CN111495539A - Plastic bottle and glass bottle waste classification device - Google Patents

Abstract

The invention discloses a plastic bottle and glass bottle garbage sorting device which comprises a machine body, wherein a water storage tank is arranged on the left side surface of the machine body, a conversion space is arranged in the machine body, an inlet space is formed in the upper side wall of the conversion space, a compression space is communicated with the lower side wall of the conversion space, a driving space is arranged on the right side of the compression space, a top placing space is arranged on the upper side of the driving space, a transmission space is arranged on the rear side of the top placing space, a braking space is arranged on the upper side of the transmission space, a repeating space is arranged on the right side of the driving space, a grinding space is arranged on the right side of the repeating space, and a fertilizer space is arranged on the lower side wall of the repeating space.

Description

Plastic bottle and glass bottle waste classification device

Technical Field

The invention relates to the field of garbage, in particular to a plastic bottle and glass bottle garbage sorting device.

Background

Due to the limitation of domestic water in the past society, people have poor awareness of environmental protection, along with the rapid development of cities and the rapid increase of population, the production amount of garbage in life is continuously increased, the improper treatment mode of the garbage is increasingly prominent, the environment and atmosphere are polluted, and the physical and psychological health of citizens is threatened;

the environmental protection consciousness of people is gradually strengthened in recent years, people begin to pursue higher-quality life, and garbage classification measures are adopted, so that the garbage growth speed is slowed down, particularly for the treatment of plastics and glass, the pollution and the resource utilization are effectively reduced by a garbage classification treatment mode, and the progress of the current environmental protection and energy conservation is greatly promoted.

The invention aims to provide a plastic bottle and glass bottle garbage sorting device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a plastic bottle and glass bottle garbage classification device comprises a machine body, wherein a water storage tank is arranged on the left side face of the machine body, a water storage space is arranged in the water storage tank, a water pump is fixedly mounted on the right side wall of the water storage space, a water guide cavity is arranged at the lower end of the water pump and is communicated with the water storage space, a water pipe is fixedly connected to the right end of the water guide cavity, a conversion space is arranged in the machine body, an inlet space for leading in garbage is arranged on the upper side wall of the conversion space, a compression space is communicated with the lower side wall of the conversion space, a driving space is arranged on the right side of the compression space, a jacking space is arranged on the upper side of the driving space, a transmission space is arranged on the rear side of the jacking space, a braking space is arranged on the upper side of the transmission space, a repetition space is arranged on the right side of the driving space, a driving space is arranged on the upper side of the fertilizer space, a crushing space is arranged on the upper side of the driving space, a driving space is arranged on the rear side of the crushing space, a stress space is arranged on the upper side of the driving space, a conversion device is arranged in the conversion space and comprises a rocker shaft which is rotatably arranged on the rear side wall of the conversion space, a hook-shaped rod is fixedly connected onto the rocker shaft, a sliding groove for sliding is arranged in the hook-shaped rod, a sliding block is slidably connected onto the sliding groove, a spring driven rod is hinged onto the sliding block, a spring shaft is rotatably connected onto the rear side wall of the conversion space, the spring shaft extends backwards, penetrates through the rear side wall of the conversion space, enters the braking space and is rotatably connected with the front side wall and the rear side wall of the braking space, a driven bevel gear is fixedly connected onto the rear end of the spring shaft, and a power shaft is rotatably connected, the power shaft extends downwards to penetrate through the lower side wall of the braking space to enter the transmission space and is rotatably connected with the top wall of the transmission space, an auxiliary force bevel gear is fixedly connected to the upper end of the power shaft, the auxiliary force bevel gear is meshed with the auxiliary force bevel gear, a main force bevel gear is fixedly arranged at the lower end of the power shaft, rotating shafts are rotatably connected to the left side wall and the right side wall of the transmission space, a force transmission bevel gear is arranged at the left end of each rotating shaft and is meshed with the main force bevel gear, a driven wheel is fixedly arranged at the right end of each rotating shaft, a spring main shaft is fixedly arranged at the front end of each spring shaft, the spring main shaft is connected with the spring auxiliary rods, a hook-shaped rod end rod is provided with a leakage net for filtering and fishing, rubber balls for air sealing are arranged on the right side of the leakage net, and, the left end of the classification water tank is fixedly connected with the water pipe, the right end of the classification water tank is fixedly provided with a torsion wheel, the rear side wall of the conversion space is rotatably connected with a torsion spring shaft, the torsion spring shaft is fixedly connected with a torsion spring, the torsion spring is fixedly connected with the torsion wheel, the rear side wall of the top space compression device is rotatably connected with a lug shaft, the lug shaft sequentially penetrates through the rear side wall of the top space to enter the transmission space compression device and is rotatably connected with the front side wall and the rear side wall of the transmission space compression device, the rear side wall of the transmission space compression device is fixedly provided with a driving motor, the driving motor is in dynamic connection with the lug shaft, a lug is fixedly arranged on the lug shaft, the top wall of the top space is in sliding connection with a top rod, and the top wall of the top space upwards extends to enter the conversion space, and with the diapire sliding connection in conversion space, the ejector pin rotates and can drive the lug reciprocates, compression space and drive pressure space are equipped with the compressor arrangement that is used for compressing plastics, be equipped with the grinder that is used for the fine processing glass in repetition space, fertilizer space, broken space and the transmission space, be equipped with the extrusion device that is used for extruding glass in the broken space, the import space with be equipped with the smashing device that is used for the coarse smashing in the atress space, the left side in conversion space is equipped with the exhaust device that is used for airing exhaust.

Preferably, the compression device comprises a compression motor fixedly mounted on the right side wall of the driving space, a threaded rod is connected to the compression motor in a power mode, a driving wheel is fixedly arranged on the threaded rod, a conveying belt is connected between the driving wheel and the driven wheel, a compression block is connected to the compression space in a sliding mode, and the compression block is connected with the convex block in a threaded mode.

Preferably, the grinding device comprises a bidirectional motor fixedly installed on the top wall of the driving space, the bidirectional motor is in power connection with a ratchet shaft, a forward ratchet wheel is fixedly installed on the ratchet shaft, a reverse ratchet wheel located on the upper side of the forward ratchet wheel is fixedly installed on the ratchet shaft, ratchet wheel driven shafts are rotatably connected to the upper side wall and the lower side wall of the driving space, an active force wheel is fixedly installed on the ratchet wheel driven shaft, a forward driven ratchet wheel located on the lower side of the active force wheel is fixedly installed on the ratchet wheel driven shaft, a driving wheel located on the lower side of the forward driven ratchet wheel is fixedly installed on the ratchet wheel driven shaft, a rotating shaft is rotatably connected to the upper side wall and the lower side wall of the driving space, a secondary force wheel is fixedly installed on the rotating shaft, a secondary force wheel located on the lower side of the secondary force wheel is fixedly installed on the rotating shaft, an active force belt is connected between the secondary, the crushing space compression device is characterized in that a propeller mechanism is fixedly connected to the propeller shaft, a helical wheel is fixedly arranged on the propeller shaft, a helical belt is connected between the helical wheel and the source force wheel, the top wall of the grinding space is rotatably connected with a grinding shaft, a conversion device grinding block is fixedly connected to the grinding shaft, a grinding wheel is fixedly arranged on the grinding shaft, a grinding belt is connected between the grinding wheel and the source force wheel, a belt force shaft is rotatably connected to the bottom wall of the driving space, a belt force wheel is fixedly connected to the belt force shaft, a driving belt is connected between the belt force wheel and the driving wheel, a face gear is fixedly arranged on the belt force shaft and positioned above the belt force wheel, gear shafts are rotatably connected to the front side wall and the rear side wall of the driving space, a belt gear is fixedly connected to the gear shafts, the belt gear is meshed with the face gear, and two pulley shafts which are rotatably connected in a left-right symmetry manner are arranged in the front side wall, pulleys are fixedly arranged on each pulley shaft, a chain belt is connected between the two pulleys, and the chain belt is meshed with the belt gear.

Preferably, the extrusion device comprises a kinetic energy motor fixedly installed on the top wall of the crushing space, the kinetic energy motor is in power connection with a motive shaft, the motive shaft is in threaded connection with a crushing block, the crushing space is internally provided with bilateral symmetrical moving grooves, the moving grooves are in sliding connection with the crushing block, the motive shaft is fixedly provided with a kinetic energy bevel gear, the rear side wall of the crushing space is in rotational connection with a kinetic energy shaft, the kinetic energy shaft is fixedly provided with a kinetic energy main wheel, the front end of the kinetic energy shaft is fixedly connected with a secondary energy bevel gear, the secondary energy bevel gear is meshed with the kinetic energy bevel gear, two transmission shafts which are in bilateral symmetrical rotational connection are arranged in the front side wall and the rear side wall of the crushing space, each transmission shaft is fixedly connected with a transmission wheel, a transmission belt is connected between the two transmission wheels, and a one-, the one-way sleeve shaft is fixedly connected with the transmission shaft, the kinetic energy driven wheel is fixedly arranged on the right side of the transmission shaft, and a kinetic energy belt is connected between the kinetic energy driven wheel and the kinetic energy main wheel.

Preferably, the breaking device comprises a stress shaft rotatably mounted on the upper side wall and the lower side wall of the stress space, the stress shaft extends downwards to penetrate through the lower side wall of the stress space to enter the transmission space and is rotatably connected with the upper side wall of the transmission space, a reverse driven ratchet wheel is fixedly arranged at the lower end of the stress shaft and is meshed with the reverse ratchet wheel to rotate, an auxiliary energy bevel gear positioned on the upper side of the reverse driven ratchet wheel is fixedly arranged on the stress shaft, driving shafts which are in bilateral symmetry and rotation connection are arranged on the front side wall and the rear side wall of the inlet space, a reamer wheel is fixedly connected to each driving shaft, the driving shaft on the right side extends backwards to penetrate through the rear side wall of the inlet space to enter the stress space and is rotatably connected with the front side wall of the stress space, and a driving bevel gear is fixedly connected to the rear end of the driving shaft, and the auxiliary energy bevel gear is meshed with the driving force bevel gear.

Preferably, the exhaust device includes a wind press fixedly installed on a left sidewall of the conversion space for exhausting wind.

In conclusion, the beneficial effects of the invention are as follows: the invention can implement the measure of garbage classification through the conversion device, so that the tank bottom glass and the plastic floating on the liquid in the classification water tank can be distinguished, the time for environment-friendly workers to classify, sort and clean is reduced, the working difficulty is reduced, the working efficiency is greatly improved, and the grinding device can perfectly treat the recovered glass, reduce, recycle and harmlessly treat the garbage in a scientific treatment mode, reduce the risk of pollution of the garbage to soil, water resources and atmosphere, improve the proportion of recycling waste, reduce the requirement of raw materials and reduce the emission of carbon dioxide.

Drawings

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

FIG. 1 is a schematic overall full-section front view structure diagram of a plastic bottle and glass bottle waste sorting device according to the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 taken along the direction A-A;

FIG. 3 is a schematic view of the structure of FIG. 2 taken along the direction B-B;

FIG. 4 is a schematic view of the structure of FIG. 2 taken along the direction C-C;

FIG. 5 is a schematic view of the structure of FIG. 4 taken in the direction F-F;

FIG. 6 is an enlarged view of the structure of FIG. 1 at D in accordance with the present invention;

fig. 7 is an enlarged view of the structure of fig. 1 at E according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1-7, an embodiment of the present invention is shown: a plastic bottle and glass bottle garbage classification device comprises a machine body 21, wherein a water storage tank 20 is arranged on the left side face of the machine body 21, a water storage space 126 is arranged in the water storage tank 20, a water pump 124 is fixedly mounted on the right side wall of the water storage space 126, a water guide cavity 125 is arranged at the lower end of the water pump 124, the water guide cavity 125 is communicated with the water storage space 126, a water pipe 123 is fixedly connected to the right end of the water guide cavity 125, a conversion space 110 is arranged in the machine body 21, an inlet space 121 for leading in garbage is arranged on the upper side wall of the conversion space 110, a compression space 112 is communicated with the lower side wall of the conversion space 110, a driving space 113 is arranged on the right side of the compression space 112, a top placing space 111 is arranged on the upper side of the driving space 113, a transmission space 119 is arranged on the rear side of the top placing space 111, a braking space 118 is arranged on the upper, a grinding space 130 is arranged on the right side of the repeating space 114, a fertilizer space 115 is arranged on the lower side wall of the repeating space 114, a driving space 116 is arranged on the upper side of the fertilizer space 115, a crushing space 117 is arranged on the upper side of the driving space 116, a driving space 129 is arranged on the rear side of the crushing space 117, a force receiving space 120 is arranged on the upper side of the driving space 129, a conversion device 10 is arranged in the conversion space 110, the conversion device 10 comprises a rocker shaft 61 rotatably mounted on the rear side wall of the conversion space 110, a hook-shaped rod 62 is fixedly connected to the rocker shaft 61, a sliding groove 72 for sliding is arranged in the hook-shaped rod 62, a sliding block 60 is slidably connected to the sliding groove 72, a spring slave rod 59 is hinged to the sliding block 60, a spring shaft 56 is rotatably connected to the rear side wall of the conversion space 110, and the spring shaft 56 extends backwards to penetrate through the rear side wall of the conversion space 110 and, the brake device is rotatably connected with the front side wall and the rear side wall of the brake space 118, the rear end of the spring shaft 56 is fixedly connected with a secondary force bevel gear 64, the lower side wall of the brake space 118 is rotatably connected with a power shaft 66, the power shaft 66 extends downwards to penetrate through the lower side wall of the brake space 118 to enter the transmission space 119 and is rotatably connected with the top wall of the transmission space 119, the upper end of the power shaft 66 is fixedly connected with a secondary force bevel gear 65, the secondary force bevel gear 65 is meshed with the secondary force bevel gear 64, the lower end of the power shaft 66 is fixedly provided with a primary force bevel gear 70, the left side wall and the right side wall of the transmission space 119 are rotatably connected with a rotating shaft 71, the left end of the rotating shaft 71 is provided with a force transmission bevel gear 76, the force transmission bevel gear 76 is meshed with the primary force bevel gear 70, the right end of the rotating shaft 71, the spring main shaft 57 and the spring slave rod 59 are connected with 58, the rod at the end of the hook-shaped rod 62 is provided with a leakage net 73 for filtering and fishing, the right side of the leakage net 73 is provided with a rubber ball 74 for air sealing, the right side surface of the rubber ball 74 is provided with a classification water tank 23, the left end of the classification water tank 23 is fixedly connected with the water pipe 123, the right end is fixedly provided with a turning wheel 55, the rear side wall of the conversion space 110 is rotatably connected with a button spring shaft 53, the button spring shaft 53 is fixedly connected with a button spring 54, the button spring 54 is fixedly connected with the turning wheel 55, the rear side wall of the compression device 11 of the top space 1 is rotatably connected with a convex block shaft 67, the convex block shaft 67 sequentially penetrates through the rear side wall of the top space 111 to enter the transmission space compression device 119 and is rotatably connected with the front side wall and the rear side wall of the transmission space compression device 119, the utility model discloses a glass crushing device, including transmission space compressor arrangement 119, lateral wall fixed mounting has driving motor 68, driving motor 68 with bump axle 67 power connection, the bump 25 has set firmly on the bump axle 67, the roof sliding connection who sets up top space 111 has ejector pin 24, ejector pin 24 upwards extends to run through the roof that sets up top space 111 advances in the conversion space 110, and with the diapire sliding connection of conversion space 110, ejector pin 24 rotates and can drives bump 25 reciprocates, compression space 112 and drive space 113 are equipped with the compressor arrangement 11 that is used for compressing plastics, be equipped with the grinder 12 that is used for finely processing glass in repetition space 114, fertilizer space 115, broken space 117 and the transmission space 119, be equipped with the extrusion device 13 that is used for extruding glass in broken space 117, import space 121 with be equipped with in the atress space 120 and be used for the device 14 that smashes roughly, an exhaust device 15 for exhausting air is arranged on the left side of the conversion space 110.

In addition, in an embodiment, the compressing device 11 includes a compressing motor 31 fixedly installed on the right side wall of the driving and compressing space 113, a threaded rod 28 is connected to the compressing motor 31, a driving wheel 29 is fixedly installed on the threaded rod 28, a conveying belt 30 is connected between the driving wheel 29 and the driven wheel 77, a compressing block 27 is connected in the compressing space 112 in a sliding manner, the compressing block 27 is connected with the protruding block 25 in a threaded manner, when the compressing motor 31 is started in a forward rotation manner, the threaded rod 28 is driven to rotate, the compressing block 27 is driven to slide leftwards in the compressing space 112, and when the compressing motor is started in a reverse rotation manner, the threaded rod 28 is driven to rotate, so that the compressing block 27 is driven to slide rightwards in the compressing space 112.

In addition, in one embodiment, the grinding device 12 includes a bi-directional motor 89 fixedly installed on the top wall of the driving space 129, the bi-directional motor 89 is connected with a ratchet shaft 88 in a power manner, a forward ratchet wheel 87 is fixedly installed on the ratchet shaft 88, a reverse ratchet wheel 85 positioned on the upper side of the forward ratchet wheel 87 is fixedly installed on the ratchet shaft 88, ratchet wheel driven shafts 90 are rotatably connected on the upper and lower side walls of the driving space 129, a source power wheel 91 is fixedly installed on the ratchet wheel driven shaft 90, a forward driven ratchet wheel 94 positioned on the lower side of the source power wheel 91 is fixedly installed on the ratchet wheel driven shaft 90, a driving wheel 96 positioned on the lower side of the forward driven ratchet wheel 94 is fixedly installed on the ratchet wheel driven shaft 90, rotating shafts 95 are rotatably connected on the upper and lower side walls of the driving space 129, an auxiliary power wheel 92 is fixedly installed on the rotating shafts 95, an auxiliary power wheel 93 positioned on, the active force belt 75 is connected between the secondary force wheel 92 and the source force wheel 91, the top wall of the repeating space 114 is rotatably connected with a propeller shaft 98, the propeller shaft 98 is fixedly connected with a propeller mechanism 43, the propeller shaft 98 is fixedly provided with a propeller wheel 99, the propeller wheel 99 and the source force wheel 91 are connected with a propeller belt 132, the top wall of the grinding space 130 is rotatably connected with a grinding shaft 100, the grinding shaft 100 is fixedly connected with a conversion device grinding block 101, the grinding shaft 100 is fixedly provided with a grinding wheel 42, the grinding wheel 42 and the driven force wheel 93 are connected with a grinding belt 131, the bottom wall of the driving space 116 is rotatably connected with a belt force shaft 51, the belt force wheel 50 is fixedly connected with the belt force shaft 51, the driving belt 52 is connected between the belt force wheel 50 and the driving wheel 96, the end face gear 49 positioned at the upper side of the belt force wheel 50 is fixedly provided on the belt force shaft 51, a gear shaft 48 is rotatably connected to the front and rear side walls of the driving space 116, a belt gear 47 is fixedly connected to the gear shaft 48, the belt gear 47 is engaged with the face gear 49, two pulley shafts 46 which are bilaterally symmetrically and rotatably connected are arranged in the front and rear side walls of the crushing space compression device 117, a pulley 45 is fixedly arranged on each pulley shaft 46, a chain belt 44 is connected between the two pulleys 45, the chain belt 44 is engaged with the belt gear 47, when a bidirectional motor 89 is started to rotate in the forward direction, the ratchet shaft 88 is driven to rotate, the forward ratchet 87 is driven to rotate, the ratchet shaft 90 is driven to rotate by the ratchet 94 in the forward direction through engagement, the source force wheel 91 is driven to rotate, the spiral wheel 99 is driven to rotate through the transmission of the spiral belt 132, and the spiral shaft 98 is driven to rotate, meanwhile, the ratchet wheel rotates from the shaft 90, so as to drive the driving wheel 96 to rotate, so as to drive the belt wheel 50 to rotate through the driving belt 52, so as to drive the belt shaft 51 to rotate, so as to drive the face gear 49 to rotate, so as to engage the belt gear 47 to rotate, so as to drive the chain belt 44 to drive, and the source belt 75 transmits, so as to drive the secondary wheel 92 to rotate, so as to drive the rotating shaft 95 to rotate, so as to drive the secondary wheel 93 to rotate, so as to drive the grinding wheel 42 to rotate through the grinding belt 131, so as to drive the grinding shaft 100 to rotate, so as to drive the grinding block 101 to rotate.

In addition, in one embodiment, the extrusion device 13 includes a kinetic energy motor 34 fixedly installed on the top wall of the crushing space 117, the kinetic energy motor 34 is connected with a motive shaft 35 in a motive manner, the motive shaft 35 is connected with crushing blocks 38 in a threaded manner, the crushing space 117 is provided with bilateral symmetry moving grooves 128, the moving grooves 128 are slidably connected with the crushing blocks 38, a kinetic energy bevel gear 37 is fixedly installed on the motive shaft 35, the rear side wall of the crushing space 117 is rotatably connected with a kinetic energy shaft 79, the kinetic energy shaft 79 is fixedly provided with a kinetic energy main wheel 78, the front end of the kinetic energy shaft 79 is fixedly connected with a secondary energy bevel gear 36, the secondary energy bevel gear 36 is engaged with the kinetic energy bevel gear 37, two transmission shafts 41 rotatably connected in a bilateral symmetry manner are installed in the front and rear side walls of the crushing space 117, each transmission shaft 41 is fixedly connected with a transmission wheel, a transmission belt 39 is connected between the two transmission wheels 40, a one-way sleeve shaft 127 is fixedly arranged in the right transmission wheel 40, the one-way sleeve shaft 127 is fixedly connected with the transmission shaft 41, a kinetic energy driven wheel 81 is fixedly arranged on the right transmission shaft 41, a kinetic energy belt 80 is connected between the kinetic energy driven wheel 81 and the kinetic energy main wheel 78, when the kinetic energy motor 34 is started in a positive rotation mode, the motor shaft 35 is driven to rotate, the kinetic energy bevel gear 37 is driven to rotate, the kinetic energy shaft 79 is driven to rotate through meshing with the secondary energy bevel gear 36, the kinetic energy main wheel 78 is driven to rotate, the kinetic energy driven wheel 81 is driven to rotate through the kinetic energy belt 80, the transmission shaft 41 is driven to rotate, the transmission wheel 40 is driven to rotate, the transmission belt 39 is driven to transmit, and the motor shaft 35 rotates to drive the crushing press block 38 to descend, when the kinetic energy motor 34 is started in a reverse rotation mode, the motor shaft 35 is driven to rotate, the crushing pressing block 38 is driven to ascend, and the transmission wheel 40 at the right end is in a static state due to the influence of the unidirectional rotation of the unidirectional sleeve shaft 127.

In addition, in one embodiment, the breaking device 14 includes a force-receiving shaft 84 rotatably mounted on the upper and lower side walls of the force-receiving space 120, the force-receiving shaft 84 extends downward to penetrate through the lower side wall of the force-receiving space 120 to enter the transmission space 119 and is rotatably connected with the upper side wall of the transmission space 119, a reverse driven ratchet 86 is fixedly mounted at the lower end of the force-receiving shaft 84, the reverse driven ratchet 86 and the reverse ratchet 85 are engaged to rotate, an auxiliary bevel gear 83 located above the reverse driven ratchet 86 is fixedly mounted on the force-receiving shaft 84, driving shafts 32 rotatably connected in a left-right symmetric manner are mounted on the front and rear side walls of the inlet space 121, each driving shaft 32 is fixedly connected with an articulating wheel 33, the driving shaft 32 on the right side extends rearward to penetrate through the rear side wall of the inlet space 121 to enter the force-receiving space 120 and is rotatably connected with the front side wall of the force-receiving space 120, the rear end of the driving shaft 32 is fixedly connected with a driving bevel gear 122, the auxiliary bevel gear 83 is meshed with the driving bevel gear 122, and when the stress shaft 84 rotates, the auxiliary bevel gear 83 is driven to rotate, so that the driving bevel gear 122 is meshed to drive the driving shaft 32 to rotate, and the reamer wheel 33 is driven to rotate.

In addition, in one embodiment, the exhaust device 15 includes a wind press 22 fixedly installed on the left sidewall of the converting space 110 for exhausting wind, and when the hook rod 62 rotates, the wind press 22 drives the wind to exhaust wind, so that the plastic on the hook rod 62 can fall off completely.

In the initial state, the classification water tank 23 is in a liquid full state, and the rubber ball 74 is in a state of abutting against the left side wall opening of the classification water tank 23.

Before plastic bottles and glass bottles are poured into the inlet space 121, the bidirectional motor 89 is turned on to rotate reversely, the reverse ratchet wheel 85 drives the reverse driven ratchet wheel 86 to rotate, so as to drive the stress shaft 84 to rotate, so as to drive the auxiliary bevel gear 83 to be meshed with the driving bevel gear 122 to rotate, so as to drive the right driving shaft 32 to rotate, so as to drive the corresponding reamer wheel 33 to rotate, the plastic fragments are roughly crushed and fall into the classification water tank 23 through the left and right reamer wheels 33, due to the buoyancy action of liquid, the plastic fragments float on the liquid surface, the glass fragments sink below the liquid, and the spring shaft 56 rotates, so as to drive the hinged spring main shaft 57 to rotate, so as to enable the slide block 60 to slide and drive the hook rod 62 to rotate, when the plastic bottles and the glass bottles rotate rightwards, the hook rod 62 enters the cavity of the classification water tank 23, then the liquid in the classification water tank 23 is pumped out through the water pump 124, and due to, so that the broken plastic bottles drop on the end rod of the hook-shaped rod 62, and then when rotating to the left, the plastic drops in the compression space 112, and the compression block 27 is driven to move to the left to extrude the plastic by the positive rotation of the compression motor 31, and the bump shaft 67 is driven to rotate by the driving motor 68, so as to drive the bump 25 to rotate, so that the convex part pushes the top rod 24 to move upwards, so as to make the classification water tank 23 rotate obliquely to the right, so that the broken glass in the classification water tank 23 is poured onto the transfer belt 39, when the positive rotation of the kinetic energy motor 34 is started, so as to transfer the glass from the left to the right through the transfer belt 39, and simultaneously drive the motor shaft 35 to rotate, so as to drive the crushing block 38 to descend to extrude the broken glass, when the kinetic energy motor 34 is started reversely, because of the unidirectional rotation effect of the unidirectional shaft sleeve 127, so as to make, therefore, the transmission belt 39 stops transmitting, when the glass is transmitted to the chain belt 44 through the transmission belt 39, the bidirectional motor 89 is started, the chain belt 44 transmits the glass to the repeating space 114, the glass fragments are transmitted to the grinding space 130 under the action of the propeller mechanism 43, the glass powder is transmitted to the repeating space 114 through the chain belt 44 after being tightly attached to the left wall and the right wall of the grinding space 130 through the grinding block 101 of the conversion device and being rotated and ground, and the process is repeatedly carried out for a plurality of times, and the glass powder is transmitted to the fertilizer space 115 under the condition that the sieve plate is arranged at the lower end of the propeller mechanism 43 for filtering due to the grinding of the grinding block 101 of the conversion device for a plurality of times.

The invention has the advantages that the garbage classification measures can be implemented through the conversion device, so that the tank bottom glass in the classification water tank and plastic floating on liquid can be distinguished, the time for environment-friendly workers to classify, sort and clean is reduced, the working difficulty is reduced, the working efficiency is greatly improved, the recycled glass can be perfectly treated through the grinding device, the garbage is reduced, recycled and harmlessly treated in a scientific treatment mode, the risk of pollution of the garbage to soil, water resources and atmosphere is reduced, the proportion of recycling waste is improved, the requirement of raw materials is reduced, and the emission of carbon dioxide is reduced.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a plastic bottle and glass bottle waste classification device, includes the organism, its characterized in that: a plastic bottle and glass bottle garbage classification device comprises a machine body, wherein a water storage tank is arranged on the left side face of the machine body, a water storage space is arranged in the water storage tank, a water pump is fixedly mounted on the right side wall of the water storage space, a water guide cavity is arranged at the lower end of the water pump and is communicated with the water storage space, a water pipe is fixedly connected to the right end of the water guide cavity, a conversion space is arranged in the machine body, an inlet space for leading in garbage is arranged on the upper side wall of the conversion space, a compression space is communicated with the lower side wall of the conversion space, a driving space is arranged on the right side of the compression space, a jacking space is arranged on the upper side of the driving space, a transmission space is arranged on the rear side of the jacking space, a braking space is arranged on the upper side of the transmission space, a repetition space is arranged on the right side of the driving space, a driving space is arranged on the upper side of the fertilizer space, a crushing space is arranged on the upper side of the driving space, a driving space is arranged on the rear side of the crushing space, a stress space is arranged on the upper side of the driving space, a conversion device is arranged in the conversion space and comprises a rocker shaft which is rotatably arranged on the rear side wall of the conversion space, a hook-shaped rod is fixedly connected onto the rocker shaft, a sliding groove for sliding is arranged in the hook-shaped rod, a sliding block is slidably connected onto the sliding groove, a spring driven rod is hinged onto the sliding block, a spring shaft is rotatably connected onto the rear side wall of the conversion space, the spring shaft extends backwards, penetrates through the rear side wall of the conversion space, enters the braking space and is rotatably connected with the front side wall and the rear side wall of the braking space, a driven bevel gear is fixedly connected onto the rear end of the spring shaft, and a power shaft is rotatably connected, the power shaft extends downwards to penetrate through the lower side wall of the braking space to enter the transmission space and is rotatably connected with the top wall of the transmission space, an auxiliary force bevel gear is fixedly connected to the upper end of the power shaft, the auxiliary force bevel gear is meshed with the auxiliary force bevel gear, a main force bevel gear is fixedly arranged at the lower end of the power shaft, rotating shafts are rotatably connected to the left side wall and the right side wall of the transmission space, a force transmission bevel gear is arranged at the left end of each rotating shaft and is meshed with the main force bevel gear, a driven wheel is fixedly arranged at the right end of each rotating shaft, a spring main shaft is fixedly arranged at the front end of each spring shaft, the spring main shaft is connected with the spring auxiliary rods, a hook-shaped rod end rod is provided with a leakage net for filtering and fishing, rubber balls for air sealing are arranged on the right side of the leakage net, and, the left end of the classification water tank is fixedly connected with the water pipe, the right end of the classification water tank is fixedly provided with a torsion wheel, the rear side wall of the conversion space is rotatably connected with a torsion spring shaft, the torsion spring shaft is fixedly connected with a torsion spring, the torsion spring is fixedly connected with the torsion wheel, the rear side wall of the top space compression device is rotatably connected with a lug shaft, the lug shaft sequentially penetrates through the rear side wall of the top space to enter the transmission space compression device and is rotatably connected with the front side wall and the rear side wall of the transmission space compression device, the rear side wall of the transmission space compression device is fixedly provided with a driving motor, the driving motor is in dynamic connection with the lug shaft, a lug is fixedly arranged on the lug shaft, the top wall of the top space is in sliding connection with a top rod, and the top wall of the top space upwards extends to enter the conversion space, and with the diapire sliding connection in conversion space, the ejector pin rotates and can drive the lug reciprocates, compression space and drive pressure space are equipped with the compressor arrangement that is used for compressing plastics, be equipped with the grinder that is used for the fine processing glass in repetition space, fertilizer space, broken space and the transmission space, be equipped with the extrusion device that is used for extruding glass in the broken space, the import space with be equipped with the smashing device that is used for the coarse smashing in the atress space, the left side in conversion space is equipped with the exhaust device that is used for airing exhaust.

2. A plastic and glass bottle waste sorting device according to claim 1, wherein: compression device includes fixed mounting the compression motor of drive pressure space right side wall, power connection has the threaded rod on the compression motor, the action wheel has set firmly on the threaded rod, the action wheel with be connected with the conveyer belt from between the driving wheel, sliding connection has the compression piece in the compression space, the compression piece with threaded connection between the lug.

3. A plastic and glass bottle waste sorting device according to claim 1, wherein: the grinding device comprises a bidirectional motor fixedly arranged on the top wall of the driving space, the bidirectional motor is in power connection with a ratchet shaft, a forward ratchet is fixedly arranged on the ratchet shaft, a reverse ratchet positioned on the upper side of the forward ratchet is fixedly arranged on the ratchet shaft, the upper side wall and the lower side wall of the driving space are in rotational connection with ratchet driven shafts, a source force wheel is fixedly arranged on the ratchet driven shaft, a forward driven ratchet positioned on the lower side of the source force wheel is fixedly arranged on the ratchet driven shaft, a driving wheel positioned on the lower side of the forward driven ratchet is fixedly arranged on the ratchet driven shaft, the upper side wall and the lower side wall of the driving space are in rotational connection with a rotating shaft, an auxiliary force wheel is fixedly arranged on the rotating shaft, a driven force wheel positioned on the lower side of the auxiliary force wheel is fixedly arranged on the rotating shaft, a source force belt is connected between the auxiliary force wheel and the source force, the crushing space compression device is characterized in that a propeller mechanism is fixedly connected to the propeller shaft, a helical wheel is fixedly arranged on the propeller shaft, a helical belt is connected between the helical wheel and the source force wheel, the top wall of the grinding space is rotatably connected with a grinding shaft, a conversion device grinding block is fixedly connected to the grinding shaft, a grinding wheel is fixedly arranged on the grinding shaft, a grinding belt is connected between the grinding wheel and the source force wheel, a belt force shaft is rotatably connected to the bottom wall of the driving space, a belt force wheel is fixedly connected to the belt force shaft, a driving belt is connected between the belt force wheel and the driving wheel, a face gear is fixedly arranged on the belt force shaft and positioned above the belt force wheel, gear shafts are rotatably connected to the front side wall and the rear side wall of the driving space, a belt gear is fixedly connected to the gear shafts, the belt gear is meshed with the face gear, and two pulley shafts which are rotatably connected in a left-right symmetry manner are arranged in the front side wall, pulleys are fixedly arranged on each pulley shaft, a chain belt is connected between the two pulleys, and the chain belt is meshed with the belt gear.

4. A plastic and glass bottle waste sorting device according to claim 1, wherein: the extrusion device comprises a kinetic energy motor fixedly arranged on the top wall of the crushing space, the kinetic energy motor is in power connection with a motive shaft, the motive shaft is in threaded connection with a crushing block, the crushing space is internally provided with bilaterally symmetrical moving grooves, the moving grooves are in sliding connection with the crushing block, the motive shaft is fixedly provided with a kinetic energy bevel gear, the rear side wall of the crushing space is in rotational connection with a kinetic energy shaft, the kinetic energy shaft is fixedly provided with a kinetic energy main wheel, the front end of the kinetic energy shaft is fixedly connected with a driven energy bevel gear, the driven energy bevel gear is meshed with the kinetic energy bevel gear, the front side wall and the rear side wall of the crushing space are provided with two transmission shafts which are in bilateral symmetry rotational connection, each transmission shaft is fixedly connected with a transmission wheel, a transmission belt is connected between the two transmission wheels, and, the one-way sleeve shaft is fixedly connected with the transmission shaft, the kinetic energy driven wheel is fixedly arranged on the right side of the transmission shaft, and a kinetic energy belt is connected between the kinetic energy driven wheel and the kinetic energy main wheel.

5. The plastic bottle and glass bottle garbage sorting device according to claim 1, wherein the breaking device comprises a force-bearing shaft rotatably mounted on the upper and lower side walls of the force-bearing space, the force-bearing shaft extends downward to penetrate through the lower side wall of the force-bearing space into the transmission space and is rotatably connected with the upper side wall of the transmission space, a reverse driven ratchet is fixedly arranged at the lower end of the force-bearing shaft, the reverse driven ratchet and the reverse ratchet are engaged to rotate, an auxiliary bevel gear positioned on the upper side of the reverse driven ratchet is fixedly arranged on the force-bearing shaft, driving shafts which are rotatably connected in a bilateral symmetry manner are arranged on the front and rear side walls of the inlet space, each driving shaft is fixedly connected with a reamer wheel, and the driving shaft on the right side extends rearward to penetrate through the rear side wall of the inlet space into the force-bearing space and is rotatably connected with the front side wall of the force-bearing space, the rear end of the driving shaft is fixedly connected with a driving bevel gear, and the auxiliary energy bevel gear is meshed with the driving bevel gear.

6. A plastic and glass bottle waste sorting device according to claim 1, wherein: the air exhaust device comprises a wind pressure machine which is fixedly installed on the left side wall of the conversion space and used for exhausting air.

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