CN110270576B

CN110270576B - A recovery plant for renewable resources cyclic utilization

Info

Publication number: CN110270576B
Application number: CN201910527233.XA
Authority: CN
Inventors: 马俊锋
Original assignee: Yancheng Chuangce Intellectual Property Service Co Ltd
Current assignee: Yancheng chuangce Intellectual Property Service Co., Ltd
Priority date: 2019-06-18
Filing date: 2019-06-18
Publication date: 2021-11-23
Anticipated expiration: 2039-06-18
Also published as: CN110270576A

Abstract

The invention discloses recycling equipment for recycling renewable resources, which comprises a loading frame and an input hole, wherein the middle end of the top of the loading frame is provided with the input hole, a cover plate is movably clamped in the input hole, two sides in the input hole are respectively provided with a sliding groove, two sides of the cover plate are respectively clamped in the sliding grooves, two sides of one end of the cover plate are respectively and horizontally connected with a fixed rod, the end part of the fixed rod is connected with a return spring, one end of the top end of the loading frame, which is close to the fixed rod, is provided with an accommodating groove, and a switch is arranged between two jacks on the inner side of the accommodating groove. This recovery plant can adapt to the use in different places, can put and supply the pedestrian to use at the roadside, also can put and handle the discarded object at rubbish recycle bin, and the limitation is little, and convenient to use is swift, only needs inwards to drop into the discarded object, can obtain quick separation and collect, and work efficiency is high, and the effect of separation is good.

Description

A recovery plant for renewable resources cyclic utilization

Technical Field

The invention relates to a recovery device, in particular to a recovery device for recycling renewable resources, and belongs to the field of renewable resource recovery application.

Background

Recycling of waste, often referred to as recycling of renewable resources. The used waste is uniformly collected in the recovery equipment, so that the subsequent recovery and utilization are facilitated, the utilization rate of resources is improved, and the environment is protected from pollution.

However, the existing recycling equipment still has certain defects in use. The existing recovery equipment is only used for simply storing wastes, needs the secondary separation of follow-up workers, and is used for drying and removing internal impurities, so that the time and the labor are wasted, and the working efficiency is lower. The waste can not be collected and simultaneously the impurities and the liquid in the waste can not be filtered out, and the waste occupies larger space in the recovery process and is not easy to store.

Disclosure of Invention

The invention aims to provide recycling equipment for recycling renewable resources, which can solve the problems that the existing recycling equipment only simply stores waste in use, needs to be separated again by subsequent workers, removes internal impurities by sun, wastes time and labor and has low working efficiency. Can not filter out the internal impurities and liquid when collecting the waste, and the waste occupies larger space in the recovery process, which is not easy to store.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a recovery plant for renewable resources cyclic utilization, is including loading frame and the hole of throwing in, the top middle-end of loading the frame is provided with the hole of throwing in, just the inside activity joint of the hole of throwing in has the apron, the inside both sides of the hole of throwing in all are provided with the spout, and the equal joint in the inside of spout in both sides of apron, the equal horizontally connected in one end both sides of apron has the dead lever, the end connection of dead lever has return spring, the inside one end that is close to the dead lever in top of loading the frame is provided with accomodates the groove, and accomodates the inside both sides in groove and all be provided with the jack, and return spring installs in the inside of jack, and the tip of dead lever is pegged graft in the inside of jack, and the length of fixed lever is less than the inside degree of depth of jack, accomodate the inboard in groove and install the switch between two jacks.

The side frame of vertical setting is installed to one side of loading frame, just the internally mounted of loading frame has the installing frame, the inside one end both sides of installing frame are from last to equal horizontal installation down a plurality of stripper bar, the outside evenly connected with a plurality of plush copper of stripper bar, both sides the distance each other of stripper bar is from last to reducing down gradually, fixed frame is installed in the bottom of stripper bar to the inside of installing frame, the inside horizontal installation of fixed frame has the pivot, and the outside fixed mounting of pivot has a plurality of cutting ring, the even horizontal installation of the inside other end of fixed frame has a plurality of roll rod, the motor is all installed to the one end of pivot and stripper bar and roll rod.

The utility model discloses a filter screen, including installation frame, storage frame, push pedal, motor, stirring head, storage frame, the inside bottom bolt of installation frame is installed and is stored up the sediment box, and the upper portion horizontal installation of storage sediment box has the filter screen, the top both sides of filter screen all are provided with the slide rail along length direction, the push pedal is installed on the upper portion of filter screen, and the bottom both sides of push pedal all weld the buckle, and the bottom both sides of push pedal all are through buckle joint slide rail, a plurality of rotation post is evenly installed to the bottom of push pedal, and the bottom of rotating the post is connected with the stirring head, rotates the top of post and installs the motor, the bottom butt filter screen of stirring head.

The baffle is installed to the equal bolt in both ends of installing frame, and the one end middle part horizontally connected of push pedal has the hydraulic pressure post, just the bottom other end of the fixed frame of one end fixed connection of hydraulic pressure post.

The switch board is installed to one side of side frame, loads inside one side of frame and installs the battery box, and all is electric connection between battery box and motor, switch and the switch board.

Preferably, the inside of baffle is provided with two sets of discharge gates, and the equal fixedly connected with stabilizing block in both ends of baffle, and the upper and lower both sides between two stabilizing blocks all are connected with the stiffener, stiffener one side and the side butt of baffle.

Preferably, the fixed frame is uniformly and rotatably provided with a plurality of buffer rods between the rotating shaft and the rolling rod.

Preferably, the vertical fixedly connected with guard plate of one end that the roll pole was kept away from to fixed frame, the bottom and the hydraulic pressure post fixed connection of guard plate, and be provided with the space between the bottom of fixed frame and the filter screen, the bottom at fixed frame is installed to the hydraulic pressure post.

Preferably, the vibrating pump is all installed to the one end both sides that the filter screen is close to fixed frame, and hydraulic tank is installed to bottom one side of fixed frame, and vibrating pump and hydraulic tank all are electric connection with battery box and switch board.

Preferably, all be swing joint between loading frame and the panel all around, the one end of pivot and pinch bar runs through the installing frame and gets into the inside of side frame, and the motor is installed in the inside of side frame.

Preferably, the width of the push plate is matched with the inner width of the mounting frame, and the height of the push plate is smaller than the height of a gap between the fixing frame and the filter screen.

Preferably, the recycling equipment comprises the following specific steps:

the method comprises the following steps: the recyclable waste is put into the loading frame from the input hole, when the recyclable waste is put into the loading frame, the cover plate is pushed to one end of the fixing rod by hand, the fixing rod is pushed by the pushing force to extrude the return spring to be stored in the insertion hole, the end of the cover plate is contacted with the switch, and after the switch is switched on, the motor, the hydraulic column and the vibration pump are started to operate; after the cover plate is loosened by the hand, the return spring pushes the fixing rod to come out from the inner part of the jack, and further pushes the cover plate to return to the original position;

step two: before use, according to actual needs, the control cabinet controls the motor, the hydraulic column and the vibration pump to start one-time operation time, waste falls into the space between the extrusion rods on the two sides from the feeding hole, the motor drives the extrusion rods to rotate, the raised heads outside the extrusion rods extrude the waste, the waste is punctured by the raised heads, and internal liquid and some impurities flow out;

step three: the waste extruded by the extrusion rods falls into the upper part of the fixed frame from the space between the extrusion rods, the waste with small volume and impurities enter the fixed frame, and the waste with large volume falls into the upper part of the buffer rod from the upper part of the fixed frame and further falls into the upper parts of the plurality of rolling rods; the rolling rods rotate to drive the waste to move towards one end and finally fall into one end of the filter screen, and liquid and impurities remained in the waste in the moving process fall into the upper part of the filter screen from gaps among the rolling rods;

impurities and wastes with small volume are driven to rotate by the rotating shaft in one end of the fixing frame, the external cutting ring cuts the impurities with soft texture, the volume of the impurities is further reduced, the cut and stirred impurities and wastes fall into the upper part of the filter screen from the bottom of the fixing frame, and liquid and impurities pass through the filter screen and fall into the slag storage box; the rest impurities and wastes are left on the upper part of the filter screen, and the hydraulic column pushes the push plate to move back and forth on the upper part of the filter screen; the push plate extrudes the waste on the upper part of the filter screen to the baffle, the rotating column at the bottom of the push plate drives the stirring head to rotate, the stirring head stirs the impurities and the fine waste on the filter screen in and out, the impurities are crushed and fall into the slag storage box at the bottom through the filter screen, and the fine impurities are pushed to the baffle;

step four: when the filter screen is in use, the two vibration pumps at the end part vibrate the filter screen, so that impurities on the upper part of the filter screen are not easy to accumulate and can fall into the slag storage box under the driving of vibration force.

The invention has the beneficial effects that:

1. through throwing into downthehole movable mounting apron, dead lever and return spring are connected to apron one end to and at the inside switch that sets up in the top of loading frame, make the inside of loading frame is put into from throwing into the hole to the discarded object that can recycle in the work, the apron promotes to the one end of dead lever, the dead lever receives extrusion return spring after the thrust and accomodates in the inside of jack, and then the tip and the switch contact of apron, after the switch-on, can start the operation with motor and hydraulic column and reciprocating pump. After the cover plate is loosened by the hand, the return spring pushes the fixing rod to come out from the inside of the jack, the cover plate is pushed to return to the original position, the cover plate is plugged into the hole, the phenomenon that the smell inside influences the outside air is avoided, the automatic return is realized, the convenience and the rapidness are realized, and the condition that a pedestrian forgets to close the cover plate is avoided. The operation of internal instruments can be started when the waste is thrown in, and the waste is treated. The waste can be timely treated, the motor and the hydraulic column can be controlled to start once running time through the control cabinet, and long-time running of internal instruments and energy waste are avoided.

2. Through a plurality of extrusion pole of inside one end installation at the loading frame for the discarded object falls into between the both sides extrusion pole from the input hole, and the outside plush copper of extrusion pole can extrude the discarded object, and the discarded object warp, and inside is pricked by the plush copper, and inside liquid and some impurity flows out. And the waste cannot slip between the extrusion rods and can stably move downwards along with the rotation of the extrusion rods. And the pressure of the waste is gradually increased from top to bottom, so that the compression deformation degree is better and more stable. And the discarded object can reduce the volume through the extrusion back of extrusion pole, and inside liquid and impurity can drop downwards from the inside of discarded object, and the discarded object can be smashed impurity through preliminary processing, and the volume reduces, and the getting rid of impurity is favorable to the recovery of follow-up discarded object.

3. Through the fixed frame of bottom installation at the squeeze bar, and at the internally mounted pivot of fixed frame for the waste material that is extruded by the squeeze bar in the work falls into the upper portion of fixed frame between the squeeze bar, and small discarded object and impurity get into the inside of fixed frame, and the upper portion of buffer lever is fallen into from the upper portion of fixed frame to bulky discarded object, falls into the one end of filter screen at last. The residual liquid and some impurities in the waste moving process fall into the upper part of the filter screen from the gap between the rolling rods, so that the separation is further improved.

Impurity and the discarded object of small volume are driven by the pivot and are rotated in the one end of fixed frame is inside, and the soft impurity in geology can be cut to outside cutting ring, and the volume of further reduction impurity, impurity and the discarded object after the cutting stirring fall into the upper portion of filter screen from the bottom of fixed frame, and liquid and impurity pass the inside that the filter screen falls into the storage residue box. The upper portion at the filter screen is left over to remaining impurity and discarded object, and the push pedal can extrude the discarded object on filter screen upper portion to the baffle, and the rotation post of push pedal bottom drives the stirring head and rotates, and the stirring head stirs impurity and tiny discarded object business turn over on to the filter screen, and impurity is smashed and is passed the filter screen and fall into the inside of the storage sediment box of bottom, and tiny impurity is pushed the baffle. Further, fine impurities and waste are separated, so that the separation is more thorough, and the collected waste is purer.

4. The vibrating pumps are arranged at the end parts of the filter screens, so that when the filter screens are used, the two vibrating pumps at the end parts vibrate the filter screens, and the filter screens vibrate. The impurity on the upper part of the filter screen is not easy to accumulate, and can fall into the slag storage box under the drive of the vibration force, so that the cleaning of the impurity can be accelerated. This recovery plant can adapt to the use in different places, can put and supply the pedestrian to use at the roadside, also can put and handle the discarded object at rubbish recycle bin, and the limitation is little, and convenient to use is swift, only needs inwards to drop into the discarded object, can obtain quick separation and collect, and work efficiency is high, and the effect of separation is good.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the cover plate mounting structure of the present invention.

Fig. 3 is a schematic view of the fixing rod structure of the present invention.

FIG. 4 is a schematic view of the inner structure of the input hole of the present invention.

Fig. 5 is a schematic structural diagram of the mounting frame of the present invention.

Fig. 6 is a schematic isometric view of fig. 5 according to the present invention.

FIG. 7 is an exploded view of the present invention shown in FIG. 6.

Fig. 8 is a schematic view of the internal structure of the fixing frame of the present invention.

FIG. 9 is a schematic view of the extrusion stem of the present invention.

Fig. 10 is a schematic view of the bottom structure of the mounting frame of the present invention.

FIG. 11 is a schematic diagram of the structure of the push plate of the present invention.

In the figure: 1. a loading frame; 2. a cover plate; 3. an entry hole; 4. fixing the rod; 5. a switch; 6. a return spring; 7. a chute; 8. an extrusion stem; 9. installing a frame; 10. a baffle plate; 11. a reinforcing bar; 12. a battery box; 13. a control cabinet; 14. a fixing frame; 15. pushing the plate; 16. a discharge port; 17. a side frame; 18. a roll bar; 19. a buffer rod; 20. a protection plate; 21. a rotating shaft; 22. cutting a ring; 23. a raised head; 24. a slide rail; 25. filtering with a screen; 26. vibrating the pump; 27. a slag storage box; 28. a hydraulic column; 29. buckling; 30. rotating the column; 31. and (4) a stirring head.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a recycling device for recycling renewable resources includes a loading frame 1 and an input hole 3, the middle end of the top of the loading frame 1 is provided with the input hole 3, a cover plate 2 is movably clamped inside the input hole 3, two sides inside the input hole 3 are both provided with a chute 7, two sides of the cover plate 2 are both clamped inside the chute 7, two sides of one end of the cover plate 2 are both horizontally connected with a fixing rod 4, the end of the fixing rod 4 is connected with a return spring 6, one end inside the top end of the loading frame 1, which is close to the fixing rod 4, is provided with an accommodating groove, two sides inside the accommodating groove are both provided with jacks, the return spring 6 is installed inside the jacks, the end of the fixing rod 4 is inserted inside the jacks, the length of the fixing rod 4 is smaller than the inner depth of the jacks, and a switch 5 is installed between the two jacks inside the accommodating groove;

a side frame 17 which is vertically arranged is installed on one side of the loading frame 1, an installation frame 9 is installed inside the loading frame 1, a plurality of extrusion rods 8 are evenly and horizontally installed on two sides of one end inside the installation frame 9 from top to bottom, a plurality of raised heads 23 are evenly connected to the outer portions of the extrusion rods 8, the distance between the extrusion rods 8 on two sides is gradually reduced from top to bottom, a fixed frame 14 is installed inside the installation frame 9 at the bottom of the extrusion rods 8, a rotating shaft 21 is horizontally installed inside the fixed frame 14, a plurality of cutting rings 22 are fixedly installed on the outer portions of the rotating shaft 21, a plurality of rolling rods 18 are evenly and horizontally installed on the other end inside the fixed frame 14, and motors are installed on the rotating shaft 21, one ends of the extrusion rods 8 and one ends of the rolling rods 18;

a slag storage box 27 is mounted at the bottom end inside the mounting frame 9 through bolts, a filter screen 25 is horizontally mounted at the upper part of the slag storage box 27, slide rails 24 are arranged on two sides of the top of the filter screen 25 along the length direction, a push plate 15 is mounted at the upper part of the filter screen 25, buckles 29 are welded on two sides of the bottom of the push plate 15, two sides of the bottom of the push plate 15 are clamped with the slide rails 24 through the buckles 29, a plurality of rotating columns 30 are uniformly mounted at the bottom of the push plate 15, stirring heads 31 are connected to the bottoms of the rotating columns 30, a motor is mounted at the tops of the rotating columns 30, and the bottoms of the stirring heads 31 are abutted against the filter screen 25;

the two ends of the mounting frame 9 are both provided with the baffle plates 10 through bolts, the middle part of one end of the push plate 15 is horizontally connected with a hydraulic column 28, and one end of the hydraulic column 28 is fixedly connected with the other end of the bottom of the fixed frame 14;

control cabinet 13 is installed to one side of side frame 17, and battery box 12 is installed to inside one side of loading frame 1, and all is electric connection between battery box 12 and motor, switch 5 and the control cabinet 13.

As a technical optimization scheme of the invention, two groups of discharge ports 16 are arranged inside the baffle plate 10, two ends of the baffle plate 10 are fixedly connected with stabilizing blocks, the upper side and the lower side between the two stabilizing blocks are connected with reinforcing rods 11, one side of each reinforcing rod 11 is abutted against the side surface of the baffle plate 10, the discharge ports 16 facilitate outward cleaning of waste accumulated on one side of the baffle plate 10, and the discharge ports 16 are sealed during operation. When the baffle 10 is extruded, the two reinforcing rods 11 increase the strength of the baffle 10, so that the baffle is not easy to deform.

As a technical optimization scheme of the invention, a plurality of buffer rods 19 are uniformly and rotatably arranged on the fixed frame 14 between the rotating shaft 21 and the rolling rod 18, and the buffer rods 19 play a role in buffering waste falling from the top of the fixed frame 14, so that internal instruments are prevented from being damaged.

As a technical optimization scheme of the invention, one end of the fixed frame 14, which is far away from the rolling rod 18, is vertically and fixedly connected with a protection plate 20, the bottom of the protection plate 20 is fixedly connected with a hydraulic column 28, a gap is arranged between the bottom of the fixed frame 14 and the filter screen 25, the hydraulic column 28 is installed at the bottom of the fixed frame 14, the protection plate 20 can protect the rotating shaft 21 from one side, meanwhile, the fixed installation of the hydraulic column 28 at the bottom is convenient, and the arrangement of the gap is convenient for the movement of the push plate 15 and the hydraulic column 28.

As a technical optimization scheme of the invention, the two sides of one end of the filter screen 25 close to the fixed frame 14 are both provided with the vibration pumps 26, one side of the bottom of the fixed frame 14 is provided with the hydraulic oil tank, the vibration pumps 26 and the hydraulic oil tank are electrically connected with the battery box 12 and the control cabinet 13, and the two vibration pumps 26 at the end parts generate vibration to the vibration pumps so as to vibrate the vibration pumps. The impurities on the upper part of the filter screen 25 are not easy to accumulate and can fall into the slag storage box 27 under the drive of the vibration force.

As a technical optimization scheme of the invention, the loading frame 1 is movably connected with the surrounding panels, one end of the rotating shaft 21 and one end of the extrusion rod 8 penetrate through the mounting frame 9 and enter the inside of the side frame 17, the motor is mounted inside the side frame 17, the panels can be mounted and dismounted, the internal waste is convenient to clean, and meanwhile, the motor is mounted inside the side frame 17, so that the subsequent overhaul is convenient.

As a technical optimization scheme of the invention, the width of the push plate 15 is matched with the inner width of the mounting frame 9, and the height is less than the height of a gap between the fixed frame 14 and the filter screen 25, so that the push plate 15 can move in the mounting frame 9, and meanwhile, the push plate does not touch the fixed frame 14 during moving.

As a technical optimization scheme of the invention, the recycling equipment comprises the following specific steps:

the method comprises the following steps: putting recyclable waste into the loading frame 1 from the input hole 3, pressing the cover plate 2 by a hand to push one end of the fixing rod 4 when the waste is put into the loading frame, extruding the return spring 6 to be contained in the jack after the fixing rod 4 is pushed, contacting the end part of the cover plate 2 with the switch 5, and starting the motor, the hydraulic column 28 and the vibration pump 26 to operate after the switch 5 is switched on; after the cover plate 2 is loosened by the hand, the return spring 6 pushes the fixing rod 4 to come out from the inner part of the jack, and further pushes the cover plate 2 to return to the original position;

step two: before use, according to actual needs, the control cabinet 13 controls the motor, the hydraulic column 28 and the vibration pump 26 to start one-time operation time, waste falls into the space between the extrusion rods 8 on the two sides from the feeding hole 3, the motor drives the extrusion rods 8 to rotate, the raised heads 23 outside the extrusion rods 8 extrude the waste, the inner part of the waste is punctured by the raised heads 23, and the inner liquid and some impurities flow out;

step three: the wastes extruded by the extrusion rods 8 fall into the upper part of the fixed frame 14 from between the extrusion rods 8, the wastes with small volume and impurities enter the inside of the fixed frame 14, and the wastes with large volume fall into the upper part of the buffer rod 19 from the upper part of the fixed frame 14 and then fall into the upper parts of the plurality of rolling rods 18; the rolling rods 18 rotate to drive the waste to move towards one end and finally fall into one end of the filter screen 25, and liquid and impurities remained in the waste in the moving process fall into the upper part of the filter screen 25 from gaps among the rolling rods 18;

impurities and wastes with small volume are driven to rotate by the rotating shaft 21 in one end of the fixed frame 14, the external cutting ring 22 cuts the impurities with soft texture, the volume of the impurities is further reduced, the cut and stirred impurities and wastes fall into the upper part of the filter screen 25 from the bottom of the fixed frame 14, and the liquid and the impurities pass through the filter screen 25 and fall into the slag storage box 27; the rest impurities and wastes are left on the upper part of the filter screen 25, and the hydraulic column 28 pushes the push plate 15 to move back and forth on the upper part of the filter screen 25; the push plate 15 extrudes the waste on the upper part of the filter screen 25 to the baffle 10, the rotating column 30 at the bottom of the push plate 15 drives the stirring head 31 to rotate, the stirring head 31 stirs the impurities and the fine waste on the filter screen 25 in and out, the impurities are crushed and fall into the slag storage box 27 at the bottom through the filter screen 25, and the fine impurities are pushed to the baffle 10;

step four: when the filter screen 25 is in use, the two vibration pumps 26 at the end part vibrate the filter screen 25, so that impurities on the upper part of the filter screen 25 are not easy to accumulate and can fall into the slag storage box 27 under the driving of vibration force.

When the garbage can is used, recyclable wastes are put into the loading frame 1 from the input hole 3, when the garbage can is put into the loading frame, the cover plate 2 is pressed by a hand to push one end of the fixing rod 4, the fixing rod 4 is pushed to extrude the return spring 6 to be stored in the insertion hole, the cover plate 2 enters the storage groove, the end part of the cover plate 2 is contacted with the switch 5, and after the switch 5 is switched on, the motor, the hydraulic column 28 and the vibration pump 26 are started to operate. After the hand loosens apron 2, return spring 6 promotes dead lever 4 and comes out from the inside of jack, and then promotes apron 2 and get back to original position, and 2 shutoff of apron are thrown into hole 3, avoid inside smell to influence outside air, self return, and convenient and fast has avoided the pedestrian to forget the condition of closing apron 2. Before use, the control cabinet 13 with the model of PZ-30 controls the starting time of the motor and the hydraulic column 28 according to actual requirements. The waste falls into the space between the extrusion rods 8 on the two sides from the feeding hole 3, the motor drives the extrusion rods 8 to rotate, the raised heads 23 outside the extrusion rods 8 extrude the waste, the waste is deformed, the interior of the waste is punctured by the raised heads 23, and the internal liquid and some impurities flow out. And the waste can not slip between the extrusion rods 8 and can stably move downwards along with the rotation of the extrusion rods 8. And the pressure of the waste is gradually increased from top to bottom, so that the compression deformation degree is better and more stable. And the discarded object can reduce the volume through the extrusion back of extrusion pole 8, and inside liquid and impurity can drop downwards from the inside of discarded object, and the discarded object can be smashed impurity through preliminary processing, and the volume reduces, and the getting rid of impurity is favorable to the recovery of follow-up discarded object.

The wastes squeezed by the squeeze bars 8 fall into the upper part of the fixed frame 14 from between the squeeze bars 8, the wastes and impurities with small volume enter the inside of the fixed frame 14, and the wastes with large volume fall into the upper part of the buffer bar 19 from the upper part of the fixed frame 14 and further into the upper parts of the plurality of rolling bars 18. The roller 18 rotates to move the waste towards one end and finally falls into one end of the screen 25. The liquid and some impurities remaining inside during the movement of the waste fall from the space between the rolling bars 18 to the upper part of the sieve 25, further improving the separation.

Impurity and the discarded object that is small are inside being driven by pivot 21 and rotate in the one end of fixed frame 14, and the soft impurity in geology is cut to outside cutting ring 22, and the volume of further reduction impurity, impurity and the discarded object after the cutting stirring fall into the upper portion of filter screen 25 from the bottom of fixed frame 14, and liquid and impurity pass filter screen 25 and fall into the inside of storing up sediment box 27. The remaining impurities and waste are left on the upper portion of the screen 25 and the hydraulic cylinder 28 pushes the push plate 15 to move back and forth on the upper portion of the screen 25. The push pedal 15 extrudees the discarded object on filter screen 25 upper portion to baffle 10, and the rotation post 30 of push pedal 15 bottom drives stirring head 31 and rotates, and stirring head 31 stirs impurity and tiny discarded object business turn over on to filter screen 25, and impurity is smashed and is passed filter screen 25 and fall into the inside of the storage sediment box 27 of bottom, and tiny impurity is pushed to baffle 10. Further, fine impurities and waste are separated, so that the separation is more thorough, and the collected waste is purer.

The sieve 25 is in use vibrated by two vibratory pumps 26 at the ends. The impurities on the upper part of the filter screen 25 are not easy to accumulate and can fall into the slag storage box 27 under the drive of the vibration force. After the set time has elapsed, the motor and hydraulic cylinder 28 and the vibration pump 26 are stopped and will not start until the next time the cover 2 is opened again. The separated and compressed waste stays at two ends of the filter screen 25, two ends of the loading frame 1 are opened, and the baffle 10 is detached to obtain the separated waste. The slag storage box 27 is removed, and the impurities and liquid in the slag storage box can be cleaned.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The recycling equipment for recycling the renewable resources is characterized by comprising a loading frame (1) and an insertion hole (3), wherein the insertion hole (3) is formed in the middle end of the top of the loading frame (1), a cover plate (2) is movably clamped in the insertion hole (3), sliding grooves (7) are formed in two sides of the interior of the insertion hole (3), two sides of the cover plate (2) are clamped in the sliding grooves (7), fixing rods (4) are horizontally connected to two sides of one end of the cover plate (2), a return spring (6) is connected to the end of each fixing rod (4), an accommodating groove is formed in one end, close to each fixing rod (4), of the interior of the top end of the loading frame (1), jacks are formed in two sides of the interior of the accommodating groove, the return spring (6) is installed in the jacks, the end of each fixing rod (4) is inserted in the jack, the length of the fixed rod (4) is smaller than the inner depth of the jacks, and a switch (5) is arranged between the two jacks on the inner side of the accommodating groove;

a side frame (17) which is vertically arranged is arranged on one side of the loading frame (1), an installation frame (9) is arranged in the loading frame (1), two sides of one end inside the mounting frame (9) are horizontally provided with a plurality of extrusion rods (8) from top to bottom, a plurality of raised heads (23) are uniformly connected to the outer part of the extrusion rod (8), the distance between the extrusion rods (8) at two sides is gradually reduced from top to bottom, a fixed frame (14) is arranged at the bottom of the extrusion rod (8) in the mounting frame (9), a rotating shaft (21) is horizontally arranged in the fixed frame (14), a plurality of cutting rings (22) are fixedly arranged outside the rotating shaft (21), the other end of the inner part of the fixed frame (14) is evenly and horizontally provided with a plurality of rolling rods (18), motors are arranged at one ends of the rotating shaft (21), the extrusion rod (8) and the rolling rod (18);

the slag storage box (27) is mounted at the bottom end of the interior of the mounting frame (9) through bolts, the filter screen (25) is horizontally mounted at the upper portion of the slag storage box (27), slide rails (24) are arranged on two sides of the top of the filter screen (25) along the length direction, the push plate (15) is mounted on the upper portion of the filter screen (25), buckles (29) are welded on two sides of the bottom of the push plate (15), the slide rails (24) are clamped on two sides of the bottom of the push plate (15) through the buckles (29), a plurality of rotating columns (30) are uniformly mounted at the bottom of the push plate (15), the bottom of each rotating column (30) is connected with a stirring head (31), a motor is mounted at the top of each rotating column (30), and the bottom of each stirring head (31) is abutted to the filter screen (25);

the two ends of the mounting frame (9) are respectively provided with a baffle (10) through bolts, the middle part of one end of the push plate (15) is horizontally connected with a hydraulic column (28), and one end of the hydraulic column (28) is fixedly connected with the other end of the bottom of the fixing frame (14);

a control cabinet (13) is installed on one side of the side frame (17), a battery box (12) is installed on one side of the interior of the loading frame (1), and the battery box (12) is electrically connected with the motor, the switch (5) and the control cabinet (13);

vibrating pump (26) are all installed to one end both sides that filter screen (25) are close to fixed frame (14), and hydraulic tank is installed to bottom one side of fixed frame (14), and vibrating pump (26) and hydraulic tank all are electric connection with battery box (12) and switch board (13).

2. The recycling equipment for recycling renewable resources according to claim 1, wherein two sets of discharge holes (16) are arranged inside the baffle (10), two ends of the baffle (10) are fixedly connected with stabilizing blocks, reinforcing rods (11) are connected to the upper side and the lower side between the two stabilizing blocks, and one side of each reinforcing rod (11) is abutted to the side surface of the baffle (10).

3. A recycling apparatus for recycling renewable resources according to claim 1, wherein the fixed frame (14) is rotatably mounted with a plurality of buffer rods (19) between the rotating shaft (21) and the rolling rod (18) uniformly.

4. The recycling apparatus for recycling renewable resources according to claim 1, wherein a protection plate (20) is vertically and fixedly connected to one end of the fixed frame (14) far away from the rolling rod (18), the bottom of the protection plate (20) is fixedly connected with a hydraulic column (28), a gap is provided between the bottom of the fixed frame (14) and the filter screen (25), and the hydraulic column (28) is installed at the bottom of the fixed frame (14).

5. The recycling apparatus for recycling renewable resources according to claim 1, wherein the loading frame (1) is movably connected to the surrounding panels, the rotating shaft (21) and one end of the extrusion rod (8) penetrate through the installation frame (9) and enter the side frame (17), and the motor is installed inside the side frame (17).

6. A recycling apparatus for recycling of renewable resources according to claim 1, characterized in that the width of the push plate (15) matches the inner width of the mounting frame (9), and the height is smaller than the gap height between the fixed frame (14) and the screen (25).

7. The recycling apparatus for recycling renewable resources according to claim 1, wherein the recycling apparatus is used by the following specific steps:

the method comprises the following steps: the recyclable waste is placed into the loading frame (1) from the feeding hole (3), when the recyclable waste is placed, the cover plate (2) is pressed by hands to push towards one end of the fixing rod (4), the fixing rod (4) is pushed to extrude the return spring (6) to be stored in the insertion hole, the end portion of the cover plate (2) is contacted with the switch (5), and after the switch (5) is switched on, the motor, the hydraulic column (28) and the vibration pump (26) are started to operate; after the cover plate (2) is loosened by hand, the return spring (6) pushes the fixing rod (4) to come out from the inner part of the jack, and then the cover plate (2) is pushed to return to the original position;

step two: before use, according to actual needs, the control cabinet (13) controls the motor, the hydraulic column (28) and the vibration pump (26) to start one-time operation time, waste falls into the space between the extrusion rods (8) on the two sides from the feeding hole (3), the motor drives the extrusion rods (8) to rotate, the raised heads (23) outside the extrusion rods (8) extrude the waste, the inner part of the waste is punctured by the raised heads (23), and internal liquid and some impurities flow out;

step three: the wastes extruded by the extrusion rods (8) fall into the upper part of the fixed frame (14) from the space between the extrusion rods (8), the wastes and impurities with small volume enter the inside of the fixed frame (14), and the wastes with large volume fall into the upper part of the buffer rod (19) from the upper part of the fixed frame (14) and further fall into the upper parts of the plurality of rolling rods (18); the rolling rods (18) rotate to drive the waste to move towards one end and finally fall into one end of the filter screen (25), and liquid and impurities remained in the waste in the moving process fall into the upper part of the filter screen (25) from gaps among the rolling rods (18);

impurities and wastes with small volume are driven to rotate by a rotating shaft (21) in one end of a fixed frame (14), an external cutting ring (22) cuts the impurities with soft texture, the volume of the impurities is further reduced, the cut and stirred impurities and wastes fall into the upper part of a filter screen (25) from the bottom of the fixed frame (14), and liquid and impurities pass through the filter screen (25) and fall into a slag storage box (27); the residual impurities and wastes are left on the upper part of the filter screen (25), and the hydraulic column (28) pushes the push plate (15) to move back and forth on the upper part of the filter screen (25); the push plate (15) extrudes the waste on the upper part of the filter screen (25) to the baffle (10), the rotating column (30) at the bottom of the push plate (15) drives the stirring head (31) to rotate, the stirring head (31) stirs the impurities and the fine waste on the filter screen (25) in and out, the impurities are crushed and fall into the inner part of the slag storage box (27) at the bottom through the filter screen (25), and the fine impurities are pushed to the baffle (10);

step four: when the filter screen (25) is in use, the two vibration pumps (26) at the end part vibrate the filter screen (25), so that impurities on the upper part of the filter screen (25) are not easy to accumulate and can fall into the slag storage box (27) under the driving of vibration force.