CN111890598A

CN111890598A - Be used for kibbling recovery processing equipment of express delivery disposal bag clearance

Info

Publication number: CN111890598A
Application number: CN202010772035.2A
Authority: CN
Inventors: 朱立业
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2020-11-06

Abstract

The invention discloses a recovery processing device for cleaning and crushing express garbage bags, which comprises a separating cylinder and a rotary cylinder, wherein the separating cylinder is used for separating garbage bags and surface attachments of the garbage bags, the rotary cylinder is used for carrying out centrifugal rotation in the separating cylinder, a decontamination pool and a clean water pool for decontaminating and cleaning the garbage bags are arranged on one side of the separating cylinder side by side, a crushing tank is arranged on one side of the clean water pool, and a large crushing roller and a small crushing roller which can crush the garbage bags into fragments are symmetrically arranged on the upper layer and the lower layer in the crushing tank respectively. According to the invention, the express delivery garbage bag which is filled with attachments such as oil stains and the like is centrifugally moved through the arranged separating cylinder, so that the attachments such as the oil stains and the like on the surface of the express delivery garbage bag are thrown away, and subsequent cleaning and decontamination are facilitated.

Description

Be used for kibbling recovery processing equipment of express delivery disposal bag clearance

Technical Field

The invention relates to the technical field of garbage bag treatment, in particular to a recovery treatment device for cleaning and crushing express garbage bags.

Background

In recent years, with the development of the e-commerce industry, express delivery business is rapidly moved across the whole country. The express delivery can be carried out only when the toy and the snack are small and the furniture and the electric appliance are large and the package is sealed by a plastic bag. People directly throw away the wrapping bag of express delivery in the garbage bin after getting back the express delivery. Because the disposal bag is recoverable, nevertheless the disposal bag can be stained with domestic waste such as greasy dirt in the garbage bin, and it can smash the recovery only need clean up, mixes into plastic materials again and is injected the mould by the injection gun melting of injection molding machine into the shaping plastic products, and current is mostly through washing scrubbing to express delivery disposal bag, and its method is too single, and scrubbing ability is limited.

Disclosure of Invention

The invention aims to provide a recovery processing device for cleaning and crushing express delivery garbage bags, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides a recycling treatment device for cleaning and crushing express garbage bags, which comprises a separating cylinder for separating garbage bags from surface attachments of the garbage bags and a cylinder cover hinged to one side of the top of the separating cylinder, wherein bearing seats capable of supporting the garbage bags to turn back and forth are symmetrically arranged on the left and right below the separating cylinder, a forward and reverse rotating motor for driving the separating cylinder to rotate is arranged on one side of the top of the bearing seats, a rotating cylinder for centrifugally rotating the garbage bags and the surface attachments of the garbage bags is arranged in the separating cylinder, a material leaking port in a conical shell structure is arranged at the bottom of the separating cylinder, supporting blocks in a semicircular structure are vertically welded on the left side and the right side of the material leaking port, a vertically placed rotating column is welded on the bottommost part of the supporting blocks and positioned on the outer side of the supporting cylinder, a triangular platform is arranged in the middle of the top of the bearing seats, and a lantern ring sleeved, an output shaft of the forward and reverse rotating motor is coaxially connected with one of the rotating columns, the bottom surface of the rotating drum is annular and is provided with a plurality of waste residue ports at equal intervals, the outer side of the bottom of the rotating drum is tightly sleeved with a transmission ring, a plurality of conical teeth are vertically arranged at equal intervals on the outer side of the transmission ring, a speed reducing motor for driving the rotating drum to rotate is arranged on the outer side of the bottom of the separating drum, a transmission wheel is tightly sleeved on the outer side of the output shaft of the speed reducing motor, and a plurality of tooth-shaped grooves meshed with the conical teeth are arranged at equal intervals on the outer side;

the device comprises a separation barrel, a decontamination tank and a clean water tank which are arranged on one side of the separation barrel side by side and have the same structural size, a pair of liftable suspension frames is arranged above the decontamination tank, an oil cylinder which provides lifting force for the suspension frames is vertically arranged in the middle of the front side and the rear side of the decontamination tank, a plurality of containing barrels are arranged between the two suspension frames, aeration branch pipes used for releasing gas are arranged in the bottom layer of the decontamination tank, fixing sleeves with circular ring structures are vertically fixed at the front and rear corners of the top of the decontamination tank, guide pillars which are inserted into the fixing sleeves and slide are vertically welded at the same side of the two ends of the suspension frames, ejector blocks are welded at the middle part of the suspension frames and the same side of the guide pillars, the top end of a piston rod arranged in the oil cylinder is contacted with the ejector blocks, a plurality of water inlet holes with different sizes are annularly formed in the bottom surfaces of the containing barrels, one end of each aeration branch pipe is sealed, one end of the aeration main pipe is closed, and the other end of the aeration main pipe is provided with an aerator;

the device is characterized in that a crushing tank with a transverse circular column structure is arranged on one side of the clean water tank, a square opening is formed in the center line of the top of the crushing tank, a filling opening is welded at the edge of the square opening, two ends of the crushing tank are fixedly connected with tank covers through bolts, large crushing rollers are symmetrically arranged on the upper half layer of the inner part of the crushing tank, the outer side of each large crushing roller is annular, a plurality of large cutters are arranged at equal intervals along the central axis direction of the large crushing roller, the outer side of each large crushing roller is staggered and meshed with a plurality of large cutters, the same end of each large crushing roller is coaxially connected with a large motor arranged on the outer end face of the tank cover, small crushing rollers are symmetrically arranged on the lower half layer of the inner part of the crushing tank, the outer side of each small crushing roller is annular, a plurality of small cutters are arranged at equal intervals along the central axis direction of the small crushing roller, the same end of each of the two small crushing rollers is coaxially connected with a small motor which is installed on the outer end face of the tank cover, the bottom of the crushing tank is provided with a rectangular discharge opening, and a sealing cover is clamped below the discharge opening.

As a further improvement of this technical scheme, the outside of drain hole is provided with the center welding of carousel and the carousel that is the ring structure has the rotary column, and the rotary column runs through extremely the inside of drain hole and peg graft have with the inside piece with the diameter of drain hole, the top surface of triangular table is the circular arc concave surface, two the inboard front end face welding that just is close to rear end department welding of bearing seat has square slab and square slab has the stock guide that is the circular arc slab structure, the stock guide is located under the drain hole and its front end downward sloping.

As a further improvement of the technical scheme, an opening is formed in one side of the bottom of the rotary drum and at the same horizontal position with the transmission ring, the transmission wheel penetrates through the opening and is arranged in the rotary drum, and an iron block is welded on the inner side of the top of the separation drum and at the top end of the rotary drum.

As a further improvement of the technical scheme, the outer diameter of the rotary drum is smaller than the inner diameter of the separation barrel, the top and the middle outer side of the rotary drum are tightly sleeved with the ferrules, the outer diameter of each ferrule is smaller than the inner diameter of the separation barrel, a plurality of grooves in U-shaped structures are vertically arranged on the outer side surfaces of the ferrules at equal intervals, the inner parts of the grooves are inserted with the rollers through pins, and the rollers are in rolling connection with the inner wall of the separation barrel.

As a further improvement of the technical scheme, the decontamination pond with the clean water basin adopts cement to build a cuboid structure, the decontamination pond with the inside of clean water basin is hollow structure and top end opening, the decontamination pond with a corner is installed to the preceding terminal surface bottom of clean water basin, the stagnant water valve is installed at the top of drain.

As a further improvement of this technical scheme, the scrubbing pond with the inside symmetry of bottom in clean water basin is equipped with the pipe passageway, the pipe passageway runs through the scrubbing pond with a side of clean water basin and with the cooperation of pegging graft is in charge of in the aeration, the scrubbing pond with the bottom surface in clean water basin just is located set up directly over the pipe passageway rather than a plurality of through-holes that are linked together, the top of aeration is in charge of peg graft have with a plurality of stand pipes that the through-hole corresponds the grafting.

As a further improvement of the technical scheme, arc grooves are symmetrically formed in the top surface of the suspension frame at equal intervals, the central axis of each arc groove is parallel to the width direction of the suspension frame, lifting rods which are of cylindrical structures penetrate through the top of the containing barrel symmetrically, the lifting rods are in clamping fit with the arc grooves, and the bottom of the containing barrel is in splicing fit with the guide pipes along a pair of radial water inlet holes.

As a further improvement of this technical scheme, hold highly being less than of bucket the scrubbing pond with the inside degree of depth in clean water basin, the scrubbing pond with the clean water basin is close to and has placed between the one end and be square box-shaped header box mutually, the both sides middle part welding of header box have iron plate and iron plate overlap joint in the scrubbing pond with the top surface in clean water basin, the scrubbing pond with the rear in clean water basin is installed and is done the hydraulic pressure station that the hydro-cylinder provides power, the hydro-cylinder with hydraulic pressure station passes through oil pipe and is connected with their output and input cooperation.

As a further improvement of this technical scheme, the top port size of sprue is greater than its bottom port size, the top port length of sprue is greater than the diameter of holding the bucket, the sprue is located two smash the roller bite line directly over greatly, two the bite line of little crushing roller is located two smash roller bite line under greatly, two turning to of big motor is opposite and relative rotation, two turning to of little motor is opposite and relative rotation.

As a further improvement of the technical scheme, the hinge seat that is the ring structure is welded to one side symmetry at the both ends corner of discharge opening, the size of sealed lid is greater than the size of discharge opening, the both ends homonymy corner symmetry welding of sealed lid have with the projection of hinge seat grafting and rotation, the middle part of sealed lid be equipped with the sealed platform of discharge opening joint, the middle part top symmetry welding that just is located the discharge opening in the bottom of crushing jar has the stop collar, the welding of the articulated side middle part of sealed lid has the stopper, the stopper with the inserted bar has all been pegged graft in the hole of stop collar.

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

1. this be arranged in kibbling recovery processing equipment of express delivery disposal bag clearance, the cylinder will be arranged in through the setting and carry out centrifugal motion with the express delivery disposal bag that is stained with attachments such as greasy dirt, makes attachments such as the greasy dirt on its surface thrown away, and then falls into the cylinder bottom and is collected to make the disposal bag surface clean, do benefit to subsequent washing scrubbing.

2. In this be arranged in kibbling recovery processing equipment of express delivery disposal bag clearance, can overturn through the separator cylinder that sets up and empty, do benefit to and get put the disposal bag and shift.

3. This be arranged in kibbling recovery processing equipment of express delivery disposal bag clearance, through the scrubbing pond that sets up, put into soapy water and soak the disposal bag in its inside, make its surface greasy dirt decompose fast and scatter, further make the disposal bag clean.

4. This be arranged in kibbling recovery processing equipment of express delivery disposal bag clearance, soak through the clean water basin that sets up and wash the disposal bag after the scrubbing, make it if brand-new general, do benefit to the direct use after follow-up smashing.

5. In the recovery processing equipment for cleaning and crushing express garbage bags, the garbage bags after being cleaned are thoroughly crushed into fragments by the arranged crushing tank, so that the garbage bags are favorably mixed into plastic raw materials for recycling, and resources and cost are saved.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

FIG. 2 is a schematic view showing a structure of a separation cylinder in a tilted state in embodiment 1;

FIG. 3 is a schematic view of the structure of the separation cylinder in example 1;

FIG. 4 is a schematic structural view of the load bearing seat according to embodiment 1;

FIG. 5 is one of the schematic views of the drum assembling structure of embodiment 1;

FIG. 6 is a second schematic view of the drum assembly of embodiment 1;

FIG. 7 is a schematic view of the structure of a drum according to example 1;

FIG. 8 is a partial structural view of a ferrule according to example 1;

FIG. 9 is a schematic view showing the arrangement of the dirt removing pond and the clean water pond according to example 1;

FIG. 10 is a schematic view showing the structure of the decontamination tank in example 1;

FIG. 11 is a partial sectional view of the decontamination tank of example 1;

FIG. 12 is a schematic view of the structure of the suspension according to embodiment 1;

fig. 13 is a schematic view of the structure of the tub of embodiment 1;

fig. 14 is a schematic view of an aerator mounting structure according to example 1;

FIG. 15 is a schematic view of the water collecting box according to embodiment 1;

FIG. 16 is a schematic view of the constitution of a crushing tank of example 1;

FIG. 17 is a schematic view showing the internal structure of a crush can in example 1;

FIG. 18 is a schematic view showing the arrangement of the large pulverizing rollers and the small pulverizing rollers of example 1;

FIG. 19 is one of the schematic views of the bottom structure of the crushing tank of example 1;

FIG. 20 is a second schematic view of the bottom structure of the crushing tank of example 1;

fig. 21 is a schematic structural view of the sealing cover of example 1.

The various reference numbers in the figures mean:

100. a separation cylinder; 101. a material leakage port; 102. a support block; 103. turning the column; 110. a cylinder cover;

120. a load bearing seat; 121. a triangular table; 122. a collar; 123. a material guide plate; 130. forward and reverse rotation motor

140. A rotating drum; 1400. a waste residue port; 1401. an opening; 141. a drive ring; 142. a tapered tooth; 143. a reduction motor; 144. a driving wheel; 145. a toothed groove; 146. a ferrule; 1460. a groove; 1461. a roller;

200. a decontamination tank; 201. fixing a sleeve; 202. a tube passageway; 203. a through hole; 204. a sewage draining outlet;

210. a suspension frame; 211. an arc groove; 212. a top block; 213. a guide post;

220. an oil cylinder; 230. a containing barrel; 231. a water inlet hole; 232. lifting the rod;

240. a hydraulic station; 250. an aerator; 251. an aeration main pipe; 252. carrying out aeration pipe division; 253. a guide tube; 260. a water collection box;

300. a clean water tank;

400. a grinding tank; 401. a material injection port; 402. a discharge opening; 403. hinging seat; 404. a limiting sleeve; 405. inserting a rod;

410. a can lid; 420. a large motor; 430. a small motor;

440. a large crushing roller; 441. a large cutter; 450. a small crushing roller; 451. a small cutter; 460. a sealing cover; 461. a sealing table; 462. and a limiting block.

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.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 8, the present invention provides a recycling apparatus for cleaning and crushing express garbage bags, which includes a separating drum 100 for separating garbage bags and surface attachments thereof, and a drum cover 110 hinged to one side of the top thereof. The bearing seats 120 which are made of iron plates and fixed on the cement ground through bolts are symmetrically arranged below the separating cylinder 100 in a left-right manner to support the separating cylinder 100 to turn back and forth, so that the separating cylinder can stably support the work of the separating cylinder 100. A forward and reverse rotation motor 130 for driving the separating drum 100 to rotate is installed on one side of the top of the bearing seat 120, which is a conventional technology in the prior art and is not described in detail in the present invention. The separating cylinder 100 is internally provided with a rotating cylinder 140 which carries out centrifugal rotation on the garbage bag and the surface attachments thereof, so that the garbage bag and the surface attachments thereof are separated by centrifugal motion, and the surface of the garbage bag can be rapidly and cleanly treated. The bottom of the separating cylinder 100 is provided with a material leaking opening 101 in a conical shell structure, which is beneficial to the concentration and sliding of attachments. The vertical welding in the left and right sides of drain hole 101 has the supporting shoe 102 that is semi-circular structure, and the welding of the bottommost of supporting shoe 102 and be located its lateral surface has the rotary column 103 that is perpendicular placing, and the structure of supporting shoe 103 does benefit to when separating cylinder 100 rotates around rotary column 103 axis, reduces the region of interfering. The top middle part of bearing seat 120 is equipped with triangle platform 121, and the perpendicular welding in top outside of triangle platform 121 has the lantern ring 122 that cup joints with rotary column 103 for separating cylinder 100 stably rotates on bearing seat 120. An output shaft of the forward and reverse rotation motor 130 is coaxially connected with one of the rotary columns 103, and the forward and reverse rotation motor 130 drives the rotary column 103 to rotate in the lantern ring 122, so as to drive the separation cylinder 100 to rotate. The bottom surface of the rotary drum 140 is annular and is provided with a plurality of waste residue openings 1400 at equal intervals, and the shape of the waste residue openings 1400 cannot be arranged into an opening shape with a cuboid structure, so that a garbage bag is prevented from passing through. After the rotation of the rotary drum 140 is stopped, the heavy adhering matters such as waste slag fall from the waste slag port 1400 into the drain port 101 of the separation drum 100 and slide down. The outer side of the bottom of the rotating drum 140 is tightly sleeved with the transmission ring 141 and welded, so that the transmission ring 141 and the rotating drum 140 are connected into a whole and can rotate synchronously. A plurality of conical teeth 142 are vertically and equally spaced on the outer side of the transmission ring 141, and a speed reduction motor 143 for driving the rotary drum 140 to rotate is installed on the outer side of the bottom of the separation drum 100, which is the conventional technology in the prior art and is not described in detail in the present invention. The outer side of the output shaft of the speed reducing motor 143 is tightly sleeved with a transmission wheel 144, a plurality of tooth-shaped grooves 145 meshed with the conical teeth 142 are formed in the outer side of the transmission wheel 144 at equal intervals, the transmission wheel 144 is driven to rotate through the work of the speed reducing motor 143, the transmission ring 141 is driven to rotate, and then the rotary drum 140 is driven to rotate, so that the garbage bags in the rotary drum and the attachments on the surface of the garbage bags are separated through centrifugal motion.

Specifically, the outside of drain hole 101 is provided with the center welding that is the carousel and the carousel of ring structure has the rotary column, and the rotary column runs through to the inside of drain hole 101 and pegs graft have with the inside same diameter's of drain hole 101 the disk, through rotating the carousel drive disk by the level turn to vertical, alright make drain hole 101 release disposal bag surface attachment. The top surface of the triangular table 121 is a circular arc concave surface, so that the triangular table is attached to the rotating column 103, and the supporting area is increased. The guide plate 123 with the arc plate structure is welded on the inner sides of the two bearing seats 120 and on the front end face close to the rear end, the square plate is welded on the inner sides of the two bearing seats, the guide plate 123 is located under the material leakage port 101, the front end of the guide plate inclines downwards, and the guide plate structure is favorable for containing garbage bag surface attachments falling from the material leakage port 101.

Specifically, an opening 1401 is formed on one side of the bottom of the drum 140 and is at the same level with the transmission ring 141, the transmission wheel 144 passes through the opening 1401 and is placed inside the drum 140, and the opening 1401 is arranged to enable the transmission wheel 144 and the transmission ring 141 to be in contact and transmit motion. An iron block is welded at the top end of the rotating drum 140 on the inner side of the top of the separating drum 100 and used for limiting the rotating drum 140 and ensuring that the rotating drum does not slip off when rotating in the separating drum 100.

Further, the external diameter of rotary drum 140 is less than the internal diameter of a separation barrel 100, the top and the middle part outside of rotary drum 140 all closely cup joint lasso 146, the external diameter of lasso 146 is less than the internal diameter of a separation barrel 100, the vertical equidistant recess 1460 of a plurality of U type structures of seting up of lateral surface of lasso 146, the inside of recess 1460 is pegged graft through the pin and is had roller 1461, roller 1461 and the inner wall roll connection of a separation barrel 100, when rotary drum 140 is rotatory, roller 1461 can laminate and roll at a separation barrel 100 inner wall, thereby when guaranteeing that rotary drum 140 is rotatory, its top no longer rocks, avoid bumping with a separation barrel 100 and touch the noise production.

When the express garbage bag is preliminarily cleaned, the forward and reverse rotation motor 130 is started to rotate forward, when the separation cylinder 100 is driven to rotate and tilt forward by 45 degrees, the forward and reverse rotation motor 130 is stopped to work, at this time, the transported express garbage bag can be poured into the rotary cylinder 140 until the express garbage bag is filled, the forward and reverse rotation motor 130 is started to rotate reversely, the separation cylinder 100 is driven to rotate until the express garbage bag is reset, and the forward and reverse rotation motor 130 is stopped to work, then the upper cover 110 is closed and locked, and the speed reducing motor 143 is started to work, and the driving wheel 144 is driven to drive the rotating drum 140 to rotate, so that the garbage bag and the surface attachments inside the rotating drum do centrifugal motion, and then the separation is rapid and thorough, after the separation is thorough, the work of the speed reducing motor 143 is stopped, the material leakage opening 101 is opened at the moment, and the separated attachments fall into the material leakage opening 101 through the waste residue opening 1400 and fall onto the material guide plate 123 again to slide down along the material guide plate to be collected in the garbage can.

As shown in fig. 9 to 15, a decontamination basin 200 and a clean water basin 300 with the same structure and size are arranged side by side on one side of the separation cylinder 100, the decontamination basin 200 is filled with soapy water for decomposing and removing the greasy dirt of the garbage bags, and the clean water basin 300 is filled with clean water for cleaning the decontaminated garbage bags. A pair of liftable suspension frames 210 is installed above the decontamination pool 200, and an oil cylinder 220 for providing a lifting force for the suspension frames 210 is vertically installed in the middle of the front side and the rear side of the decontamination pool 200, which is the conventional technology and is not described in detail in the present invention. A plurality of buckets 230 are disposed between the two suspension frames 210 for containing garbage bags after centrifugal separation. An aeration branch pipe 252 for releasing gas is arranged in the bottom layer of the decontamination tank 200 and is used for stirring the soap water and the clean water in the tank, so that the garbage bag in the containing barrel 230 is fully contacted with the soap water and the clean water, and decontamination and cleaning effects are achieved. The corner vertically is fixed with the fixed cover 201 that is the ring structure around the top of scrubbing pond 200, and the both ends of suspension 210 have with the vertical welding of the side department have with fixed cover 201 grafting and gliding guide pillar 213, guarantee that suspension 210 steadily takes and hold the bucket 230 lift. The middle part of the suspension frame 210 and the same side part of the guide column 213 are welded with the top block 212, the top end of a piston rod arranged in the oil cylinder 220 is contacted with the top block 212, and the piston rod of the oil cylinder 220 is jacked to the top block 212, so that the suspension frame 210 is jacked to move and ascend. The bottom surface of the containing barrel 230 is annularly provided with a plurality of water inlet holes 231 with different sizes, so that the liquid in the tank can be favorably infiltrated. One end of the aeration branch pipe 252 is closed, the other end of the aeration branch pipe 252 is inserted into the aeration main pipe 251, one end of the aeration main pipe 251 is closed, the other end of the aeration main pipe 251 is provided with the aerator 250, and the aerator 250 needs to be higher than the top surfaces of the decontamination tank 200 and the clean water tank 300, so that the liquid in the tank is prevented from being poured into the aerator 250. The aerator 250 is used for generating air flow, discharging the air flow through the aeration header pipe 251, and generating air bubbles when introducing liquid to stir the liquid flow, which is the conventional technology in the prior art and is not described in detail in the present invention.

Specifically, scrubbing pond 200 and clean water basin 300 adopt cement to build by laying bricks or stones into rectangular solid structure, and the inside of scrubbing pond 200 and clean water basin 300 is hollow structure and top end opening, and drain 204 is installed to a corner in the preceding terminal surface bottom of scrubbing pond 200 and clean water basin 300, and the stagnant water valve is installed at the top of drain 204, opens the liquid in stagnant water valve alright release pond, changes.

Specifically, the inside symmetry of the bottom of scrubbing pond 200 and clean water basin 300 is equipped with pipe passageway 202, pipe passageway 202 runs through one side of scrubbing pond 200 and clean water basin 300 and divides the pipe 252 cooperation of pegging graft with the aeration, the bottom surface of scrubbing pond 200 and clean water basin 300 just is located pipe passageway 202 and offers a plurality of through-holes 203 rather than being linked together, the top of aeration divides the pipe 252 to peg graft has a plurality of stand pipes 253 of pegging graft with through-hole 203 correspondence, let in the pond with the air current through stand pipe 253, need sealed treatment between through-hole 203 and the stand pipe 253, avoid liquid inflow pipe passageway 202 in the pond and ooze.

Further, arc groove 211 has been seted up to the equidistant symmetry of suspension 210's top surface, and the axis of arc groove 211 is parallel with suspension 210's width direction, and the top symmetry that holds bucket 230 runs through to have and is the pole 232 of lifting that cylindrical structure, and two lift the pole 232 and every couple of arc groove 211 joint cooperation do benefit to and hold bucket 230 and place stably and do not slide. The bottom of the tub 230 is engaged with the two guide pipes 253 along the pair of radial water inlet holes 231 thereof, so that the air current discharged from the guide pipes 253 can be introduced into each tub 230, and then the liquid in the tub is agitated to make the garbage bag fully contact with the liquid, and the attachments on the surface of the garbage bag are decomposed or cleaned.

In addition, the height of the tub 230 is smaller than the inner depth of the decontamination bath 200 and the clean water bath 300, so that the tub 230 is sufficiently placed in the decontamination bath 200 and the clean water bath 300 to be soaked. The water collecting box 260 which is in a square box shape is placed between the two ends of the decontamination pool 200 and the clean water pool 300 which are close to each other, and iron plates are welded in the middle of the two sides of the water collecting box 260 and are lapped on the top surfaces of the decontamination pool 200 and the clean water pool 300 to collect soapy water dripped in the process of transferring the decontamination pool 200 to the clean water pool 300, so that the work site is kept clean. A hydraulic station 240 for providing power to the oil cylinder 220 is installed behind the decontamination basin 200 and the clean water basin 300, the oil cylinder is a hydraulic actuator for converting hydraulic energy into mechanical energy, and a piston rod installed inside the oil cylinder can perform linear reciprocating motion, which is the conventional technology and is not described in detail in the present invention. The hydraulic station 120 is a device for providing hydraulic pressure to the oil cylinder, and the oil cylinder 220 and the hydraulic station 240 are connected in a matching manner between an input end and an output end through an oil pipe, so that the hydraulic station 240 provides hydraulic energy to the oil cylinder 220 to drive a piston rod thereof to reciprocate, which is a conventional technology in the prior art and is not described in detail in the present invention.

After the garbage bag is separated from the surface attachments thereof, soapy water is filled in the decontamination pool 200 in advance, clear clean water is filled in the clean water pool 300, the containing barrel 230 is placed below the separation barrel 100 in an inclined state, the garbage bag is taken out and placed in the containing barrel 230 until the garbage bag is half, the garbage bag is placed on the suspension frame 210 of the decontamination pool 200 and stably placed, the aerator 250 is started to work, the air flow produced by the aeration machine enters the aeration branch pipes 252 through the aeration main pipe 251 and is discharged into the containing barrel 230 from the guide pipes 253, the soapy water in the garbage can is stirred to enable the garbage bag to be fully contacted with the garbage bag, the surface attachments of the garbage bag are decomposed and separated, after a period of time, the oil cylinder 220 is started again to drive the piston rod to lift against the suspension frame 210, then the containing barrels 230 are lifted to the upper side of the decontamination pool 200, after a period of standing, the soapy water in the garbage can is drained, the garbage can 230 is lifted to the suspension frame 210 of the clean water pool 300, and (5) operating according to the steps to thoroughly clean the garbage bag.

As shown in fig. 16 to 21, a crushing tank 400 having a horizontal circular column structure is disposed at one side of the clean water tank 300, a square opening is formed on a central line of a top of the crushing tank 400, and an injection port 401 is welded to an edge of the square opening, so that the garbage bag cleaned in the holding bucket 230 is poured into the crushing tank 400 from the injection port 401 to be crushed. The two ends of the crushing tank 400 are both provided with tank covers 410 through fixedly connected bolts, the upper half layer inside the crushing tank 400 is symmetrically provided with large crushing rollers 440, the outer side surfaces of the large crushing rollers 440 are annular, a plurality of large cutters 441 are arranged at equal intervals along the central axial direction of the large crushing rollers, each circle of the plurality of large cutters 441 on the outer side surfaces of the two large crushing rollers 440 are staggered and occluded, namely, the first circle of the plurality of large cutters 441 on the front end of one large crushing roller 440 is positioned at the rear side of the first circle of the plurality of large cutters 441 on the front end of the other large crushing roller 440, so that the large crushing rollers are alternately attached to each other, and when a garbage bag is poured into the occluded part of the. The same end of the two large crushing rollers 440 is coaxially connected with a large motor 420 mounted on the outer end surface of the tank cover 410, which is the conventional technology and is not described in detail in the present invention. The inside half layer symmetry of smashing jar 400 is provided with little crushing roller 450 down, the outside of little crushing roller 450 is personally submitted the annular and is equipped with a plurality of little cutters 451 along its central axis direction equidistant, every circle of a plurality of little cutters 451 dislocation interlock of the lateral surface of two little crushing rollers 450, a plurality of little cutters 451 of the first circle of front end of a little crushing roller 450 are located the rear side of a plurality of little cutters 451 of the first circle of front end of another little crushing roller 450 promptly, laminate in turn with this, when the disposal bag falls into two little crushing roller 450 interlock departments after being torn by two big crushing rollers 440, just be further torn into the fragmentation form. The same ends of the two small crushing rollers 450 are coaxially connected with a small motor 430 mounted on the outer end surface of the tank cover 410, which is a conventional technology in the prior art and is not described in detail in the present invention. The bottom of the crushing tank 400 is provided with a rectangular discharge port 402, a sealing cover 460 is clamped below the discharge port 402, and the sealing cover 460 is opened to enable the flaky garbage bag at the bottom of the crushing tank 400 to fall and be collected.

Specifically, the size of the top port of the material filling port 401 is larger than that of the bottom port thereof, and the length of the top port of the material filling port 401 is larger than the diameter of the containing barrel 230, so that the material filling port is prevented from being scattered when a garbage bag is poured. The longitudinal center line of the material inlet 401 is positioned right above the meshing line of the two large crushing rollers 440, and the meshing line of the two small crushing rollers 450 is positioned right below the meshing line of the two large crushing rollers 440, so that the fallen garbage bag can be accumulated on the meshing line of the crushing rollers and intensively torn. The two large motors 420 rotate oppositely and rotate oppositely, and the two small motors 430 rotate oppositely, so that the garbage bags are cut by the cutters, and the garbage bags are torn into pieces quickly.

Further, hinged supports 403 in a circular ring structure are symmetrically welded to one side of two end corners of the discharge opening 402, and a central axis of each hinged support 403 is flush with the length direction of the discharge opening 402. Sealing cover 460 is sized larger than discharge opening 402 to enclose discharge opening 402. The corners of the same side of the two ends of the sealing cover 460 are symmetrically welded with convex columns which are inserted into the hinge seats 403 and rotate, so that one side of the sealing cover 460 can be rotatably opened and closed at the bottom of the crushing tank 400. The middle part of the sealing cover 460 is provided with a sealing platform 461 clamped with the discharge port 402 to realize the plugging of the discharge port 402. The bottom of the crushing tank 400 is symmetrically welded with a limit sleeve 404 above the middle part of the discharge port 402, and the limit sleeve 404 and the hinge base 403 are not on the same side of the discharge port 404. The welding of the articulated side middle part of sealed lid 460 has stopper 462, all pegs graft in the hole of stopper 462 and stop collar 404 and have inserted bar 405 for sealed lid 460 closes firmly, only needs to pull out inserted bar 405, and sealed lid 460 just can be because of the dead weight is rotated downwards, makes the disposal bag who is torn into the piece fall from discharge opening 402 and is collected.

When the garbage bag is crushed, the dry-drenched containing barrel 230 on the cleaning tank 300 is lifted to the feeding port 401 of the crushing tank 400, and the clean trash bag in the tub 230 is poured into the crush can 400, at which time the two large and

small motors

420 and 430 are driven to rotate reversely and relatively, thereby driving the two large pulverizing rollers 440 to rotate relatively, the two small pulverizing rollers 450 to rotate relatively, then the big cutters 441 are engaged in a staggered way to tear the garbage bag into pieces, and then the pieces fall between the two small crushing rollers 450, and the small cutters 451 are mutually staggered and meshed to tear smaller fragments again to fall into the bottom of the crushing tank 400 for accumulation, after a while, the large motor 420 and the small motor 430 are stopped to work, the inserting rod 405 is pulled out to rotate the sealing cover 460 to put down, and the fragment garbage bags accumulated at the bottom of the crushing tank 400 fall from the discharge port 402 to be collected and then are conveyed to an injection molding machine for use.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A recovery processing equipment for cleaning and smashing express delivery garbage bags comprises a separation barrel (100) for separating garbage bags and surface attachments of the garbage bags and a barrel cover (110) hinged to one side of the top of the separation barrel, and is characterized in that: the garbage bag garbage separating device is characterized in that bearing seats (120) capable of supporting the garbage bag to turn back and forth are arranged below the separating cylinder (100) in a bilateral symmetry mode, positive and negative rotating motors (130) capable of driving the separating cylinder (100) to rotate are arranged on one side of the top of each bearing seat (120), a rotating drum (140) capable of centrifugally rotating the garbage bag and surface attachments of the garbage bag is arranged inside the separating cylinder (100), a material leaking opening (101) of a conical shell structure is formed in the bottom of the separating cylinder (100), supporting blocks (102) of a semicircular structure are vertically welded on the left side and the right side of the material leaking opening (101), a rotating column (103) which is vertically placed is welded on the bottommost portion of each supporting block (102) and located on the outer side face of the supporting block, a triangular table (121) is arranged in the middle of the top of the bearing seats (120), and a lantern ring (122) which is, an output shaft of the forward and reverse rotating motor (130) is coaxially connected with one of the rotating columns (103), the bottom surface of the rotating drum (140) is annular and is provided with a plurality of waste residue ports (1400) at equal intervals, the outer side of the bottom of the rotating drum (140) is tightly sleeved with a transmission ring (141), a plurality of conical teeth (142) are vertically arranged at equal intervals on the outer side of the transmission ring (141), the outer side of the bottom of the separating drum (100) is provided with a speed reducing motor (143) for driving the rotating drum (140) to rotate, the outer side of the output shaft of the speed reducing motor (143) is tightly sleeved with a transmission wheel (144), and a plurality of tooth-shaped grooves (145) meshed with the conical teeth (142) are arranged at equal intervals on the outer side of;

a decontamination tank (200) and a clean water tank (300) which are identical in structural size are arranged on one side of the separation cylinder (100) side by side, a pair of liftable suspension frames (210) are installed above the decontamination tank (200), oil cylinders (220) which provide lifting force for the suspension frames (210) are vertically installed in the middle of the front side and the rear side of the decontamination tank (200), a plurality of containing barrels (230) are placed between the two suspension frames (210), aeration branch pipes (252) used for releasing gas are installed inside the bottom layer of the decontamination tank (200), fixing sleeves (201) which are of a circular ring structure are vertically fixed at the front and rear corners of the top of the decontamination tank (200), guide posts (213) which are inserted into the fixing sleeves (201) and slide are vertically welded at the same side of the two ends of the suspension frames (210), and top blocks (212) are welded at the same side of the middle part of the suspension frames (210) and the guide posts (213), the top end of a piston rod arranged in the oil cylinder (220) is in contact with the top block (212), the bottom surface of the containing barrel (230) is annularly provided with a plurality of water inlet holes (231) with different sizes, one end of the aeration branch pipe (252) is closed, the other end of the aeration branch pipe is inserted into the aeration main pipe (251), one end of the aeration main pipe (251) is closed, and the other end of the aeration main pipe (251) is provided with an aerator (250);

one side of clean water basin (300) is provided with crushing jar (400) that is horizontal ring column structure, the edge welding of having seted up square mouthful and square mouthful on the top central line of crushing jar (400) has sprue (401), the both ends of crushing jar (400) are all through bolt fixedly connected with cover (410), the first half symmetry in inside of crushing jar (400) is provided with big crushing roller (440), the outside of big crushing roller (440) is personally submitted the annular and is equipped with a plurality of big cutters (441) along its central axis direction equidistance, two every a circle of a plurality of big cutters (441) dislocation interlock of lateral surface of big crushing roller (440), two the same-end coaxial coupling of big crushing roller (440) install in big motor (420) of the outer terminal surface of cover (410), the inside second half symmetry down of crushing jar (400) is provided with little crushing roller (450), the outside of little crushing roller (450) is personally submitted the annular and is equipped with a plurality of little cutters along its central axis direction equidistance (451) The outer side surfaces of the two small crushing rollers (450) are meshed with a plurality of small cutters (451) in a staggered mode, the same ends of the two small crushing rollers (450) are coaxially connected with a small motor (430) installed on the outer end surface of the tank cover (410), a rectangular discharge opening (402) is formed in the bottom of the crushing tank (400), and a sealing cover (460) is connected below the discharge opening (402) in a clamping mode.

2. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: the outside of drain hole (101) is provided with the center welding of carousel and the carousel that is the ring structure and has the rotary column, and the rotary column runs through to the inside of drain hole (101) and peg graft have with the inside circle piece with the diameter of drain hole (101), the top surface of triangle platform (121) is the circular arc concave surface, two the inboard front end face welding that just is close to rear end department welding of bearing seat (120) has square slab and square slab has stock guide (123) that are circular arc plate structure, stock guide (123) are located under drain hole (101) and its front end downward sloping.

3. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: an opening (1401) is formed in one side of the bottom of the rotary drum (140) and is in the same horizontal position with the transmission coil (141), the transmission wheel (144) penetrates through the opening (1401) and is arranged inside the rotary drum (140), and an iron block is welded on the inner side of the top of the separation drum (100) and located at the top end of the rotary drum (140).

4. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: the outer diameter of the rotary drum (140) is smaller than the inner diameter of the separating drum (100), ferrules (146) are tightly sleeved on the top and the outer side of the middle of the rotary drum (140), the outer diameter of each ferrule (146) is smaller than the inner diameter of the separating drum (100), a plurality of grooves (1460) in a U-shaped structure are vertically arranged on the outer side surface of each ferrule (146) at equal intervals, rollers (1461) are inserted into the grooves (1460) through pins, and the rollers (1461) are in rolling connection with the inner wall of the separating drum (100).

5. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: scrubbing pond (200) with clear water basin (300) adopt cement to build by laying bricks or stones into rectangular solid structure, scrubbing pond (200) with the inside of clear water basin (300) is hollow structure and top end opening, scrubbing pond (200) with drain (204) are installed to a corner in the preceding terminal surface bottom of clear water basin (300), the stagnant water valve is installed at the top of drain (204).

6. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 5, characterized in that: scrubbing pond (200) with the inside symmetry of bottom in clean water basin (300) is equipped with pipe passageway (202), pipe passageway (202) run through scrubbing pond (200) with one side end in clean water basin (300) and with aeration is in charge of (252) the cooperation of pegging graft, scrubbing pond (200) with the bottom surface in clean water basin (300) just is located set up a plurality of through-holes (203) rather than being linked together directly over pipe passageway (202), the top of aeration is in charge of (252) peg graft have with through-hole (203) correspond a plurality of stand pipes (253) of pegging graft.

7. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 6, characterized in that: arc groove (211) have been seted up to the equidistant symmetry of top surface of suspension (210), the axis of arc groove (211) with the width direction of suspension (210) is parallel, the top symmetry that holds bucket (230) runs through and has lift pole (232) that are cylindrical structure, two it is every right to lift pole (232) arc groove (211) joint cooperation, it is along its radial a pair of to hold bucket (230) bottom inlet opening (231) and two stand pipe (253) cooperation of pegging graft.

8. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 7, characterized in that: hold highly being less than of bucket (230) scrubbing pond (200) with the inside degree of depth of clean water basin (300), scrubbing pond (200) with clean water basin (300) are close to and have placed between one end mutually and are square box-shaped water-collecting box (260), the both sides middle part welding of water-collecting box (260) have iron plate and iron plate overlap joint in scrubbing pond (200) with the top surface of clean water basin (300), scrubbing pond (200) with the rear of clean water basin (300) is installed and is done hydraulic pressure station (240) that hydro-cylinder (220) provided power, hydro-cylinder (220) with hydraulic pressure station (240) are connected through oil pipe and their output and input cooperation.

9. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: the top port size of sprue (401) is greater than its bottom port size, the top port length of sprue (401) is greater than hold the diameter of bucket (230), sprue (401) are located two smash roller (440) bite line directly over greatly, two the bite line of little crushing roller (450) is located two smash roller (440) bite line directly under greatly, two turning to of big motor (420) is opposite and relative rotation, two turning to of little motor (430) is opposite and relative rotation.

10. The recycling equipment for cleaning and crushing express delivery garbage bags according to claim 1, characterized in that: the welding of both ends corner one side symmetry of discharge opening (402) has free bearing (403) that are the ring structure, the size of sealed lid (460) is greater than the size of discharge opening (402), the both ends homonymy corner symmetry of sealed lid (460) weld have with free bearing (403) grafting and rotatory projection, the middle part of sealed lid (460) be equipped with seal platform (461) of discharge opening (402) joint, the middle part top symmetry welding that just is located discharge opening (402) of the bottom of smashing jar (400) has stop collar (404), the welding of the articulated side middle part of sealed lid (460) has stopper (462), stopper (462) with it has inserted bar (405) all to peg graft in the hole of stop collar (404).