CN113415022A - Environment-friendly beverage aluminium lid recovery unit - Google Patents

Abstract

The invention relates to a recovery device, in particular to an environment-friendly beverage aluminum cap recovery device. The invention provides an environment-friendly beverage aluminum cap recovery device which is convenient to operate, compact in compression and capable of automatically discharging. The invention provides an environment-friendly beverage aluminum cap recovery device, which comprises: the device comprises a bottom plate, wherein first fixed blocks are symmetrically arranged on one side of the bottom plate; the two first fixed blocks are provided with moving assemblies; the overturning component is arranged on one side of the moving component; the turnover assembly is symmetrically and slidably provided with slide bars; and the extrusion plate is arranged between one ends of the two sliding rods. Slide forward through moving the subassembly and drive upset subassembly and rotate downwards, the slide bar slides down and drives the stripper plate and remove beverage bottle aluminium lid downwards and compress, rotate downwards through unloading subassembly and open the bottom of the removal group, the beverage bottle aluminium lid that the compression was accomplished drops the staff and collects.

Description

Environment-friendly beverage aluminium lid recovery unit

Technical Field

The invention relates to a recovery device, in particular to an environment-friendly beverage aluminum cap recovery device.

Background

The aluminum-plastic combined cover is a common sealing cover for beverages, and is simple in structure, low in cost, good in sealing performance, convenient to use, stable in torsion, strong in tensile strength, corrosion-resistant, large in application amount and recycling value, and the opening time can be shortened.

However, current aluminium lid is in recovery processing's compression stage, and the waste material compressor is direct to carry out compression processing to the aluminium lid, and this makes the aluminium lid directly compress the back, and is great because of the clearance of aluminium lid easily, leads to the great problem of storage space that the aluminium lid was retrieved, influences the recycling in later stage, and the recovery composition of old and useless aluminium increases, the problem that recovery efficiency reduces.

Therefore, an environment-friendly beverage aluminum cap recovery device which is convenient to operate, compact in compression and capable of automatically discharging needs to be designed for solving the problems.

Disclosure of Invention

In order to overcome the direct compression treatment to the aluminium lid of waste material compressor, this makes the aluminium lid directly compress the back, and is great because of the clearance of aluminium lid easily, leads to the great problem of storage space of aluminium lid recovery, influences the recycling in later stage, and the recovery composition of old and useless aluminium increases, the shortcoming of the problem that recovery efficiency reduces, technical problem: the environment-friendly beverage aluminum cap recovery device is convenient to operate, compact in compression and capable of automatically discharging.

The technical scheme is as follows: an environment-friendly beverage aluminum lid recovery unit includes: the device comprises a bottom plate, wherein first fixed blocks are symmetrically arranged on one side of the bottom plate; the two first fixed blocks are provided with moving assemblies; the overturning component is arranged on one side of the moving component; the turnover assembly is symmetrically and slidably provided with slide bars; the extrusion plate is arranged between one ends of the two sliding rods; a fourth fixed block is arranged between the other ends of the two sliding rods; the blanking assembly is arranged at the bottom of the moving assembly.

Optionally, the moving assembly comprises: the other side of the bottom plate is symmetrically provided with a second fixed block; the opposite sides of the two first fixed blocks are provided with third fixed blocks; the first guide rods are arranged between the third fixed block and the second fixed block on the same side; the two first guide rods are provided with first sliding blocks in a sliding manner; and a placing frame is arranged between the two first sliding blocks.

Optionally, the flipping assembly comprises: the first limiting blocks are arranged on one sides of the two first guide rods; the two first limiting blocks are respectively provided with a rack; the bearing seats are symmetrically arranged on one side of the upper part of the placing frame; the rotating shaft is rotatably arranged between the two bearing blocks; the two ends of the rotating shaft are provided with gears, and the two gears are meshed with the two racks; the first rotating plate is symmetrically arranged on the rotating shaft.

Optionally, the blanking assembly comprises: the bottom of the placing frame is rotatably provided with a second rotating plate; the guide blocks are symmetrically arranged on the two sides of the placing frame; the second sliding blocks are arranged in the four guide blocks in a sliding manner; the fifth fixed block is arranged between the two second sliding blocks on the same side; and the first elastic pieces are arranged between one sides of the four second sliding blocks and one sides of the four guide blocks.

Optionally, the method further comprises: the two first fixing blocks are respectively provided with an air cylinder, and telescopic rods are arranged in the two air cylinders in a sliding manner; the first fixing rod is arranged at one end of each of the telescopic rods of the two cylinders; the second fixing rods are arranged on one sides of the bottoms of the two first fixing rods; the second fixing rods are matched with the first fixing blocks in a sliding mode; the second elastic pieces are arranged between one sides of the two sixth fixed blocks and one sides of the two first fixed rods; and one side of the bottom plate is provided with a limiting plate.

Optionally, the method further comprises: the two sides of the first rotating plates, which face away from each other, are provided with first sliding groove plates; the third sliding blocks are arranged in the two first sliding groove plates in a sliding manner; the two first fixing rods are matched with the two third fixing rods; the connecting rods are rotatably arranged between the two sides of the fourth fixed block and the two third fixed rods; and a third elastic part is arranged between one side of each of the two third sliding blocks and one side of each of the two first sliding groove plates.

Optionally, the method further comprises: the two sides of the bottom plate are symmetrically provided with second guide rods; the first wedge-shaped blocks are arranged between the two second guide rods on the same side in a sliding mode and matched with the two fifth fixing blocks; the fourth elastic pieces are arranged between the two sides of the two first wedge-shaped blocks and the top of the bottom plate; the two sides of the bottom of the placing frame are provided with the top blocks; the two opposite sides of the two first wedge-shaped blocks are respectively provided with a second wedge-shaped block in a rotating mode through a support rod, and the two jacking blocks are matched with the two second wedge-shaped blocks; the tops of the two second wedge-shaped blocks are provided with seventh fixed blocks; the two seventh fixing blocks are matched with the two second limiting blocks; and the fifth elastic piece is arranged between one side of the two second wedge-shaped blocks and one side of the two first wedge-shaped blocks.

Optionally, the method further comprises: the side wall of one side of the placing frame is symmetrically provided with a second sliding groove plate; the third wedge blocks are symmetrically and slidably arranged in the two second sliding groove plates; the sixth elastic piece is arranged between the two adjacent third wedge blocks; the handles are arranged on one sides of the four third wedge blocks; the T-shaped blocks are arranged on the two first rotating plates, and the T-shaped blocks on the same side are matched with the two third wedge blocks on the same side.

The invention has the beneficial effects that: 1. slide forward through moving the subassembly and drive upset subassembly and rotate downwards, the slide bar slides down and drives the stripper plate and remove beverage bottle aluminium lid downwards and compress, rotate downwards through unloading subassembly and open the bottom of the removal group, the beverage bottle aluminium lid that the compression was accomplished drops the staff and collects.

2. The telescopic rod through the cylinder shortens and can drive automatically and place the frame and move forward and backward with the extension, no longer need staff's manual pulling.

3. First dead lever and third dead lever cooperation can carry out the automatic compression to beverage bottle aluminium lid, no longer need the staff to press manually.

4. The cooperation of second wedge and kicking block can carry out the unloading to the beverage bottle aluminium lid that the compression was accomplished placing the frame and move the in-process that resets backward.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the moving assembly of the present invention.

Fig. 3 is a schematic perspective view of the flip assembly of the present invention.

Fig. 4 is a schematic perspective view of the blanking assembly of the present invention.

Fig. 5 is a schematic perspective view of a first part of the present invention.

Fig. 6 is a perspective view of a second part of the present invention.

Fig. 7 is a perspective view of a third part of the present invention.

Fig. 8 is a perspective view of a fourth part of the present invention.

Fig. 9 is a schematic perspective view of a fifth part of the present invention.

Number designation in the figures: 1-a bottom plate, 2-a first fixed block, 3-a moving assembly, 31-a second fixed block, 32-a third fixed block, 33-a first guide bar, 34-a first slide block, 35-a placement frame, 4-a turning assembly, 41-a first stopper, 42-a rack, 43-a bearing seat, 44-a rotating shaft, 45-a gear, 46-a first rotating plate, 5-a slide bar, 6-a pressing plate, 7-a fourth fixed block, 8-a blanking assembly, 81-a second rotating plate, 82-a guide block, 83-a second slide block, 84-a fifth fixed block, 85-a first elastic member, 9-a cylinder, 10-a first fixed rod, 11-a second fixed rod, 12-a sixth fixed block, 13-a second elastic member, 14-a limiting plate, 15-a first chute plate, 16-a third sliding block, 17-a third fixing rod, 18-a connecting rod, 19-a third elastic part, 20-a second guide rod, 21-a first wedge-shaped block, 22-a fourth elastic part, 23-a top block, 24-a second wedge-shaped block, 25-a seventh fixing block, 26-a second limiting block, 27-a fifth elastic part, 28-a second chute plate, 29-a third wedge-shaped block, 301-a sixth elastic part, 302-a handle and 303-a T-shaped block.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

As shown in figure 1, an environment-friendly beverage aluminium lid recovery unit, including bottom plate 1, first fixed block 2, removal subassembly 3, upset subassembly 4, slide bar 5, stripper plate 6, fourth fixed block 7 and unloading subassembly 8, the front side symmetry is provided with first fixed block 2 on the bottom plate 1, be provided with removal subassembly 3 on two first fixed blocks 2, it is provided with upset subassembly 4 to remove subassembly 3 rear side, the symmetry slidingtype is provided with slide bar 5 on the upset subassembly 4, be provided with stripper plate 6 between two slide bar 5 front ends, be provided with fourth fixed block 7 between two slide bar 5 other ends, it is provided with unloading subassembly 8 to remove subassembly 3 bottom.

When needs are retrieved environment-friendly beverage bottle aluminium lid, the staff puts into beverage bottle aluminium lid to removing in the subassembly 3, place the completion back, it drives upset subassembly 4 and rotates downwards to slide forward through removing subassembly 3, upset subassembly 4 rotates downwards and drives stripper plate 6 and beverage bottle aluminium lid contact, the staff drives slide bar 5 and slides downwards through pressing down fourth fixed block 7 afterwards, slide bar 5 slides downwards and drives stripper plate 6 downstream and compress the beverage bottle aluminium lid in removing subassembly 3, after the compression is accomplished, rotate downwards through unloading subassembly 8 and open the bottom of the removal group, the beverage bottle aluminium lid that the compression was accomplished drops the staff thereupon and collects. The device has simple structure and convenient operation.

Example 2

As shown in fig. 2, 3 and 4, based on embodiment 1, the moving assembly 3 includes a second fixed block 31, a third fixed block 32, first guide rods 33, first sliding blocks 34 and a placing frame 35, the second fixed block 31 is symmetrically disposed at the rear side of the bottom plate 1, the third fixed blocks 32 are disposed at opposite sides of the two first fixed blocks 2, first guide rods 33 are disposed between the third fixed block 32 and the second fixed block 31 at the same side, the first sliding blocks 34 are slidably disposed on the two first guide rods 33, and the placing frame 35 is disposed between the two first sliding blocks 34.

When the environment-friendly beverage bottle aluminum cover needs to be recovered, a worker puts the beverage bottle aluminum cover into the placing frame 35, after the placement is completed, the worker pulls the placing frame 35 to move forward, the placing frame 35 moves forward to drive the first sliding block 34 to slide forward on the first guide rod 33, the placing frame 35 moves forward to drive the turnover component 4 to rotate downward, the turnover component 4 rotates downward to drive the extrusion plate 6 to contact with the beverage bottle aluminum cover, then the worker presses the fourth fixing block 7 to drive the sliding rod 5 to slide downward, the sliding rod 5 slides downward to drive the extrusion plate 6 to move downward to compress the beverage bottle aluminum cover in the placing frame 35, after the compression is completed, the worker pulls the fourth fixing block 7 to drive the sliding rod 5 to slide upward, the sliding rod 5 slides upward to drive the extrusion plate 6 to move upward without extruding the beverage bottle aluminum cover, then the worker pushes the placing frame 35 to move backward to reset, the placing frame 35 moves backwards to drive the first sliding block 34 to slide backwards on the first guide rod 33 for resetting, and the placing frame 35 moves backwards to drive the overturning component 4 to rotate upwards for resetting. The device has simple structure, can concentrate the aluminum cap of the beverage bottle, and is convenient for the compression and recovery of the staff.

Upset subassembly 4 is including first stopper 41, rack 42, bearing frame 43, pivot 44, gear 45 and first rotation board 46, two first guide arms 33 rear sides all are provided with first stopper 41, all be provided with rack 42 on two first stoppers 41, it is provided with bearing frame 43 to place frame 35 upper portion rear side symmetry, the rotary type is provided with pivot 44 between two bearing frames 43, both ends all are provided with gear 45 about pivot 44, two gear 45 and two rack 42 intermeshing, the symmetry is provided with first rotation board 46 in the pivot 44.

Placing frame 35 and moving forward and drive gear 45 and move forward and engage with rack 42, gear 45 rotates and drives pivot 44 and rotate, pivot 44 rotates and drives first rotation board 46 and rotate downwards, first rotation board 46 rotates downwards and drives stripper plate 6 and beverage bottle aluminium lid contact, the staff drives slide bar 5 through pressing fourth fixed block 7 and slides downwards afterwards, slide bar 5 slides downwards and drives stripper plate 6 and move downwards and compress placing the beverage bottle aluminium lid in frame 35, after the compression is accomplished, place frame 35 and move backward and drive gear 45 and move backward and engage with rack 42, gear 45 rotates and drives pivot 44 and rotate, pivot 44 rotates and drives first rotation board 46 and rotate upwards and reset, first rotation board 46 rotates upwards and drives stripper plate 6 and beverage bottle aluminium lid contactless. This device simple structure can cover placing frame 35, and then extrudees beverage bottle aluminium lid.

Unloading subassembly 8 is including second rotor plate 81, guide block 82, second slider 83, fifth fixed block 84 and first elastic component 85, it is provided with second rotor plate 81 to place frame 35 bottom rotary type, it is provided with guide block 82 to place the equal symmetry in the frame 35 left and right sides, equal slidingtype is provided with second slider 83 in four guide blocks 82, all be provided with fifth fixed block 84 between two second sliders 83 of homonymy, all be provided with first elastic component 85 between four second slider 83 one side and four guide blocks 82 one side.

After the compression of the aluminum cover of the beverage bottle is completed, a worker pulls the fifth fixing block 84 in a back direction to drive the second sliding block 83 to slide in a back direction on the guide block 82, the first elastic piece 85 is stretched, the second sliding block 83 slides in the back direction and does not block the second rotating plate 81, the second rotating plate 81 rotates downwards, the compressed aluminum cover of the beverage bottle drops along with the second sliding block 83 to be collected by the worker, after the collection is completed, the worker pushes the second rotating plate 81 to rotate, then the worker loosens the fifth fixing block 84, the first elastic piece 85 resets to drive the second sliding block 83 to slide in the guide block 82 in a reverse direction to reset, and the second sliding block 83 slides in the reverse direction to clamp the second rotating plate 81. This device simple structure can concentrate the collection to the beverage bottle aluminium lid that the compression was accomplished.

Example 3

As shown in fig. 5, 6, 7, 8 and 9, the tool further comprises a cylinder 9, a first fixing rod 10, a second fixing rod 11, a sixth fixing block 12, a second elastic member 13 and a limiting plate 14, the cylinder 9 is arranged on each of the two first fixing blocks 2, telescopic rods are arranged in the two cylinders 9 in a sliding mode, the rear ends of the telescopic rods of the two cylinders 9 are provided with the first fixing rods 10, the front sides of the bottoms of the two first fixing rods 10 are provided with the second fixing rods 11, the front sides of the bottoms of the placing frames 35 are symmetrically provided with the sixth fixing blocks 12, the two second fixing rods 11 are matched with the two sixth fixing blocks 12 in a sliding mode, the second elastic members 13 are arranged between one sides of the two sixth fixing blocks 12 and one sides of the two first fixing rods 10, and the limiting plate 14 is arranged on the front side of the bottom plate 1.

When a worker puts the aluminum cap of the beverage bottle into the placing frame 35, the worker controls the cylinder 9, the telescopic rod of the cylinder 9 is shortened to drive the second fixing rod 11 to slide forwards on the sixth fixing block 12 through the first fixing rod 10, the second elastic element 13 is compressed, the second fixing rod 11 moves forwards to drive the placing frame 35 to move forwards through the sixth fixing block 12, the placing frame 35 moves forwards to drive the gear 45 to move forwards to be meshed with the rack 42, the gear 45 rotates to drive the rotating shaft 44 to rotate, the rotating shaft 44 rotates to drive the first rotating plate 46 to rotate downwards, the first rotating plate 46 rotates downwards to drive the extrusion plate 6 to be in contact with the aluminum cap of the beverage bottle, then the worker presses the fourth fixing block 7 to drive the sliding rod 5 to slide downwards, the sliding rod 5 slides downwards to drive the extrusion plate 6 to move downwards to compress the aluminum cap of the beverage bottle in the placing frame 35, and after the compression, the worker controls the cylinder 9, the telescopic link extension of cylinder 9 drives second dead lever 11 through first dead lever 10 and slides backward on sixth fixed block 12 and resets, second elastic component 13 resets, second dead lever 11 moves backward and places frame 35 through the drive of sixth fixed block 12 and moves backward and resets, it drives gear 45 and moves backward and meshes with rack 42 to place frame 35 and move backward, gear 45 rotates and drives pivot 44 and rotate, pivot 44 rotates and drives first rotation board 46 and upwards rotate and reset, first rotation board 46 upwards rotates and drives stripper plate 6 and beverage bottle aluminium lid contactless. The device has simple structure, can automatically drive the placing frame 35 to move forwards, and does not need manual pulling of workers.

Still including first spout board 15, third slider 16, third dead lever 17, connecting rod 18 and third elastic component 19, two first rotation board 46 are all provided with first spout board 15 to one side dorsad, equal slidingtype is provided with third slider 16 in two first spout boards 15, two third sliders 16 are all provided with third dead lever 17 to one side dorsad, two first dead levers 10 and two third dead lever 17 cooperations, equal rotary type is provided with connecting rod 18 between the fourth fixed block 7 left and right sides and two third dead levers 17, all be provided with third elastic component 19 between two third slider 16 one sides and two first spout boards 15 one side.

The telescopic rod of the air cylinder 9 shortens to drive the first fixed rod 10 to move forwards to be contacted with the third fixed rod 17, the third fixed rod 17 moves forwards along with the first fixed rod, the third fixed rod 17 moves forwards to drive the third slide block 16 to slide forwards on the first chute plate 15, the third elastic element 19 is compressed, the third fixed rod 17 moves forwards to drive the connecting rod 18 to rotate downwards, the connecting rod 18 rotates downwards to drive the fourth fixed block 7 to move downwards, the fourth fixed block 7 moves downwards to further realize that the extrusion plate 6 moves downwards to compress the aluminum cap of the beverage bottle, the telescopic rod of the air cylinder 9 extends to drive the first fixed rod 10 to move backwards to be separated from the contact with the third fixed rod 17, the third elastic element 19 resets to drive the third slide block 16 to slide backwards on the first chute plate 15, the third slide block 16 slides backwards to drive the third fixed rod 17 to move backwards to reset, the connecting rod 18 driven by the third slide block 16 backwards to rotate upwards, the connecting rod 18 rotates upwards to drive the fourth fixing block 7 to move upwards, and the fourth fixing block 7 moves upwards so that the extrusion plate 6 moves upwards and does not compress the aluminum cap of the beverage bottle any more. The device has simple structure, can automatically compress the aluminum cap of the beverage bottle, and does not need manual pressing by workers.

The novel wedge-shaped plate is characterized by further comprising a second guide rod 20, first wedge-shaped blocks 21, a fourth elastic part 22, ejector blocks 23, second wedge-shaped blocks 24, a seventh fixing block 25, a second limiting block 26 and a fifth elastic part 27, wherein the second guide rods 20 are symmetrically arranged on the left side and the right side of the bottom plate 1, the first wedge-shaped blocks 21 are arranged between the two second guide rods 20 on the same side in a sliding manner, the two first wedge-shaped blocks 21 are matched with the two fifth fixing blocks 84, the fourth elastic part 22 is arranged between the two sides of the two first wedge-shaped blocks 21 and the top of the bottom plate 1, the ejector blocks 23 are arranged on the left side and the right side of the bottom of the placement frame 35, the second wedge-shaped blocks 24 are arranged on one opposite side of the two first wedge-shaped blocks 21 in a rotating manner through supporting rods, the two ejector blocks 23 are matched with the two second wedge-shaped blocks 24, the seventh fixing block 25 is arranged on the top of the two second wedge-shaped blocks 24, the two first wedge-shaped blocks 21 are provided with the second limiting blocks 26 on one opposite side, the two seventh fixing blocks 25 are matched with the two second limiting blocks 26, and fifth elastic pieces 27 are arranged between one sides of the two second wedge-shaped blocks 24 and one sides of the two first wedge-shaped blocks 21.

The placing frame 35 moves forward to drive the ejector block 23 to move forward to extrude the second wedge-shaped block 24 to rotate upward, the fifth elastic element 27 deforms, when the ejector block 23 moves forward and no longer extrudes the second wedge-shaped block 24, the fifth elastic element 27 resets to drive the second wedge-shaped block 24 to rotate downward and reset, the placing frame 35 moves backward and resets to drive the ejector block 23 to move backward, under the limiting action of the seventh fixing block 25 and the second limiting block 26, the ejector block 23 moves backward to contact with the inclined surface of the second wedge-shaped block 24, the second wedge-shaped block 24 moves upward along with the inclined surface, the second wedge-shaped block 24 moves upward to drive the first wedge-shaped block 21 to slide upward on the second guide rod 20, the fourth elastic element 22 is stretched, the first wedge-shaped block 21 slides upward to contact with the fifth fixing block 84, the fifth fixing block 84 moves backward along with the inclined surface, the fifth fixing block 84 moves backward to drive the second sliding block 83 to slide backward on the guide block 82, the first elastic piece 85 is stretched, the second sliding block 83 slides backwards to prevent the second rotating plate 81 from being blocked, the second rotating plate 81 rotates downwards, the compressed beverage bottle aluminum cover falls along with the second rotating plate 81, a worker collects the compressed beverage bottle aluminum cover, the worker rotates the second rotating plate 81 upwards after collection is finished, when the top block 23 moves backwards to be separated from contact with the inclined surface of the second wedge-shaped block 24, the fourth elastic piece 22 resets to drive the first wedge-shaped block 21 to slide downwards on the second guide rod 20 for resetting, the first wedge-shaped block 21 slides downwards to be separated from contact with the fifth fixing block 84, the first elastic piece 85 resets to drive the second sliding block 83 to slide oppositely on the guide block 82 for resetting, and the second sliding block 83 slides oppositely to block the second rotating plate 81. This device simple structure can carry out the unloading to the beverage bottle aluminium lid that the compression was accomplished placing the in-process that frame 35 moved backward and resets.

Still including second spout board 28, third wedge block 29, sixth elastic component 301, handle 302 and T type piece 303, place the symmetry on the lateral wall of frame 35 front side and be provided with second spout board 28, equal symmetry slidingtype is provided with third wedge block 29 in two second spout boards 28, all be provided with sixth elastic component 301 between two close third wedge blocks 29, four third wedge blocks 29 front sides all are provided with handle 302, all be provided with T type piece 303 on two first rotation boards 46, the T type piece 303 of homonymy cooperates with two third wedge blocks 29 of homonymy.

The first rotating plate 46 rotates downwards to drive the T-shaped block 303 to extrude the third wedge-shaped block 29 to slide backwards in the second sliding chute plate 28, the sixth elastic piece 301 is stretched, when the T-shaped block 303 moves downwards and does not extrude the third wedge-shaped block 29 any more, the sixth elastic piece 301 resets to drive the third wedge-shaped block 29 to slide backwards in the second sliding chute plate 28 to clamp the T-shaped block 303, after the compression of the aluminum cover of the beverage bottle is completed, a worker drives the third wedge-shaped block 29 to slide backwards in the second sliding chute plate 28 through pulling the handle 302, the sixth elastic piece 301 is stretched, the third wedge-shaped block 29 slides backwards and does not clamp the T-shaped block 303 any more, the placing frame 35 moves backwards to reset to drive the first rotating plate 46 to rotate downwards, then the worker releases the handle 302, and the sixth elastic piece 301 resets to drive the third wedge-shaped block 29 to slide backwards in the second sliding chute plate 28 to reset. The device has simple structure and can be clamped when the aluminum cover of the beverage bottle is compressed.

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

Claims (8)

1. The utility model provides an environment-friendly beverage aluminium lid recovery unit, characterized by includes:

the device comprises a bottom plate (1), wherein first fixed blocks (2) are symmetrically arranged on one side of the bottom plate (1);

the two first fixed blocks (2) are provided with moving assemblies (3);

the overturning component (4) is arranged on one side of the moving component (3);

the turnover component (4) is symmetrically and slidably provided with slide bars (5);

the extrusion plate (6) is arranged between one ends of the two sliding rods (5);

a fourth fixed block (7), wherein the fourth fixed block (7) is arranged between the other ends of the two slide bars (5);

the blanking assembly (8) is arranged at the bottom of the moving assembly (3).

2. An environmentally friendly beverage aluminum cap recycling apparatus according to claim 1, wherein the moving member (3) comprises:

the other side of the bottom plate (1) is symmetrically provided with a second fixed block (31);

the third fixed blocks (32) are arranged on the opposite sides of the two first fixed blocks (2);

the first guide rods (33) are arranged between the third fixed block (32) and the second fixed block (31) on the same side;

the two first guide rods (33) are both provided with a first sliding block (34) in a sliding manner;

a placing frame (35), wherein the placing frame (35) is arranged between the two first sliding blocks (34).

3. The environmental protection type beverage aluminum cap recycling device according to claim 2, wherein the flip assembly (4) comprises:

the first limiting blocks (41) are arranged on one sides of the two first guide rods (33);

the two first limiting blocks (41) are respectively provided with a rack (42);

the bearing seats (43) are symmetrically arranged on one side of the upper part of the placing frame (35);

the rotating shaft (44) is rotatably arranged between the two bearing blocks (43);

the two ends of the rotating shaft (44) are provided with gears (45), and the two gears (45) are meshed with the two racks (42);

and the first rotating plate (46) is symmetrically arranged on the rotating shaft (44).

4. An environmentally friendly beverage aluminum cap recycling apparatus as set forth in claim 3, wherein the blanking unit (8) comprises:

the bottom of the placing frame (35) is rotatably provided with a second rotating plate (81);

the guide blocks (82) are symmetrically arranged on two sides of the placing frame (35);

the second sliding blocks (83) are arranged in the four guide blocks (82) in a sliding manner;

the fifth fixed block (84) is arranged between the two second sliding blocks (83) on the same side;

and the first elastic pieces (85) are arranged between one side of the four second sliding blocks (83) and one side of the four guide blocks (82).

5. The environment-friendly beverage aluminum cap recycling device as recited in claim 4, further comprising:

the two first fixing blocks (2) are respectively provided with an air cylinder (9), and telescopic rods are arranged in the two air cylinders (9) in a sliding manner;

the first fixing rod (10) is arranged at one end of each telescopic rod of the two cylinders (9);

the second fixing rods (11) are arranged on one sides of the bottoms of the two first fixing rods (10);

the sixth fixing blocks (12) are symmetrically arranged on one side of the bottom of the placing frame (35), and the two second fixing rods (11) are in sliding fit with the two sixth fixing blocks (12);

the second elastic pieces (13) are arranged between one sides of the two sixth fixing blocks (12) and one sides of the two first fixing rods (10);

the limiting plate (14), a limiting plate (14) is arranged on one side of the bottom plate (1).

6. The environment-friendly beverage aluminum cap recycling device as recited in claim 5, further comprising:

the two first rotating plates (46) are provided with a first chute plate (15) at the back side;

the third sliding blocks (16) are arranged in the two first sliding groove plates (15) in a sliding manner;

third fixing rods (17) are arranged on the two third sliding blocks (16) at the back side, and the two first fixing rods (10) are matched with the two third fixing rods (17);

the connecting rods (18) are rotatably arranged between the two sides of the fourth fixed block (7) and the two third fixed rods (17);

and third elastic pieces (19) are arranged between one sides of the two third sliding blocks (16) and one sides of the two first sliding groove plates (15).

7. The environment-friendly beverage aluminum cap recycling device as recited in claim 6, further comprising:

the two sides of the bottom plate (1) are symmetrically provided with the second guide rods (20);

the first wedge-shaped blocks (21) are arranged between the two second guide rods (20) on the same side in a sliding mode, and the two first wedge-shaped blocks (21) are matched with the two fifth fixing blocks (84);

the fourth elastic pieces (22) are arranged between the two sides of the two first wedge-shaped blocks (21) and the top of the bottom plate (1);

the two sides of the bottom of the placing frame (35) are provided with the top blocks (23);

the opposite sides of the two first wedge blocks (21) are respectively and rotatably provided with a second wedge block (24) through a support rod, and the two jacking blocks (23) are matched with the two second wedge blocks (24);

the tops of the two second wedge-shaped blocks (24) are provided with seventh fixed blocks (25);

the opposite sides of the two first wedge-shaped blocks (21) are respectively provided with a second limiting block (26), and the two seventh fixing blocks (25) are matched with the two second limiting blocks (26);

and a fifth elastic piece (27), wherein a fifth elastic piece (27) is arranged between one side of the two second wedge blocks (24) and one side of the two first wedge blocks (21).

8. The environment-friendly beverage aluminum cap recycling device as recited in claim 7, further comprising:

the side wall of one side of the placing frame (35) is symmetrically provided with a second sliding groove plate (28);

third wedge blocks (29) are symmetrically and slidably arranged in the two second sliding groove plates (28);

a sixth elastic piece (301), wherein the sixth elastic piece (301) is arranged between the two adjacent third wedge blocks (29);

the handles (302) are arranged on one sides of the four third wedge blocks (29);

the T-shaped blocks (303) are arranged on the two first rotating plates (46), the T-shaped blocks (303) on the same side are matched with the two third wedge blocks (29) on the same side.

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