CN110861238B - Waste automobile recovery processing equipment - Google Patents

Abstract

The invention relates to automobile recovery equipment, in particular to waste automobile recovery processing equipment which comprises a flotation mechanism, a conveying mechanism, an iron removing mechanism, a sorting mechanism, a washing mechanism and a crushing mechanism, wherein the equipment can separate plastic from metal materials, can remove iron impurities contained in the plastic, can classify the plastic, can crush large-size plastic, and can clean the plastic, the flotation mechanism is connected with the conveying mechanism, the flotation mechanism is connected with the iron removing mechanism, the sorting mechanism is connected with the flotation mechanism, the washing mechanism is connected with the flotation mechanism, and the crushing mechanism is connected with the flotation mechanism.

Description

Waste automobile recovery processing equipment

Technical Field

The invention relates to automobile recovery equipment, in particular to waste automobile recovery and treatment equipment.

Background

In the automobile recovery treatment, a plurality of plastic and metal materials exist in the crushed automobile, the two materials are not well separated in the traditional recovery treatment material, the plastic recovery treatment processes are separated from each other, the equipment is not compact enough, and the occupied area is large, so the waste automobile recovery treatment equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing waste automobile recovery and treatment equipment, wherein the equipment can separate plastic from metal materials, the equipment can remove iron impurities contained in the plastic, the equipment can grade the plastic, the equipment can crush large-size plastic, and the equipment can clean the plastic.

In order to solve the technical problems, the invention relates to automobile recovery equipment, in particular to waste automobile recovery and treatment equipment which comprises a flotation mechanism, a conveying mechanism, an iron removing mechanism, a sorting mechanism, a washing mechanism and a crushing mechanism, wherein the equipment can separate plastic from metal materials, can remove iron impurities contained in the plastic, can classify the plastic, can crush large-size plastic, and can clean the plastic.

The flotation mechanism is connected with the conveying mechanism, the flotation mechanism is connected with the iron removal mechanism, the sorting mechanism is connected with the flotation mechanism, the washing mechanism is connected with the flotation mechanism, and the crushing mechanism is connected with the flotation mechanism.

As a further optimization of the technical scheme, the flotation mechanism of the waste automobile recovery processing equipment comprises a bottom plate, side openings, an inlet, a box body and a water outlet plug, wherein the bottom plate is connected with the box body, the side openings are formed in the two symmetrical sides of the box body, and the inlet is formed in a top plate of the box body.

As a further optimization of the technical scheme, the conveying mechanism of the waste automobile recovery and treatment equipment comprises a conveying roller mechanism and a special-shaped belt mechanism, wherein the conveying roller mechanism is connected with the special-shaped belt mechanism; the conveying roller mechanism comprises a driven roller, a frame body, a head roller, a coupler and a motor, wherein the driven roller is connected with the frame body through a bearing; the special-shaped belt mechanism comprises a belt and a protrusion, the protrusion is connected with the belt, the belt is connected with the head roller, and the belt is connected with the driven roller.

As a further optimization of the technical scheme, the iron removing mechanism of the waste automobile recovery processing equipment comprises a bearing seat, a threaded rod, a magnetic roller, a movable iron scraping mechanism, an iron removing coupler and a servo motor, wherein the bearing seat is connected with the threaded rod in a bearing mode, the bearing seat is connected with the magnetic roller in a bearing mode, the movable iron scraping mechanism is connected with the threaded rod, the movable iron scraping mechanism is matched with the magnetic roller, the threaded rod is connected with the servo motor through the iron removing coupler, the servo motor is connected with the bearing seat, and the bearing seat is connected with a box body; the movable iron scraping mechanism comprises a collecting box, a support, a scraper I and a threaded hole, the collecting box is connected with the support, the support is connected with the scraper I, the threaded hole is tapped on the support, the threaded hole is connected with the threaded rod through threads, the support is matched with the magnetic roller, and the scraper I and the magnetic roller are matched.

As a further optimization of the technical scheme, the sorting mechanism of the waste automobile recovery and treatment equipment comprises a sorting leg mechanism, a sorting hopper mechanism, a vibration belt, a vibration motor belt pulley and a vibration motor, wherein the sorting leg mechanism is connected with the sorting hopper mechanism, the vibration belt is connected with the vibration motor belt pulley, the vibration motor belt pulley is connected with the vibration motor, and the vibration motor is connected with the sorting hopper mechanism; the sorting landing leg mechanism comprises a sorting landing leg body and a step opening, the step opening is formed in the sorting landing leg body, and the bottom plate is connected with the sorting landing leg body; the sorting hopper mechanism comprises a bearing seat I, a discharge port I, a stepped support leg, a vibrating spring, a hopper body and a screen plate, wherein the bearing seat I is connected with the hopper body; the vibration mechanism comprises an eccentric block, a transmission belt wheel, a shaft and an anti-blocking impeller, the eccentric block is connected with the shaft, the transmission belt wheel is connected with the shaft, the shaft is connected with the anti-blocking impeller, the shaft is connected with a bearing in a bearing connection mode, and a vibration belt is connected with the transmission belt wheel.

As a further optimization of the technical scheme, the washing mechanism of the waste automobile recovery processing equipment comprises a water outlet hole, a washing shell, a helical blade, a washing coupler, a washing driving motor and a lower opening, wherein the water outlet hole is formed in the washing shell, the helical blade is connected with the washing shell in a bearing mode, the washing shell is connected with the washing driving motor through the washing coupler, the lower opening is formed in the washing shell, and the washing shell is connected with the bottom plate.

As a further optimization of the technical scheme, the stirring mechanism of the waste automobile recovery processing equipment comprises a stirring shell mechanism and a stirring wheel mechanism, wherein the stirring shell mechanism is connected with the stirring wheel mechanism; the stirring shell mechanism comprises a baffle, a stirring inlet, a bearing seat A, a stirring outlet and a stirring shell body, wherein the baffle is connected with the stirring shell body; the stirring wheel mechanism comprises a stirring driving motor, a stirring coupler, a stirring wheel connecting belt pulley, a connecting belt, a belt wheel driven stirring wheel, a stirring driving motor and a stirring wheel are connected through the stirring coupler, the stirring wheel is connected with the stirring wheel connecting belt pulley, the stirring wheel connecting belt pulley is flexibly connected with the connecting belt, the connecting belt is flexibly connected with the belt wheel driven stirring wheel, the stirring wheel is connected with a bearing in a bearing mode, and the stirring wheel connecting belt pulley is connected with the bearing seat A in a bearing mode.

As a further optimization of the technical scheme, the material of the crushing wheel of the waste automobile recovery and treatment equipment is stainless steel.

The waste automobile recovery processing equipment has the beneficial effects that:

according to the waste automobile recycling equipment, the plastic and the metal materials can be separated, iron impurities contained in the plastic can be removed, the plastic can be classified, the large-size plastic can be crushed, and the plastic can be cleaned.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic sectional structure diagram of a waste automobile recycling device of the present invention.

Fig. 2 is a schematic structural diagram of a waste automobile recovery and treatment device.

Fig. 3 is a schematic structural diagram of a flotation mechanism 1 of the waste automobile recycling equipment.

Fig. 4 is a schematic sectional structural diagram of the flotation mechanism 1 of the waste automobile recycling equipment.

Fig. 5 is a schematic structural diagram of the conveying mechanism 2 of the waste automobile recycling device.

Fig. 6 is a schematic structural diagram of a conveying roller mechanism 2-1 of the waste automobile recycling device.

Fig. 7 is a schematic structural diagram of a special-shaped belt mechanism 2-2 of the waste automobile recycling device.

Fig. 8 is a schematic structural diagram of an iron removal mechanism 3 of the waste automobile recycling device of the present invention.

Fig. 9 is a schematic structural diagram of a movable iron scraping mechanism 3-4 of the waste automobile recycling device.

Fig. 10 is a schematic structural diagram of a sorting mechanism 4 of the waste automobile recycling and processing equipment.

Fig. 11 is a supplementary structure diagram of the sorting mechanism 4 of the waste automobile recycling and processing equipment.

Fig. 12 is a schematic sectional structural diagram of the sorting mechanism 4 of the waste automobile recycling device according to the present invention.

Fig. 13 is a schematic structural diagram of a sorting leg mechanism 4-1 of the waste automobile recycling device.

Fig. 14 is a schematic structural diagram of a sorting hopper mechanism 4-2 of the waste automobile recycling device.

Fig. 15 is a schematic sectional structural view of a sorting hopper mechanism 4-2 of the waste automobile recycling device of the present invention.

Fig. 16 is a schematic view of a connection structure of a sorting leg mechanism 4-1 and a sorting hopper mechanism 4-2 of the waste automobile recycling device.

Fig. 17 is a schematic structural diagram of a vibration mechanism 4-3 of the waste automobile recycling device.

Fig. 18 is a schematic structural diagram of a water washing mechanism 5 of a waste automobile recycling device according to the present invention.

Fig. 19 is a supplementary structure diagram of the water washing mechanism 5 of the waste automobile recycling device of the invention.

Fig. 20 is a schematic structural diagram of a mincing mechanism 6 of a waste automobile recycling device according to the invention.

Fig. 21 is a supplementary structural diagram of the crushing mechanism 6 of the waste automobile recycling device of the present invention.

Fig. 22 is a schematic sectional structural view of the crushing mechanism 6 of the waste automobile recycling device according to the present invention.

Fig. 23 is a schematic structural diagram of a crushing shell mechanism 6-1 of the waste automobile recycling device.

FIG. 24 is a schematic structural diagram of a mincing wheel mechanism 6-2 of the waste automobile recycling device of the present invention.

In the figure: a flotation mechanism 1; a bottom plate 1-1; side opening 1-2; 1-3 of an inlet; 1-4 of a box body; 1-5 parts of a water outlet plug; a conveying mechanism 2; a conveying roller mechanism 2-1; a driven roller 2-1-1; 2-1-2 of a frame body; a head roller 2-1-3; 2-1-4 of a coupler; 2-1-5 of a motor; 2-2 of a special-shaped belt mechanism; 2-2-1 of a belt; 2-2-2 of the bulge; a deironing mechanism 3; a bearing seat 3-1; 3-2 parts of a threaded rod; 3-3 of a magnetic roller; 3-4 of a movable iron scraping mechanism; a collecting box 3-4-1; support 3-4-2; scraper I3-4-3; 3-4-4 parts of a threaded hole; 3-5 of an iron removal coupler; 3-6 parts of a servo motor; a sorting mechanism 4; a sorting leg mechanism 4-1; a sorting leg body 4-1-1; 4-1-2 of step opening; a sorting hopper mechanism 4-2; bearing seat I4-2-1; a discharge port I4-2-2; 4-2-3 of a ladder leg; 4-2-4 of a vibration spring; 4-2-5 parts of a bucket body; 4-2-6 parts of a screen plate; 4-3 of a vibration mechanism; eccentric block 4-3-1; a transmission belt pulley 4-3-2; shaft 4-3-3; 4-3-4 parts of an anti-blocking impeller; 4-4 of a vibration belt; 4-5 of a vibration motor belt pulley; 4-6 of a vibration motor; a water washing mechanism 5; 5-1 of a water outlet hole; cleaning the shell 5-2; 5-3 of helical blades; cleaning the coupler 5-4; cleaning a driving motor 5-5; 5-6 parts of lower opening; a crushing mechanism 6; a crushing shell mechanism 6-1; a baffle 6-1-1; a crushing inlet 6-1-2; bearing seat A6-1-3; a crushing outlet 6-1-4; crushing 6-1-5 parts of the shell body; a mincing wheel mechanism 6-2; a stirring driving motor 6-2-1; crushing the coupler 6-2-2; 6-2-3 of a crushing wheel; the crushing wheel is connected with a belt pulley 6-2-4; 6-2-5 of a connecting belt; a belt pulley driven crushing wheel 6-2-6.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the present invention relates to an automobile recycling apparatus, and more specifically, to a waste automobile recycling processing apparatus, which includes a flotation mechanism 1, a conveying mechanism 2, an iron removal mechanism 3, a sorting mechanism 4, a water washing mechanism 5, and a crushing mechanism 6, and is capable of separating plastic from metal materials, removing iron impurities contained in the plastic, classifying the plastic, crushing the plastic of a large size, and cleaning the plastic.

Flotation mechanism 1 link to each other with conveying mechanism 2, flotation mechanism 1 links to each other with deironing mechanism 3, sorting mechanism 4 links to each other with flotation mechanism 1, washing mechanism 5 links to each other with flotation mechanism 1, stirring mechanism 6 links to each other with flotation mechanism 1.

The second embodiment is as follows:

the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, wherein the flotation mechanism 1 includes a bottom plate 1-1, side openings 1-2, inlet openings 1-3, a tank 1-4, and water outlet plugs 1-5, the bottom plate 1-1 is connected to the tank 1-4, the side openings 1-2 are opened at two symmetrical sides of the tank 1-4, and the inlet openings 1-3 are opened at the top plate of the tank 1-4.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the embodiment further describes the first embodiment, in which the conveying mechanism 2 includes a conveying roller mechanism 2-1 and a profiled belt mechanism 2-2, and the conveying roller mechanism 2-1 is connected to the profiled belt mechanism 2-2; the conveying roller mechanism 2-1 comprises a driven roller 2-1-1, a frame body 2-1-2, a head roller 2-1-3, a coupler 2-1-4 and a motor 2-1-5, the driven roller 2-1-1 is connected with the frame body 2-1-2 through a bearing, the head roller 2-1-3 is connected with the motor 2-1-5 through a coupler 2-1-4, the motor 2-1-5 is connected with the frame body 2-1-2, the frame body 2-1-2 is connected with the bottom plate 1-1, and the frame body 2-1-2 is connected with the inner wall of the bottom plate of the box body 1-4; the special-shaped belt mechanism 2-2 comprises a belt 2-2-1 and a bulge 2-2-2, the bulge 2-2-1 is connected with the belt 2-2-2, the belt 2-2-2 is connected with a head roller 2-1-3, the belt 2-2-2 is connected with a driven roller 2-1-1, firstly, water is added into a box body 1-4 from an inlet 1-3, then a mixture of plastics and metal is put into the box body 1-4 from the inlet 1-3, the plastics can float on the water surface under the buoyancy action of the water, heavy materials such as the metal can directly sink due to the deviation of the inlet 1-3 to the left side, a motor 2-1-5 is operated, and the motor 2-1-5 can drive a coupler 2-1-4 to rotate, the shaft coupling 2-1-4 rotates to drive the head roller 2-1-3 to rotate, the head roller 2-1-3 rotates to drive the special-shaped belt mechanism 2-2 to move, substances which are settled down by metal and the like are conveyed out from the side opening 1-2 on the left side by the special-shaped belt mechanism 2-2 close to the left side, and because when a mixture is added, water splash can be excited by heavy substances, the water splash can drive floating plastics to move rightwards, the floating plastics are driven by the special-shaped belt mechanism 2-2 on the right side to be conveyed out from the side opening 1-2 on the right side, and then the materials fall onto the screen plate 4-2-6.

The fourth concrete implementation mode:

the following describes this embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and this embodiment further describes the embodiment, where the deironing mechanism 3 includes a bearing seat 3-1, a threaded rod 3-2, a magnetic roller 3-3, a movable iron scraping mechanism 3-4, an iron removing coupler 3-5, and a servo motor 3-6, the bearing seat 3-1 is connected with the threaded rod 3-2 by a bearing, the bearing seat 3-1 is connected with the magnetic roller 3-3 by a bearing, the movable iron scraping mechanism 3-4 is connected with the threaded rod 3-2, and the movable iron scraping mechanism 3-4 is matched with the magnetic roller 3-3, the threaded rod 3-2 is connected with the servo motor 3-6 through an iron removal coupler 3-5, the servo motor 3-6 is connected with the bearing seat 3-1, and the bearing seat 3-1 is connected with the box body 1-4; the movable iron scraping mechanism 3-4 comprises a collection box 3-4-1, a support 3-4-2, a scraper I3-4-3 and a threaded hole 3-4-4, the collection box 3-4-1 is connected with the support 3-4-2, the support 3-4-2 is connected with the scraper I3-4-3, the threaded hole 3-4-4 is tapped on the support 3-4-2, the threaded hole 3-4-4 is connected with the threaded rod 3-2 through threads, the support 3-4-2 is matched with the magnetic roller 3-3, the scraper I3-4-3 is matched with the magnetic roller 3-3, the plastic can pass through the magnetic roller 3-3 before falling onto the screen plate 4-2-6, so that iron impurities can be adsorbed by the magnetic roller 3-3, when the iron on the magnetic roller 3-3 is accumulated to a certain amount, the servo motor 3-6 can be operated, under the drive of the servo motor 3-6, the deironing coupler 3-5 rotates to drive the threaded rod 3-2 to rotate, the threaded rod 3-2 rotates to drive the movable iron scraping mechanism 3-4 to move towards the direction close to the servo motor 3-6 through the matching with the threaded hole 3-4-4, in the process, the scraper I3-4-3 scrapes off iron, the iron falls into the collection box 3-4-1, is convenient for recovery, after iron impurities on the whole magnetic roller 3-3 are cleaned, the servo motor 3-6 is operated in reverse direction to drive the movable iron scraping mechanism 3-4 to reset.

The fifth concrete implementation mode:

the embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, wherein the sorting mechanism 4 includes a sorting leg mechanism 4-1, a sorting hopper mechanism 4-2, a vibrating mechanism 4-3, a vibrating belt 4-4, a vibrating motor pulley 4-5, and a vibrating motor 4-6, the sorting leg mechanism 4-1 is connected to the sorting hopper mechanism 4-2, the vibrating mechanism 4-3 is connected to the sorting hopper mechanism 4-2, the vibrating belt 4-4 is connected to the vibrating mechanism 4-3, the vibrating belt 4-4 is connected to the vibrating motor 4-5, the belt pulley 4-5 of the vibration motor is connected with the vibration motor 4-6, and the vibration motor 4-6 is connected with the sorting hopper mechanism 4-2; the sorting leg mechanism 4-1 comprises a sorting leg body 4-1-1 and a step opening 4-1-2, wherein the step opening 4-1-2 is formed in the sorting leg body 4-1-1, and the bottom plate 1-1 is connected with the sorting leg body 4-1-1; the sorting hopper mechanism 4-2 comprises a bearing seat I4-2-1, a discharge port I4-2-2, a ladder leg 4-2-3, a vibrating spring 4-2-4, a hopper body 4-2-5 and a screen plate 4-2-6, the bearing seat I4-2-1 is connected with the bucket body 4-2-5, the discharge port I4-2-2 is arranged on the bucket body 4-2-5, the step support leg 4-2-3 is connected with the bucket body 4-2-5, the vibrating spring 4-2-4 is sleeved on the step support leg 4-2-3, the screen plate 4-2-6 is connected with the bucket body 4-2-5, and the step support leg 4-2-3 is in sliding connection with the step opening 4-1-2; the vibration mechanism 4-3 comprises an eccentric block 4-3-1, a transmission belt pulley 4-3-2, a shaft 4-3-3 and an anti-blocking impeller 4-3-4, the eccentric block 4-3-1 is connected with the shaft 4-3-3, the transmission belt pulley 4-3-2 is connected with the shaft 4-3-3, the shaft 4-3-3 is connected with the anti-blocking impeller 4-3-4, the shaft 4-3-3 is connected with a bearing seat I4-2-1 in a bearing connection mode, a vibration belt 4-4 is connected with the transmission belt pulley 4-3-2, the vibration motor 4-6 is operated to drive the vibration motor belt pulley 4-5 to rotate after plastics fall onto the screen plate 4-2-6, the vibration motor belt pulley 4-5 rotates to drive the transmission belt pulley 4-3-2 to rotate through the vibration belt 4-4, the transmission belt pulley 4-3-2 rotates to drive the shaft 4-3-3 to rotate, the shaft 4-3-3 rotates to drive the eccentric block 4-3-1 to rotate, the eccentric block 4-3-1 rotates to form a bias force, the bucket body 4-2-5 is driven by the bias force to be subjected to intermittent downward and upward forces, the bucket body 4-2-5 is continuously vibrated under the matching of the vibration spring 4-2-4, so that plastics can be graded on the screen plate 4-2-6, and the big plastics can continuously move forwards from the screen plate 4-2-6, the small plastic can leak down from the screen plate 4-2-6 and then enter the cleaning shell 5-2 from the discharge port I4-2-2, the anti-blocking impeller 4-3-4 can be simultaneously driven to rotate when the shaft 4-3-3 rotates, the anti-blocking impeller 4-3-4 can stir the small plastic when rotating, so that the blockage at the discharge port I4-2-2 can be prevented, the workload of a stirring link can be saved in the mode, and the small plastic can directly enter the cleaning link without being stirred.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the present embodiment further describes the first embodiment, in which the washing mechanism 5 includes a water outlet 5-1, a washing housing 5-2, a helical blade 5-3, a washing coupling 5-4, a washing driving motor 5-5, and a lower opening 5-6, the water outlet 5-1 is opened on the washing housing 5-2, the helical blade 5-3 is connected to the washing housing 5-2 by a bearing, the washing housing 5-2 is connected to the washing driving motor 5-5 by the washing coupling 5-4, the lower opening 5-6 is formed in the cleaning shell 5-2, the cleaning shell 5-2 is connected with the bottom plate 1-1, the cleaning driving motor 5-5 operates to drive the cleaning coupler 5-4 to rotate, the cleaning coupler 5-4 rotates to drive the helical blade 5-3 to rotate, the helical blade 5-3 rotates to drive the plastic to move towards the direction close to the cleaning driving motor 5-5, water is added from the end, close to the cleaning driving motor 5-5, of the cleaning shell 5-2 in the process, the water can clean the plastic, sewage flows along the cleaning shell 5-2 and is discharged from the water outlet 5-1, and clean plastic is discharged from the lower opening 5-6.

The seventh embodiment:

the embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, wherein the crushing mechanism 6 includes a crushing shell mechanism 6-1 and a crushing wheel mechanism 6-2, and the crushing shell mechanism 6-1 is connected to the crushing wheel mechanism 6-2; the stirring shell mechanism 6-1 comprises a baffle 6-1-1, a stirring inlet 6-1-2, a bearing seat A6-1-3, a stirring outlet 6-1-4 and a stirring shell body 6-1-5, wherein the baffle 6-1-1 is connected with the stirring shell body 6-1-5, the stirring inlet 6-1-2 is arranged on the stirring shell body 6-1-5, the bearing seat A6-1-3 is connected with the stirring shell body 6-1-5, the stirring outlet 6-1-4 is arranged on the stirring shell body 6-1-5, and the stirring shell body 6-1-5 is connected with the bottom plate 1-1; the mincing wheel mechanism 6-2 comprises a mincing driving motor 6-2-1, a mincing coupling 6-2-2, a mincing wheel 6-2-3, a mincing wheel connecting belt wheel 6-2-4, a connecting belt 6-2-5 and a driven mincing wheel with a belt wheel 6-2-6, the mincing driving motor 6-2-1 is connected with the mincing wheel 6-2-3 through the mincing coupling 6-2-2, the mincing wheel 6-2-3 is connected with the mincing wheel connecting belt wheel 6-2-4, the mincing wheel connecting belt wheel 6-2-4 is in flexible connection with the connecting belt 6-2-5, the connecting belt 6-2-5 is in flexible connection with the driven mincing wheel with the belt wheel 6-2-6, the connection mode of the stirring wheel 6-2-3 and the bearing seat A6-1-3 is bearing connection, the connection mode of the stirring wheel connecting belt pulley 6-2-4 and the bearing seat A6-1-3 is bearing connection, large plastic can enter the stirring shell body 6-1-5 from the stirring inlet 6-1-2, the stirring driving motor 6-2-1 is operated to drive the stirring coupler 6-2-2 to rotate, the stirring coupler 6-2-2 rotates to drive the stirring wheel 6-2-3 to rotate, the stirring wheel 6-2-3 rotates to drive the stirring wheel connecting belt pulley 6-2-4 to rotate, the stirring wheel connecting belt pulley 6-2-4 rotates to drive the driven stirring wheel with the belt pulley 6-2-5 6, the belt pulley driven stirring wheel 6-2-6 and the stirring wheel 6-2-3 can stir the large plastic into small pieces, and then the small pieces enter the cleaning shell 5-2 from the stirring outlet 6-1-4.

The specific implementation mode is eight:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the first embodiment will be further described in the present embodiment, in which the material of the crushing wheel 6-2-3 is stainless steel.

The working principle of the device is as follows: the equipment can separate plastic and metal materials, firstly, water is added into the box body 1-4 from the inlet 1-3, then a mixture of the plastic and the metal is placed into the box body 1-4 from the inlet 1-3, the plastic can float on the water surface under the buoyancy action of the water, heavy materials such as the metal can directly sink due to the deviation of the inlet 1-3 to the left side, the motor 2-1-5 is operated, the motor 2-1-5 can drive the coupler 2-1-4 to rotate, the coupler 2-1-4 can drive the head roller 2-1-3 to rotate, the head roller 2-1-3 can drive the special-shaped belt mechanism 2-2 to move when rotating, the substances such as the metal and the like which sink can be conveyed out from the side opening 1-2 on the left side by the special-shaped belt mechanism 2-2 close to the left side, when the mixture is added, the heavy substances can excite water splash, the water splash can drive the floating plastic to move rightwards, the floating plastic is driven by the special-shaped belt mechanism 2-2 on the right to be conveyed out from the side opening 1-2 on the right, and then the floating plastic falls onto the screen plate 4-2-6; the equipment can remove iron impurities contained in plastics, the plastics can pass through the magnetic roller 3-3 before falling onto the screen plate 4-2-6, so that the iron impurities can be adsorbed by the magnetic roller 3-3, when iron on the magnetic roller 3-3 is accumulated to a certain amount, the servo motor 3-6 can be operated, the deironing coupler 3-5 can rotate under the drive of the servo motor 3-6, the deironing coupler 3-5 can rotate to drive the threaded rod 3-2 to rotate, the threaded rod 3-2 can rotate to drive the movable iron scraping mechanism 3-4 to move towards the direction close to the servo motor 3-6 through the matching with the threaded hole 3-4-4, in the process, the scraper I3-4-3 can scrape the iron, and the iron can fall into the collection box 3-4-1, the recovery is convenient, and after iron impurities on the whole magnetic roller 3-3 are cleaned, the servo motor 3-6 is operated reversely to drive the movable iron scraping mechanism 3-4 to reset; the device can grade plastics, the vibration motor 4-6 is operated to drive the vibration motor belt pulley 4-5 to rotate after the plastics fall onto the screen plate 4-2-6, the vibration motor belt pulley 4-5 rotates to drive the transmission belt pulley 4-3-2 to rotate through the vibration belt 4-4, the transmission belt pulley 4-3-2 rotates to drive the shaft 4-3-3 to rotate, the shaft 4-3-3 rotates to drive the eccentric block 4-3-1 to rotate, the eccentric block 4-3-1 rotates to form a bias vibration force, the hopper body 4-2-5 is driven by the bias vibration force to be intermittently stressed downwards and upwards, and the hopper body 4-2-5 is continuously vibrated under the coordination of the vibration spring 4-2-4, therefore, plastics can be graded on the screen plate 4-2-6, the big plastics can continuously move forwards from the screen plate 4-2-6, the small plastics can leak from the screen plate 4-2-6, then the plastics come out from the discharge port I4-2-2 and enter the cleaning shell 5-2, the anti-blocking impeller 4-3-4 can be simultaneously driven to rotate when the shaft 4-3-3 rotates, the anti-blocking impeller 4-3-4 rotates to stir the small plastics, and therefore the blockage at the discharge port I4-2-2 can be prevented, the workload of a stirring link can be saved, the small plastics do not need to be stirred and can directly enter a cleaning link; the device can crush large-size plastics, the large plastics can enter the crushing shell body 6-1-5 from the crushing inlet 6-1-2, the stirring driving motor 6-2-1 is operated to drive the stirring coupler 6-2-2 to rotate, the stirring coupler 6-2-2 rotates to drive the stirring wheel 6-2-3 to rotate, the stirring wheel 6-2-3 rotates to drive the stirring wheel connecting belt wheel 6-2-4 to rotate, the stirring wheel connecting belt wheel 6-2-4 rotates to drive the belt wheel driven stirring wheel 6-2-6 to rotate through the connecting belt 6-2-5, the belt wheel driven stirring wheel 6-2-6 and the stirring wheel 6-2-3 rotate to stir the large plastics into small pieces, then enters the cleaning shell 5-2 from the crushing outlet 6-1-4; the equipment can clean plastics, the cleaning coupling 5-4 is driven to rotate by the operation of the cleaning driving motor 5-5, the cleaning coupling 5-4 rotates to drive the helical blade 5-3 to rotate, the helical blade 5-3 rotates to drive the plastics to move towards the direction close to the cleaning driving motor 5-5, in the process, water is added from the end, close to the cleaning driving motor 5-5, of the cleaning shell 5-2, the water can clean the plastics, sewage flows along the cleaning shell 5-2 and is discharged from the water outlet hole 5-1, and clean plastics are discharged from the lower opening 5-6.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a waste automobile recovery processing equipment, includes flotation mechanism (1), conveying mechanism (2), deironing mechanism (3), sorting mechanism (4), washing mechanism (5), pulper mechanism (6), its characterized in that: the flotation mechanism (1) is connected with the conveying mechanism (2), the flotation mechanism (1) is connected with the iron removal mechanism (3), the sorting mechanism (4) is connected with the flotation mechanism (1), the washing mechanism (5) is connected with the flotation mechanism (1), and the crushing mechanism (6) is connected with the flotation mechanism (1);

the flotation mechanism (1) comprises a bottom plate (1-1), side openings (1-2), inlets (1-3), a box body (1-4) and a water outlet plug (1-5), wherein the bottom plate (1-1) is connected with the box body (1-4), the side openings (1-2) are formed in two symmetrical sides of the box body (1-4), and the inlets (1-3) are formed in a top plate of the box body (1-4);

the conveying mechanism (2) comprises a conveying roller mechanism (2-1) and a special-shaped belt mechanism (2-2), and the conveying roller mechanism (2-1) is connected with the special-shaped belt mechanism (2-2); the conveying roller mechanism (2-1) comprises a driven roller (2-1-1), a frame body (2-1-2), a head roller (2-1-3), a coupler (2-1-4) and a motor (2-1-5), the driven roller (2-1-1) is connected with the frame body (2-1-2) through a bearing, the head roller (2-1-3) is connected with the motor (2-1-5) through the coupler (2-1-4), the motor (2-1-5) is connected with the frame body (2-1-2), the frame body (2-1-2) is connected with a bottom plate (1-1), the frame body (2-1-2) is connected with the inner wall of the bottom plate of the box body (1-4); the special-shaped belt mechanism (2-2) comprises a belt (2-2-1) and a protrusion (2-2-2), the protrusion (2-2-1) is connected with the belt (2-2-2), the belt (2-2-2) is connected with the head roller (2-1-3), and the belt (2-2-2) is connected with the driven roller (2-1-1);

the iron removing mechanism (3) comprises a bearing seat (3-1), a threaded rod (3-2), a magnetic roller (3-3), a movable iron scraping mechanism (3-4), an iron removing coupler (3-5) and a servo motor (3-6), the bearing seat (3-1) is connected with the threaded rod (3-2) in a bearing mode, the bearing seat (3-1) is connected with the magnetic roller (3-3) in a bearing mode, the movable iron scraping mechanism (3-4) is connected with the threaded rod (3-2), the movable iron scraping mechanism (3-4) is matched with the magnetic roller (3-3), the threaded rod (3-2) is connected with the servo motor (3-6) through the iron removing coupler (3-5), and the servo motor (3-6) is connected with the bearing seat (3-1), the bearing seat (3-1) is connected with the box body (1-4); the movable iron scraping mechanism (3-4) comprises a collecting box (3-4-1), a support (3-4-2), a scraping plate I (3-4-3) and a threaded hole (3-4-4), the collecting box (3-4-1) is connected with the support (3-4-2), the support (3-4-2) is connected with the scraping plate I (3-4-3), the threaded hole (3-4-4) is tapped on the support (3-4-2), the threaded hole (3-4-4) is connected with the threaded rod (3-2) through threads, the support (3-4-2) is matched with the magnetic roller (3-3), and the scraping plate I (3-4-3) is matched with the magnetic roller (3-3);

the sorting mechanism (4) comprises a sorting leg mechanism (4-1), a sorting hopper mechanism (4-2), a vibrating mechanism (4-3), a vibrating belt (4-4), a vibrating motor belt pulley (4-5) and a vibrating motor (4-6), the sorting leg mechanism (4-1) is connected with the sorting hopper mechanism (4-2), the vibration mechanism (4-3) is connected with the sorting hopper mechanism (4-2), the vibration belt (4-4) is connected with the vibration mechanism (4-3), the vibration belt (4-4) is connected with the vibration motor belt pulley (4-5), the vibration motor belt pulley (4-5) is connected with the vibration motor (4-6), and the vibration motor (4-6) is connected with the sorting hopper mechanism (4-2); the sorting support leg mechanism (4-1) comprises a sorting support leg body (4-1-1) and a step opening (4-1-2), wherein the step opening (4-1-2) is formed in the sorting support leg body (4-1-1), and the bottom plate (1-1) is connected with the sorting support leg body (4-1-1); the separation hopper mechanism (4-2) comprises a bearing seat I (4-2-1), a discharge port I (4-2-2), a step supporting leg (4-2-3), a vibration spring (4-2-4), a hopper body (4-2-5) and a screen plate (4-2-6), wherein the bearing seat I (4-2-1) is connected with the hopper body (4-2-5), the discharge port I (4-2-2) is arranged on the hopper body (4-2-5), the step supporting leg (4-2-3) is connected with the hopper body (4-2-5), the vibration spring (4-2-4) is sleeved on the step supporting leg (4-2-3), the screen plate (4-2-6) is connected with the hopper body (4-2-5), the ladder supporting leg (4-2-3) is connected with the ladder opening (4-1-2) in a sliding way; the vibration mechanism (4-3) comprises an eccentric block (4-3-1), a transmission belt pulley (4-3-2), a shaft (4-3-3) and an anti-blocking impeller (4-3-4), the eccentric block (4-3-1) is connected with the shaft (4-3-3), the transmission belt pulley (4-3-2) is connected with the shaft (4-3-3), the shaft (4-3-3) is connected with the anti-blocking impeller (4-3-4), the shaft (4-3-3) is connected with a bearing seat I (4-2-1) in a bearing connection mode, the vibration belt (4-4) is connected with the transmission belt pulley (4-3-2), after the plastic falls onto the screen plate (4-2-6), the vibration motor (4-6) is operated to drive the vibration motor belt pulley (4-5) to rotate, the vibration motor belt pulley (4-5) rotates to drive the transmission belt pulley (4-3-2) to rotate through the vibration belt (4-4), the transmission belt pulley (4-3-2) rotates to drive the shaft (4-3-3) to rotate, the shaft (4-3-3) rotates to drive the eccentric block (4-3-1) to rotate, the eccentric block (4-3-1) rotates to form a bias vibration force, the hopper body (4-2-5) is driven by the bias vibration force to be subjected to intermittent downward and upward forces, and the hopper body (4-2-5) is held under the matching of the vibration spring (4-2-4) Continuously vibrating, so that the plastic can be classified on the screen plate (4-2-6), the larger plastic can continuously move forwards from the screen plate (4-2-6), the smaller plastic can leak downwards from the screen plate (4-2-6), and then the plastic can come out from the discharge port I (4-2-2) and enter the cleaning shell (5-2);

the washing mechanism (5) comprises a water outlet hole (5-1), a washing shell (5-2), a spiral blade (5-3), a washing coupler (5-4), a washing driving motor (5-5) and a lower opening (5-6), wherein the water outlet hole (5-1) is formed in the washing shell (5-2), the spiral blade (5-3) is connected with the washing shell (5-2) in a bearing mode, the washing shell (5-2) is connected with the washing driving motor (5-5) through the washing coupler (5-4), the lower opening (5-6) is formed in the washing shell (5-2), and the washing shell (5-2) is connected with the bottom plate (1-1);

the stirring mechanism (6) comprises a stirring shell mechanism (6-1) and a stirring wheel mechanism (6-2), and the stirring shell mechanism (6-1) is connected with the stirring wheel mechanism (6-2); the stirring shell mechanism (6-1) comprises a baffle (6-1-1), a stirring inlet (6-1-2), a bearing seat A (6-1-3), a stirring outlet (6-1-4) and a stirring shell body (6-1-5), the baffle (6-1-1) is connected with the stirring shell body (6-1-5), the stirring inlet (6-1-2) is arranged on the stirring shell body (6-1-5), the bearing seat A (6-1-3) is connected with the stirring shell body (6-1-5), the stirring outlet (6-1-4) is arranged on the stirring shell body (6-1-5), and the stirring shell body (6-1-5) is connected with the bottom plate (1-1); the stirring wheel mechanism (6-2) comprises a stirring driving motor (6-2-1), a stirring coupler (6-2-2), a stirring wheel (6-2-3), a stirring wheel connecting belt wheel (6-2-4), a connecting belt (6-2-5) and a driven stirring wheel (6-2-6) with a belt wheel, wherein the stirring driving motor (6-2-1) is connected with the stirring wheel (6-2-3) through the stirring coupler (6-2-2), the stirring wheel (6-2-3) is connected with the stirring wheel connecting belt wheel (6-2-4), the stirring wheel connecting belt wheel (6-2-4) is in flexible connection with the connecting belt (6-2-5), the connecting belt (6-2-5) is flexibly connected with the driven crushing wheel (6-2-6) with the belt wheel, the crushing wheel (6-2-3) is connected with the bearing seat A (6-1-3) by a bearing, the crushing wheel connecting belt wheel (6-2-4) is connected with the bearing seat A (6-1-3) by a bearing, the operation of the stirring driving motor (6-2-1) drives the stirring coupling (6-2-2) to rotate, the stirring coupling (6-2-2) rotates to drive the stirring wheel (6-2-3) to rotate, the stirring wheel (6-2-3) rotates to drive the stirring wheel connecting belt wheel (6-2-4) to rotate, the stirring wheel connecting belt pulley (6-2-4) rotates to drive the belt wheel driven stirring wheel (6-2-6) to rotate through the connecting belt (6-2-5), the belt wheel driven stirring wheel (6-2-6) and the stirring wheel (6-2-3) rotate to stir large plastics into small pieces, and then the small pieces enter the cleaning shell (5-2) from the stirring outlet (6-1-4).

2. The waste automobile recycling and processing equipment according to claim 1, characterized in that: the material of the mincing wheel (6-2-3) is stainless steel.

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