CN115302833B - Compression device for waste paper recovery - Google Patents

Abstract

The invention discloses a compression device for waste paper recovery, which relates to the technical field of waste paper recovery devices and comprises a collection assembly used for compressing waste paper, wherein a plurality of collection boxes are arranged in the collection assembly, the waste paper is compressed in the collection boxes, and the compressed waste paper is automatically ejected out through the movement of the collection boxes.

Description

Compression device for waste paper recovery

Technical Field

The invention relates to the technical field of waste paper recovery devices, in particular to a compression device for waste paper recovery.

Background

In the life of people, education, work and other aspects are not separated from using a large amount of paper products, and recycling of waste paper is an important link of paper product production and environmental protection, so that pollution to the environment can be reduced, production cost can be saved, economic benefit can be improved, and waste paper needs to be compressed into blocks during recycling, so that conveying efficiency is improved.

At present, waste paper is soaked in rainwater outside, then is dried in sunlight, and impurities such as soil and the like are inevitably adhered and remained on the surface of the waste paper, and the waste paper is generally recovered together with the impurities of the soil during recovery, and before compression, if the waste paper is not cleaned, the waste paper can be compressed together, so that the recovery operation of a later waste paper recovery plant is influenced.

The Chinese patent publication No. CN211683647U discloses a waste paper recycling and compressing device with convenient discharging, which has the characteristics of convenient feeding and discharging, high compression efficiency and the like, but does not solve the technical problems.

Disclosure of Invention

In view of the problems in the art described above, the present invention provides a used paper recycling compression device.

The invention discloses a compression device for waste paper recovery, which comprises a collection assembly and a dispersion assembly, wherein the collection assembly comprises an arc disc, an inclined plane is arranged on the arc disc, a rotating column is coaxially arranged on the arc disc in a rotating mode, a supporting rod is further arranged on the arc disc, a plurality of groups of collection boxes are slidably arranged on the rotating column, a top movable ball is arranged on the collection boxes, a dust beating assembly is arranged on the supporting rod, the dust beating assembly comprises a shell, a plurality of groups of sliding blocks are arranged on the shell, an eccentric rotating mechanism is arranged on the sliding blocks, a rack II is arranged in the eccentric rotating mechanism, a plurality of groups of arc plates are arranged on the shell, a sliding rod II is arranged on the arc plates, a spring III is arranged between the arc plates and the shell, a fixing rod is arranged in the shell, the sliding rod II is slidably arranged on the fixing rod, two groups of double-layer beating mechanisms are arranged on the fixing rod, the dispersion assembly comprises an adsorption disc connected with the shell, four adsorption plates are arranged on the adsorption disc, and the adsorption disc is continuously attached to the collection device, and the waste paper is continuously compressed and collected by the suction disc.

Further, the collection subassembly still including installing the rotation tooth on rotating the post, the bracing piece lower extreme be provided with rotation motor, rotation motor output shaft on be provided with rotation gear, rotation gear and rotation tooth meshing, through taking out the waste paper after compressing to the rotation of collecting box automatically.

Further, eccentric rotary mechanism including installing driving motor and the sliding block on the shell, the sliding block on slide and be provided with the sliding frame, sliding frame both sides be provided with the top and move the pole, top move pole intermittent type and arc laminating, the sliding frame in be provided with the eccentric wheel, the eccentric wheel rotate with the shell and be connected, driving motor be connected with the eccentric wheel through the belt, rack two install at the sliding frame lower extreme, drive simultaneously and clap dirt subassembly and dispersion subassembly and work, improve cleaning efficiency.

Further, the eccentric wheel is tangent to the inner side of the long side of the sliding frame.

Further, double-deck mechanism of patting including installing the fixed plate on the dead lever, the fixed plate on slide and be provided with impeller first and impeller second, impeller first and impeller second and fixed plate between all be provided with four springs, impeller first be close to driving motor's one end be provided with the flapping plate first, impeller second be close to driving motor one end and be provided with flapping plate second, the fixed plate on rotate and be provided with four gears, sliding rod second on be provided with three racks, three and four gears meshing, four gears on be provided with the swinging arms, swinging arms and impeller first and two intermittent type laminating of impeller, fully patting the dust.

Further, dispersion adsorption device including rotating the adsorption tube of installing on the adsorption disc, the one end that the adsorption tube is close to the adsorption disc be provided with the gear two, the one end that the adsorption tube kept away from the adsorption disc be provided with the gear three, the push rod on be provided with rack one, rack one and gear two meshing, the shell on be provided with slide bar one, push bar and slide bar one sliding connection, push bar and slide bar one between be provided with the spring two, disperse the waste paper after beating, fully clear up the dust in the waste paper.

Further, the adsorption tube on be provided with the compression electric jar, the compression electric jar rotation be provided with the dispersion conical head, the dispersion conical head on be provided with dispersion tooth, dispersion tooth and three meshing of gear, compression electric jar lower extreme be provided with the compression head, compress waste paper.

Further, the adsorption tubes of one group of the dispersing and adsorbing mechanisms are provided with a first gear, and the first gear is meshed with a second rack.

Further, the four pushing rods are mutually attached.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the waste paper waste beating machine, dust on waste paper can be beaten quickly through the dust beating assembly, and the waste paper waste can be conveniently and subsequently processed; (2) According to the invention, dust in the beaten waste paper is adsorbed by the dispersing assembly, and the waste paper is dispersed; (3) According to the invention, the waste paper is rapidly compressed through the arranged collecting assembly, and the compressed waste paper is automatically taken out.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic view of the structure of the collecting assembly of the present invention.

FIG. 3 is a schematic view of a part of the structure of the collecting assembly of the present invention.

Fig. 4 is a cross-sectional view of the collection assembly of the present invention.

FIG. 5 is a schematic view of a dispersion member according to the present invention.

FIG. 6 is a schematic view of a part of the structure of the dispersing element of the present invention.

Fig. 7 is a cross-sectional view of a dispersion member according to the present invention.

FIG. 8 is a schematic view of the dust beating assembly of the present invention.

FIG. 9 is a schematic view of a dust beating component according to the first embodiment of the present invention.

FIG. 10 is a schematic diagram showing a part of the dust beating assembly according to the second embodiment of the present invention.

FIG. 11 is a schematic diagram of a dust beating component according to the third embodiment of the present invention.

Description of the drawings: 1-a collection assembly; 2-a dispersion assembly; 3-dust beating components; 101-an arc-shaped disc; 102-rotating a disc; 103-collecting box; 104-an elastic ring; 105-supporting rods; 106-rotating the column; 107-rotating teeth; 108-rotating a motor; 109-rotating a gear; 110-top ball; 111-spring one; 201-an adsorption disk; 202-an adsorption pump; 203-adsorbing tube; 204-gear one; 205-gear two; 206-pushing the rod; 207-dispersing cone heads; 208-rack one; 209-slide bar one; 210-spring two; 211-gear three; 212-disperse teeth; 213-compression electric cylinder; 214-compressing the head; 215-a collection hopper; 301-a housing; 302-a drive motor; 303—a sliding frame; 304-pushing the movable rod; 305-arc plate; 306-eccentric wheel; 307-sliders; 308-spring three; 309-rack two; 310-belt; 311-flapping plate I; 312-flapping plate II; 313-fixing plate; 314-fixing the rod; 315—sliding bar two; 316-push plate one; 317-pushing plate two; 318-swinging rod; 319-gear IV; 320-third rack; 321-spring four.

Detailed Description

Specific embodiments of the device according to the invention are further described below with reference to the drawings and exemplary embodiments.

Examples: referring to fig. 1, a compression device for waste paper recovery is shown, including being used for compressing collection subassembly 1 of waste paper, collection subassembly 1 upper end is provided with and is used for dispersing waste paper and clearance waste paper interior dust's dispersion subassembly 2, and dispersion subassembly 2 upper end is provided with and beats the waste paper and claps dust subassembly 3 that the dust was patted down.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the collecting assembly 1 comprises an arc-shaped disc 101, an inclined plane is arranged on the arc-shaped disc 101, a rotating column 106 is rotatably arranged on the arc-shaped disc 101, a rotating tooth 107 is arranged on the rotating column 106, a supporting rod 105 is arranged on the arc-shaped disc 101, a rotating motor 108 is arranged at the lower end of the supporting rod 105, a rotating gear 109 is arranged on an output shaft of the rotating motor 108, the rotating tooth 107 is meshed with the rotating gear 109, an elastic ring 104 is arranged on the rotating column 106, a collecting box 103 is connected with the rotating disc 102 through the elastic ring 104, a top-moving ball 110 is arranged at the lower end of the collecting box 103, one end of the top-moving ball 110 slides in the collecting box 102, a spring one 111 is arranged between the top-moving ball 110 and the collecting box 103, one end of the top-moving ball 110 slides in the collecting box 103, the other end of the top-moving ball 110 is attached to the arc-shaped disc 101, when the rotating motor 108 drives the rotating gear 109 to rotate, the rotating gear 107 rotates, the rotating tooth 107 drives the rotating tooth 107 to rotate through the top-moving ball 110, the collecting box 103 rotates through the top-moving ball 110, when the rotating column 106 drives the top-moving ball 110 to reach the highest point of the top-moving disc 103, the top-moving ball 101 slides to the top-moving disc 101, and simultaneously, and the top-moving ball 110 slides to the top-moving disc 111 when the top-moving ball 101 slides to the top surface.

Referring to fig. 1, fig. 5, fig. 6 and fig. 7, the dispersing assembly 2 comprises an adsorption disc 201, an adsorption pump 202 is arranged on the adsorption disc 201, four pushing rods 206 are mutually attached, a rack one 208 is arranged on the pushing rods 206, four groups of adsorption tubes 203 are rotatably arranged on the adsorption disc 201, one end of each adsorption tube 203 is coaxially provided with a gear two 205, the other end of each adsorption tube 203 is coaxially provided with a gear three 211, the gears two 205 are meshed with the rack one 208, a collecting hopper 215 is arranged at the lower end of the adsorption disc 201, the collecting hopper 215 is in clearance attachment with the collecting box 103, the pushing rods 206 are slidably mounted on a sliding rod one 209, the sliding rod one 209 is mounted on a shell 301, a spring two 210 is arranged between the sliding rod one 209 and the pushing rod 206, the dispersing assembly 2 further comprises a compression electric cylinder 213, the compression electric cylinder 213 is mounted at one end of each of the three gears 211, a dispersing conical head 207 is rotatably arranged in the compression electric cylinder 213, dispersing conical heads 207 are provided with dispersing teeth 212, the dispersing teeth 212 are coaxially meshed with the three gears 205, the dispersing teeth 205 are meshed with the three gears 205, the first gears 203 are rotatably arranged at the dispersing conical heads 205, the dispersing conical heads 205 are rotatably drive the two gears 204 to rotate, and the two gears 204 are rotatably drive the dispersing conical heads 204 to rotate, and the two gears 204 are rotatably drive the two gears 204 to rotate, and the two gears 204 are rotatably driven to rotate the dispersing conical heads 204 to rotate, and the two shafts 204 are rotatably 206, and are rotatably driven to rotate the dispersing heads 204.

Referring to fig. 1, 8, 9, 10 and 11, the dust beating assembly 3 comprises a housing 301 installed on a supporting rod 105, the lower end of the housing 301 is connected with an adsorption disc 201, two groups of arc plates 305 are slidably arranged on the housing 301, two groups of sliding blocks 307 are arranged on the housing 301, a sliding frame 303 is slidably arranged on the sliding block 307, two sides of the sliding frame 303 are provided with a pushing rod 304, the pushing rod 304 is intermittently jointed with the arc plates 305, a sliding rod 315 is arranged on the arc plates 305, a rack three 320 is arranged on the sliding rod two 315, a spring three 308 is arranged between the spring three 308 and the housing 301, the eccentric wheel 306 is tangent to the inner side of the long side of the sliding frame 303, the eccentric wheel 306 is rotatably arranged on the housing 301, a driving motor 302 is also arranged on the housing 301 and connected with the eccentric wheel 306 through a belt 310, a rack two 309 is arranged at the lower end of the sliding frame 303, a fixed rod 314 is arranged inside the housing 301, the second sliding rod 315 is slidably mounted on the fixed rod 314, the side edge of the fixed rod 314 is provided with a fixed plate 313, the fixed plate 313 is slidably provided with a first pushing plate 316 and a second pushing plate 317, a fourth spring 321 is arranged between the first pushing plate 316 and the second pushing plate 317 and the fixed plate 313, a fourth gear 319 is rotatably arranged on the fixed rod 314, the fourth gear 319 is meshed with a third rack 320, a swinging rod 318 is arranged on the fourth gear 319, the swinging rod 318 is intermittently jointed with the first pushing plate 316 and the second pushing plate 317, the fixed rod 314, the first pushing plate 316, the second pushing plate 317, the fixed plate 313, the first clapping plate 311, the swinging rod 318, the fourth gear 319 and the clapping plate 312 are respectively provided with two groups, the driving motor 302 drives the eccentric wheel 306 to rotate through the belt 310, the sliding frame 303 is driven to move on the sliding block 307 when the eccentric wheel 306 rotates, the sliding frame 303 drives the jacking rod 304 to be jointed with the arc 305 and extrudes the arc 305, when the arc plate 305 moves, the sliding rod two 315 is driven to slide on the fixed rod 314, the sliding rod two 315 drives the rack three 320 to move, the rack three 320 drives the gear four 319 to rotate, the gear four 319 drives the swing rod 318 to swing, the swing rod 318 extrudes the pushing plate one 316 and the pushing plate two 317 to move, the pushing plate one 316 pushes the flapping plate one 311, the pushing plate two 317 pushes the flapping plate two 312, the flapping plate one 311 and the flapping plate two 312 flap waste paper at the same time, and when the sliding frame 303 moves, the rack two 309 is driven to move at the same time.

Working principle: placing waste paper into the outer shell 301 from above the outer shell 301, driving the driving motor 302, driving the eccentric wheel 306 to rotate by the driving motor 302 through the belt 310, driving the sliding frame 303 to move on the sliding block 307 when the eccentric wheel 306 rotates, driving the jacking rod 304 to be attached to the arc 305 and extruding the arc 305 when the sliding frame 303 moves, driving the sliding rod 315 to slide on the fixed rod 314 when the arc 305 moves, driving the rack III 320 to move, driving the gear IV 319 to rotate, driving the swinging rod 318 to swing by the gear IV 319, driving the swinging rod 318 to press the pushing plate I316 to move with the pushing plate II 317, driving the flapping plate I311 to flap the waste paper simultaneously with the flapping plate II 312, driving the rack II 309 to move when the sliding frame 303 moves, driving the gear I204 to rotate when the rack II 309 moves, the first gear 204 drives the adsorption tube 203 to rotate, the adsorption tube 203 drives the second gear 205 and the third gear 211 to rotate simultaneously, the third gear 211 drives the dispersing teeth 212 to rotate, the dispersing teeth 212 drive the dispersing cone 207 to rotate to disperse the waste paper, the second gear 205 drives the first rack 208 and the push rod 206 to move when rotating, the push rod 206 moves on the first slide rod 209, the push rod 206 presses the second spring 210, the four push rods 206 mutually press and move, the push rod 206 drives the first rack 208 to move, the first rack 208 drives the second gear 205 to rotate, the second gear 205 drives the adsorption tube 203 to rotate, the adsorption tube 203 adsorbs dust, the dispersing cone 207 disperses the waste paper, the dispersed waste paper enters the collecting box 103 through the collecting hopper 215, the compression cylinder 213 is started, the compression cylinder 213 drives the compression head 214 to compress the waste paper in the collecting box 103, after the waste paper in the collecting box 103 is compressed, starting a rotating motor 108, driving a rotating gear 109 to rotate by the rotating motor 108, driving a rotating tooth 107 to rotate by the rotating gear 109, driving a collecting box 103 to slide on an arc-shaped disc 101 through a pushing ball 110, pushing the pushing ball 110 to slide in the collecting box 103 and the rotating disc 102 by the arc-shaped disc 101 when a rotating column 106 drives the pushing ball 110 to reach the highest point of the arc-shaped disc 101, pushing out waste paper after compression of the collecting box 103 by the pushing ball 110, simultaneously extruding a first spring 111 with the collecting box 103 when the pushing ball 110 slides, and moving by the deformation restoring force of the first spring 111 when the pushing ball 110 rotates to the lowest end of an inclined plane of the arc-shaped disc 101, so that reset of the pushing ball 110 is realized.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (5)

1. The utility model provides a compression device for waste paper recovery, includes collection subassembly (1), dispersion subassembly (2), its characterized in that: the collecting assembly (1) comprises an arc disc (101), the arc disc (101) is provided with an inclined plane, the arc disc (101) is coaxially rotated and provided with a rotating column (106), the arc disc (101) is also provided with a supporting rod (105), the rotating column (106) is slidably provided with a plurality of groups of collecting boxes (103), the collecting boxes (103) are provided with a top movable ball (110), the supporting rod (105) is provided with a dust beating assembly (3), the dust beating assembly (3) comprises a shell (301), the shell (301) is provided with a plurality of groups of sliding blocks (307), the sliding blocks (307) are provided with an eccentric rotating mechanism, the eccentric rotating mechanism is internally provided with a rack II (309), the shell (301) is provided with a plurality of groups of arc plates (305), the arc plates (305) are provided with a sliding rod II (315), a spring III (308) is arranged between the arc plates (305) and the shell (301), the shell (301) is internally provided with a sliding rod II (314), the sliding rod (314) is provided with a sliding rod II (314) and the sliding rod II (314) is connected with a fixed rod (315) on the fixed rod (301), four pushing rods (206) are arranged on the adsorption disc (201), a group of dispersing adsorption mechanisms are arranged on the four pushing rods (206), a collecting hopper (215) is further arranged at the lower end of the adsorption disc (201), and the collecting hopper (215) is intermittently attached to the collecting box (103);

The eccentric rotating mechanism comprises a driving motor (302) and a sliding block (307) which are arranged on a shell (301), a sliding frame (303) is arranged on the sliding block (307) in a sliding mode, two sides of the sliding frame (303) are provided with jacking rods (304), the jacking rods (304) are intermittently attached to an arc-shaped plate (305), eccentric wheels (306) are arranged in the sliding frame (303), the eccentric wheels (306) are rotationally connected with the shell (301), the driving motor (302) is connected with the eccentric wheels (306) through a belt (310), and a second rack (309) is arranged at the lower end of the sliding frame (303);

The double-layer flapping mechanism comprises a fixed plate (313) arranged on a fixed rod (314), wherein a first pushing plate (316) and a second pushing plate (317) are slidably arranged on the fixed plate (313), springs four (321) are arranged between the first pushing plate (316) and the second pushing plate (317) and the fixed plate (313), a flapping plate one (311) is arranged at one end, close to a driving motor (302), of the first pushing plate (316), a flapping plate two (312) is arranged at one end, close to the driving motor (302), of the second pushing plate (317), a gear four (319) is rotatably arranged on the fixed plate (313), a rack three (320) is arranged on the sliding rod two (315), the rack three (320) is meshed with the gear four (319), a swinging rod (318) is arranged on the gear four (319), and the swinging rod (318) is intermittently attached to the pushing plate one (316) and the pushing plate two (317);

The dispersing and adsorbing mechanism comprises an adsorbing pipe (203) rotatably arranged on an adsorbing disc (201), a gear II (205) is arranged at one end, close to the adsorbing disc (201), of the adsorbing pipe (203), a gear III (211) is arranged at one end, far away from the adsorbing disc (201), of the adsorbing pipe (203), a rack I (208) is arranged on a pushing rod (206), the rack I (208) is meshed with the gear II (205), a sliding rod I (209) is arranged on a shell (301), the pushing rod (206) is in sliding connection with the sliding rod I (209), and a spring II (210) is arranged between the pushing rod (206) and the sliding rod I (209);

the adsorption tube (203) on be provided with compression cylinder (213), compression cylinder (213) rotation be provided with dispersion conical head (207), dispersion conical head (207) on be provided with dispersion tooth (212), dispersion tooth (212) and gear three (211) meshing, compression cylinder (213) lower extreme be provided with compression head (214).

2. The compression device for waste paper recovery according to claim 1, wherein: the collecting assembly (1) further comprises a rotary tooth (107) arranged on the rotary column (106), a rotary motor (108) is arranged at the lower end of the supporting rod (105), a rotary gear (109) is arranged on an output shaft of the rotary motor (108), and the rotary gear (109) is meshed with the rotary tooth (107).

3. The compression device for waste paper recovery according to claim 1, wherein: the eccentric wheel (306) is tangent to the inner side of the long side of the sliding frame (303).

4. The compression device for waste paper recovery according to claim 1, wherein: the adsorption tubes (203) of one group of the dispersion adsorption mechanism are provided with a first gear (204), and the first gear (204) is meshed with a second rack (309).

5. The compression device for waste paper recovery according to claim 1, wherein: the four pushing rods (206) are mutually attached.