CN113524504B

CN113524504B - Renewable resources recovery unit

Info

Publication number: CN113524504B
Application number: CN202110856482.0A
Authority: CN
Inventors: 李强
Original assignee: Jiangsu Chunrun Environmental Protection Technology Co ltd
Current assignee: Jiangsu Chunrun Environmental Protection Technology Co ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2022-07-12
Anticipated expiration: 2041-07-28
Also published as: CN113524504A

Abstract

The invention discloses a renewable resource recovery device, relates to the technical field of resource recovery, and achieves the purpose of collecting water flowing out of a plastic bottle, and the technical scheme is as follows: the plastic bottle crushing machine comprises a machine body, a first partition plate and a second partition plate, wherein the first partition plate and the second partition plate are arranged in the machine body, the machine body is rotatably connected with a piercing roller in a flattening cavity, a crushing piece is arranged in a crushing cavity, the first partition plate is respectively provided with a first placing block and a second placing block at two ends of the piercing roller, the first placing block is provided with an arc distributed along the radian of the piercing roller, the second placing block is provided with a sliding rail for a plastic bottle to gradually approach the piercing roller from top to bottom, the upper end of the machine body is provided with a feeding hopper for the plastic bottle to enter the sliding rail, the first partition plate is provided with an opening for the plastic bottle to enter the crushing cavity from the sliding rail, the first partition plate is provided with a water guide piece below the opening, and the first placing block and the second placing block are respectively provided with a water absorbing piece.

Description

Renewable resources recovery unit

Technical Field

The invention relates to the technical field of resource recovery, in particular to a renewable resource recovery device.

Background

The appearance of plastic products greatly facilitates the daily life of people, but along with the accumulation of plastic products, the plastic waste becomes the main pollutant harmful to the meeting environment, and based on the requirement of environmental protection, the recycling technology of plastics appears, and the recycling of plastics is to recycle the waste plastic products, clean the back and reuse in the production of plastic products, realize the recycle of resources.

Chinese patent No. CN211640621U discloses a renewable resource recycling device, which is divided into a flattening chamber, a crushing chamber and a recycling chamber from top to bottom, wherein the flattening chamber flattens a plastic bottle, and a piercing roller arranged in the flattening chamber can pierce the plastic bottle to prevent 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 the plastic.

However, residual liquid often stays in the plastic bottle, so that when the plastic bottle is flattened and punctured by the puncturing roller in the flattening cavity, moisture is extruded out, and at the moment, the moisture enters each roller along with the plastic bottle, so that each roller is easy to rust, and the later-stage use is influenced.

Disclosure of Invention

The invention aims to provide a renewable resource recovery device which achieves the aim of collecting water flowing out of a plastic bottle.

The technical purpose of the invention is realized by the following technical scheme:

a renewable resource recovery device comprises a machine body, a first partition plate and a second partition plate, wherein the first partition plate and the second partition plate are arranged in the machine body, and divide the machine body into a flattening cavity, a crushing cavity and a recovery cavity from top to bottom in sequence;

the machine body is rotatably connected with a piercing roller in a flattening cavity, a crushing piece is arranged in the crushing cavity, a first placing block and a second placing block are respectively arranged at two ends of the piercing roller by a first partition plate, an arc distributed along the radian of the piercing roller is arranged on the first placing block, a sliding rail for a plastic bottle to gradually approach the piercing roller from top to bottom is arranged on the second placing block, a feeding hopper for the plastic bottle to enter the sliding rail is arranged at the upper end of the machine body, an opening for the plastic bottle to enter the crushing cavity from the sliding rail is arranged on the first partition plate, a water guide piece is arranged below the opening of the first partition plate, and water absorbing pieces are respectively arranged on the first placing block and the second placing block.

Through adopting above-mentioned technical scheme, when the plastic bottle got into the flattening chamber through the feeder hopper, get into the second along the slide rail and place the piece and puncture between the roller, along with the removal of plastic bottle along the slide rail, puncture the roller and puncture the plastic bottle gradually and flatten, the setting up of the piece that absorbs water this moment reduces in water flows the opening on the first baffle along the slide rail, the further reduction water that sets up of water guide spare flows to smashing the chamber and retrieving the intracavity through the opening afterwards, do benefit to the drying of smashing the chamber and retrieving the intracavity, increase the life of each intracavity part.

Preferably: the water absorbing piece comprises water storage cavities arranged in a first placing block and a second placing block, wherein a plurality of communicating holes communicated with the water storage cavities are formed in one side, facing the piercing roller, of the first placing block and the second placing block, the communicating holes are conical holes extending downwards in an inclined mode, the conical holes are smaller in taper towards one end of the piercing roller, drain pipes extending out of the machine body are arranged on the first placing block and the second placing block, and the drain pipes are communicated with the water storage cavities.

Preferably: the upper end of the drain pipe is provided with a vent pipe communicated with the drain pipe, and the vent pipe is communicated with an air blower.

Preferably: the utility model discloses a ventilation pipe, including drain pipe, breather pipe, telescopic pipe, first closing plate, second closing plate, first air vent hole, second air vent hole, the drain pipe upper end is equipped with the transition pipe of dismantling the connection with the breather pipe, transition pipe upper end threaded connection have with the control tube of transition pipe intercommunication, breather pipe and control tube outer wall upper end threaded connection, the breather pipe is equipped with the telescopic link that gets into in the control tube in the one end of being connected with the control tube, be equipped with the first closing plate that seals the control tube on the telescopic link, a plurality of first air vent holes have been seted up on the first closing plate, be equipped with the second closing plate that seals the control tube on the control tube, the second closing plate is located first closing plate below and sets up the second air vent hole with first air vent intercommunication.

Preferably: the telescopic link includes the first pole of being connected with the breather pipe, overlaps the second pole of establishing outside the first pole, set up the spout that supplies first pole entering on the second pole.

Preferably: the water guide piece is including the slope setting board of placing on the opening wall, it is equipped with the filter chamber to place the inboard, place the board up end and set up a plurality of holes of permeating water with the filter chamber intercommunication, it sets up the hole of falling that supplies the plastic bottle to fall in the lower one end of inclination to place the board, it just is to the crushing piece to fall the hole, it is equipped with the drinking-water pipe with the filter chamber intercommunication on the board to place, drinking-water pipe one end extends the organism.

Preferably: the first piece of placing is fixed on first baffle, the second is placed the piece and is slided along the direction of being close to or keeping away from the first piece of placing and connect on first baffle, wear to be equipped with on the organism lateral wall and place the piece with the second and deviate from the first conflict pole of placing a piece one side and being connected, the conflict pole other end extends the organism, the organism outer wall is equipped with the drive and supports the driving piece that the feeler lever stretches out or gets into the organism.

Preferably: and an extrusion part for pressing the plastic bottle between the sliding rail and the puncture roller is arranged at the upper end of the feed hopper.

Preferably: the extruded article is including setting up the pole setting at the feeder hopper upper end wall, the feeder hopper upper end wall articulates there are a plurality of swing boards, adjacent two be equipped with the protection network between the swing board, the pole setting slides along pole setting length direction and is connected with the clamp plate, clamp plate and each the swing board upper end is contradicted.

Preferably: and one end of each swinging plate, which is abutted against the pressing plate, is arc-shaped.

In conclusion, the invention has the following beneficial effects: when the plastic bottle got into the flattening chamber through the feeder hopper, get into the second along the slide rail and place the piece and puncture between the roller, along with the plastic bottle along the removal of slide rail, puncture the roller and puncture the plastic bottle and flatten gradually, the setting of the piece that absorbs water at this moment reduces in water flows the opening on the first baffle along the slide rail, the further reduction water that sets up of water guide spare flows to crushing chamber and recovery intracavity through the opening afterwards, do benefit to the drying in crushing chamber and the recovery intracavity, increase the life of each intracavity part.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic diagram of a reservoir embodying the present embodiment;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

fig. 4 is an enlarged schematic view of a portion B in fig. 2.

In the figure: 1. a body; 11. a first separator; 12. a second separator; 13. a flattening cavity; 131. a pierce roller; 132. a first placing block; 133. a second placement block; 134. a slide rail; 135. a feed hopper; 136. an opening; 14. a grinding chamber; 15. a recovery chamber; 16. a water storage cavity; 161. a communicating hole; 162. a drain pipe; 163. a breather pipe; 164. a blower; 165. a transition duct; 166. an adjustment tube; 167. a first closing plate; 1671. a first vent hole; 168. a second closing plate; 1681. a second vent hole; 17. a first lever; 171. a second lever; 18. placing the plate; 181. a filter chamber; 182. water permeable holes; 183. dropping an outlet hole; 184. a water pumping pipe; 19. a touch bar; 191. pushing the plate; 192. a cylinder; 193. erecting a rod; 194. a swinging plate; 195. a protective net; 196. pressing a plate; 197. a screw rod; 198. an electric motor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A renewable resource recycling device is shown in figures 1 and 2 and comprises a machine body 1, and a first partition plate 11 and a second partition plate 12 which are arranged in the machine body 1, wherein the machine body 1 is divided into a flattening cavity 13, a crushing cavity 14 and a recycling cavity 15 from top to bottom by the first partition plate 11 and the second partition plate 12 in sequence; the crushing chamber 14 and the recycling chamber 15 may be identical to the crushing chamber 14 and the recycling chamber 15 in a renewable resource recycling device disclosed in the patent publication No. CN 211640621U.

As shown in fig. 1 and 2, a piercing roller 131 is rotatably connected to the machine body 1 in the flattening chamber 13, a crushing member is disposed in the crushing chamber 14, a first placing block 132 and a second placing block 133 are respectively disposed at two ends of the piercing roller 131 of the first partition plate 11, an arc shape distributed along the radian of the piercing roller 131 is disposed on the first placing block 132, a sliding rail 134 for a plastic bottle to gradually approach the piercing roller 131 from top to bottom is disposed on the second placing block 133, a feeding hopper 135 for the plastic bottle to enter the sliding rail 134 is disposed at the upper end of the machine body 1, an opening 136 for the plastic bottle to enter the crushing chamber 14 from the sliding rail 134 is disposed on the first partition plate 11, the crushing member may include two pressing rollers which are disposed in the machine body 1 and rotate in opposite directions, the plastic bottle falling out from the opening 136 falls between the two pressing rollers at this time, a water guide member is disposed below the opening 136 of the first partition plate 11, and water absorbing members are disposed on the first placing block 132 and the second placing block 133.

As shown in fig. 1 and 2, when the plastic bottle enters the flattening chamber 13 through the feeding hopper 135, the plastic bottle enters between the second placing block 133 and the piercing roller 131 along the sliding rail 134, the piercing roller 131 gradually pierces and flattens the plastic bottle as the plastic bottle moves along the sliding rail 134, at this time, the arrangement of the water guide member reduces the water flowing into the opening 136 on the first partition plate 11 along the sliding rail 134, and then the arrangement of the water guide member further reduces the water flowing into the crushing chamber 14 and the recycling chamber 15 through the opening 136, so that the drying in the crushing chamber 14 and the recycling chamber 15 is facilitated, and the service life of each chamber internal component is prolonged.

As shown in fig. 2 and 3, the water absorbing member includes a water storage cavity 16 formed in the first placing block 132 and the second placing block 133, the first placing block 132 and the second placing block 133 are both provided with a plurality of communicating holes 161 communicated with the water storage cavity 16 at one side facing the piercing roller 131, the communicating holes 161 are tapered holes extending obliquely and downwardly, the taper of one end of the tapered holes facing the piercing roller 131 is smaller, so that impurities can be reduced to enter the communicating holes 161 and water can flow into the water storage cavity 16 conveniently, the first placing block 132 and the second placing block 133 are both provided with a drain pipe 162 extending out of the machine body 1, and the drain pipe 162 is communicated with the water storage cavity 16. The purpose of this arrangement is that when the plastic bottle is pierced by the piercing roller 131, the water in the plastic bottle flows along the slide rail 134, enters the communication hole 161 of the second placing block 133, enters the water storage cavity 16 for accumulation, and finally is discharged through the drain pipe 162, so that the water storage cavity 16 can accumulate water continuously. The communication hole 161 and the water storage chamber 16 are also provided in the first placement block 132 because water is easily accumulated when the water is brought between the first placement block 132 and the puncture roller 131 in accordance with the rotation of the puncture roller 131.

As shown in fig. 2 and 3, when the water flows along the slide rail 134 and does not fill the communication holes 161, a vent pipe 163 is provided at the upper end of the drain pipe 162 to communicate with the drain pipe 162, and the vent pipe 163 communicates with a blower 164. At this time, the blower 164 blows air into the drain pipe 162 through the vent pipe 163, and further, air flows in the water storage chamber 16, and further, air is blown out into the communication holes 161, so that the plastic bottles are dried on the one hand, and on the other hand, when air is blown out into the communication holes 161, an air film is formed on the surface of the slide rail 134, and the plastic bottles are less stuck on the slide rail 134.

As shown in fig. 2 and 3, when air does not need to be blown into the drain pipe 162, the upper end of the drain pipe 162 is provided with a transition pipe 165 detachably connected to the vent pipe 163, so that the vent pipe 163 and the drain pipe 162 can be detached conveniently, when the amount of air entering the drain pipe 162 needs to be adjusted, the upper end of the transition pipe 165 is in threaded connection with an adjusting pipe 166 communicated with the transition pipe 165, the vent pipe 163 is in threaded connection with the upper end of the outer wall of the adjusting pipe 166, one end of the vent pipe 163 connected with the adjusting pipe 166 is provided with an expansion link entering the adjusting pipe 166, the expansion link is provided with a first closing plate 167 for closing the adjusting pipe 166, the first closing plate 167 is provided with a plurality of first vent holes 1671, the adjusting pipe 166 is provided with a second closing plate 168 for closing the adjusting pipe 166, the second closing plate 168 is located below the first closing plate 167 and is provided with second vent holes 1681 communicated with the first vent holes 1671, at this time, the second closing plate 168 supports the first closing plate 167, when the ventilation amount entering the drainage pipe 162 needs to be changed, the adjusting pipe 166 is rotated, the telescopic rod of the ventilation pipe 163 fixes the position of the first closing plate 167, the second closing plate 168 rotates along with the rotation of the adjusting pipe 166, the first closing plate 167 ascends or descends along with the second closing plate 168 due to the support of the second closing plate 168, the relative rotation between the first closing plate 167 and the second closing plate 168 enables the first vent hole 1671 on the first closing plate 167 to gradually coincide with or be dislocated from the second vent hole 1681 on the second closing plate 168, and then the amount of gas entering the lower end of the second closing plate 168 is adjusted, so that the use requirement is met.

As shown in fig. 2 and 3, the telescopic rod includes a first rod 17 connected to the air pipe 163, and a second rod 171 sleeved outside the first rod 17, and the second rod 171 is provided with a sliding slot for the first rod 17 to enter. At this time, the first rod 17 enters the sliding groove to slide, and the length of the telescopic rod is changed.

As shown in fig. 2 and 4, the water guide member includes a placing plate 18 obliquely arranged on the wall of the opening 136, a filter cavity 181 is arranged in the placing plate 18, the filter cavity 181 divides the opening 136 into an upper layer and a lower layer, at the moment, the upper end face of the placing plate 18 is provided with a plurality of water permeable holes 182 communicated with the filter cavity 181, the placing plate 18 is provided with a dropping hole 183 for dropping out the plastic bottle at the lower end of the oblique angle, the dropping hole 183 is opposite to the crushing member, at the moment, the plastic bottle drops into the space between two compression rollers from the plastic bottle dropping out of the dropping hole 183, a water pumping pipe 184 communicated with the filter cavity 181 is arranged on the placing plate 18, and one end of the water pumping pipe 184 extends out of the machine body 1. The suction pipe 184 is arranged to discharge the water in the filter cavity 181. The placement plate 18 further filters water flowing down the slide rails 134, further reducing the amount of water that moves out of the collapsing cavity 13 with the plastic bottles.

As fig. 2 and fig. 4, the first block 132 of placing is fixed on first baffle 11, the second is placed the piece 133 and is slided and connect on first baffle 11 along the direction of being close to or keeping away from first block 132 of placing, wear to be equipped with on the organism 1 lateral wall and place the piece 133 with the second and deviate from the first conflict pole 19 of placing the piece 132 one side and being connected, the conflict pole 19 other end extends organism 1, the organism 1 outer wall is equipped with the drive and supports the driving piece that the pole 19 stretches out or gets into in the organism 1. At this moment, the driving member drives the touch bar 19 to move, so that the touch bar 19 drives the second placing block 133 to move towards the direction close to or far away from the first placing block 132, the distance between the second placing block 133 and the piercing roller 131 is adjusted, the distance between the sliding rail 134 and the piercing roller 131 is reduced or increased, when the distance is increased, the distance is adjusted according to the quantity of the plastic bottles, the working efficiency is improved, when the distance is reduced, according to the strength of the plastic bottles, the distance between the piercing roller 131 and the sliding rail 134 is reduced, and the force applied to the plastic bottles is increased to flatten the plastic bottles.

As shown in fig. 2 and 4, the driving member includes a push plate 191 disposed at one end of the contact rod 19 extending out of the body 1, a cylinder 192 is disposed on an outer wall of the body 1, a piston rod of the cylinder 192 is connected to the push plate 191, and the cylinder 192 works to drive the contact rod 19 to extend out of the body 1 or enter the body 1, so as to change a position of the second placing block 133.

As shown in fig. 1 and 2, when the position of the second placing block 133 is changed, the water discharging pipe 162 communicated with the second placing block 133 is also inserted into the machine body 1 to facilitate the movement of the second placing block 133, and the part of the air pipe 163 communicated with the blower 164 is a hose to facilitate the movement of the air pipe 163 along with the water discharging pipe 162.

As shown in fig. 1 and 2, when there are many plastic bottles put into the feeding hopper 135, the plastic bottles need to be pressed into the feeding hopper 135, so that the plastic bottles can enter the sliding rails 134, and at this time, the upper end of the feeding hopper 135 is provided with a pressing member for pressing the plastic bottles between the sliding rails 134 and the piercing rollers 131.

As shown in fig. 1 and 2, the extrusion member includes a vertical rod 193 disposed on the upper end wall of the feeding hopper 135, the upper end wall of the feeding hopper 135 is hinged with a plurality of swing plates 194, a protective net 195 is disposed between two adjacent swing plates 194, the vertical rod 193 is connected with a pressing plate 196 along the length direction of the vertical rod 193 in a sliding manner, and the pressing plate 196 is abutted against the upper end of each swing plate 194. Firstly, plastic bottles are placed into a feed hopper 135, each swinging plate 194 is rotated to the position above the feed hopper 135 at the moment, the plastic bottles are intercepted in the feed hopper 135 through a protective net 195, each swinging plate 194 is pressed downwards through a pressure plate 196, at the moment, the pressure plate 196 applies downward pressure to the swinging plates 194 along with the fact that the plastic bottles in the feed hopper 135 gradually enter a flattening cavity 13, the swinging plates 194 are convenient to apply downward pressure to the plastic bottles, and further the plastic bottles gradually move downwards, in addition, in order to increase the extrusion force of the pressure plate 196 to the swinging plates 194, a screw rod 197 can be arranged on a vertical rod 193, the screw rod 197 is distributed along the length direction of the vertical rod 193, a sliding block in threaded connection with the screw rod 197 is arranged on the pressure plate 196, the sliding block is connected to the screw rod 197, a motor 198 is arranged at the upper end of the vertical rod 193, the motor 198 drives the screw rod 197 to rotate at the moment, so that the pressure plate 196 can automatically move upwards and downwards, and the pressure of the pressure plate 196 to the swinging plates 194 is convenient to increase, when the pressing plate 196 applies pressure to the swing plates 194, one end of each swing plate 194 abutting against the pressing plate 196 is arc-shaped, so that the friction force between the pressing plate 196 and the swing plates 194 is reduced, and the pressing plate 196 applies extrusion force to the swing plates 194 conveniently.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A renewable resource recycling device comprises a machine body (1), and a first partition plate (11) and a second partition plate (12) which are arranged in the machine body (1), wherein the machine body (1) is sequentially divided into a flattening cavity (13), a crushing cavity (14) and a recycling cavity (15) from top to bottom by the first partition plate (11) and the second partition plate (12);

the machine body (1) is rotatably connected with a piercing roller (131) in a flattening cavity (13), and a crushing piece is arranged in the crushing cavity (14);

the plastic bottle crushing machine is characterized in that a first placing block (132) and a second placing block (133) are respectively arranged at two ends of a puncture roller (131) of a first partition plate (11), an arc distributed along the radian of the puncture roller (131) is arranged on the first placing block (132), a sliding rail (134) for a plastic bottle to gradually approach the puncture roller (131) from top to bottom is arranged on the second placing block (133), a feeding hopper (135) for the plastic bottle to enter the sliding rail (134) is arranged at the upper end of the machine body (1), an opening (136) for the plastic bottle to enter a crushing cavity (14) from the sliding rail (134) is arranged on the first partition plate (11), a water guide part is arranged below the opening (136) of the first partition plate (11), and water absorbing parts are respectively arranged on the first placing block (132) and the second placing block (133);

the water absorbing piece comprises water storage cavities (16) arranged in a first placing block (132) and a second placing block (133), a plurality of communicating holes (161) communicated with the water storage cavities (16) are formed in one sides, facing the piercing roller (131), of the first placing block (132) and the second placing block (133), the communicating holes (161) are conical holes extending obliquely downwards, the conical degree of one end, facing the piercing roller (131), of each conical hole is smaller, drain pipes (162) extending out of the machine body (1) are arranged on the first placing block (132) and the second placing block (133), and the drain pipes (162) are communicated with the water storage cavities (16);

the water guide piece is including slope setting place board (18) on opening (136) oral wall, it is equipped with filter chamber (181) in board (18) to place, place board (18) up end and set up a plurality of holes (182) of permeating water that communicate with filter chamber (181), place board (18) and set up the hole (183) that falls that supplies the plastic bottle to fall in the lower one end of inclination, it just is the crushing piece to fall hole (183), it is equipped with drinking-water pipe (184) with filter chamber (181) intercommunication on board (18) to place, drinking-water pipe (184) one end extends organism (1).

2. The recycling apparatus for renewable resources according to claim 1, wherein: the upper end of the water drainage pipe (162) is provided with a ventilation pipe (163) communicated with the water drainage pipe (162), and the ventilation pipe (163) is communicated with a blower (164).

3. The recycling apparatus for renewable resources according to claim 2, wherein: drain pipe (162) upper end is equipped with transition pipe (165) that can dismantle the connection with breather pipe (163), transition pipe (165) upper end threaded connection has regulation pipe (166) with transition pipe (165) intercommunication, breather pipe (163) and regulation pipe (166) outer wall upper end threaded connection, breather pipe (163) are equipped with the telescopic link that gets into in regulation pipe (166) in the one end of being connected with regulation pipe (166), be equipped with first shut plate (167) that seals regulation pipe (166) on the telescopic link, a plurality of first air vents (1671) have been seted up on first shut plate (167), be equipped with second shut plate (168) that seal regulation pipe (166) on regulation pipe (166), second shut plate (168) are located first shut plate (167) below and offer second air vent (1681) with first air vent (1671) intercommunication.

4. The recycling apparatus for recycling resources as set forth in claim 3, wherein: the telescopic rod comprises a first rod (17) connected with the ventilating pipe (163) and a second rod (171) sleeved outside the first rod (17), and a sliding groove for the first rod (17) to enter is formed in the second rod (171).

5. The recycling apparatus for recycling resources as set forth in claim 4, wherein: first place piece (132) and fix on first baffle (11), the second is placed piece (133) and is slided along the direction of being close to or keeping away from first place piece (132) and connect on first baffle (11), wear to be equipped with on organism (1) lateral wall and place piece (133) and deviate from first feeler lever (19) of placing that piece (132) one side is connected with the second, feeler lever (19) other end extends organism (1), organism (1) outer wall is equipped with the driving piece that drive feeler lever (19) stretched out or got into in organism (1).

6. The recycling apparatus for recycling resources as set forth in claim 1, wherein: the upper end of the feed hopper (135) is provided with an extrusion part which presses the plastic bottles to the space between the slide rail (134) and the puncture roller (131).

7. The recycling apparatus for recycling resources as set forth in claim 6, wherein: the extruded piece is including setting up pole setting (193) at feeder hopper (135) upper end wall, feeder hopper (135) upper end wall articulates there are a plurality of pendulum boards (194), adjacent two be equipped with protection network (195) between pendulum board (194), pole setting (193) are slided along pole setting (193) length direction and are connected with clamp plate (196), clamp plate (196) and each prop up in pendulum board (194).

8. The recycling apparatus for recycling resources as recited in claim 7, wherein: one end of each swinging plate (194) abutting against the pressing plate (196) is arc-shaped.