CN211640621U - Renewable resource recovery device - Google Patents

Abstract

The utility model belongs to the field of plastic product recovery, and particularly discloses a renewable resource recovery device, which is divided into a flattening cavity, a crushing cavity and a recovery cavity from top to bottom, wherein the flattening cavity flattens a plastic bottle, and a puncturing roller arranged in the flattening cavity can puncture the plastic bottle to avoid the plastic bottle from being pressed and exploded; the crushing roller group is used for crushing the flattened plastic bottles and plastics; the recovery cavity can recover the crushed plastic, so that the crushed plastic is convenient to recycle; the flattening cavity consisting of the semicircular cavity and the arc-shaped cavity is beneficial to the piercing roller to pierce and flatten the plastic bottle; a crushing roller group and a crushing roller group are arranged in the crushing cavity; the crushing roller set is used for crushing the crushed plastic bottles and plastics; this device simple structure, reasonable in design can retrieve plastic bottle and plastic bag simultaneously.

Description

Renewable resource recovery device

Technical Field

The utility model belongs to the plastic products field of retrieving, in particular to renewable resources recovery unit.

Background

In the current society, industrial technologies are developed, and the appearance of plastic products greatly facilitates daily life of people, but along with the accumulation of the plastic products, plastic garbage becomes a main pollutant which harms the environment of the first meeting, and based on the requirement of environmental protection, a plastic recycling technology appears, and the plastic recycling is to recycle and clean waste plastic products and then reuse the waste plastic products for the production of the plastic products, so that the recycling of resources is realized.

The plastic product mainly comprises a plastic bag and a plastic bottle, and when the plastic bottle is recycled, the air in the plastic bottle needs to be emptied and then is made into a flat state, and then the plastic bottle is cut into fragments; when the plastic bag is recycled, the plastic bag only needs to be cut into fine fragments. Therefore, the plastic bottles and plastic bags need to be recycled by different devices at present.

SUMMERY OF THE UTILITY MODEL

The utility model provides a renewable resources recovery unit can retrieve plastic bag and plastic bottle simultaneously.

The technical scheme of the utility model is realized like this:

a renewable resource recovery device comprising:

a body;

two partition plates are horizontally arranged in the machine body and are divided into a first partition plate and a second partition plate; the first baffle plate is arranged above the second baffle plate; the first partition plate and the second partition plate divide the machine body into a flattening cavity, a crushing cavity and a recovery cavity from top to bottom; a plastic bottle feeding bin is arranged at the top of the machine body, and a plastic bag feeding bin is arranged on the machine body corresponding to the crushing cavity;

a puncture roller is arranged in the flattening cavity, the flattening cavity consists of a semicircular cavity and an arc-shaped cavity, outlets are arranged at the bottoms of the semicircular cavity and the arc-shaped cavity, inlets are arranged at the tops of the semicircular cavity and the arc-shaped cavity, the two outlets are communicated, and the two inlets are communicated; a plastic bottle feeding bin is arranged at the inlet; the distance from the inner wall of the arc-shaped cavity to the gravity center of the pricking roller is gradually reduced from the inlet to the outlet; the distance from the inner wall of the semicircular cavity to the gravity center of the pricking roller is smaller than the minimum distance from the inner wall of the arc-shaped cavity to the gravity center of the pricking roller;

a rectangular through hole is formed in the first partition plate and is communicated with the outlet;

a flattening roller set and a crushing roller set are arranged in the crushing cavity; the crushing roller group is arranged above the crushing roller group; the flattening roller group comprises a first pressing roller and a second pressing roller, a gap is formed between the first pressing roller and the second pressing roller, and the gap is arranged right below the rectangular through hole; the first pressing roller and the second pressing roller rotate oppositely;

the crushing roller group comprises a first crushing roller and a second crushing roller, crushing gears which are arranged at equal intervals are arranged on the roller surfaces of the first crushing roller and the second crushing roller, wheel grooves are formed among the crushing gears, and the first crushing roller and the second crushing roller are meshed with each other; the first crushing roller and the second crushing roller rotate oppositely;

a plurality of circular through holes are uniformly distributed on the second partition plate;

the pricking roller, the first pressing roller, the second pressing roller, the first crushing roller and the second crushing roller are all connected with a driving motor.

Further, a collecting barrel is arranged in the recovery cavity.

Furthermore, a box door which is expanded outwards is arranged on the machine body corresponding to the recovery cavity.

Further, the height of the box door is higher than that of the collecting barrel, and the width of the box door is larger than that of the collecting barrel.

Further, the left-right length of the gap is smaller than the minimum distance from the inner wall of the arc-shaped cavity to the gravity center of the puncture roller.

Furthermore, the plastic bag feeding bin is a feeding bin with an opening at the upper end and defined by the front surface, the rear surface, the left side surface, the bottom surface and the machine body, and the bottom surface inclines downwards from being far away from the machine body to being close to the machine body;

and the inner wall of the machine body is provided with a guide plate, one end of the guide plate is connected with the bottom surface, and the other end of the guide plate is suspended in the crushing cavity and is arranged above the crushing roller set.

Furthermore, a crushing shaft is further arranged between the crushing roller group and the second partition plate, and a spiral crushing blade is arranged on the crushing shaft.

The utility model provides a renewable resource recovery device, which has the following advantages;

1) the device is divided into a flattening cavity, a crushing cavity and a recovery cavity from top to bottom, wherein the flattening cavity flattens the plastic bottle, and a piercing roller arranged in the flattening cavity can pierce the plastic bottle to prevent the plastic bottle from being crushed; the crushing roller group is used for crushing the flattened plastic bottles and plastics; the recovery cavity can recover the crushed plastic, so that the crushed plastic is convenient to recycle;

2) the flattening cavity consisting of the semicircular cavity and the arc-shaped cavity is beneficial to the piercing roller to pierce and flatten the plastic bottle; the distance from the inner wall of the arc-shaped cavity to the gravity center of the piercing roller is gradually reduced from the inlet to the outlet, so that the plastic bottle can be pierced and flattened conveniently, and the plastic bottle can be flattened; the distance from the inner wall of the semicircular cavity to the gravity center of the piercing roller is smaller than the minimum distance from the inner wall of the arc-shaped cavity to the gravity center of the piercing roller, so that a flattened plastic bottle can be prevented from being rolled into the semicircular cavity, and the flattened plastic bottle can enter the crushing cavity from the outlet;

3) a crushing roller group and a crushing roller group are arranged in the crushing cavity; the crushing roller set is used for crushing the crushed plastic bottles and plastics;

4) this device simple structure, reasonable in design can retrieve plastic bottle and plastic bag simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a renewable resource recycling device provided by the present invention.

In the figure:

1. a body; 2. a first separator; 3. a second separator; 4. a pierce roller; 5. a flattening cavity; 6. a semi-circular lumen; 7. an arcuate cavity; 8. a plastic bottle feeding bin; 9. a plastic bag feeding bin; 10. a grinding chamber; 11. a first press roll; 12. a second press roll; 13. a first crushing roller; 14. a second crushing roller; 15. a collection barrel; 16. a helical crushing blade; 17. a guide plate.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

As shown in fig. 1, a renewable resource recycling apparatus includes:

a machine body 1;

two partition plates are horizontally arranged in the machine body 1 and are divided into a first partition plate 2 and a second partition plate 3; the first partition plate 2 is arranged above the second partition plate 3; the machine body 1 is divided into a flattening cavity 5, a crushing cavity 10 and a recovery cavity from top to bottom by the first partition plate 2 and the second partition plate 3; a plastic bottle feeding bin 8 is arranged at the top of the machine body 1, and a plastic bag feeding bin 9 is arranged on the machine body 1 corresponding to the crushing cavity 10;

a puncture roller 4 is arranged in the flattening cavity 5, the flattening cavity 5 consists of a semicircular cavity 6 and an arc-shaped cavity 7, outlets are arranged at the bottoms of the semicircular cavity 6 and the arc-shaped cavity 7, inlets are arranged at the tops of the semicircular cavity 6 and the arc-shaped cavity 7, the two outlets are communicated, and the two inlets are communicated; a plastic bottle feeding bin 8 is arranged at the inlet position; the distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the pricking roller 4 is gradually reduced from the inlet to the outlet; the distance from the inner wall of the semicircular cavity 6 to the gravity center of the puncture roller 4 is less than the minimum distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the puncture roller 4;

a rectangular through hole is formed in the first partition plate 2 and is communicated with the outlet;

a crushing roller group and a crushing roller group are arranged in the crushing cavity 10; the flattening roller set is arranged above the crushing roller set; the flattening roller group comprises a first pressing roller 11 and a second pressing roller 12, a gap exists between the first pressing roller 11 and the second pressing roller 12, and the gap is arranged right below the rectangular through hole; the first press roller 11 and the second press roller 12 rotate oppositely;

the crushing roller group comprises a first crushing roller 13 and a second crushing roller 14, the roller surfaces of the first crushing roller 13 and the second crushing roller 14 are respectively provided with crushing gears which are arranged at equal intervals, wheel grooves are formed among the crushing gears, and the first crushing roller 13 and the second crushing roller 14 are mutually meshed; the first crushing roller 13 and the second crushing roller 14 rotate in opposite directions;

a plurality of circular through holes are uniformly distributed on the second partition plate 3;

the pricking roller 4, the first press roller 11, the second press roller 12, the first crushing roller 13 and the second crushing roller 14 are all connected with a driving motor.

The first partition plate 2 and the second partition plate 3 are used for dividing the machine body 1 into three areas, namely a flattening cavity 5, a crushing cavity 10 and a recovery cavity.

The flattening cavity 5 is used for flattening the plastic bottle; in order to avoid the plastic bottle from being pressed and exploded in the process of flattening the plastic bottle, a puncture roller 4 is arranged in the flattening cavity 5; it should be noted that the prick protruding from the cloth cover on the pricking roller 4 can prick the plastic bottle to prevent the plastic bottle from being burst by pressure.

The flattening cavity 5 consists of a semicircular cavity 6 and an arc-shaped cavity 7, outlets are arranged at the bottoms of the semicircular cavity 6 and the arc-shaped cavity 7, inlets are arranged at the tops of the semicircular cavity 6 and the arc-shaped cavity 7, the two outlets are communicated, and the two inlets are communicated; a plastic bottle feeding bin 8 is arranged at the inlet position; the distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the pricking roller 4 is gradually reduced from the inlet to the outlet; the distance from the inner wall of the semicircular cavity 6 to the gravity center of the puncture roller 4 is less than the minimum distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the puncture roller 4; in the structure, the flattening cavity 5 consisting of the semicircular cavity 6 and the arc-shaped cavity 7 is beneficial to the piercing roller 4 to pierce and flatten the plastic bottle; the distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the piercing roller 4 is gradually reduced from the inlet to the outlet, so that the plastic bottle can be pierced and flattened conveniently, and the plastic bottle can be flattened; the distance from the inner wall of the semicircular cavity 6 to the gravity center of the puncture roller 4 is smaller than the minimum distance from the inner wall of the arc-shaped cavity 7 to the gravity center of the puncture roller 4, so that the crushed plastic bottles can be prevented from being involved in the semicircular cavity 6, and further the crushed plastic bottles can enter the crushing cavity 10 from the outlet.

Wherein the piercing roller 4 rotates anticlockwise, enabling the plastic bottle to rotate from the inlet to the outlet.

The milling chamber 10 is used for milling collapsed plastic bottles and plastics.

Wherein, a crushing roller group and a crushing roller group are arranged in the crushing cavity 10; the crushing roller set is used for crushing the crushed plastic bottles and the plastic.

The flattening roller set is arranged above the crushing roller set; the flattening roller group comprises a first pressing roller 11 and a second pressing roller 12, a gap exists between the first pressing roller 11 and the second pressing roller 12, and the gap is arranged right below the rectangular through hole; the first press roller 11 and the second press roller 12 rotate oppositely; it should be noted that the left-right length of the gap is smaller than the minimum distance from the inner wall of the arc-shaped chamber 7 to the center of gravity of the puncture roller 4, so that the pinch roller set can further pinch the plastic bottle.

Wherein, first compression roller 11 clockwise rotation, second compression roller 12 anticlockwise rotation to make the plastic bottle can enter into crushing roller under the drive of first compression roller 11 and second compression roller 12, smash by crushing roller.

It should be noted that the plastic bag feeding bin 9 is a feeding bin with an upper end opening and enclosed by the front, the back, the left side, the bottom and the machine body 1, and the bottom is inclined downwards from a position far away from the machine body 1 to the direction of the machine body 1. The plastic bag feeding bin 9 is convenient for plastic bags to enter the crushing cavity 10, and a crushing roller set is used for crushing; it should be noted that, a guide plate 17 is arranged on the inner wall of the machine body 1 corresponding to the plastic bag feeding bin 9, one end of the guide plate 17 is connected with the bottom surface of the plastic bag feeding bin 9, and the other end is suspended in the crushing cavity 10 and arranged above the crushing roller set.

It should be noted that a plurality of circular through holes are uniformly arranged on the second partition plate 3; the inner wall of the machine body 1 corresponding to the plastic bag feeding bin 9 is provided with a guide plate 17, one end of the guide plate 17 is connected with the bottom surface of the plastic bag feeding bin 9, and the other end of the guide plate is suspended in the crushing cavity 10 and is arranged above the crushing roller group. Wherein the guide plates are inclined downwards from the plastic bag feeding bin 9 to the direction of the crushing roller group.

The crushing roller group comprises a first crushing roller 13 and a second crushing roller 14, the roller surfaces of the first crushing roller 13 and the second crushing roller 14 are respectively provided with crushing gears which are arranged at equal intervals, wheel grooves are formed among the crushing gears, and the first crushing roller 13 and the second crushing roller 14 are mutually meshed; the first crushing roller 13 and the second crushing roller 14 rotate in opposite directions; the plastic bottle crusher can crush plastic bottles and plastic bags by the aid of the crushing roller set.

Wherein the first crushing roller 13 rotates clockwise, and the second crushing roller 14 rotates counterclockwise, so as to crush plastic bottles and plastic bags conveniently.

Round through holes are uniformly distributed on the second partition plate 3; can make the plastics (the size is less than the plastics of circular through-hole aperture) after smashing get into the recovery chamber through circular through-hole, unsatisfied dimensional requirement (the size is greater than the plastics of circular through-hole aperture) then have crushing roller set to continue to smash.

In order to improve the crushing effect, a crushing shaft is arranged between the crushing roller group and the second partition plate 3, and a spiral crushing blade 16 is arranged on the crushing shaft. This enables further comminution of the plastic.

Wherein, the crushing shaft, the puncture roller 4, the first press roller 11, the second press roller 12, the first crushing roller 13 and the second crushing roller 14 are all connected with a driving motor.

It should be noted that the collection barrel 15 is arranged in the recovery cavity, so that the crushed plastic can be conveniently recycled. Wherein, a box door which is expanded outwards is arranged on the machine body 1 corresponding to the recovery cavity. The height of chamber door is higher than the height of collecting vessel 15, and the width is greater than the width of collecting vessel 15, and then is convenient for put into the intracavity of retrieving with collecting vessel 15.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A renewable resource recovery device, comprising:

a body;

two partition plates are horizontally arranged in the machine body and are divided into a first partition plate and a second partition plate; the first baffle plate is arranged above the second baffle plate; the first partition plate and the second partition plate divide the machine body into a flattening cavity, a crushing cavity and a recovery cavity from top to bottom; a plastic bottle feeding bin is arranged at the top of the machine body, and a plastic bag feeding bin is arranged on the machine body corresponding to the crushing cavity;

a puncture roller is arranged in the flattening cavity, the flattening cavity consists of a semicircular cavity and an arc-shaped cavity, outlets are arranged at the bottoms of the semicircular cavity and the arc-shaped cavity, inlets are arranged at the tops of the semicircular cavity and the arc-shaped cavity, the two outlets are communicated, and the two inlets are communicated; the inlet position is provided with the plastic bottle feeding bin; the distance from the inner wall of the arc-shaped cavity to the gravity center of the pricking roller is gradually reduced from the inlet to the outlet; the distance from the inner wall of the semicircular cavity to the gravity center of the pricking roller is smaller than the minimum distance from the inner wall of the arc-shaped cavity to the gravity center of the pricking roller;

a rectangular through hole is formed in the first partition plate and is communicated with the outlet;

a flattening roller set and a crushing roller set are arranged in the crushing cavity; the crushing roller group is arranged above the crushing roller group; the flattening roller group comprises a first pressing roller and a second pressing roller, a gap is formed between the first pressing roller and the second pressing roller, and the gap is arranged right below the rectangular through hole; the first pressing roller and the second pressing roller rotate oppositely;

the crushing roller group comprises a first crushing roller and a second crushing roller, crushing gears which are arranged at equal intervals are arranged on the roller surfaces of the first crushing roller and the second crushing roller, wheel grooves are formed among the crushing gears, and the first crushing roller and the second crushing roller are meshed with each other; the first crushing roller and the second crushing roller rotate oppositely;

a plurality of circular through holes are uniformly distributed on the second partition plate;

the pricking roller, the first pressing roller, the second pressing roller, the first crushing roller and the second crushing roller are all connected with a driving motor.

2. The renewable resources recycling apparatus of claim 1, wherein a collection barrel is disposed within the recycling cavity.

3. The renewable resources recycling apparatus according to claim 2, wherein a door that is outwardly opened is provided on the body corresponding to the recycling cavity.

4. The renewable resource recovery device of claim 3, wherein the door has a height greater than a height of the collection bucket and a width greater than a width of the collection bucket.

5. The renewable resource recovery device of claim 1, wherein a left-right length of the gap is less than a minimum distance from an inner wall of the arcuate chamber to a center of gravity of the spike roller.

6. The renewable resource recycling apparatus of claim 1, wherein the plastic bag feeding bin is defined by a front surface, a rear surface, a left side surface, a bottom surface and a machine body, and the feeding bin is provided with an upper opening, and the bottom surface is inclined downwards from a position far away from the machine body to a position close to the machine body;

and the inner wall of the machine body is provided with a guide plate, one end of the guide plate is connected with the bottom surface, and the other end of the guide plate is suspended in the crushing cavity and is arranged above the crushing roller set.

7. The renewable resource recovery device of claim 1, wherein a crushing shaft is further disposed between the crushing roller group and the second partition plate, and a spiral crushing blade is disposed on the crushing shaft.

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