ejection of compact conveyer belt and export by ejection of compact conveyer belt, be favorable to the shaping waste paper bits to derive waste paper bits compression case fast, make things convenient for operating personnel packing to transport etc..

In summary, the present application includes at least one of the following beneficial technical effects:

1. an operator extracts waste paper scraps through the collecting fan and guides the waste paper scraps out to be accumulated in the waste paper scrap storage bin, the driving mechanism is started to drive the material taking mechanism to extract part of the waste paper scraps to be compressed in the waste paper scrap storage bin and put the part into the waste paper scrap compression box for extrusion, and then waste paper scrap pressing blocks formed by extrusion forming are guided out and packed, so that the accumulation of the waste paper scraps in a book binding site is reduced, the waste paper scraps are quickly collected and extruded instead of manpower, the waste paper scraps are reduced, the waste paper scraps are fluffy and accumulated, too much space is occupied, and the waste paper scraps are convenient for the operator to collect;

2. the waste paper scraps are blocked by the dust filter screen, meanwhile, impurities such as dust and the like pass through the dust filter screen and are guided into the settling water tank, the impurities such as the dust and the like are settled in the stored water of the settling water tank, the waste paper scraps are guided down by the inclined guide surface and guided out of the waste paper scrap guide outlet, a material taking mechanism and a driving mechanism are convenient to cooperate for extraction, and excessive impurities such as the dust and the like are reduced in the waste paper scrap recovery process;

3. the waste paper bits that extrude the blocking are born by the bearing plate, and operating personnel opens the extrusion door, and drive the driving gear transmission meshing transmission rack of drawplate motor, make the bearing plate derive by a curb plate groove, and the waste paper bits that extrude the blocking fall to ejection of compact conveyer belt and by ejection of compact conveyer belt output, are favorable to the shaping waste paper bits to derive waste paper bits compression box fast, make things convenient for operating personnel packing transportation etc..

Drawings

Fig. 1 is a schematic structural diagram for showing an entirety of a waste paper scrap recovery device, a waste paper scrap compression processing device, and a waste paper scrap conveying device in an embodiment of the present application.

Fig. 2 is a sectional view of a dust filter shell, a collection fan, a bin door and a lifting assembly in the waste paper scrap storage bin according to the embodiment of the application.

Fig. 3 is a partial sectional view for embodying a dust filter, a settling tank, a waste paper dust conveyor, a baffle, and a dust fall pipe in the embodiment of the present application.

FIG. 4 is a schematic structural diagram for embodying the cleaning port, the closing door, the sewage discharge pipe, the sewage discharge valve, the overflow pipe and the water replenishing pipe in the embodiment of the application.

Fig. 5 is a schematic structural diagram for embodying the material taking mechanism and the driving mechanism in the embodiment of the present application.

Fig. 6 is a schematic structural diagram of the whole waste paper scrap compression box, the compression assembly, the striker plate, the drip pipe and the discharge conveyor belt in the embodiment of the present application.

Fig. 7 is a partial sectional view for embodying the pressing plate, the elastic pressing plate, the guide rod, the buffer spring, the limit hook, and the limit rotation plate in the embodiment of the present application.

FIG. 8 is a partial cross-sectional view of an embodiment of the present application for embodying an extruded door, a click bar, and a docking bar.

Fig. 9 is an enlarged view of a portion a in fig. 8, for embodying the structures of the locking groove, the rotational locking bar and the locking head thereof, the rotational plate, the barrier strip and the twist grip.

Fig. 10 is a partial view for embodying a pressure bearing plate, a pumping plate motor, a transmission gear, a bearing block, a synchronizing shaft and a guide bracket in an embodiment of the present application.

FIG. 11 is a partial cross-sectional view of an embodiment of the present application for embodying a drive rack in a recess engaging a drive gear.

Reference numeral specification, 1, a wastepaper recovery device; 10. a waste paper scrap storage bin; 100. a bin outlet; 11. a collection fan; 110. a mounting seat; 12. an extraction pipe; 13. a dust filter shell; 130. a waste paper scrap outlet; 14. a settling water tank; 140. a dust falling port; 141. a dust filter screen; 1410. an inclined guide surface; 142. cleaning the opening; 143. a closing door; 144. a blow-off pipe; 145. a blowoff valve; 146. an overflow pipe; 147. a water replenishing pipe; 148. a partition plate; 15. a support; 16. a scrap conveyor belt; 160. a baffle plate; 17. a bin gate; 18. a hoisting assembly; 180. a hoisting motor; 181. a wind-up roll; 182. a lifting rope; 183. a guide rail; 19. a dust settling pipe; 190. a water mist nozzle; 2. a waste paper scrap compression treatment device; 20. a waste paper scrap compression box; 200. a base frame; 201. a discharge port; 202. a plate groove; 203. a door is squeezed; 2030. a clamping and connecting rod; 20300. a card slot; 2031. rotating the lock lever; 20310. a lock head; 204. a docking rod; 2040. locking the groove; 205. a rotating plate; 206. blocking strips; 2060. twisting a handle; 207. a limiting hook; 21. a compression assembly; 210. a hydraulic cylinder; 211. a support frame; 212. a pressing plate; 213. an elastic pressure plate; 214. a guide bar; 215. a buffer spring; 22. a striker plate; 220. a limiting rotating plate; 2200. rotating the handle; 23. a drip pipe; 230. a water delivery nozzle; 24. a pressure bearing plate; 240. a groove; 241. a drive rack; 25. a plate drawing motor; 26. a transmission gear; 260. a bearing seat; 261. a synchronizing shaft; 27. a discharge conveyer belt; 28. a guide bracket; 3. a scrap conveyor; 30. a material taking mechanism; 300. a base; 3000. hinging a lug; 301. a material taking arm; 302. a material taking claw; 31. a drive mechanism; 310. a mobile vehicle; 3100. a wheel; 3101. a connecting shaft; 3102. a rotating seat; 32. a first motor; 33. a second motor; 34. a third motor; 35. a fourth motor; 36. pushing and shoveling; 4. and a guide groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-11.

The embodiment of the application discloses a waste paper scrap environmental protection processing system. Referring to fig. 1, the environmental protection processing system for waste paper scraps comprises a waste paper scrap recovery device 1, a waste paper scrap conveying device 3 and a waste paper scrap compression processing device 2 from left to right in sequence, wherein the waste paper scrap recovery device 1 recovers and concentrates waste paper scraps cut off on a book page by a book page trimming device, then the waste paper scrap conveying device 3 is driven to extract waste paper scraps in the waste paper scrap recovery device 1 and convey the waste paper scraps to the waste paper scrap compression processing device 2, the waste paper scraps stacked to be fluffy are compressed and formed and finally led out through the waste paper scrap compression processing device 2, and the subsequent packaging, the transportation, the cyclic utilization and the like of operators are convenient to supply.

Referring to fig. 1 and 2, the waste paper scrap recycling device 1 comprises a waste paper scrap storage bin 10, a bin outlet 100 is formed in the side wall, facing the waste paper scrap conveying device 3, of the waste paper scrap storage bin 10, a hoisting assembly 18 is installed on the inner wall of the waste paper scrap storage bin 10 and above the bin outlet 100, the hoisting assembly 18 is integrally located in the middle of the bin outlet 100 in the horizontal direction, the hoisting assembly 18 comprises a hoisting motor 180 fixedly arranged on the inner wall of the waste paper scrap storage bin 10 through an installation plate, and an output shaft of the hoisting motor 180 is coaxially and fixedly connected with a winding roller 181, and the one end that wind-up roll 181 deviates from lifting by crane motor 180 rotates the inner wall of connecting waste paper bits and storing storehouse 10, and the winding has lifting rope 182 on the wind-up roll 181, and lifting rope 182 winds the one end fixedly connected with door 17 of wind-up roll 181, and the inner wall of waste paper bits and the both sides that are located the 100 horizontal directions in storehouse mouth are fixed with guide rail 183 relatively, and door 17 vertically slides between two guide rails 183.

Operating personnel drive lifts by crane motor 180 and reverses and drive wind-up roll 181 release lifting rope 182 to drive door 17 and descend and seal delivery opening 100, be favorable to reducing the leading-in wastepaper bits of wastepaper and store storehouse 10 and pile up the in-process and derive by delivery opening 100, make things convenient for the wastepaper bits to concentrate and pile up in wastepaper bits storage storehouse 10, when needing to draw the wastepaper bits of wastepaper bits storage storehouse 10 in, again drive lifts by crane motor 180 and drives wind-up roll 181 forward rotation rolling lifting rope 182, thereby lift door 17 fast in order to open delivery opening 100.

Referring to fig. 2 and 3, a dust filtering shell 13 is arranged in the waste paper scrap storage bin 10 opposite to the bin outlet 100, a support 15 is erected on the bottom surface of the dust filtering shell 13, the support 15 can be set to be four support legs which correspond to four corners of the bottom surface of the dust filtering shell 12 one by one, so as to erect the bottom of the dust filtering shell 13, a mounting seat 110 is horizontally fixed on the side wall of the dust filtering shell 13 away from the bin outlet 100, a collecting fan 11 is fixedly arranged on the top surface of the mounting seat 110, an extraction pipe 12 is connected with a suction end of the collecting fan 11, the extraction pipe 12 penetrates through the side wall of the waste paper scrap storage bin 10 and can respectively extend to each book page trimming device through a multi-way pipe to directly suck the generated waste paper scrap, a discharge end of the collecting fan 11 is communicated with the dust filtering shell 13, and a settling water tank 14 for separating and settling impurities such as dust in the waste paper scrap and the like, the bottom surface of the dust filter shell 13 is provided with a waste paper scrap outlet 130, a waste paper scrap conveyor belt 16 is arranged below the dust filter shell 13 relative to the waste paper scrap outlet 130, the conveying direction of the waste paper scrap conveyor belt 16 faces the bin outlet 100, and baffles 160 are oppositely fixed on two sides of the waste paper scrap conveyor belt 16 parallel to the conveying direction of the waste paper scrap conveyor belt.

Referring to fig. 3, the settling water tank 14 may be integrally formed with the dust-filtering shell 13, a partition plate 148 is fixed in parallel to one side of the collecting fan 11 in the dust-filtering shell 13, at this time, the waste paper scrap outlet 130 is located at one side of the partition plate 148 close to the collecting fan 11, a water storage cavity of the settling water tank 14 is formed by inner walls of the partition plate 148 and the dust-filtering shell 13 away from the waste paper scrap outlet 130, the partition plate 148 is lower than a discharge end of the collecting fan 11, a dust drop port 140 is formed on a top surface of the settling water tank 14, a dust filter screen 141 covers the dust drop port 140 of the settling water tank 14, the dust filter screen 141 is obliquely connected to a top end of the partition plate 148 from an upper left corner inside the settling water tank 14, and at this time, an oblique guide surface 1410 inclined toward the waste paper scrap outlet 130.

Referring to fig. 3 and 4, a cleaning opening 142 is formed in the front shell wall of the dust filter shell 13 and located at the upper portion of the water storage cavity of the settling water tank 14, a closed door 143 is hinged to the cleaning opening 142, a drain pipe 144 is connected to the front shell wall of the dust filter shell 13 and located at the bottom of the water storage cavity of the settling water tank 14, a drain valve 145 is arranged on the drain pipe 144, a water replenishing pipe 147 is connected to the front shell wall of the dust filter shell 13 and located below the closed door 143, the water replenishing pipe 147 is communicated with the water storage cavity of the settling water tank 14, a water valve is arranged on the water replenishing pipe 147, an overflow pipe 146 is communicated with the front shell wall of the dust filter shell 13 on the left side of the water replenishing pipe 147, and the height of.

An operator guides water into the settling water tank 14 through the water replenishing pipe 147 in advance, the collection fan 11 is driven to extract waste paper scraps through the extraction pipe 12 and guide the waste paper scraps into the dust filter shell 13, the waste paper scraps are mixed with impurities such as dust and the like and blown towards the dust filter screen 141, the waste paper scraps are separated by the dust filter screen 141 and simultaneously the impurities such as the dust and the like pass through the dust filter screen 141 and are guided into the settling water tank 14, the impurities such as the dust and the like are settled in the stored water of the settling water tank 14, the waste paper scraps are guided by the inclined guide surface 1410 and guided out of the waste paper scrap guide outlet 130, meanwhile, the waste paper scrap conveyor belt 16 is driven to convey the waste paper scraps towards the side of the bin outlet 100, the waste paper scraps are prevented from being accumulated at the bottom of the dust filter shell 13, the baffle 160 limits the guide direction of the waste paper scraps guided out of the waste paper scrap guide outlet 130, and.

After the settling water tank 14 is used for a period of time, an operator can open the closing door 143 to scrape and clean accumulated impurities from the bottom of the settling water tank 14 through the cleaning port 142, and simultaneously open the drain valve 145 and discharge the impurities through the drain pipe 144.

When an operator introduces water into the settling tank 14 through the water replenishing pipe 147, the water level rises to the overflow pipe 146 and is discharged out of the settling tank 14, so that excessive water is prevented from being filled into the settling tank 14 and overflowing, and accumulated water in the settling tank 14 is prevented from contacting waste paper scraps.

Referring to fig. 2 and 3, the inner wall of storehouse 10 is stored to the wastepaper bits, it is provided with dust fall pipe 19 to be located between dust filter shell 13 and the delivery port 100, dust fall pipe 19 external water source arranges along the horizontal direction, dust fall pipe 19's arrangement direction perpendicular to wastepaper bits drive belt derives the wastepaper bits direction, and dust fall pipe 19's the pipe wall towards ground is provided with a plurality of water smoke shower nozzles along self extending direction, dust filter shell 13 derives the wastepaper bits in-process can drive outside water source and outwards spray water smoke by dust fall pipe 19 and its water smoke shower nozzle, the dust that dust filter shell 13 was blown off to the reducible part of water smoke, reduce the dust that the wastepaper bits stored in the storehouse 10 and fly upward.

Referring to fig. 1 and 5, the wastepaper scrap conveying device 3 comprises a driving mechanism 31 and a material taking mechanism 30 installed on the driving mechanism 31, wherein the driving mechanism 31 comprises a moving vehicle 310, four corners of the bottom surface of the moving vehicle 310 are respectively fixed with rotating seats 3102, each rotating seat 3102 is rotatably provided with a wheel 3100, every two of the four wheels 3100 are fixedly connected with a connecting shaft 3101 in a coaxial manner, a first driving part is fixed on the side wall of one rotating seat 3102 deviating from the corresponding wheel 3100, the first driving part is provided with a first motor 32, and the output end of the first motor 32 is fixedly connected with the corresponding wheel 3100 in a coaxial manner; the traveling carriage 310 performs a linear motion by driving the motor one 32 in forward and reverse directions.

Referring to fig. 5, the material taking mechanism 30 includes a base 300 rotatably connected to the center of the top surface of a moving vehicle 310, a pair of hinge lugs 3000 are rotatably connected between the pair of hinge lugs 3000, a second driving member is fixed to a side wall of one of the hinge lugs 3000 facing away from the material taking arm 301, the second driving member is a second motor 33, an output end of the second motor 33 is coaxially and fixedly connected to the rotation center of the material taking arm 301, a third driving member for driving the two material taking claws 302 to rotate oppositely or reversely is arranged on one end of the material taking arm 301 far away from the hinge lug 3000, the material taking claw 302 can be configured as a bucket type or a pinch plate type, etc. in this embodiment, the third driving member is arranged on the material taking arm 301, the third driving member is arranged as a third motor 34, an output end of the third motor 34 is coaxially and fixedly connected to the rotation center of the corresponding material taking claw 302, and a fourth driving member is fixed to the bottom surface of the moving vehicle 310, the driving part four is set as a motor four 35, and the output end of the motor four 35 is fixedly connected with the bottom end of the base 300 coaxially.

An operator starts a first motor 32 to drive the moving vehicle 310 to move into the waste paper scrap storage bin 10, a second motor 33 drives the material taking arm 301 and the material taking claw 302 to face the ground in the waste paper scrap storage bin 10, then a third motor 34 is started to drive the pair of material taking claws 302 to oppositely grab the waste paper scrap stacked on the ground, the first motor 32 is driven again to drive the moving vehicle 310 to move to the waste paper scrap compression treatment device 2, the third motor 34 opens the pair of material taking claws 302 relatively, so that the grabbed waste paper scrap is guided into the waste paper scrap compression treatment device 2 to be compressed, and a fourth motor 35 facilitates the operator to drive the base 300 to rotate to adjust the material taking and feeding directions of the material taking arm 301, and the waste paper scrap can be conveniently and quickly taken and compressed into blocks instead of manual work.

Referring to fig. 1, a guide groove 4 can be preset on the ground between the wastepaper compression treatment device 2 and the bin outlet 100 along a straight line, and wheels 3100 roll along the guide groove 4 to provide a guiding and limiting effect for the movement of the moving vehicle 310.

Referring to fig. 1 and 5, a push shovel 36 is fixed on the end face of the moving vehicle 310 facing one side of the bin outlet 100, the lower end of the push shovel 36 is close to the ground, an operator sets the moving vehicle 310 in advance to push the side of the push shovel 36 facing the bin outlet 100, when the moving vehicle 310 is driven to move towards the waste paper scrap storage bin 10, the push shovel 36 shovels and pushes the waste paper scrap loosely accumulated on the ground towards the bin outlet 100, which is beneficial to gathering the waste paper scrap loosely accumulated fast, and the material taking claw 302 is convenient to grab.

Referring to fig. 6 and 7, the wastepaper compression processing apparatus 2 includes a wastepaper compression box 20, in this embodiment, two wastepaper compression boxes 20 are provided as an example, a top surface opening of the wastepaper compression box 20, a compression assembly 21 is erected on top surfaces of the two wastepaper compression boxes 20, the compression assembly 21 includes a support frame 211 supported on two sides of the two wastepaper compression boxes 20 opposite to each other and transversely disposed on the top surface of the wastepaper compression box 20, two hydraulic cylinders 210 are fixed on top surfaces of the support frame 211, the two hydraulic cylinders 210 correspond to the top surface openings of the two wastepaper compression boxes 20 one by one, piston rods of the hydraulic cylinders 210 vertically penetrate through the support frame 211 and face the top surface opening of the wastepaper compression box 20, end portions of the piston rods of the hydraulic cylinders 210 are fixed with extrusion plates 212, and the extrusion plates 212 face inner bottom walls of the wastepaper compression boxes 20.

Referring to fig. 7, the left and right opposite side walls of the waste paper scrap compression box 20 are both provided with a discharge port 201, the discharge port 201 is hinged with a squeezing door 203, a locking component for locking the squeezing door 203 and the waste paper scrap compression box 20 is arranged between one side of the squeezing door 203 far away from the hinged end and the waste paper scrap compression box 20, after the squeezing door 203 is closed, when the squeezing plate 212 is pressed into the waste paper scrap compression box 20, the peripheral wall of the squeezing plate 212 is attached to the inner peripheral wall of the corresponding waste paper scrap compression box 20; operating personnel is with leading-in wastepaper bits compression case 20 of wastepaper bits, and drive pneumatic cylinder 210 drives stripper plate 212 and extrudes the wastepaper bits towards the bottom surface of wastepaper bits compression case 20 to compress into the piece fluffy accumulational wastepaper bits fast, open the collecting part and open extrusion door 203 and can derive the wastepaper bits that extrude into the piece, reduce the wastepaper bits and occupy-area space, make things convenient for operating personnel to pack and deposit, transport and cyclic utilization.

Referring to fig. 6 and 7, the locking part includes two clamping rods 2030 fixed on the side of the extrusion door 203 away from the scrap paper compression box 20 along the horizontal direction, the number of the clamping rods 2030 on the same extrusion door 203 may be multiple, in this embodiment, two clamping rods 2030 on the same extrusion door 203 are longitudinally and sequentially arranged, two butt rods 204 are longitudinally and sequentially fixed on the side wall of the scrap paper compression box 20 away from the hinged end of the extrusion door 203, the extending direction of the butt rods 204 is horizontally arranged, the two butt rods 204 are in one-to-one correspondence with the two clamping rods 2030, a clamping groove 20300 is formed at one end of the clamping rod 2030 away from the hinged end of the extrusion door 203, and when the extrusion door 203 is closed, the butt rods 204 are clamped with the clamping grooves 20300 of the corresponding clamping rods 2030.

Referring to fig. 8 and 9, a rotary lock rod 2031 is rotatably connected between two clamping rods 2030 on the same extrusion door 203, the upper end of the rotary lock rod 2031 penetrates into a clamping groove 20300 of the clamping rod 2030 positioned on the upper side, the lower end of the rotary lock rod 2031 penetrates into a clamping groove 20300 of the clamping rod 2030 positioned on the lower side, a lock head 20310 is radially fixed on the rod wall of the rotary lock rod 2031 positioned in the corresponding clamping groove 20300 along the rotary lock head 20300, a lock groove 2040 is provided on the side wall of the butt joint rod 204 facing the rotary lock rod 2031, after the extrusion door 203 is closed, the clamping rod 2030 is clamped with the corresponding butt joint rod 204 through the clamping groove 20300, and after the rotary lock rod 2031 is manually rotated, the lock head 20310 is clamped into the lock groove 2040 to further lock.

Referring to fig. 7 and 9, a rotating plate 205 is fixedly connected to a rod wall of the rotating lock rod 2031 between the two clamping bars 2030, an extending direction of the rotating plate 205 deviates from an extending direction of the lock head 20310, a barrier 206 is rotatably disposed on a side wall of the pressing door 203 between the two clamping bars 2030, the barrier 206 is L-shaped as a whole, one end of the barrier 206 vertically faces the pressing door 203 and is rotatably connected to the pressing door 203, a knob 2060 is fixed to a side of the other end of the barrier 206 facing away from the pressing door 203, the rotating plate 205 facilitates an operator to rapidly rotate the rotating lock rod 2031, after the pressing door 203 is closed, the operator twists the rotating plate 205 towards the pressing door 203 to make the rotating plate 205 drive the rotating lock rod 2031 to rotate to the corresponding lock head 20310 clamping groove 2040, at this time, the rotating plate 205 is close to the pressing door 203, the barrier is stopped at a side of the rotating plate 205 deviating from the pressing door 203 by the rotating barrier 206 through the knob 2060, thereby limiting the rotating plate 205 from moving towards a side of the pressing, further enhancing the stability of the locking head 20310 in snapping into the locking groove 2040 and squeezing the door 203 closed.

Referring to fig. 6 and 7, a striker plate 22 is hinged on the side of the paper scrap compression box 20 away from the front feeding side and above the corresponding extrusion door 203, the hinged end of the striker plate 22 is on the same side as the lower extrusion door 203, one side of the striker plate 22 away from the hinged end is rotatably connected with a limit rotating plate 220 on the side wall of the striker plate 22 away from the paper scrap compression box 20, a rotating handle 2200 for twisting the limit rotating plate 220 is fixed on the side of the limit rotating plate 220 away from the extrusion door 203, a limit hook 207 is arranged on the side of the paper scrap compression box 20 away from the hinged end of the striker plate 22, the limit hook 207 is integrally L-shaped, one end of the limit hook 207 is fixedly connected with the paper scrap compression box 20, a gap is formed between one side of the limit hook 207 facing the paper scrap compression box 20 and the paper scrap compression box 20, after the striker plate 22 is closed, an operator rotates the limit rotating plate 220 through the rotating handle 2200 to the gap between the limit hook 207 and the paper scrap compression box 20, thereby limiting the striker plate 22 from rotating open again, and the striker plate 22 is beneficial to preventing the wastepaper from being guided out from the back of the wastepaper compression box 20 when the wastepaper compression box 20 is fed with materials.

Referring to fig. 6 and 7, an elastic pressing plate 213 is disposed on the bottom surface of the pressing plate 212, guide rods 214 are respectively fixed to four corners of the top surface of the elastic pressing plate 213, the top ends of the guide rods 214 penetrate through the pressing plate 212, a buffer spring 215 is sleeved on a rod wall of the guide rods 214 between the pressing plate 212 and the elastic pressing plate 213, one end of the buffer spring 215 is fixedly connected to the bottom surface of the pressing plate 212, the other end of the buffer spring 215 is fixedly connected to the top surface of the elastic pressing plate 213, the horizontal plate surface area of the elastic pressing plate 213 is slightly larger than the area between the inner peripheral walls of the paper waste compressing box 20 when the pressing door 203 is closed, an operator drives the hydraulic cylinder 210 to drive the pressing plate 212 to press towards the bottom of the paper waste compressing box 20, the pressing plate 212 and the elastic pressing plate 213 cooperate to press the paper waste accumulated in the paper waste compressing box 20, the guide rods 214 provide a guiding effect for the pressing, meanwhile, the elastic pressing plate 213 can further abut against the inner wall of the waste paper scrap compression box 20 by means of elasticity of itself, so that the waste paper scrap can be prevented from escaping from the inner wall of the waste paper scrap compression box 20 by the elastic pressing plate 213 and the extrusion plate 212 in the process of extruding the waste paper scrap, and the extrusion rate of the waste paper scrap introduced into the waste paper scrap compression box 20 at a single time is improved.

Referring to fig. 6 and 7, a water dropping pipe 23 externally connected with a water source is arranged at the top end of the waste paper scrap compression box 20, the water dropping pipe 23 extends to the top end of the box wall at the other side along the material blocking plate 22 along the top end of the box wall at one side of the waste paper scrap compression box 20, the water dropping pipe 23 faces to one side of the opening of the top surface of the waste paper scrap compression box 20 and is provided with a plurality of water delivery nozzles 230 along the extending direction, the material blocking plate 22 is in a normally closed state, and the water dropping pipe 23 can be arranged at the top ends of the material blocking plate 22 and the waste paper scrap compression box 20 through; an operator guides the waste paper scraps into the waste paper scrap compression box 20, water drops towards the waste paper scrap compression box 20 through the water dropping pipe 23 and the water conveying nozzles 230, the water drops soak the waste paper scraps along the circumferential direction of the inner wall of the waste paper scrap compression box 20, and the amount of the fluffy waste paper scraps is reduced, so that the waste paper scraps are extended out of the outer side of the plate circumferential wall of the elastic pressing plate 213.

Referring to fig. 10 and 11, plate grooves 202 penetrate through two opposite side walls of the bottom of the waste paper scrap compression box 20, a bearing plate 24 is inserted between the plate grooves 202 of the waste paper scrap compression box 20, the bearing plate 24 in one waste paper scrap compression box 20 extends out of one side of the other waste paper scrap compression box 20, the waste paper scrap compression box 20 is positioned at the extending end of the bearing plate 24 and is relatively fixed with a guide bracket 28 for the bearing plate 24 to slide, the two guide brackets 28 correspond to two sides of the sliding direction of the bearing plate 24 one by one, a plurality of grooves 240 are formed in the opposite direction of the plate grooves 202 corresponding to the bottom surface of the bearing plate 24, the number of the grooves 240 can be set as multiple, in the embodiment of the application, two grooves 240 are taken as an example, the two grooves 240 are respectively close to two sides of the extending direction of the bearing plate 24, a transmission rack 241 is integrally formed in the grooves 240 along the extending direction of the self, teeth of the rack 241 do not extend, one of them wastepaper bits compression case 20 deviates from the outer wall of another wastepaper bits compression case 20, the below that is located the end that the bearing plate 24 stretches out is fixed with the drawer motor 25, the output of drawer motor 25 is with axle center fixedly connected with synchronizing shaft 261, it is with two drive gear 26 of axle center fixedly connected with on the synchronizing shaft 261, two drive gear 26 and two drive rack 241 one-to-one, and drive gear 26 meshes and corresponds drive rack 241, the outer wall of wastepaper bits compression case 20 is fixed with a plurality of bearing seat 260 along synchronizing shaft 261, synchronizing shaft 261 runs through bearing seat 260 and rotates with bearing seat 260 and is connected.

Referring to fig. 1 and 7, a base frame 200 is supported by the waste paper scrap compression box 20 below the bearing plate 24, the base frame 200 suspends the lower part of the bearing plate 24, a discharge conveyor belt 27 is arranged below the waste paper scrap compression box 20 below the bearing plate 24, and the conveying direction of the discharge conveyor belt 27 faces to one side of the waste paper scrap compression box 20 departing from the waste paper scrap storage bin 10.

After the piece is extruded to the waste paper bits in batches in waste paper bits compression case 20, the waste paper bits that extrude the piece are born by bearing plate 24, operating personnel opens extrusion door 203 below striker plate 22 in advance, then drive drawer motor 25 drives drive gear 26 and rotates, drive gear 26 meshes driving rack 241 and drives bearing plate 24 and derives by a curb plate groove 202, the waste paper bits that extrude the piece fall to ejection of compact conveyer belt 27 this moment, the waste paper bits after the compression can be derived fast to drive ejection of compact conveyer belt 27, be favorable to shaping waste paper bits to derive waste paper bits compression case 20 fast, make things convenient for operating personnel packing transportation etc..

The implementation principle of a waste paper scrap environmental protection processing system of the embodiment of the application is as follows: an operator presets the extraction end of an extraction pipe 12 at the working end of a page cutting and waste paper scrap guiding, connects the extraction pipe 12 with a collection fan 11, starts the collection fan 11 to extract the waste paper scrap and guides the waste paper scrap to be accumulated in a waste paper scrap storage bin 10 in the page cutting process, starts a first motor 32 to drive a moving vehicle 310 to enter the waste paper scrap storage bin 10, drives a base 300 to match with a second driving motor 33, a third driving motor 34 and a fourth driving motor 35 to match with a material taking arm 301 and a material taking claw 302 to extract part of waste paper scrap to be compressed, then starts the first motor 32 to drive the moving vehicle 310 to move to the outer side of a waste paper scrap compression box 20, and feeds the extracted part of waste paper scrap into the waste paper scrap compression box 20 by matching with the second driving motor 33, the third driving motor 34 and the fourth driving motor 35, when the waste paper scrap accumulation height is higher than the height of a squeezing door 203, drips a part of water in the waste paper scrap compression box 20 to moisten the periphery of the, then the driving hydraulic cylinder 210 drives the extrusion plate 212 and the elastic pressing plate 213 to extrude the waste paper scraps, the extrusion door 203 on one side of the waste paper scrap compression box 20 departing from the waste paper scrap storage bin 10 is opened, the driving plate-drawing motor 25 drives the transmission gear 26 to draw out the bearing plate 24, the extruded waste paper scraps fall on the discharging conveyer belt 27, and the discharging conveyer belt 27 is driven to rapidly guide out the formed waste paper scraps.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a wastepaper bits environmental protection processing system which characterized in that: the waste paper scrap recovery device comprises a waste paper scrap recovery device (1) and a waste paper scrap compression treatment device (2), wherein a waste paper scrap conveying device (3) used for leading waste paper scraps to be compressed to the waste paper scrap compression treatment device (2) from the waste paper scrap recovery device (1) is arranged between the waste paper scrap recovery device (1) and the waste paper scrap compression treatment device (2);

the waste paper scrap recovery device (1) comprises a waste paper scrap storage bin (10), a collection fan (11) is arranged in the waste paper scrap storage bin (10), and the collection fan (11) is connected with an extraction pipe (12) for absorbing waste paper scrap;

the waste paper scrap compression treatment device (2) comprises a waste paper scrap compression box (20), and a compression assembly (21) for compressing waste paper scrap is erected on the waste paper scrap compression box (20);

the waste paper scrap conveying device (3) comprises a material taking mechanism (30) used for extracting waste paper scraps to be compressed and a driving mechanism (31) used for driving the material taking mechanism (30) to reciprocate between the waste paper scrap storage bin (10) and the waste paper scrap compression box (20).

2. The environment-friendly wastepaper disposal system according to claim 1, wherein: the dust collecting device is characterized in that the discharge end of the collecting fan (11) is connected with a dust filtering shell (13), a settling water tank (14) is arranged in the dust filtering shell (13), the settling water tank (14) faces the discharge end of the collecting fan (11) and is provided with a dust falling port (140), a dust filtering net (141) is arranged on the settling water tank (14) and is positioned above the dust falling port (140), the bottom of the dust filtering shell (13) is provided with a waste paper scrap leading-out port (130), and the dust filtering net (141) is provided with an inclined guide surface (1410) which inclines towards the waste paper scrap leading-out port (130);

the bottom of dust filter shell (13) supports has support (15), just the bottom surface of dust filter shell (13) is provided with and is used for accepting the wastepaper bits that wastepaper bits export (130) was derived and derives the wastepaper bits conveyer belt (16) of dust filter shell (13) bottom.

3. The environment-friendly wastepaper disposal system according to claim 2, wherein: a cleaning opening (142) is formed in the side wall of the settling water tank (14), a sealing door (143) is arranged on the cleaning opening (142), a drain pipe (144) is connected to the bottom of the settling water tank (14), and a drain valve (145) is arranged on the drain pipe (144);

the top of the settling water tank (14) is connected with an overflow pipe (146), and the connecting end of the overflow pipe (146) and the settling water tank (14) is positioned below the dust falling port (140).

4. The environment-friendly wastepaper disposal system according to claim 2, wherein: the outer wall orientation of storehouse (10) is stored to the wastepaper bits the bin outlet (100) has been seted up in wastepaper bits compression case (20), just the inner wall that the storehouse (10) was stored to the wastepaper bits is located bin outlet (100) top is provided with door (17), just be provided with on the wastepaper bits storage storehouse (10) and be used for the drive the subassembly (18) that lifts by crane that door (17) opened and close.

5. The environment-friendly wastepaper disposal system according to claim 1, wherein: the driving mechanism (31) comprises a moving vehicle (310), wheels (3100) are rotatably arranged on the bottom surface of the moving vehicle (310), and a first driving part for driving the wheels (3100) to rotate is arranged on the moving vehicle (310);

the material taking mechanism (30) comprises a base (300) arranged on the top surface of the moving vehicle (310), a material taking arm (301) is arranged on the base (300) in a rotating mode, a material taking claw (302) is arranged on the material taking arm (301) in a relatively rotating mode, a driving part II used for driving the material taking arm (301) and the two material taking claws (302) to rotate towards the ground is arranged on the base (300), and a driving part III used for driving the two material taking claws (302) to grab waste paper scraps relatively is arranged on the material taking arm (301);

the moving vehicle (310) is provided with a driving part IV for driving the base (300) to rotate along the circumferential direction.

6. The environment-friendly wastepaper disposal system according to claim 5, wherein: and a push shovel (36) used for pushing waste paper scraps towards the bin outlet (100) is arranged on one side of the moving vehicle (310) in the moving direction of the moving vehicle.

7. The environment-friendly wastepaper disposal system according to any one of claims 1 to 6, wherein: the top surface of the waste paper scrap compression box (20) is open, the compression assembly (21) comprises a hydraulic cylinder (210) erected on the top surface of the waste paper scrap compression box (20), a piston rod of the hydraulic cylinder (210) vertically faces the top surface opening of the waste paper scrap compression box (20), a squeezing plate (212) is fixed at the end part of the piston rod of the hydraulic cylinder (210), and the squeezing plate (212) faces the inner bottom wall of the waste paper scrap compression box (20);

discharge gate (201) have been seted up to the lateral wall of wastepaper bits compression case (20), just it has extrusion door (203) to articulate on discharge gate (201), be provided with on extrusion door (203) and be used for the lock to connect extrusion door (203) with the locking part of wastepaper bits compression case (20).

8. The environment-friendly wastepaper disposal system of claim 7, wherein: an elastic pressing plate (213) is arranged on the surface of the extrusion plate (212) facing the inner bottom wall of the wastepaper compression box (20), a plurality of guide rods (214) are fixed on the surface of the elastic pressing plate (213) facing the extrusion plate (212), the guide rods (214) penetrate through the extrusion plate (212), a buffer spring (215) is sleeved on the rod wall of the guide rods (214) between the extrusion plate (212) and the elastic pressing plate (213), one end of the buffer spring (215) is fixedly connected with the extrusion plate (212), and the other end of the buffer spring is fixedly connected with the elastic pressing plate (213);

when a piston rod of the hydraulic cylinder (210) extends, the peripheral walls of the elastic pressing plate (213) abut against the inner side wall of the waste paper scrap compression box (20).

9. The environment-friendly wastepaper disposal system of claim 7, wherein: the waste paper scrap compression box is characterized in that the top surface of the waste paper scrap compression box (20) is located at the opening end of the waste paper scrap compression box, a water dripping pipe (23) externally connected with a water source is arranged at the opening end of the waste paper scrap compression box, and a plurality of water conveying nozzles (230) used for facing the water dripping in the waste paper scrap compression box (20) are arranged on the water dripping pipe (23).

10. The environment-friendly wastepaper disposal system of claim 7, wherein: the waste paper scrap compression box comprises a waste paper scrap compression box (20), plate grooves (202) are oppositely penetrated through two opposite side walls of the bottom of the waste paper scrap compression box (20), a bearing plate (24) is inserted between a pair of the plate grooves (202), one end, facing one plate groove (202), of the bearing plate (24) extends out of the waste paper scrap compression box (20), a groove (240) is formed in the bottom surface of the bearing plate (24) along the opposite direction of the pair of the plate grooves (202), a transmission rack (241) is arranged in the groove (240) along the extending direction of the groove, a drawing motor (25) is arranged below the extending end of the bearing plate (24) on the outer wall of the waste paper scrap compression box (20), a transmission gear (26) is fixedly connected with the same axis of the output end of the drawing motor (25), and the transmission gear (26) is meshed with the transmission rack (241);

the bottom surface of the waste paper scrap compression box (20) supports a base frame (200), a discharge conveyor belt (27) used for bearing waste paper scraps guided down on the bearing plate (24) is arranged below the waste paper scrap compression box (20), and the conveying direction of the discharge conveyor belt (27) faces to the discharge hole (201).

Images