CN113522944A

CN113522944A - Broken recovery plant of abandonment corrugated container board

Info

Publication number: CN113522944A
Application number: CN202111089968.2A
Authority: CN
Inventors: 罗卫国
Original assignee: Jiangsu Fengwei Intelligent Packaging Technology Co ltd
Current assignee: Jiangsu Fengwei Intelligent Packaging Technology Co ltd
Priority date: 2021-09-17
Filing date: 2021-09-17
Publication date: 2021-10-22
Anticipated expiration: 2041-09-17
Also published as: CN113522944B

Abstract

The invention discloses crushing and recycling equipment for waste corrugated boards, which comprises a rolling and soaking pretreatment alternate push-pull primary crushing self-separation device and a covering type self-identification dust suppression full crushing device, wherein the covering type self-identification dust suppression full crushing device is arranged on one side of the rolling and soaking pretreatment alternate push-pull primary crushing self-separation device, and the rolling and soaking pretreatment alternate push-pull primary crushing self-separation device comprises a primary crushing shell, an extrusion mechanism, a reverse thread rolling and soaking pretreatment mechanism, a progressive staggered push-pull primary crushing self-separation mechanism and a receiving and screening assembly. The invention belongs to the technical field of corrugated board crushing and recycling, and particularly provides a crushing and recycling device for waste corrugated boards, which has the technical effects of realizing accurate self-recognition and separation of corrugated boards and plastic accessories by staggered push-pull, realizing dust-free primary crushing treatment of the corrugated boards, and realizing the comprehensive dust suppression technical effect of crushing the corrugated boards by utilizing the difference of adsorption force of bubbles on dust and paper scraps.

Description

Broken recovery plant of abandonment corrugated container board

Technical Field

The invention belongs to the technical field of corrugated board crushing and recycling, and particularly relates to crushing and recycling equipment for waste corrugated boards.

Background

Corrugated paper is a plate-shaped object formed by bonding liner paper and corrugated paper, and is generally divided into a single corrugated paper board and a double corrugated paper board, the invention and the application of the corrugated paper have more than one hundred years history, and the corrugated paper has the advantages of low cost, light weight, easy processing, high strength, excellent printing adaptability, convenient storage and transportation and the like, more than 80 percent of the corrugated paper can be recycled, the corrugated paper can be used for packaging food or digital products, and is relatively environment-friendly and widely used.

In the process of recycling corrugated paper, the corrugated paper needs to be crushed to facilitate the re-processing of the corrugated paper, when corrugated boards are manually crushed, the crushing efficiency is low and operators are easily injured, the crushing process of the traditional crushing equipment is single, the crushing effect is not ideal, when the corrugated boards are crushed, a large amount of paper scrap dust is easily generated, the dust generated by crushing blades flows out along with the rotation of the crushing blades, so that too much dust is generated in a workshop and the health of workers is influenced, when the existing dust removing device removes dust from waste corrugated board crushing equipment, the dust can be adsorbed, small light corrugated board fragments can be adsorbed, a dust suction opening of the dust removing equipment is easily blocked, in addition, the existing corrugated boards are mostly used for packing boxes or carrying boxes, and for the convenience of carrying and carrying, plastic accessories such as handles can be installed on corrugated boxes during the manufacturing process, the broken recovery plant of current corrugated container board can't independently discern the plastic annex when carrying out the breakage, is difficult to separate plastic annex and corrugated container board to lead to the plastic annex to be broken and mix together along with corrugated container board, be difficult to separate, consequently old and useless corrugated container case still need the manual work to separate the plastic annex on the corrugated container board from corrugated container board before carrying out the breakage, and it is loaded down with trivial details to work, needs to spend a large amount of manpower and materials.

Therefore, the development of a crushing device for corrugated paper recovery, which is simple in operation, can realize multistage crushing, is high in crushing efficiency, is not easy to hurt crushing operators, effectively inhibits dust, and can accurately identify corrugated paper boards and plastic accessories, is urgently needed.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a crushing and recycling device of waste corrugated boards, aiming at the defect that the prior corrugated board crushing and recycling device is difficult to automatically identify and separate the corrugated boards and plastic accessories, creatively provides the primary crushing concept of corrugated board knurling and soaking pretreatment in the process of crushing and recycling the waste corrugated boards, carries out knurling and soaking and pre-pricking treatment on the waste corrugated boards by presetting forward thread knurling rollers and reverse thread knurling rollers which are arranged in a multistage staggered and reverse way and matching with water absorption rolling needles densely distributed with micropores, perfectly matches with a progressive staggered push-pull primary crushing self-separation mechanism which is pushed progressively by waves, realizes the technical effect of staggered push-pull accurate self-identification separation of the corrugated boards and the plastic accessories under the condition of no sensor or identification element, and simultaneously realizes the dust-free primary crushing treatment of the corrugated boards, the technical effect of comprehensively suppressing dust for crushing the corrugated board is realized by continuously blowing the air bubble layer covering the hopper type feeding port and utilizing the difference of the adsorption force of the air bubbles on dust and paper scraps, the technical effect that the adsorption force which is difficult to solve in the prior art is large so as to realize adsorption dust removal is solved, meanwhile, the technical problem of contradiction that small corrugated board fragments are adsorbed is avoided due to small adsorption force, the mechanical crushing treatment is realized, and the use safety of the device is improved.

The technical scheme adopted by the invention is as follows: the invention relates to crushing and recycling equipment for waste corrugated boards, which comprises a rolling wetting pretreatment alternate push-pull primary crushing self-separation device and a covering type self-identification dust suppression full-crushing device, wherein the covering type self-identification dust suppression full-crushing device is arranged on one side of the rolling wetting pretreatment alternate push-pull primary crushing self-separation device, the rolling wetting pretreatment alternate push-pull primary crushing self-separation device is used for carrying out knurling wetting pretreatment on the waste corrugated boards and realizing accurate self-separation identification of the corrugated boards and plastic accessories and dust-free primary crushing of the corrugated boards, the rolling wetting pretreatment alternate push-pull primary crushing self-separation device comprises a primary crushing shell, an extrusion mechanism, a reverse thread rolling wetting push-pull pretreatment mechanism, a gradual alternate primary crushing self-separation mechanism and a bearing screening assembly, and the primary crushing shell is arranged as a cavity, the upper wall of the primary crushing shell is provided with a primary crushing feed inlet, the extrusion mechanism is arranged in the primary crushing shell and is arranged right below the primary crushing feed inlet, and the extrusion mechanism, the reverse thread rolling soaking pretreatment mechanism, the gradual staggered push-pull primary crushing self-separation mechanism and the bearing screening assembly are sequentially arranged in the primary crushing shell from top to bottom; the covering type self-recognition dust suppression full-crushing device carries out full-crushing treatment on corrugated board fragments, and utilizes the difference of air bubbles on the adsorption force of dust and paper scraps to realize the technical effect of omnibearing dust suppression on the crushing of corrugated boards, the covering type self-recognition dust suppression full-crushing device comprises a full-crushing support, a full-crushing machine, a covering type self-recognition dust suppression mechanism and a material receiving box, the full-crushing support is arranged on the side wall of a primary crushing shell, the full-crushing machine is arranged above the full-crushing support, the full-crushing support supports and fixes the full-crushing machine, the material receiving box is arranged in the full-crushing support in a sliding manner, the material receiving box is arranged below the full-crushing machine and is a cavity with an opening at the upper end, the material receiving box is convenient for receiving the full-crushed waste corrugated boards after the processing of the full-crushing machine, the covering type self-recognition dust suppression mechanism is arranged on the side wall of the full-crushing machine, and the covering type self-recognition dust suppression mechanism is communicated with the full-crushing machine, the covering type self-recognition dust suppression mechanism blows bubbles to the full crusher continuously to form a bubble layer covering the upper part in the full crusher.

Furthermore, the reverse thread rolling wetting pretreatment mechanism comprises a thread rolling wetting assembly, an auxiliary rolling assembly and a pretreatment driving mechanism, wherein the thread rolling wetting assembly and the auxiliary rolling assembly are respectively arranged on two opposite side walls of the primary crushing shell, a driving cavity is arranged on the side wall of the primary crushing shell, the pretreatment driving mechanism is arranged in the driving cavity, and the pretreatment driving mechanism is connected with the thread rolling wetting assembly; the thread rolling soaking assembly comprises a forward thread knurling roller, a reverse thread knurling roller, a water absorbing knurling needle and a water tank, wherein the forward thread knurling roller is rotatably arranged on the inner side wall of a primary crushing shell, the reverse thread knurling roller is rotatably arranged on the inner side wall of the primary crushing shell, the forward thread knurling roller is arranged above the reverse thread knurling roller, thread knurling plates are respectively arranged on the circumferential side wall of the forward thread knurling roller and the circumferential side wall of the reverse thread knurling roller, the thread knurling plates are respectively spirally arranged around the forward thread knurling roller and the reverse thread knurling roller, the spiral direction of the thread knurling plate on the lateral wall of the forward thread knurling roller is opposite to that of the thread knurling plate on the lateral wall of the reverse thread knurling roller, and the water absorbing knurling needles are uniformly distributed on the thread knurling plates on the lateral wall of the forward thread knurling roller and the lateral wall of the reverse thread roller at equal intervals, the corrugated board is subjected to knurling treatment sequentially through the thread knurling plate on the side wall of the forward thread knurling roller and the thread knurling plate on the side wall of the reverse thread knurling roller to form staggered knurling lines, the corrugated board is subjected to edge knurling pre-pricking treatment along the knurling lines through the water absorption knurling needles on the side wall of the thread knurling plate, so that diamond knurling marks are formed on the surface of the corrugated board, the auxiliary knurling assembly comprises an extrusion plate and an elastic push rod, the elastic push rod is arranged on the side wall of the primary crushing shell, the extrusion plate is arranged at one end, far away from the primary crushing shell, of the elastic push rod, the extrusion plate is in contact with the forward thread knurling roller and the reverse thread knurling roller, the elastic push rod elastically pushes the extrusion plate to be close to the forward thread knurling roller and the reverse thread knurling roller so as to push the corrugated board to be close to the forward thread knurling roller and the reverse thread roller, and the corrugated board is conveniently matched to carry out the knurling pre-pricking treatment on the corrugated board, the water tank is a cavity with an opening at the upper end, the water tank comprises a forward water tank and a reverse water tank, the forward water tank penetrates through the primary crushing shell and is arranged below the forward thread knurling roller, the lower end of the forward thread knurling roller is arranged in the forward water tank, the reverse water tank penetrates through the primary crushing shell and is arranged below the reverse thread knurling roller, the lower end of the reverse thread knurling roller is arranged in the reverse water tank, micropores are densely distributed on the surface of the water absorbing knurling roller, the forward thread knurling roller and the reverse thread knurling roller rotate to drive the thread knurling plate and the water absorbing knurling roller to be immersed in the water tank and to be wetted by water in the water tank, the micropores on the surface of the water absorbing knurling roller are convenient for absorbing large amount of water, so that when the thread knurling plates on the side wall of the forward thread knurling roller and the thread knurling plates on the side wall of the reverse thread knurling roller are used for processing corrugated boards, the wetted thread knurling plates are used for processing the corrugated boards, meanwhile, when the corrugated board is punctured by the water absorbing rolling needle, water adsorbed in the micropores on the surface of the water absorbing rolling needle is diffused into the corrugated board to further wet the corrugated board, so that rolling wetting lines are formed on the surface of the corrugated board, and the corrugated board is convenient to tear and break initially in the follow-up process.

Wherein, reverse screw thread rolls to prick and soaks pretreatment mechanism and reverse side screw thread rolls to prick and soaks pretreatment mechanism including positive screw thread rolls to soak pretreatment mechanism and reverse side screw thread rolls to prick and soaks pretreatment mechanism from the top down and locate in the primary crushing casing in proper order, positive screw thread rolls to prick and soaks pretreatment mechanism and reverse side screw thread rolls to prick and soaks pretreatment mechanism reverse setting, the screw thread that the pretreatment mechanism was soaked in positive screw thread rolls to prick and soaks the subassembly and locates the supplementary subassembly top of rolling of reverse side screw thread roll and soaks pretreatment mechanism, the supplementary subassembly that rolls of positive screw thread roll and prick that soaks pretreatment mechanism locates the screw thread roll of reverse side screw thread roll and soak the subassembly top, the supplementary subassembly that rolls of pricking between subassembly and the screw thread roll and soak the subassembly of pretreatment mechanism and the clearance that the screw thread roll and prick between the subassembly that soaks the pretreatment mechanism and the screw thread roll and soak the subassembly are soaked in same straight soaking On line, the front thread rolling and soaking pretreatment mechanism and the back thread rolling and soaking pretreatment mechanism respectively carry out knurling and soaking and pre-pricking treatment on the corrugated board from two sides of the corrugated board.

In order to facilitate the corrugated board to be guided to a position between the auxiliary rolling and soaking assembly and the thread rolling and soaking assembly for knurling, soaking and pre-puncturing treatment, a guide plate is obliquely arranged at the upper end of the extrusion plate, the elastic push rod comprises a sliding sleeve, a sliding rod and a pushing spring, the sliding sleeve is arranged on the side wall of the primary crushing shell, the sliding sleeve is a cavity with one side opened, one end of the sliding rod is slidably arranged in the sliding sleeve, the extrusion plate is arranged at the other end of the sliding rod, the pushing spring is arranged between the side wall of the sliding sleeve and the sliding rod, and the pushing spring pushes the sliding rod to drive the extrusion plate to be close to the thread rolling and soaking assembly; the pretreatment driving mechanism comprises a transmission belt and a driving motor, the transmission belt is wound on a forward thread knurling roller and a reverse thread knurling roller, the driving motor is arranged in a driving cavity, an output shaft of the driving motor is connected with the forward thread knurling roller, and the driving motor drives the forward thread knurling roller to rotate and drives the reverse thread knurling roller to rotate in the same direction through the transmission belt.

Further, the progressive staggered push-pull primary crushing self-separating mechanism comprises a push-pull motor, a push-pull driving cavity, a push-pull rotating shaft, an eccentric rotating disc, push-pull clamping pieces, a push-pull rod and push-pull crushing balls, wherein the push-pull driving cavity is arranged on the inner side wall of the primary crushing shell, the push-pull rotating shaft is rotatably arranged in the push-pull driving cavity, the push-pull motor is arranged on the side wall of the push-pull driving cavity, an output shaft of the push-pull motor is coaxially connected with the push-pull rotating shaft, the eccentric rotating disc is eccentrically and fixedly connected to the push-pull rotating shaft, a plurality of groups of eccentric rotating discs are arranged on the push-pull rotating shaft at equal intervals and distributed around the push-pull rotating shaft in a spiral ladder array, annular clamping grooves are arranged on the circumferential side wall of the eccentric rotating disc, the push-pull clamping pieces are arranged in an Contraband shape, two sides of the push-pull clamping pieces are respectively clamped in the annular clamping grooves, and the push-pull clamping pieces are arranged on the outer sides of the eccentric rotating discs in a sliding mode through the annular clamping grooves, the side wall of one side of the push-pull driving cavity far away from the primary crushing shell is uniformly and densely provided with sliding through holes, one end of the push-pull rod is arranged on the side wall of the push-pull clamping piece, the other end of the push-pull rod penetrates through the sliding through hole and is arranged outside the push-pull driving cavity, a plurality of groups of push-pull rods are uniformly distributed on the push-pull clamping piece at equal intervals, push-pull crushing balls are arranged at one end of the push-pull rod away from the push-pull clamping piece, a push-pull motor rotates to drive a push-pull rotating shaft to rotate so as to drive an eccentric rotating disc to rotate, the eccentric rotating disc drives the push-pull rod to slide back and forth along a sliding through hole through the push-pull clamping piece, the plurality of groups of eccentric rotating discs distributed in a spiral stepped array sequentially drive the push-pull rods to slide back and forth along the sliding through hole through the push-pull clamping piece, therefore, the push-pull clamping pieces of the plurality of groups can move in a wave progressive manner to drive the push-pull rods on the push-pull clamping pieces to slide in a reciprocating manner, and push-pull extrusion is carried out on different positions of the corrugated board through the push-pull crushing balls.

Preferably, two sets of gradual staggered push-pull primary crushing self-separating mechanisms are arranged in the primary crushing shell, the two sets of gradual staggered push-pull primary crushing self-separating mechanisms are respectively a gradual staggered push-pull primary crushing self-separating mechanism I and a gradual staggered push-pull primary crushing self-separating mechanism II, the gradual staggered push-pull primary crushing self-separating mechanism I and the gradual staggered push-pull primary crushing self-separating mechanism II are respectively arranged on two opposite side walls of the primary crushing shell, push-pull rods of the gradual staggered push-pull primary crushing self-separating mechanism I and push-pull rods of the gradual staggered push-pull primary crushing self-separating mechanism II are arranged at intervals, corrugated boards are pushed in two directions in a staggered push-pull mode through the push-pull rods of the gradual staggered push-pull primary crushing self-separating mechanism I and the push-pull rods of the gradual staggered push-pull primary crushing self-separating mechanism II, the corrugated boards are torn along rolling and soaked grains, and are crushed into corrugated board fragments, the plastic accessory has higher toughness, so the plastic accessory only deforms and cannot tear under the staggered pushing of the push-pull rod.

As a preferable proposal of the extrusion mechanism of the invention, the extrusion mechanism comprises a main extrusion roller, a slave extrusion roller, a driving gear, a driven gear and an extrusion motor, the main extrusion roll and the driven extrusion roll are respectively and rotatably arranged on the inner side wall of the primary crushing shell, the main extrusion roll and the driven extrusion roll are symmetrically arranged at two sides of a primary crushing feed inlet, a driving gear and a driven gear are rotatably arranged in a driving cavity, the driving gear is coaxially connected with the main extrusion roll, the driven gear is coaxially connected with the driven extrusion roll, the driving gear is meshed with the driven gear, the extrusion motor is arranged in the driving cavity, an output shaft of the extrusion motor is coaxially connected with the driving gear, the extrusion motor drives the driving gear to rotate, the driving gear drives the main extrusion roller to rotate in the same direction, and the driving gear drives the auxiliary extrusion roller to rotate in the reverse direction through the auxiliary gear, so that the main extrusion roller and the auxiliary extrusion roller rotate in opposite directions to extrude and discharge the corrugated board; the bearing and screening assembly comprises a bearing box, a screen and a vibrating motor, a discharge port is arranged on the lower wall of the primary crushing shell, a discharge door is hinged to the discharge port, the bearing and screening assembly is convenient to bear primarily crushed corrugated board fragments and separate the corrugated board fragments from plastic accessories, the bearing box penetrates through the discharge port and is slidably arranged on the inner bottom wall of the primary crushing shell, the bearing box is pulled and taken out through the discharge port, the screen is arranged on the inner side wall of the primary crushing shell, the screen is arranged between the gradual staggered push-pull primary crushing self-separating mechanism and the bearing box, the vibrating motor is arranged on the screen, the vibrating motor drives the screen to vibrate, so that the primarily crushed corrugated board fragments and the plastic accessories are conveniently separated, the corrugated board fragments are screened into the bearing box through the screen, the main extrusion roller and the gap between the extrusion rollers, the gap between the auxiliary rolling and the thread rolling and soaking assembly, and the gradual staggered push-pull primary crushing self-separating mechanism I and the plastic accessories And the gaps between the two gradual staggered push-pull initial crushing self-separating mechanisms are on the same straight line.

Preferably, the full crusher comprises a bucket type feeding port, a crushing box body, a bucket type feed opening, a driving crushing roller, a driven crushing roller, crushing blades, a crushing motor, a driving crushing gear and a driven crushing gear, the crushing box body is arranged on a full crushing support, the bucket type feeding port is communicated with the upper wall of the crushing box body, the bucket type feed opening is communicated with the lower wall of the crushing box body, the bucket type feeding port and the bucket type feed opening are arranged in a funnel shape, the driving crushing roller and the driven crushing roller are rotatably arranged in the crushing box body, the crushing blades are respectively arranged on the driving crushing roller and the driven crushing roller in an equidistant distribution manner, the crushing blades on the driving crushing roller and the crushing blades on the driven crushing roller are in an interval meshing distribution manner, a transmission cavity is arranged on one side of the crushing box body, the driving crushing gear and the driven crushing gear are rotatably arranged in the transmission cavity, and the driving crushing gear is meshed with the driven crushing gear, main broken gear and initiative crushing roller coaxial coupling, from broken gear and driven crushing roller coaxial coupling, on full broken support was located to broken motor, broken motor's output shaft and main broken gear coaxial coupling, broken motor drives main broken gear and rotates, and main broken gear drives from broken gear and rotates in opposite directions, and main broken gear drives initiative crushing roller and driven crushing roller respectively from broken gear and rotates in opposite directions and carry out full broken handle to corrugated container board piece.

As a preferable scheme of the covering type self-recognition dust suppression mechanism, the covering type self-recognition dust suppression mechanism comprises a dust suppression fan, a dust suppression motor, a dust suppression rotary disc, a dust suppression rotary shaft and a bubble generation cavity, wherein the bubble generation cavity is arranged on the side wall of one side of the upper end of a crushing box body, a bubble blowing through hole is arranged between the bubble generation cavity and the crushing box body, bubble water is arranged in the bubble generation cavity, the dust suppression rotary shaft is rotatably arranged in the bubble generation cavity, the dust suppression rotary disc is fixedly connected to the dust suppression rotary shaft, bubble holes are uniformly distributed on the dust suppression rotary disc at equal intervals, the dust suppression motor is arranged on the side wall of the bubble generation cavity, an output shaft of the dust suppression motor is coaxially connected with the dust suppression rotary shaft, the lower end of the dust suppression rotary disc is immersed in the bubble water, the dust suppression fan is arranged on the side wall of the bubble generation cavity, and the output end of the dust suppression fan is communicated with the side wall of the bubble generation cavity far away from the bubble blowing through hole, it drives the rotation of dust suppression pivot to press down the dirt motor rotation, it drives and presses down the rotation of dirt carousel thereby drive the bubble hole and constantly dip in the bubble water and get bubble water, it blows the bubble hole that presses down dirt pivot top and constantly produces the bubble and blows to cover the bubble layer to the bucket type feed inlet in the broken box through bubble blow through-hole to press down the dirt fan, thereby it presses down the dirt all-roundly, utilize the bubble to the difference of dust and shredded paper piece adsorption affinity, the all-round technological effect of pressing down dirt of broken corrugated container board has been realized, the adsorption affinity that has solved that prior art is difficult to solve is big in order to realize adsorbing the technical effect of removing dust, simultaneously the contradiction technological problem of small thereby avoiding adsorbing small corrugated container board piece.

As a further improvement of the scheme, the upper wall of the bubble generating cavity is communicated with a water injection port, and the water injection port is convenient for injecting bubble water into the bubble generating cavity.

The invention with the structure has the following beneficial effects: the scheme provides a crushing and recycling device for waste corrugated boards, aiming at the defect that the existing crushing and recycling device for the corrugated boards is difficult to automatically identify and separate the corrugated boards and plastic accessories, creatively provides a primary crushing idea of corrugated board knurling and soaking pretreatment in the crushing and recycling treatment process of the waste corrugated boards, knurling the corrugated boards by using a thread knurling board on the side wall of a forward thread knurling roller and a thread knurling board on the side wall of a reverse thread knurling roller, soaking the corrugated boards by using water on the surface of the thread knurling board and water in a water absorbing rolling needle to fundamentally stop tearing the corrugated boards to generate dust, knurling and soaking the waste corrugated boards by matching the forward thread knurling roller and the reverse thread knurling roller which are arranged in a multistage staggered and reverse mode with the water absorbing rolling needle densely distributed with micropores, and perfectly matching with a progressive push-pull staggered primary crushing self-separation mechanism which is pushed in a wave progressive mode, under the condition of no sensor and identification element, the technical effect of staggered push-pull accurate self-identification separation of the corrugated board and the plastic accessories is realized, meanwhile, dust-free primary crushing treatment of the corrugated board is realized, a dust suppression fan generates air flow to blow bubble holes above a dust suppression rotating shaft to uninterruptedly generate bubbles and blow the bubbles into a crushing box body through a bubble blowing through hole to cover a bucket type feed inlet to form a bubble layer, so that dust suppression is carried out in all directions, the technical effect of comprehensively suppressing dust by crushing the corrugated board is realized by utilizing the difference of adsorption force of the bubbles on dust and shredded paper, the technical effect that the adsorption force is large to realize adsorption dust removal and small to avoid the contradictory technical problem of adsorbing small corrugated board fragments in the prior art is solved, mechanical crushing treatment is realized, and the use safety of the device is improved.

Drawings

Fig. 1 is a schematic structural view of a waste corrugated cardboard crushing and recycling apparatus according to the present invention;

fig. 2 is a perspective view of a waste corrugated cardboard crushing and recovering apparatus according to the present invention;

FIG. 3 is a rear view of the roll-soak pretreatment alternate push-pull primary crushing self-separation apparatus of the present invention;

FIG. 4 is a schematic diagram of the construction of the thread roll wetting assembly of the present invention;

FIG. 5 is a partial enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic structural view of the gradual staggered push-pull initial crushing self-separating mechanism of the present invention;

FIG. 7 is a schematic perspective view of the progressive staggered push-pull initial crushing self-separating mechanism of the present invention;

FIG. 8 is a schematic view of the assembly structure of the eccentric rotary disk, the push-pull clamping piece and the push-pull rod according to the present invention;

FIG. 9 is a perspective view of a full crush stand, full crusher, and a receiver box of the present invention;

FIG. 10 is a schematic view of the combination of the full crushing stand, the full crusher and the material receiving box of the present invention;

FIG. 11 is a perspective view of the auxiliary rolling assembly of the present invention;

FIG. 12 is a schematic view of the structure of the dust suppressing rotary disk of the present invention.

Wherein, 1, rolling wetting pretreatment alternative push-pull primary crushing self-separation device, 2, covering type self-identification dust suppression full crushing device, 3, primary crushing shell, 4, extrusion mechanism, 5, reverse thread rolling wetting pretreatment mechanism, 6, gradual staggered push-pull primary crushing self-separation mechanism, 7, receiving screening component, 8, primary crushing feed inlet, 9, full crushing support, 10, full crusher, 11, covering type self-identification dust suppression mechanism, 12, material receiving box, 13, main extrusion roller, 14, secondary extrusion roller, 15, driving gear, 16, driven gear, 17, extrusion motor, 18, thread rolling wetting component, 19, auxiliary rolling component, 20, pretreatment driving mechanism, 21, driving cavity, 22, forward thread rolling roller, 23, reverse thread rolling roller, 24, water absorption rolling needle, 25, water tank, 26, thread rolling plate, 27, extrusion plate, 28. elastic push rods 29, a guide plate 30, a forward water tank 31, a reverse water tank 32, micropores 33, a receiving tank 34, a screen 35, a vibration motor 36, a discharge port 37, a discharge door 38, a bucket type feed port 39, a crushing tank body 40, a bucket type feed port 41, a driving crushing roller 42, a driven crushing roller 43, a crushing blade 44, a crushing motor 45, a main crushing gear 46, a secondary crushing gear 47, a transmission cavity 48, a dust suppression fan 49, a dust suppression motor 50, a dust suppression rotary disc 51, a dust suppression rotary shaft 52, a bubble generation cavity 53, a bubble blowing through hole 54, a bubble hole 55, a water injection port 56, a sliding sleeve 57, a sliding rod 58, a push spring 59, a transmission belt 60, a pretreatment motor 61, a front thread rolling wetting mechanism 62, a back thread wetting pre-treatment mechanism, 63. the device comprises a push-pull motor 64, a push-pull driving cavity 65, a push-pull rotating shaft 66, an eccentric turntable 67, a push-pull clamping piece 68, a push-pull rod 69, a push-pull crushing ball 70, an annular clamping groove 71, a sliding through hole 72, a progressive staggered push-pull primary crushing self-separation mechanism I and 73, a progressive staggered push-pull primary crushing self-separation mechanism II and 74 and bubble water.

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

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 "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1-2, the crushing and recycling device for waste corrugated boards of the present invention comprises a rolling wetting pretreatment alternate push-pull primary crushing self-separation device 1 and a covering self-identification dust suppression full-crushing device 2, wherein the covering self-identification dust suppression full-crushing device 2 is arranged at one side of the rolling wetting pretreatment alternate push-pull primary crushing self-separation device 1, the rolling wetting pretreatment alternate push-pull primary crushing self-separation device 1 performs knurling wetting pretreatment on the waste corrugated boards, and performs staggered push-pull on the pretreated corrugated boards to realize accurate self-separation identification of the corrugated boards and plastic accessories and dustless primary crushing of the corrugated boards, the rolling wetting pretreatment alternate push-pull primary crushing self-separation device 1 comprises a primary crushing shell 3, an extrusion mechanism 4, a reverse thread rolling wetting pretreatment mechanism 5, a progressive staggered push-pull primary crushing self-separation mechanism 6 and a receiving screening component 7, the primary crushing shell 3 is arranged as a cavity, a primary crushing feed inlet 8 is formed in the upper wall of the primary crushing shell 3, the extruding mechanism 4 is arranged in the primary crushing shell 3 and is arranged right below the primary crushing feed inlet 8, and the extruding mechanism 4, the reverse thread rolling soaking pretreatment mechanism 5, the gradual staggered push-pull primary crushing self-separation mechanism 6 and the receiving screening assembly 7 are sequentially arranged in the primary crushing shell 3 from top to bottom; the covering type self-recognition dust suppression full-crushing device 2 carries out full-crushing treatment on corrugated board fragments, and utilizes the difference of air bubbles on the adsorption force of dust and paper scraps to realize the technical effect of omnibearing dust suppression on corrugated board crushing, the covering type self-recognition dust suppression full-crushing device 2 comprises a full-crushing support 9, a full-crushing machine 10, a covering type self-recognition dust suppression mechanism 11 and a material receiving box 12, the full-crushing support 9 is arranged on the side wall of a primary crushing shell 3, the full-crushing machine 10 is arranged above the full-crushing support 9, the full-crushing support 9 supports and fixes the full-crushing machine 10, the material receiving box 12 is arranged in the full-crushing support 9 in a sliding manner, the material receiving box 12 is a cavity with an opening at the upper end, the material receiving box 12 is arranged below the full-crushing machine 10, the material receiving box 12 is convenient for receiving the fully-crushed waste corrugated board fragments treated by the full-crushing machine 10, the covering type self-recognition dust suppression mechanism 11 is arranged on the side wall of the full-crushing machine 10, the covering type self-recognition dust suppression mechanism 11 is communicated with the full crusher 10.

As shown in fig. 2 and 3, the squeezing mechanism 4 includes a main squeezing roller 13, a secondary squeezing roller 14, a driving gear 15, a driven gear 16 and a squeezing motor 17, the main squeezing roller 13 and the secondary squeezing roller 14 are respectively rotatably arranged on the inner side wall of the primary crushing shell 3, the main squeezing roller 13 and the secondary squeezing roller 14 are symmetrically arranged on two sides of the primary crushing feed inlet 8, a driving cavity 21 is arranged on the side wall of the primary crushing shell 3, the driving gear 15 and the driven gear 16 are rotatably arranged in the driving cavity 21, the driving gear 15 is coaxially connected with the main squeezing roller 13, the driven gear 16 is coaxially connected with the secondary squeezing roller 14, the driving gear 15 is meshed with the driven gear 16, the squeezing motor 17 is arranged in the driving cavity 21, and the output shaft of the squeezing motor 17 is coaxially connected with the driving gear 15.

As shown in fig. 2 to 5, the reverse thread rolling wetting pretreatment mechanism 5 includes a thread rolling wetting assembly 18, an auxiliary rolling assembly 19 and a pretreatment driving mechanism 20, the thread rolling wetting assembly 18 and the auxiliary rolling assembly 19 are respectively disposed on two opposite side walls of the primary crushing shell 3, the pretreatment driving mechanism 20 is disposed in a driving cavity 21, and the pretreatment driving mechanism 20 is connected with the thread rolling wetting assembly 18; the thread rolling soaking assembly 18 comprises a forward thread rolling roller 22, a reverse thread rolling roller 23, a water absorbing rolling needle 24 and a water tank 25, wherein the forward thread rolling roller 22 is rotatably arranged on the inner side wall of the primary crushing shell 3, the reverse thread rolling roller 23 is rotatably arranged on the inner side wall of the primary crushing shell 3, the forward thread rolling roller 22 is arranged above the reverse thread rolling roller 23, thread rolling plates 26 are respectively arranged on the circumferential side wall of the forward thread rolling roller 22 and the circumferential side wall of the reverse thread rolling roller 23, the thread rolling plates 26 are respectively spirally arranged around the forward thread rolling roller 22 and the reverse thread rolling roller 23, the spiral direction of the thread rolling plate 26 on the side wall of the forward thread rolling roller 22 is opposite to the spiral direction of the thread rolling plate 26 on the side wall of the reverse thread rolling roller 23, the water absorbing rolling needles 24 are uniformly distributed on the thread rolling plates 26 on the side wall of the forward thread rolling roller 22 and the thread rolling plates 26 on the side wall of the reverse thread rolling roller 23 at equal intervals, the auxiliary rolling assembly 19 comprises an extrusion plate 27 and an elastic push rod 28, the elastic push rod 28 is arranged on the side wall of the primary crushing shell 3, the extrusion plate 27 is arranged at one end of the elastic push rod 28 far away from the primary crushing shell 3, the extrusion plate 27 is in contact with the forward thread knurling roller 22 and the reverse thread knurling roller 23, the elastic push rod 28 elastically pushes the extrusion plate 27 to be close to the forward thread knurling roller 22 and the reverse thread knurling roller 23 so as to push the corrugated board to be close to the forward thread knurling roller 22 and the reverse thread knurling roller 23, knurling and soaking pre-puncturing processing is conveniently carried out on the corrugated board by matching the forward thread knurling roller 22 and the reverse thread knurling roller 23, a guide plate 29 which is obliquely arranged is arranged at the upper end of the extrusion plate 27, the guide plate 29 is convenient for guiding the corrugated board to be guided between the auxiliary rolling assembly 19 and the thread rolling assembly 18 for knurling and pre-puncturing processing, the water tank 25 is arranged in a cavity with an opening at the upper end, the water tank 25 comprises a forward water tank 30 and a reverse water tank 31, the forward water tank 30 penetrates through the primary crushing shell 3 and is arranged below the forward thread knurling roller 22, the lower end of the forward thread knurling roller 22 is arranged in the forward water tank 30, the reverse water tank 31 penetrates through the primary crushing shell 3 and is arranged below the reverse thread knurling roller 23, the lower end of the reverse thread knurling roller 23 is arranged in the reverse water tank 31, micropores 32 are densely distributed on the surface of the water absorption knurling needle 24, the micropores 32 on the surface of the water absorption knurling needle 24 are convenient for absorbing large amount of water, the receiving and screening component 7 comprises a receiving box 33, a screen 34 and a vibrating motor 35, a discharge port 36 is arranged on the lower wall of the primary crushing shell 3, a discharge door 37 is hinged at the discharge port 36, the receiving and screening component 7 is convenient for receiving the primarily crushed corrugated board fragments and separating the corrugated board fragments from plastic accessories, the receiving box 33 penetrates through the discharge port 36 and is arranged on the inner bottom wall of the primary crushing shell 3 in a sliding manner, on the screen cloth 34 located the just broken casing 3 inside wall, screen cloth 34 located the crisscross push-and-pull just broken from between separating mechanism 6 and the accepting box 33 of gradual, vibrating motor 35 locates on screen cloth 34, thereby vibrating motor 35 drives screen cloth 34 vibration and is convenient for separate the corrugated container board piece after just breaking and plastic annex, and the corrugated container board piece passes through screen cloth 34 and sieves to accepting in the box 33.

As shown in fig. 2-3, 9 and 10, the full crusher 10 includes a bucket feeding port 38, a crushing box 39, a bucket discharging port 40, a driving crushing roller 41, a driven crushing roller 42, a crushing blade 43, a crushing motor 44, a main crushing gear 45 and a driven crushing gear 46, the crushing box 39 is disposed on the full crushing support 9, the bucket feeding port 38 is disposed on the upper wall of the crushing box 39, the bucket discharging port 40 is disposed on the lower wall of the crushing box 39, the bucket feeding port 38 and the bucket discharging port 40 are arranged in a funnel shape, the driving crushing roller 41 and the driven crushing roller 42 are rotatably disposed in the crushing box 39, the crushing blades 43 are respectively disposed on the driving crushing roller 41 and the driven crushing roller 42 at equal intervals, the crushing blades 43 on the driving crushing roller 41 and the crushing blades 43 on the driven crushing roller 42 are arranged in an interval engagement, a transmission cavity 47 is disposed on one side of the crushing box 39, the main crushing gear 45 and the auxiliary crushing gear 46 are arranged in the transmission cavity 47 in a rotating mode, the main crushing gear 45 is meshed with the auxiliary crushing gear 46, the main crushing gear 45 is coaxially connected with the driving crushing roller 41, the auxiliary crushing gear 46 is coaxially connected with the driven crushing roller 42, the crushing motor 44 is arranged on the full-crushing support 9, and the output shaft of the crushing motor 44 is coaxially connected with the main crushing gear 45.

As shown in fig. 2, 3 and 12, the covering type self-recognition dust suppression mechanism 11 includes a dust suppression fan 48, a dust suppression motor 49, a dust suppression rotary disc 50, a dust suppression rotary shaft 51 and a bubble generation chamber 52, the bubble generation chamber 52 is arranged on the side wall of the upper end of the crushing box 39, a bubble blowing through hole 53 is arranged between the bubble generation chamber 52 and the crushing box 39, bubble water 74 is arranged in the bubble generation chamber 52, the dust suppression rotary shaft 51 is rotatably arranged in the bubble generation chamber 52, the dust suppression rotary disc 50 is fixedly connected to the dust suppression rotary shaft 51, the bubble holes 54 are uniformly distributed on the dust suppression rotary disc 50 at equal intervals, the dust suppression motor 49 is arranged on the side wall of the bubble generation chamber 52, the output shaft of the dust suppression motor 49 is coaxially connected with the dust suppression rotary shaft 51, the lower end of the dust suppression rotary disc 50 is immersed in the bubble water 74, the dust suppression fan 48 is arranged on the side wall of the bubble generation chamber 52, the output end of the dust suppression fan 48 is communicated with the side wall of the bubble generation chamber 52 far away from the bubble blowing through hole 53, the dust suppression motor 49 rotates to drive the dust suppression rotating shaft 51 to rotate, the dust suppression rotating shaft 51 drives the dust suppression rotating disc 50 to rotate so as to drive the bubble holes 54 to be continuously immersed into the bubble water 74 to dip the bubble water 74, the dust suppression fan 48 generates air flow to blow the bubble holes 54 above the dust suppression rotating shaft 51 to continuously generate bubbles and blow the bubbles into the crushing box body 39 through the bubble blowing through holes 53 to cover the bucket type feed inlet 38 to form a bubble layer, so that the dust suppression is carried out in all directions, the upper wall of the bubble generation cavity 52 is communicated with the water injection port 55, and the water injection port 55 is convenient for injecting the bubble water 74 into the bubble generation cavity 52.

As shown in fig. 2, 3 and 11, the elastic push rod 28 includes a sliding sleeve 56, a sliding rod 57 and a push spring 58, the sliding sleeve 56 is disposed on the side wall of the primary crushing shell 3, the sliding sleeve 56 is a cavity with an opening on one side, one end of the sliding rod 57 is slidably disposed in the sliding sleeve 56, the squeezing plate 27 is disposed at the other end of the sliding rod 57, the push spring 58 is disposed between the side wall of the sliding sleeve 56 and the sliding rod 57, and the push spring 58 pushes the sliding rod 57 to drive the squeezing plate 27 to approach the thread rolling wetting assembly 18; the pretreatment driving mechanism 20 comprises a transmission belt 59 and a driving motor 60, the transmission belt 59 is wound on a forward thread knurling roller 22 and a reverse thread knurling roller 23, the driving motor 60 is arranged in a driving cavity 21, an output shaft of the driving motor 60 is connected with the forward thread knurling roller 22, the driving motor 60 drives the forward thread knurling roller 22 to rotate and drives the reverse thread knurling roller 23 to rotate in the same direction through the transmission belt 59, the reverse thread rolling soaking pretreatment mechanism 5 comprises a front thread rolling soaking pretreatment mechanism 61 and a reverse thread rolling soaking pretreatment mechanism 62, the front thread rolling soaking pretreatment mechanism 61 and the reverse thread rolling soaking pretreatment mechanism 62 are sequentially arranged in the primary crushing shell 3 from top to bottom, the front thread rolling soaking pretreatment mechanism 61 and the thread rolling soaking pretreatment mechanism 62 are reversely arranged, a thread rolling soaking component 18 of the front thread rolling soaking pretreatment mechanism 61 is arranged in the reverse thread rolling soaking pretreatment mechanism 62 Above the auxiliary rolling assembly 19, the auxiliary rolling assembly 19 of the front-side thread rolling wetting pretreatment mechanism 61 is arranged above the thread rolling wetting assembly 18 of the back-side thread rolling wetting pretreatment mechanism 62, a gap between the auxiliary rolling assembly 19 of the front-side thread rolling wetting pretreatment mechanism 61 and the thread rolling wetting assembly 18 and a gap between the auxiliary rolling assembly 19 of the back-side thread rolling wetting pretreatment mechanism 62 and the thread rolling wetting assembly 18 are on the same straight line, and the front-side thread rolling wetting pretreatment mechanism 61 and the back-side thread rolling wetting pretreatment mechanism 62 are used for carrying out knurling and pre-wetting treatment on the corrugated paperboard from two sides of the corrugated paperboard respectively.

As shown in fig. 2, 6-8, the gradual staggered push-pull primary crushing self-separating mechanism 6 comprises a push-pull motor 63, a push-pull driving cavity 64, a push-pull rotating shaft 65, an eccentric rotating disc 66, a push-pull clamping piece 67, a push-pull rod 68 and a push-pull crushing ball 69, wherein the push-pull driving cavity 64 is arranged on the inner side wall of the primary crushing shell 3, the push-pull rotating shaft 65 is rotatably arranged in the push-pull driving cavity 64, the push-pull motor 63 is arranged on the side wall of the push-pull driving cavity 64, an output shaft of the push-pull motor 63 is coaxially connected with the push-pull rotating shaft 65, the eccentric rotating disc 66 is eccentrically and fixedly connected to the push-pull rotating shaft 65, a plurality of groups of eccentric rotating discs 66 are arranged at equal intervals on the push-pull rotating shaft 65, the plurality of groups of eccentric rotating discs 66 are distributed in a spiral stepped array around the push-pull rotating shaft 65, an annular clamping groove 70 is arranged on the circumferential side wall of the eccentric rotating disc 66, the push-pull clamping piece 67 is arranged in an Contraband shape, two sides of the push-pull clamping piece 67 are respectively clamped in the annular clamping groove 70, the push-pull clamping piece 67 is slidably clamped outside the eccentric rotary table 66 through the annular clamping groove 70, the side wall of the push-pull driving cavity 64, which is far away from the primary crushing shell 3, is uniformly and densely provided with sliding through holes 71, one end of a push-pull rod 68 is arranged on the side wall of the push-pull clamping piece 67, the other end of the push-pull rod 68 penetrates through the sliding through holes 71 and is arranged outside the push-pull driving cavity 64, a plurality of groups of push-pull rods 68 are uniformly distributed at equal intervals on the push-pull clamping piece 67, push-pull crushing balls 69 are arranged at one end of the push-pull rod 68, which is far away from the push-pull clamping piece 67, a push-pull motor 63 rotates to drive a push-pull rotating shaft 65 to rotate so as to drive the eccentric rotary table 66 to rotate, the eccentric rotary table 66 drives the push-pull rod 68 to slide along the sliding through holes 71 in a reciprocating manner through the push-pull clamping piece 67, and the plurality of groups of the push-pull clamping pieces 67 distributed in a spiral step array are convenient to drive the push-pull clamping piece 68 to slide in a reciprocating manner along the sliding through holes 71 in a wave-pull mode, and push-pull crushing balls 69 are pushed and pulled to extrude different positions of the corrugated board.

As shown in fig. 2, two sets of gradual staggered push-pull initial crushing self-separating mechanisms 6 are arranged in the initial crushing shell 3, the two sets of gradual staggered push-pull initial crushing self-separating mechanisms 6 are respectively a gradual staggered push-pull initial crushing self-separating mechanism one 72 and a gradual staggered push-pull initial crushing self-separating mechanism two 73, the gradual staggered push-pull initial crushing self-separating mechanism one 72 and the gradual staggered push-pull initial crushing self-separating mechanism two 73 are respectively arranged on two opposite side walls of the initial crushing shell 3, the push-pull rods 68 of the gradual staggered push-pull initial crushing self-separating mechanism one 72 and the push-pull rods 68 of the gradual staggered push-pull initial crushing self-separating mechanism two 73 are arranged at intervals, corrugated cardboards are pushed and pulled in two directions by the push-pull rods 68 of the gradual staggered push-pull initial crushing self-separating mechanism one 72 and the push-pull rods 68 of the gradual staggered push-pull initial crushing self-separating mechanism two 73, the corrugated board is torn along the rolling soaking lines to be initially crushed into corrugated board fragments, and the plastic accessories have higher toughness, so that the plastic accessories can only deform and cannot be torn under the staggered pushing of the push-pull rod 68; the clearance between the main squeezing roller 13 and the auxiliary squeezing roller 14, the clearance between the auxiliary rolling assembly 19 and the thread rolling wetting assembly 18 and the clearance between the progressive staggered push-pull initial crushing self-separating mechanism I72 and the progressive staggered push-pull initial crushing self-separating mechanism II 73 are on the same straight line.

When the corrugated board pre-wetting device is used specifically, a corrugated board is put into the primary crushing feed inlet 8, the extrusion motor 17, the driving motor 60, the push-pull motor 63 and the vibration motor 35 are started, the extrusion motor 17 drives the driving gear 15 to rotate, the driving gear 15 drives the main extrusion roller 13 to rotate in the same direction, the driving gear 15 drives the auxiliary extrusion roller 14 to rotate in the reverse direction through the driven gear 16, so that the main extrusion roller 13 and the auxiliary extrusion roller 14 rotate in the opposite direction to extrude the corrugated board, the main extrusion roller 13 and the corrugated board pushed and extruded from the extrusion roller 14 move downwards to the guide plate 29, the guide plate 29 is convenient for guiding the corrugated board between the auxiliary rolling assembly 19 and the thread rolling and wetting assembly 18 to perform knurling and pre-rolling and breaking treatment, the corrugated board after extrusion sequentially moves downwards to the front thread rolling and wetting and pre-wetting mechanism 61 and the back thread rolling and wetting and pre-wetting mechanism 62, the driving motor 60 drives the forward thread rolling and wetting roller 22 to rotate and drives the reverse thread rolling and wetting roller 23 to rotate through the transmission belt 59 to perform the same direction and pre-wetting treatment on the corrugated board 23 When the corrugated board is rotated, the corrugated board is driven to move downwards by the forward thread knurling roller 22, the reverse thread knurling roller 23 and the water absorption knurling roller 24, the extrusion plate 27 is pushed by the elastic push rod 28 to be close to the forward thread knurling roller 22 and the reverse thread knurling roller 23, so that the corrugated board is pushed to be close to the forward thread knurling roller 22 and the reverse thread knurling roller 23, the corrugated board sequentially passes through the space between the forward thread knurling roller 22 and the extrusion plate 27 and the space between the reverse thread knurling roller 23 and the extrusion plate 27, the forward thread knurling roller 22 and the reverse thread knurling roller 23 drive the thread knurling plate 26 and the water absorption knurling roller 24 to be immersed in the water tank 25 and contacted with water in the water tank 25 for wetting when the forward thread knurling roller 22 and the reverse thread knurling roller 23 are rotated, the micropores 32 on the surface of the water absorption knurling roller 24 are convenient for absorbing large amount of water, the thread knurling plate 26 on the side wall of the forward thread knurling roller 22 and the thread knurling plate 26 on the side wall of the wetted reverse thread knurling roller 23 are rotated for wetting and knurling for wetting the corrugated board to form knurling patterns, the corrugated board is subjected to edge knurling pre-pricking treatment along knurling lines through the water absorbing rolling needle 24 on the side wall of the threaded rolling board 26, when the corrugated board is pricked by the water absorbing rolling needle 24, water adsorbed in micropores 32 on the surface of the water absorbing rolling needle 24 is diffused into the corrugated board to further wet the corrugated board, so that rolling wetting lines are formed on the surface of the corrugated board, subsequent tearing and primary crushing are facilitated, the liquid levels of the forward water tank 30 and the reverse water tank 31 are respectively observed through one end of the water tank 25, which is arranged on the outer side of the primary crushing shell 3, and water is timely injected to ensure the liquid level of the water tank 25; the front-side thread rolling wetting pretreatment mechanism 61 and the back-side thread rolling wetting pretreatment mechanism 62 are used for performing knurling wetting pre-piercing treatment on corrugated boards from two sides of the corrugated boards respectively to form rolling wetting lines on the two sides of the corrugated boards respectively, the rolled and wetted corrugated boards are transmitted to a position between the progressive staggered push-pull initial crushing self-separation mechanism I72 and the progressive staggered push-pull initial crushing self-separation mechanism II 73 under the transmission action of the reverse thread knurling roller 23, the push-pull motor 63 of the progressive staggered push-pull initial crushing self-separation mechanism I72 and the push-pull motor 63 of the progressive staggered push-pull initial crushing self-separation mechanism II 73 simultaneously work, the push-pull motor 63 rotates to drive the push-pull rotating shaft 65 to rotate so as to drive the eccentric turntable 66 to rotate, the eccentric turntable 66 drives the push-pull rod 68 to slide along the sliding through hole 71 through the push-pull clamping piece 67, and a plurality of groups of eccentric turntables 66 distributed in a spiral step array form reciprocating sliding through the push-pull clamping piece 68 along the sliding through hole 71 Moving, so that the multiple groups of push-pull clamping pieces 67 move in a wave progressive manner to drive the push-pull rods 68 on the push-pull clamping pieces 67 to slide in a reciprocating manner, and push-pull crushing balls 69 are used for pushing and pulling different positions of the corrugated board, the push-pull rods 68 of the gradual staggered push-pull primary crushing self-separating mechanism I72 and the push-pull rods 68 of the gradual staggered push-pull primary crushing self-separating mechanism II 73 which are arranged at intervals push and pull the corrugated board in a staggered manner so as to push the corrugated board in two directions, the corrugated board is torn along rolling wetting lines to be crushed into corrugated board fragments, the plastic accessories have higher toughness, therefore, the corrugated board fragments which are crushed in a staggered manner are only deformed and cannot be torn under the pushing of the push-pull rods 68, the corrugated board fragments which are crushed in a staggered manner and the plastic accessories fall onto the screen 34 together, the vibration motor 35 is started, and the vibration motor 35 drives the screen 34 to vibrate so as to separate the corrugated board fragments which are crushed in a staggered manner, the corrugated board fragments are screened into a receiving box 33 through a screen 34, the plastic accessories are remained on the screen 34, during the primary crushing process, the corrugated board is soaked through the water on the surface of a thread knurling board 26 and the water in a water absorption rolling needle 24, thereby fundamentally preventing the corrugated board from being torn to generate dust, the waste corrugated board is subjected to knurling soaking pre-crushing treatment through the preset multistage staggered and reversely arranged forward thread knurling rollers 22 and reverse thread knurling rollers 23 which are matched with the water absorption rolling needles 24 densely distributed with micropores 32, and is perfectly matched with a progressive staggered push-pull primary crushing self-separation mechanism 6 which is progressively pushed in a wave manner, under the condition without any sensor and identification element, the technical effect of staggered push-pull accurate self-identification separation of the corrugated board and the plastic accessories is realized, meanwhile, the dust-free primary crushing treatment of the corrugated board is realized, and after the primary crushing is finished, the discharge door 37 is opened, the receiving box 33 is taken out from the discharge port 36, plastic accessories on the screen 34 are taken out, bubble water 74 is injected into the bubble generating cavity 52 from the water injection pipe, the crushing motor 44, the dust suppression fan 48 and the dust suppression motor 49 are started, the crushing motor 44 drives the main crushing gear 45 to rotate, the main crushing gear 45 drives the secondary crushing gear 46 to rotate oppositely, the main crushing gear 45 and the secondary crushing gear 46 respectively drive the driving crushing roller 41 and the driven crushing roller 42 to rotate oppositely, meanwhile, the dust suppression motor 49 rotates to drive the dust suppression rotating shaft 51 to rotate, the dust suppression rotating shaft 51 drives the dust suppression turntable 50 to rotate so as to drive the bubble holes 54 to be immersed into the bubble water 74 continuously to dip the bubble water 74, the dust suppression fan 48 generates air flow to blow bubble holes 54 above the dust suppression rotating shaft 51 continuously to generate bubbles and blows the bubbles into the crushing box body 39 through the bubble blowing through holes 53 to cover the bucket type feed port 38 to form a bubble layer, therefore, dust suppression is carried out in all directions, the corrugated board fragments after being crushed in the bearing box 33 are poured into the crushing box body 39 from the bucket type feed inlet 38, the corrugated board fragments are crushed completely by the driving crushing roller 41 and the driven crushing roller 42 which rotate oppositely, the dust generated by crushing is suppressed by the air bubble layer, the air bubbles are punctured when the corrugated board fragments are contacted with the air bubbles and continuously fall under the action of gravity, the dust is adhered to the surface of the air bubbles, the gravity of the corrugated board fragments is increased and sinks due to the contact wetting with the air bubbles when the air bubbles are crushed, the technical effect of dust suppression in all directions for crushing the corrugated boards is realized by utilizing the difference of the adsorption force of the air bubbles on the dust and the paper fragments, the technical effect of adsorption and dust removal which is difficult to solve by the prior art is solved by the large adsorption force, and simultaneously, the contradiction technical problems of small corrugated board fragments adsorption are avoided, the corrugated board after being completely crushed slides downwards to the inside of the material receiving box 12 along the hopper type feed opening 40, and after the crushing is completed, the material receiving box 12 is drawn out to take out the corrugated board after being completely crushed for recycling.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a broken recovery plant of abandonment corrugated container board which characterized in that: the automatic rolling and soaking self-cleaning dust suppression device comprises a rolling and soaking pretreatment alternative push-pull primary crushing self-separation device (1) and a covering self-recognition dust suppression full-crushing device (2), wherein the covering self-recognition dust suppression full-crushing device (2) is arranged on one side of the rolling and soaking pretreatment alternative push-pull primary crushing self-separation device (1), the rolling and soaking pretreatment alternative push-pull primary crushing self-separation device (1) comprises a primary crushing shell (3), an extrusion mechanism (4), a reverse thread rolling and soaking pretreatment mechanism (5), a gradual staggered push-pull primary crushing self-separation mechanism (6) and a receiving and screening assembly (7), the primary crushing shell (3) is arranged in a cavity, a primary crushing feed inlet (8) is formed in the upper wall of the primary crushing shell (3), the extrusion mechanism (4) is arranged in the primary crushing shell (3) and is arranged under the primary crushing feed inlet (8), and the extrusion mechanism (4) is arranged under the primary crushing feed inlet (8), The reverse thread rolling soaking pretreatment mechanism (5), the gradual staggered push-pull primary crushing self-separation mechanism (6) and the receiving screening assembly (7) are sequentially arranged in the primary crushing shell (3) from top to bottom; cover formula self-identification presses down full breaker (2) of dirt and includes that full broken support (9), full breaker (10), cover formula self-identification press down dirt mechanism (11) and connect workbin (12), first broken casing (3) lateral wall is located in full broken support (9), full broken support (9) top is located in full breaker (10), connect workbin (12) to slide and locate in full broken support (9), connect workbin (12) to set up for upper end open-ended cavity, connect workbin (12) to locate the below of full breaker (10), cover formula self-identification presses down dirt mechanism (11) and locates on the lateral wall of full breaker (10), cover formula self-identification presses down dirt mechanism (11) and full breaker (10) intercommunication.

2. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 1, wherein: the self-separating mechanism (6) comprises a push-pull motor (63), a push-pull driving cavity (64), a push-pull rotating shaft (65), an eccentric rotating disc (66), a push-pull clamping piece (67), a push-pull rod (68) and a push-pull crushing ball (69), wherein the push-pull driving cavity (64) is arranged on the inner side wall of a primary crushing shell (3), the push-pull rotating shaft (65) is rotatably arranged in the push-pull driving cavity (64), the push-pull motor (63) is arranged on the side wall of the push-pull driving cavity (64), an output shaft of the push-pull motor (63) is coaxially connected with the push-pull rotating shaft (65), the eccentric rotating disc (66) is eccentrically and fixedly connected onto the push-pull rotating shaft (65), a plurality of groups of eccentric rotating discs (66) are arranged on the push-pull rotating shaft (65) at equal intervals, the plurality of groups of eccentric rotating discs (66) are distributed in a spiral ladder array around the push-pull rotating shaft (65), and annular clamping grooves (70) are arranged on the circumferential side wall of the eccentric rotating disc (66), the novel crushing device is characterized in that the push-pull clamping piece (67) is arranged in an Contraband shape, two sides of the push-pull clamping piece (67) are respectively clamped in the annular clamping groove (70), the push-pull clamping piece (67) is arranged on the outer side of the eccentric rotary disc (66) in a sliding and clamping mode through the annular clamping groove (70), sliding through holes (71) are uniformly and densely distributed in the side wall of one side, away from the primary crushing shell (3), of the push-pull driving cavity (64), one end of a push-pull rod (68) is arranged on the side wall of the push-pull clamping piece (67), the other end of the push-pull rod (68) penetrates through the sliding through holes (71) and is arranged outside the push-pull driving cavity (64), a plurality of groups of push-pull rods (68) are uniformly distributed at equal intervals in the push-pull clamping piece (67), and push-pull crushing balls (69) are arranged at one end, away from the push-pull clamping piece (67), of the push-pull rod (68).

3. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 2, wherein: the reverse thread rolling wetting pretreatment mechanism (5) comprises a thread rolling wetting assembly (18), an auxiliary rolling assembly (19) and a pretreatment driving mechanism (20), the thread rolling wetting assembly (18) and the auxiliary rolling assembly (19) are respectively arranged on two opposite side walls of a primary crushing shell (3), a driving cavity (21) is arranged on the side wall of the primary crushing shell (3), the pretreatment driving mechanism (20) is arranged in the driving cavity (21), and the pretreatment driving mechanism (20) is connected with the thread rolling wetting assembly (18); the thread rolling soaking assembly (18) comprises a forward thread rolling roller (22), a reverse thread rolling roller (23), a water absorbing rolling needle (24) and a water tank (25), the forward thread rolling roller (22) is rotatably arranged on the inner side wall of a primary crushing shell (3), the reverse thread rolling roller (23) is rotatably arranged on the inner side wall of the primary crushing shell (3), the forward thread rolling roller (22) is arranged above the reverse thread rolling roller (23), thread rolling plates (26) are respectively arranged on the circumferential side wall of the forward thread rolling roller (22) and the circumferential side wall of the reverse thread rolling roller (23), the thread rolling plates (26) are spirally arranged around the forward thread rolling roller (22) and the reverse thread rolling roller (23), the spiral direction of the lateral wall thread rolling plate (26) of the forward thread rolling roller (22) is opposite to the spiral direction of the lateral wall thread rolling plate (26) of the reverse thread rolling roller (23), the water absorption rolling needles (24) are uniformly distributed on the thread knurling plates (26) on the side walls of the forward thread knurling rollers (22) and the thread knurling plates (26) on the side walls of the reverse thread knurling rollers (23) at equal intervals, the auxiliary rolling assembly (19) comprises an extrusion plate (27) and an elastic push rod (28), the elastic push rod (28) is arranged on the side walls of the primary crushing shell (3), the extrusion plate (27) is arranged at one end, far away from the primary crushing shell (3), of the elastic push rod (28), the extrusion plate (27) is in contact with the forward thread knurling rollers (22) and the reverse thread knurling rollers (23), the water tank (25) is arranged in a cavity with an upper end open, the water tank (25) comprises a forward water tank (30) and a reverse water tank (31), the forward water tank (30) penetrates through the crushing shell (3) and is arranged below the forward thread knurling rollers (22), and the lower end of the forward thread knurling rollers (22) is arranged in the forward water tank (30), the reverse water tank (31) penetrates through the primary crushing shell (3) and is arranged below the reverse thread knurling roller (23), the lower end of the reverse thread knurling roller (23) is arranged in the reverse water tank (31), and micropores (32) are densely distributed on the surface of the water absorption rolling needle (24).

4. A waste corrugated cardboard crushing and recycling apparatus as claimed in claim 3, wherein: the covering type self-recognition dust suppression mechanism (11) comprises a dust suppression fan (48), a dust suppression motor (49), a dust suppression rotary table (50), a dust suppression rotary shaft (51) and a bubble generation cavity (52), wherein the bubble generation cavity (52) is communicated with and arranged on the side wall of one side of the upper end of the full crusher (10), bubble generation water (74) is arranged in the bubble generation cavity (52), the dust suppression rotary shaft (51) is rotatably arranged in the bubble generation cavity (52), the dust suppression rotary table (50) is fixedly connected to the dust suppression rotary shaft (51), bubble holes (54) are uniformly distributed on the dust suppression rotary table (50) at equal intervals, the dust suppression motor (49) is arranged on the side wall of the bubble generation cavity (52), an output shaft of the dust suppression motor (49) is coaxially connected with the dust suppression rotary shaft (51), the lower end of the dust suppression rotary table (50) is immersed in the bubble water (74), and the dust suppression fan (48) is arranged on the side wall of the bubble generation cavity (52), the output end of the dust suppression fan (48) is communicated with the bubble generation cavity (52).

5. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 4, wherein: the upper end of the extrusion plate (27) is provided with a guide plate (29) which is obliquely arranged, the elastic push rod (28) comprises a sliding sleeve (56), a sliding rod (57) and a pushing spring (58), the sliding sleeve (56) is arranged on the side wall of the primary crushing shell (3), the sliding sleeve (56) is arranged in a cavity with one side opened, one end of the sliding rod (57) is arranged in the sliding sleeve (56) in a sliding manner, the extrusion plate (27) is arranged at the other end of the sliding rod (57), and the pushing spring (58) is arranged between the side wall of the sliding sleeve (56) and the sliding rod (57); the pretreatment driving mechanism (20) comprises a transmission belt (59) and a driving motor (60), the transmission belt (59) is wound on the forward thread knurling roller (22) and the reverse thread knurling roller (23), the driving motor (60) is arranged in the driving cavity (21), and an output shaft of the driving motor (60) is connected with the forward thread knurling roller (22).

6. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 5, wherein: the full crusher (10) comprises a bucket type feeding port (38), a crushing box body (39), a bucket type feed opening (40), a driving crushing roller (41), a driven crushing roller (42), a crushing blade (43), a crushing motor (44), a main crushing gear (45) and a driven crushing gear (46), wherein the crushing box body (39) is arranged on a full crushing support (9), a bubble blowing through hole (53) is formed between a bubble generating cavity (52) and the crushing box body (39), the output end of a dust suppression fan (48) is communicated with one side wall of the bubble generating cavity (52) far away from the bubble blowing through hole (53), the bucket type feeding port (38) is communicated with the upper wall of the crushing box body (39), the bucket type feed opening (40) is communicated with the lower wall of the crushing box body (39), the bucket type feeding port (38) and the bucket type feed opening (40) are arranged in a funnel shape, the driving crushing roller (41) and the driven crushing roller (42) are rotatably arranged in the crushing box body (39), crushing blade (43) are arranged on initiative crushing roller (41) and driven crushing roller (42) respectively in equidistant distribution, crushing blade (43) on initiative crushing roller (41) and crushing blade (43) on driven crushing roller (42) are the interval meshing distribution, broken box (39) one side is equipped with transmission chamber (47), main broken gear (45) and follow broken gear (46) rotate locate transmission chamber (47) in, main broken gear (45) and follow broken gear (46) mesh, main broken gear (45) and initiative crushing roller (41) coaxial coupling, follow broken gear (46) and driven crushing roller (42) coaxial coupling, broken motor (44) are located on full broken support (9), the output shaft and the main broken gear (45) coaxial coupling of broken motor (44).

7. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 6, wherein: reverse screw thread rolls to prick and soaks preliminary treatment mechanism (5) and rolls to prick and soak preliminary treatment mechanism (62) including positive screw thread roll, and in positive screw thread roll is pricked and is soaked preliminary treatment mechanism (61) and reverse screw thread roll and prick and soak preliminary treatment mechanism (62) from the top down and locate just broken casing (3) in proper order, positive screw thread roll is pricked and is soaked preliminary treatment mechanism (61) and reverse screw thread roll and prick and soak preliminary treatment mechanism (62) reverse setting.

8. The crushing and recycling device of the waste corrugated cardboard as claimed in claim 7, wherein: the self-separating device is characterized in that two sets of progressive staggered push-pull primary crushing self-separating mechanisms (6) are arranged in the primary crushing shell (3), the two sets of progressive staggered push-pull primary crushing self-separating mechanisms (6) are respectively a progressive staggered push-pull primary crushing self-separating mechanism I (72) and a progressive staggered push-pull primary crushing self-separating mechanism II (73), the progressive staggered push-pull primary crushing self-separating mechanism I (72) and the progressive staggered push-pull primary crushing self-separating mechanism II (73) are respectively arranged on two opposite side walls of the primary crushing shell (3), and push-pull rods (68) of the progressive staggered push-pull primary crushing self-separating mechanism I (72) and push-pull rods (68) of the progressive staggered push-pull primary crushing self-separating mechanism II (73) are arranged at intervals.

9. The crushing recovery apparatus of waste corrugated cardboard according to claim 8, wherein: the extrusion mechanism (4) comprises a main extrusion roller (13), a secondary extrusion roller (14), a driving gear (15), a driven gear (16) and an extrusion motor (17), wherein the main extrusion roller (13) and the secondary extrusion roller (14) are respectively rotatably arranged on the inner side wall of a primary crushing shell (3), the main extrusion roller (13) and the secondary extrusion roller (14) are symmetrically arranged on two sides of a primary crushing feed inlet (8), the driving gear (15) and the driven gear (16) are rotatably arranged in a driving cavity (21), the driving gear (15) is coaxially connected with the main extrusion roller (13), the driven gear (16) is coaxially connected with the secondary extrusion roller (14), the driving gear (15) is meshed with the driven gear (16), the extrusion motor (17) is arranged in the driving cavity (21), and an output shaft of the extrusion motor (17) is coaxially connected with the driving gear (15); accept screening subassembly (7) including accepting case (33), screen cloth (34) and vibrating motor (35), just broken casing (3) lower wall is equipped with discharge gate (36), discharge gate (36) department is articulated to be equipped with discharge door (37), it runs through discharge gate (36) and slides and locate just broken casing (3) interior diapire to accept case (33), screen cloth (34) are located just broken casing (3) inside wall on, screen cloth (34) are located the crisscross push-and-pull of progressive just broken self-separating mechanism (6) and are accepted between case (33), vibrating motor (35) are located on screen cloth (34).

10. The crushing recovery apparatus of waste corrugated cardboard according to claim 9, wherein: the upper wall of the bubble generating cavity (52) is communicated with a water filling port (55).