CN112916164A - High-efficient environmental protection rubbish pulverizes compression treatment device - Google Patents

Abstract

The invention discloses a high-efficiency environment-friendly garbage crushing and compressing treatment device, which comprises a shell and is characterized in that: the inner part of the shell is provided with a grading treatment mechanism, one side, located at the grading treatment mechanism, of the inner part of the shell is provided with a cutting and crushing mechanism, a shunting and conducting mechanism is arranged below the cutting and crushing mechanism, the grading treatment mechanism comprises a treatment bin, the treatment bin is fixed inside the shell, a driving table is arranged inside the treatment bin, a rotary table is fixed on the upper end face of the driving table, a feeding pipe is fixed in the center of the rotary table and penetrates through the rotary table, a plurality of conical cutters are uniformly and axially connected above the rotary table and annularly distributed, and a conical baffle is arranged above the rotary table.

Description

High-efficient environmental protection rubbish pulverizes compression treatment device

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a high-efficiency environment-friendly garbage crushing and compressing treatment device.

Background

The household garbage refers to solid waste generated in daily life or activities for providing services to daily life, and solid waste regarded as household garbage according to laws and administrative laws. The garbage can be generally divided into kitchen garbage, recoverable garbage, toxic and harmful garbage and other garbage, in daily life, leftovers are often poured into a sewer, or hair falling on the ground in a toilet is directly flushed into the sewer, so that the sewer is blocked in the past for a long time, and the water flow of the sewer is greatly influenced.

The existing garbage crushing and compressing treatment device has poor practicability; simultaneously current rubbish pulverizes compression treatment device can't distinguish according to the soft or hard degree of rubbish and cut and pulverize to it is difficult to play effective clearance to the sewer mouth that is blockked up. Therefore, it is necessary to design a high-efficiency environment-friendly garbage crushing and compressing device which can cut and crush garbage according to different modes of different hardness of the garbage and can clean a blocked opening of a sewer.

Disclosure of Invention

The invention aims to provide a high-efficiency environment-friendly garbage crushing and compressing treatment device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a high-efficient environmental protection rubbish pulverizes compression treatment device, includes the casing, its characterized in that: the inside of casing is provided with hierarchical processing mechanism, the inside of casing is located one side of hierarchical processing mechanism and is provided with the cutting and pulverizes the mechanism, the cutting is pulverized the below of mechanism and is provided with reposition of redundant personnel conduction mechanism.

According to the technical scheme, the grading treatment mechanism is including handling the storehouse, it fixes the inside at the casing to handle the storehouse, the inside of handling the storehouse is provided with the driver station, the up end of driver station is fixed with the revolving stage, the central authorities of revolving stage are fixed with the inlet pipe, the inlet pipe runs through the revolving stage, the even bearing in top of revolving stage is connected with a plurality of conical cutter, and is a plurality of conical cutter ring-shaped distributes, and is a plurality of the annular that the conical cutter is constituteed is concentric circles, and is a plurality of mutual transmission connects between the annular that the conical cutter is constituteed, the both sides of revolving stage are fixed with the housing respectively, there is the joint one side of housing through the pipe connection, the top of revolving stage is provided with the conical baffle, outer wall one side of conical baffle is connected to the outside of handling the.

According to the technical scheme, there is first pump machine on the top of tapered baffle through the tube coupling, the inside of first pump machine is provided with two pump pieces, two the axis of pump piece is perpendicular, the top both sides of tapered baffle are fixed with driven spacing respectively, the top of first pump machine is provided with flexible response portion, the lower extreme both sides of flexible response portion are provided with the spacing of initiative respectively, the spacing of initiative and driven spacing are the cooperation structure, flexible response portion is the annular, the inside central authorities of flexible response portion are connected with the centre gripping post through the bearing, the outside of centre gripping post is provided with tensile membrane, the inside sliding connection of centre gripping post has the counter weight ball, the top of counter weight ball passes through the tube coupling on first pump machine, the inside of centre gripping post passes through the tube coupling on the top of counter weight ball.

According to the technical scheme, the cutting and crushing mechanism comprises a separating shell and a regulating assembly, wherein a first conduction pipe is fixed on one side of the separating shell, the first conduction pipe penetrates through the top end of the treatment bin and is fixed on the flexible induction part to be sleeved with the counterweight ball, a tension rope is arranged at the joint of the first conduction pipe and the flexible induction part, a second conduction pipe is arranged at the other side of the separation shell, the second conduction pipe penetrates through the right end of the treatment bin and is sleeved with the connector, a plurality of main shafts are arranged inside the separation shell, linkage assemblies are arranged inside the main shafts, a fan-shaped shell is fixed outside the main shaft, a slideway is arranged on one side of the fan-shaped shell, a water guide hole is arranged at one end of the slideway close to the main shaft, the top in water guide hole has the sieve through the tube coupling, the inside sliding connection of slide has fan-shaped cutter, the one end that the slide was kept away from to fan-shaped cutter passes through the bearing and connects on fan-shaped shell.

According to the technical scheme, the adjusting assembly comprises a transmission shaft, the transmission shaft is connected to the inside of the separating shell through a bearing, a driving gear is fixed to the bottom end of the transmission shaft, a driving magnetic block is fixed to the lower end face of the driving gear, a plurality of bevel gears are meshed and connected to the outer side of the driving gear, the bevel gears are magnetic, the lower portions of the bevel gears are fixed to the main shaft, a plurality of L-shaped connecting rods are in transmission connection to the outer side of the transmission shaft, the other ends of the L-shaped connecting rods are connected to the top end of the bevel gear through bearings, and the sliding connection portion of the fan-shaped cutter and the slide way is connected with.

According to the technical scheme, the linkage assembly comprises a circulation pipe, a plurality of through holes are formed in the circulation pipe, a plurality of square blocks are evenly arranged on the outer side of the top end of the circulation pipe, a plurality of sliding grooves are formed in the square blocks, sliding rods are connected to the sliding grooves in the sliding grooves, triangular check blocks are connected to one sides of the sliding rods in the sliding mode and located above the square blocks, through holes are formed in the triangular check blocks, annular baffles are arranged above the triangular check blocks, a plurality of through holes are evenly formed in the annular baffles, a plurality of arc-shaped slideways are evenly arranged on the outer sides of the annular baffles and are connected with the sliding rods in a sliding mode, and the arc-shaped slideways are connected with the fan.

According to the technical scheme, the shunting and conducting mechanism comprises a soft material bin and a hard material bin, the top end of the soft material bin is connected to the through hole of the circulating pipe through a pipeline, and the top end of the hard material bin is connected to the center of the circulating pipe through a pipeline.

According to the technical scheme, the inside of the soft material bin is connected with a first filter screen plate through a bearing, a first discharging pipe is sleeved at the bottom end of the soft material bin, a first valve is arranged on the first discharging pipe, and a cleaning assembly is sleeved at the other end of the first discharging pipe.

According to the technical scheme, the inside of hard feed bin is fixed with the second filter screen board, the other end of inlet pipe is fixed and is located the second filter screen board in the outside of hard feed bin, the second filter screen board is magnetism, the inside bottom mounting of second filter screen board has little magnetic path, the both sides that the inside top of hard feed bin is located little magnetic path are fixed with elasticity portion respectively, two be connected with the magnetism push pedal through the bearing between the elasticity portion, be fixed with a plurality of teeth that push away in the magnetism push pedal, the second discharging pipe has been cup jointed to the bottom of hard feed bin, be provided with the second valve on the second discharging pipe, the other end of second discharging pipe cup joints on clearance subassembly.

According to the technical scheme, the cleaning assembly comprises a screw shaft, the screw shaft is in transmission connection with the annular baffle, a polygonal connecting plate is in meshed connection with the outer side of the screw shaft, the outer side of the polygonal connecting plate is connected with a plurality of arc-shaped connecting rods through bearings, arc-shaped scraping plates are fixed to the other ends of the arc-shaped connecting rods, a biasing rod is fixed to the upper portion of the cleaning assembly, the other end of the biasing rod is connected to the inner portion of the shell through a bearing, a delivery pipe is fixed to the lower portion of the cleaning assembly, and a second pump is arranged in the delivery pipe.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the powder machine treatment mechanism is arranged, so that garbage with different weights and different hardness degrees can be distinguished and respectively introduced into the subsequent treatment mechanism by the mechanism in the garbage introduction device; by arranging the cutting and crushing mechanism, corresponding cutting and crushing modes are automatically switched according to different hardness and softness degrees of the garbage in the leading-in mechanism, so that waste of resources is avoided by treating the garbage with different hardness and softness; through being provided with reposition of redundant personnel conduction-through mechanism, this step has realized carrying out respectively the refluence discharge with the rubbish after handling, utilizes the rubbish after handling to clear up the sewer mouth that is blockked up simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall working principle of the present invention;

FIG. 2 is a schematic top view of the cutting and grinding assembly of the present invention;

FIG. 3 is a schematic perspective view of the adjustment mechanism of the present invention;

FIG. 4 is a perspective view of the linkage assembly of the present invention;

FIG. 5 is a perspective view of the cleaning assembly of the present invention;

in the figure: 100. a processing bin; 101. a conical baffle plate; 102. a first pump; 103. a flexible sensing portion; 104. a drive stage; 105. a joint; 106. separating the shell; 1061. a main shaft; 1062. a water guide hole; 1063. a fan-shaped housing; 1064. a fan-shaped cutter; 1065. a drive shaft; 1066. an L-shaped connecting rod; 1067. a driving gear; 1068. a bevel gear; 107. a soft material bin; 108. a hard stock bin; 109. a first screen plate; 110. a second screen plate; 111. pushing teeth; 112. cleaning the assembly; 1121. a polygonal connecting plate; 1122. an arc-shaped connecting rod; 1123. an arc-shaped scraper plate; 113. a linkage assembly; 1131. a flow-through tube; 1132. a square block; 1133. an annular baffle; 1134. an arc-shaped slideway; 1035. a triangular stop block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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. 1-5, the present invention provides the following technical solutions: the utility model provides a high-efficient environmental protection rubbish pulverizes compression treatment device, includes the casing, its characterized in that: a grading processing mechanism is arranged inside the shell, a cutting and crushing mechanism is arranged on one side of the grading processing mechanism inside the shell, and a shunt conduction mechanism is arranged below the cutting and crushing mechanism; the grading treatment mechanism is used for distinguishing garbage with different weights and different hardness degrees in the garbage leading-in device and leading the garbage into the subsequent treatment mechanism respectively, the cutting and crushing mechanism is used for automatically switching corresponding cutting and crushing modes according to different hardness degrees of the garbage in the leading-in mechanism to treat the garbage with different hardness degrees so as to avoid resource waste, the shunting and conducting mechanism is used for guiding the treated garbage respectively and discharging, and meanwhile, the treated garbage is used for cleaning a blocked sewer opening.

The grading treatment mechanism comprises a treatment bin 100, the treatment bin 100 is fixed inside a shell, a driving table 104 is arranged inside the treatment bin 100, a rotary table is fixed on the upper end face of the driving table 104, a feeding pipe is fixed in the center of the rotary table and penetrates through the rotary table, a plurality of conical cutters are uniformly and bearing-connected above the rotary table and are annularly distributed, the rings formed by the conical cutters are concentric circles, the rings formed by the conical cutters are mutually connected in a transmission manner, absorption shells are respectively fixed on two sides of the rotary table, one side of each absorption shell is connected with a joint 105 through a pipeline, a conical baffle 101 is arranged above the rotary table, and one side of the outer wall of the conical baffle 101 is connected to the outside of the treatment bin through a pipeline;

the top end of the conical baffle 101 is connected with a first pump 102 through a pipeline, two pump sheets are arranged inside the first pump 102, the axes of the two pump sheets are vertical, driven limiting frames are fixed on two sides of the top end of the conical baffle 101 respectively, a flexible induction part 103 is arranged above the first pump, driving limiting frames are arranged on two sides of the lower end of the flexible induction part 103 respectively, the driving limiting frames and the driven limiting frames are of a matched structure, the flexible induction part 103 is annular, the center inside of the flexible induction part 103 is connected with a clamping column through a bearing, a stretching film is arranged outside the clamping column, a counterweight ball is connected inside the clamping column in a sliding mode, the top end of the counterweight ball is connected onto the first pump 102 through a pipeline, and the inside of the clamping column is connected onto the top end of the counterweight ball through a pipeline; kitchen garbage and toilet hair generated in daily life of a family enter a conical baffle plate in a treatment bin together with domestic wastewater through a pipeline on the outer wall of the treatment bin, at the moment, a first pump machine is started, two pump sheets in the first pump machine pump air in a rotating mode, light garbage in the garbage led into the conical baffle plate is sucked through the pipeline, the domestic wastewater is simultaneously sucked into the first pump machine, in order to prevent the light hard garbage from being absorbed into a subsequent treatment device for soft garbage, the axes of the two pump sheets in the first pump machine are vertical, the light hard garbage is crushed through the rotating meshing of the two pump sheets, the first pump machine leads the light garbage into a counterweight ball through the pipeline, a clamping column rotates, and as water and the light garbage in the counterweight ball increase continuously, the inertia borne by the counterweight ball increases gradually and is separated from a clamping pulling tensile membrane of the clamping column to be contacted with the inner wall of a flexible induction part, the inner wall of the flexible induction part is extruded to enable the flexible induction part to be gradually expanded, at the moment, light garbage entering the counterweight ball rotates along with the rotation of the counterweight ball, for the light garbage entering the counterweight ball, domestic sewage and wet garbage such as vegetable leaves are located in the lower half part of the counterweight ball, for dry garbage such as plastic bags are located in the upper half part of the counterweight ball, along with the rotation of the counterweight ball, the dry and wet garbage in the counterweight ball also offsets, the wet garbage in the lower half part is closer to the inner wall of the flexible induction part due to larger inertia, the dry garbage is close to the clamping column under the extrusion of the wet garbage, the extruded dry garbage enters the clamping column through a pipeline to be separately collected, the active limiting frame at the lower end of the flexible induction part in the expanding process of the flexible induction part moves downwards until the active limiting frame is in contact with the driven limiting frame to be clamped, along with the continuous introduction of the garbage into the conical baffle, the garbage with larger weight is accumulated in the conical baffle until the first pump is free of the first pump after the lower end of the pipeline The method is characterized in that the interior of the flexible induction part is continuously pumped, the flexible induction part is contracted to lift the conical baffle by utilizing the clamping of the driving limiting frame and the driven limiting frame, the conical cutter arranged on the rotary table and the rotary table moves downwards relative to the conical baffle, the conical cutter is utilized to primarily cut heavy garbage when the rotary table and the rotary table are separated from each other, the rotary table is driven to rotate, the conical cutters distributed annularly above the rotary table rotate to cut non-hard garbage accumulated on the rotary table, the hard garbage which cannot be cut is thrown out by inertia along with the rotation of the rotary table to enter the absorption shell and is led out through a pipeline at one side of the absorption shell, the cut non-hard garbage such as melons and fruits and oil-containing leftovers which are cooked in daily life cannot be thrown into the absorption shells at two sides due to the blocking of the conical cutter, and oil is thrown out along with the cutting process of the garbage, the garbage is guided into the follow-up mechanism through a pipeline below the rotary table and used as a lubricant, the step realizes preliminary classification and conduction treatment of the household garbage in the guide-in device according to the weight of the garbage, meanwhile, hard garbage mixed into the garbage with light weight is prevented from being rolled by an engaging pump piece in the first pump, the follow-up treatment mechanism aiming at soft garbage is prevented from being damaged by the garbage, separation of dry and wet garbage is realized in the treatment process aiming at the light garbage, the dry garbage is recycled, soft garbage mixed into the garbage with larger weight is prevented from being primarily cut by the conical cutter, the operation burden of the follow-up treatment mechanism aiming at the hard garbage is prevented from being increased by mistakenly entering the garbage, and meanwhile, oil in heavier kitchen leftovers is thrown out to the guide-in follow-up mechanism to be operated as the lubricant in an auxiliary mode.

The cutting and grinding mechanism includes a separating shell 106, a regulating assembly, wherein a first conduction pipe is fixed on one side of a separation shell 106, the first conduction pipe penetrates through the top end of a treatment bin 100 and is fixed on a flexible induction part 103 to be sleeved with a counterweight ball, a tension rope is arranged at the joint of the first conduction pipe and the flexible induction part 103, a second conduction pipe is arranged on the other side of the separation shell 106, the second conduction pipe penetrates through the right end of the treatment bin 100 to be sleeved with a connector 105, a plurality of main shafts 1061 are arranged inside the separation shell 106, a linkage assembly 113 is arranged inside the main shafts 1061, a fan-shaped shell 1063 is fixed outside the main shafts 1061, a slide way is arranged on one side of the fan-shaped shell 1063, a water guide hole 1062 is arranged at one end, close to the main shafts 1061, a sieve plate is connected above the water guide hole 1062 through a pipeline, a fan-shaped cutter 1064 is slidably connected inside the slide way, and one end; when light garbage and domestic sewage in the flexible induction part are guided into the separation inner shell through the first conduction pipe and firstly pass through the sieve plate for interception, the domestic sewage passing through the sieve plate enters the water guide hole through the pipeline to flush the inside of the slide way, the part of the sliding connection between the fan-shaped cutter and the slide way pushes the fan-shaped cutter to gradually rotate outwards along with the increase of water in the slide way so as to stretch the fan-shaped cutter out of the fan-shaped shell, the fan-shaped cutter extruded along with the rotation of the main shaft cuts and crushes the light garbage intercepted by the sieve plate, when hard garbage in the absorption shell enters the separation shell through the second conduction pipe, the fan-shaped cutter connected with the fan-shaped shell bearing rotates along with the rotation of the main shaft under the inertia effect, rotates around a connection point with the fan-shaped shell for offset and is pushed back into the fan-shaped shell by inertia, and the hard garbage with large weight is positioned outside the fan-, utilize the rotation of many sets of fan-shaped shell to smash the heavy weight stereoplasm rubbish and roll, avoid stereoplasm rubbish and fan-shaped cutter contact destruction fan-shaped cutter, this step has realized stretching out fan-shaped cutter when light rubbish gets into and has cut it and smash, withdraws the cutter when heavy weight stereoplasm rubbish gets into and utilizes the fan-shaped shell to smash it and roll the protection cutter and not receive destruction.

The adjusting assembly comprises a transmission shaft 1065, the transmission shaft 1065 is connected to the inside of the separation shell 106 through a bearing, a driving gear 1067 is fixed at the bottom end of the transmission shaft 1065, a driving magnet is fixed on the lower end surface of the driving gear 1067, a plurality of bevel gears 1068 are meshed and connected to the outer side of the driving gear 1067, the plurality of bevel gears 1068 are magnetic, the lower parts of the plurality of bevel gears 1068 are fixed with the main shaft 1061, a plurality of L-shaped connecting rods 1066 are connected to the outer side of the transmission shaft 1065 in a transmission manner, the other ends of the plurality of L-shaped connecting rods are connected to the top ends of the bevel gears 1068 through bearings, and the sliding connection part of the fan; the transmission shaft is rotated to drive the driving gear at the bottom end of the transmission shaft and the driving magnetic block below the driving gear to rotate, the driving gear is meshed with a plurality of bevel gears on the outer side of the driving gear to drive the bevel gears to rotate, the bevel gears drive the main shaft at the bottom end of the bevel gears to rotate to cut and crush light or hard garbage led into the separation shell, when the light garbage led into the separation shell is light garbage, the fan-shaped cutters extend out, the fan-shaped cutters pull the L-shaped connecting rods through springs, one ends of the L-shaped rods, which are connected with the transmission shaft in a sliding mode, are pulled to move upwards on the transmission shaft, meanwhile, the bevel gears at the other ends of the L-shaped connecting rods are driven to move upwards, the cone tips of the bevel gears are meshed with the driving gear, the rotating speed of the bevel gears is increased when the rotating speed of the driving gear is unchanged, the, when hard garbage is led into the separation shell, the fan-shaped cutter is withdrawn, the fan-shaped cutter pushes the L-shaped connecting rod through the spring, so that the L-shaped connecting rod moves down at one end of the sliding connection of the transmission shaft to drive the bevel gear at the other end of the sliding connection of the transmission shaft to move down, the other end of the bevel gear is meshed with the driving gear at the moment, the rotating speed of the driving gear is unchanged, the rotating speed of the bevel gear is reduced to drive the rotating speed of the main shaft fixed with the bevel gear to be reduced, the rotating speed of the fan-shaped shell is reduced, the bevel gear drives the main shaft to be biased by utilizing the same polarity repulsion of magnetic substances to enable the fan-shaped shell to deflect, the hard garbage is prevented from being crushed and rolled gradually by utilizing gaps which are reduced after the fan-shaped shell deflects in the process of crushing and falling of the hard garbage, the superhard garbage can not be rolled all the time and is always positioned above the hard garbage, the fan-shaped cutter which is extruded is lost along with the continuous operation of the device, the L-shaped connecting rod is pulled by the spring to enable the main shaft to generate bias again, so that the gap which is originally gradually reduced is enlarged, the superhard garbage which can not be rolled is discharged, the step realizes that the light garbage is fully cut by increasing the rotating speed of the fan-shaped cutter when the light garbage is introduced, when the hard garbage is led in, the rotating speed of the fan-shaped shells is reduced to fully crush and roll the hard garbage so as to avoid the damage caused by that the hard garbage such as bones and the like are clamped between the fan-shaped shells and are stressed too much to jump out of the impact separation shells, meanwhile, the hard garbage after being rolled is gradually rolled and reduced by utilizing the gradually reduced clearance generated by the offset of the fan-shaped shell, and when the device meets the superhard garbage which can not be rolled, the reverse motion discharges the superhard garbage to avoid the device from being forced to roll and damage.

The linkage assembly 113 comprises a runner pipe 1131, the runner pipe 1131 is provided with a plurality of through holes, the outer side of the top end of the runner pipe 1131 is uniformly provided with a plurality of square blocks 1132, the insides of the square blocks 1132 are provided with sliding grooves, the insides of the sliding grooves are connected with sliding rods in a sliding manner, one side of each sliding rod is positioned above the corresponding square block 1132 and is connected with a triangular stop block 1035 in a sliding manner, the triangular stop block 1035 is provided with a through hole, an annular baffle 1133 is arranged above the triangular stop block 1035, the annular baffle 1133 is uniformly provided with a plurality of through holes, the outer side of the annular baffle 1133 is uniformly provided with a plurality of arc slideways 1134, the arc slideways 1134 are; when soft garbage is guided into the separation shell, the fan-shaped cutter extends and rotates to drive the arc-shaped slideway and the annular baffle plate which are in transmission connection with the fan-shaped cutter to rotate, the arc-shaped slideway rotates to drive the slide rod which is in sliding connection with the arc-shaped slideway to slide and move in the chute on the square block, the triangular baffle block fixed with the arc-shaped cutter extends to the center of the circulating pipe through the slide rod to be closed, if the soft garbage guided into the separation shell contains hard-to-cut soft plastic garbage, the soft garbage can extrude the fan-shaped cutter to push the fan-shaped cutter back for a distance in the cutting process of the soft garbage, the fan-shaped cutter drives the annular baffle plate to rotate reversely to dislocate the overlapped through hole, so that the hard-to-cut soft plastic garbage is intercepted, and after the triangular baffle block completely blocks the center of the circulating pipe, the annular baffle plate, the triangular baffle block and the through hole on the circulating pipe are overlapped to, when hard garbage is led into the separation shell, the fan-shaped cutter is extruded and retracted to drive the arc-shaped slide way in transmission connection with the fan-shaped cutter to rotate, the slide rod is pushed to slide in the slide groove on the square block to drive the triangle block fixed with the slide rod to move towards the position far away from the center of the circulating pipe, the through hole is closed, meanwhile, the center of the circulating pipe is conducted to lead out the crushed and rolled hard garbage through the center of the circulating pipe, the step realizes linkage with a previous mechanism, utilizes the guide of the fan-shaped cutter and the annular baffle linkage control device according to different pressures of the garbage in the lead-in device on the fan-shaped cutter, and simultaneously intercepts and separates the soft plastic garbage mixed in the light garbage to be collected independently.

The flow dividing and conducting mechanism comprises a soft material bin 107 and a hard material bin 108, the top end of the soft material bin 107 is connected to the through hole of the flow pipe 1131 through a pipeline, and the top end of the hard material bin 108 is connected to the center of the flow pipe 1131 through a pipeline;

the interior of the soft material bin 107 is connected with a first filter screen plate 109 through a bearing, the bottom end of the soft material bin 107 is sleeved with a first discharge pipe, a first valve is arranged on the first discharge pipe, and the other end of the first discharge pipe is sleeved with a cleaning assembly 112;

a second filter screen plate 110 is fixed inside the hard bin 108, the other end of the feeding pipe is fixed outside the hard bin 108 and is positioned on a second rate screen plate, the second filter screen plate 110 is magnetic, a small magnetic block is fixed at the bottom end inside the second filter screen plate 110, elastic parts are respectively fixed at two sides of the small magnetic block at the top end inside the hard bin 108, a magnetic push plate is connected between the two elastic parts through a bearing, a plurality of push teeth 111 are fixed on the magnetic push plate, a second discharging pipe is sleeved at the bottom end of the hard bin 108 and is provided with a second valve, and the other end of the second discharging pipe is sleeved on a cleaning assembly 112;

the cleaning assembly 112 comprises a screw shaft, the screw shaft is in transmission connection with an annular baffle 1133, the outer side of the screw shaft is in meshing connection with a polygonal connecting plate 1121, the outer side of the polygonal connecting plate 1121 is connected with a plurality of arc-shaped connecting rods 1122 through bearings, the other ends of the arc-shaped connecting rods are fixedly provided with arc-shaped scrapers 1123, a biasing rod is fixed above the cleaning assembly, the other end of the biasing rod is connected to the inside of the shell through a bearing, a delivery pipe is fixed below the cleaning assembly, and a second pump is arranged in the delivery pipe; when the cut and crushed soft garbage enters the soft bin through a pipeline, the cut and crushed soft garbage falls into a first filter screen plate in a pasty state, passes through the bottom end of the first filter screen plate positioned at the soft bin, opens a first valve to discharge the filtered pasty soft garbage, when more hairs or fiber filaments are clamped on the first filter screen plate, the filter effect of the first filter screen plate is deteriorated, the pasty soft garbage is accumulated on the first filter screen plate, the first filter screen plate rotates and offsets around one end of the first filter screen plate connected with a bearing of the soft bin, when the rolled and crushed hard garbage enters the hard bin through the pipeline and is positioned above a second filter screen plate, the rolled and crushed hard garbage falls into the bottom of the hard bin through the second filter screen plate, opens a second valve to guide the rolled and crushed hard garbage out, starts a second pump to pump and discharge the garbage in the pipelines at two sides of the guide pipe, in order to avoid the blockage of the pipe orifice of the delivery pipe by hair or other fiber filaments, the second pump continuously pumps the inside of the pipelines at two sides, if the rolled hard garbage accumulated on the second filter screen plate blocks the filter holes on the second filter screen plate, the second pump continuously pumps air below the second filter screen plate, the magnetic push plate below the second filter screen plate is pulled to move downwards, the magnetic push plate is pushed out by the repulsion of the like polarity of magnetic substances, so that the push teeth on the magnetic push plate collide with the second filter screen plate, the hard garbage blocking the second filter screen plate is knocked out, in order to avoid the blockage of the pipe orifice of the delivery pipe by hair or other fiber filaments, when the soft garbage is introduced, the screw shaft is in transmission connection with the annular baffle plate, and when the annular baffle plate rotates, the screw shaft is driven to rotate, the polygonal connecting plate meshed with the screw shaft is driven to rotate, and the arc-shaped connecting rod connected with the polygonal connecting plate bearing, the arc-shaped scraper fixed with the cleaning assembly rotates, the arc-shaped scraper is thrown out by inertia, the cleaning assembly is opened at the moment, the rotating offset rod drives the cleaning assembly to rotate into the soft bin, the first filter screen plate is blocked and offset at the moment, hair or fiber filaments wound on the first filter screen plate are scraped by using the rotation of the arc-shaped scraper, when hard garbage is led in, the rotating offset rod drives the cleaning assembly to rotate into the hard bin, the cleaning assembly is in a closed state at the moment, when the cleaning assembly rotates on the second filter screen plate, the hair or the fiber filaments wound on the arc-shaped scraper are scraped in the previous step to scrape the hard garbage collided out of the second filter screen plate, the step realizes that the hair or the fiber filaments which are difficult to clean in the previous step are prevented from blocking an outlet pipe, and the treated hair or the treated fiber filaments are used for cleaning the hard garbage which is not rolled completely, so that the first hard garbage is ensured, The second screen plate is not blocked to ensure the continuous operation of the device.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient environmental protection rubbish pulverizes compression treatment device, includes the casing, its characterized in that: the inside of casing is provided with hierarchical processing mechanism, the inside of casing is located one side of hierarchical processing mechanism and is provided with the cutting and pulverizes the mechanism, the cutting is pulverized the below of mechanism and is provided with reposition of redundant personnel conduction mechanism.

2. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 1, wherein: the grading treatment mechanism comprises a treatment bin (100), the treatment bin (100) is fixed in the shell, a driving table (104) is arranged in the processing bin (100), a rotary table is fixed on the upper end surface of the driving table (104), a feeding pipe is fixed in the center of the rotary table and penetrates through the rotary table, a plurality of conical cutters are uniformly connected with the upper part of the rotary table through bearings and are annularly distributed, the rings formed by the conical cutters are concentric circles, the rings formed by the conical cutters are mutually connected in a transmission manner, an absorption shell is respectively fixed on two sides of the turntable, one side of the absorption shell is connected with a joint (105) through a pipeline, a conical baffle (101) is arranged above the rotary table, and one side of the outer wall of the conical baffle (101) is connected to the outside of the treatment bin (100) through a pipeline.

3. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 2, wherein: the top end of the conical baffle (101) is connected with a first pump (102) through a pipeline, two pump sheets are arranged inside the first pump (102), the axes of the two pump sheets are vertical, two sides of the top end of the conical baffle (101) are respectively fixed with a driven limiting frame, a flexible induction part (103) is arranged above the first pump (102), two sides of the lower end of the flexible induction part (103) are respectively provided with a driving limiting frame, the driving limiting frame and the driven limiting frame are in a matching structure, the flexible induction part (103) is annular, the center inside the flexible induction part (103) is connected with a clamping column through a bearing, a stretching film is arranged outside the clamping column, a counterweight ball is connected inside the clamping column in a sliding way, the top end of the counterweight ball is connected to the first pump (102) through a pipeline, and the interior of the clamping column is connected to the top end of the counterweight ball through a pipeline.

4. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 3, wherein: the cutting and crushing mechanism comprises a separating shell (106) and an adjusting component, a first conduction pipe is fixed on one side of the separating shell (106), the first conduction pipe penetrates through the top end of the processing bin (100) and is fixed on the flexible induction part (103) to be sleeved with a counterweight ball, a tension rope is arranged at the joint of the first conduction pipe and the flexible induction part (103), a second conduction pipe is arranged on the other side of the separating shell (106), the second conduction pipe penetrates through the right end of the processing bin (100) to be sleeved with the connector (105), a plurality of main shafts (1061) are arranged inside the separating shell (106), a linkage component (113) is arranged inside the main shafts (1061), a fan-shaped shell (1063) is fixed outside the main shafts (1061), a slide way is arranged on one side of the fan-shaped shell (1063), and a water guide hole (1062) is arranged at one end of the slide way close to the main shafts (1061), the sieve plate is connected above the water guide hole (1062) through a pipeline, the fan-shaped cutter (1064) is connected to the inner portion of the slide in a sliding mode, and one end, far away from the slide, of the fan-shaped cutter (1064) is connected to the fan-shaped shell (1063) through a bearing.

5. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 4, wherein: the adjusting assembly comprises a transmission shaft (1065), the transmission shaft (1065) is connected to the inside of the separating shell (106) through a bearing, a driving gear (1067) is fixed to the bottom end of the transmission shaft (1065), a driving magnetic block is fixed to the lower end face of the driving gear (1067), a plurality of bevel gears (1068) are connected to the outer side of the driving gear (1067) in a meshed manner, the plurality of bevel gears (1068) are magnetic, the lower portions of the plurality of bevel gears (1068) are fixed to the spindle (1061), a plurality of L-shaped connecting rods (1066) are connected to the outer side of the transmission shaft (1065) in a transmission manner, the other ends of the plurality of L-shaped connecting rods (1066) are connected to the top end of the bevel gear (1068) through a bearing, and the sliding connection portion of the fan-shaped cutter (1064) and the slideway is connected to.

6. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 5, wherein: linkage subassembly (113) are including runner pipe (1131), a plurality of through-holes have been seted up on runner pipe (1131), the top outside of runner pipe (1131) evenly is provided with a plurality of square blocks (1132), and is a plurality of the spout has been seted up to the inside of square block (1132), the inside sliding connection of spout has the slide bar, the top sliding connection that one side of slide bar is located square block (1132) has triangle dog (1035), the through-hole has been seted up on triangle dog (1035), the top of triangle dog (1035) is provided with ring baffle (1133), evenly be provided with a plurality of through-holes on ring baffle (1133), the outside of ring baffle (1133) evenly is provided with a plurality of arc slide (1134), and is a plurality of arc slide (1134) and slide bar sliding connection, arc slide (1134) and fan-shaped cutter (1064) transmission connection.

7. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 6, wherein: the shunting and conducting mechanism comprises a soft material bin (107) and a hard material bin (108), wherein the top end of the soft material bin (107) is connected to a through hole of the circulating pipe (1131) through a pipeline, and the top end of the hard material bin (108) is connected to the center of the circulating pipe (1131) through a pipeline.

8. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 7, wherein: the inside of soft feed bin (107) is connected with first filter screen board (109) through the bearing, first discharging pipe has been cup jointed to the bottom of soft feed bin (107), be provided with first valve on the first discharging pipe, clearance subassembly (112) have been cup jointed to the other end of first discharging pipe.

9. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 8, wherein: the inside of hard feed bin (108) is fixed with second filter screen board (110), the other end of inlet pipe is fixed and is located the second filter screen board in the outside of hard feed bin (108), second filter screen board (110) are magnetism, the inside bottom mounting of second filter screen board (110) has little magnetic path, the both sides that the inside top of hard feed bin (108) is located little magnetic path are fixed with elasticity portion respectively, two be connected with the magnetism push pedal through the bearing between the elasticity portion, be fixed with a plurality of push teeth (111) in the magnetism push pedal, the second discharging pipe has been cup jointed to the bottom of hard feed bin (108), be provided with the second valve on the second discharging pipe, the other end of second discharging pipe cup joints on clearance subassembly (112).

10. The high-efficiency environment-friendly garbage crushing and compressing device as claimed in claim 9, wherein: the cleaning assembly (112) comprises a screw shaft, the screw shaft is in transmission connection with an annular baffle (1133), a polygonal connecting plate (1121) is connected to the outer side of the screw shaft in a meshed mode, a plurality of arc-shaped connecting rods (1122) are connected to the outer side of the polygonal connecting plate (1121) through bearings, arc-shaped scraping plates (1123) are fixed to the other ends of the arc-shaped connecting rods (1122), a biasing rod is fixed to the upper portion of the cleaning assembly (112), the other end of the biasing rod is connected to the inside of the shell through a bearing, a delivery pipe is fixed to the lower portion of the cleaning assembly (112), and a second pump is arranged in the delivery pipe.

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