CN213264051U - Intelligent garbage recycling system - Google Patents

Abstract

The utility model relates to an intelligence rubbish is retrieved and is recycled system, it includes the automobile body, be provided with the first mechanism and the second that cleans that the usefulness cleaned rubbish on the automobile body and clean the mechanism, be provided with first stock chest and the second stock chest that is used for storing rubbish on the automobile body, first stock chest corresponds to first cleaning the mechanism and setting up, the second stock chest corresponds to the second cleans the mechanism and sets up, still be provided with on the automobile body clean the first rubbish that cleans the mechanism to the first receiving mechanism that first stock chest was carried and clean the rubbish that the mechanism cleaned with the second to the second receiving mechanism that the second stock chest was carried, first stock chest department is provided with and is used for the shearing mechanism of shearing rubbish. The garbage recycling device has the effect that garbage can be recycled more conveniently for subsequent garbage treatment and utilization.

Description

Intelligent garbage recycling system

Technical Field

The application relates to the technical field of garbage cleaning, in particular to an intelligent garbage recycling system.

Background

The garbage recycling work is to clean and recycle the garbage on the road, so that the road is kept clean, and the garbage recycling work is very important for city appearance. The current garbage recycling work is mainly carried out by sanitation workers, the sanitation workers can generally cooperate with a garbage truck, when the garbage recycling work is carried out, garbage cleaning is carried out on a road, and the cleaned garbage is put into the garbage truck to be recycled for transportation and subsequent treatment. The garbage is stacked in the garbage truck in the garbage recycling mode, and various kinds of garbage are in one storage cavity, so that great burden is caused on subsequent garbage treatment and utilization.

In view of the above-mentioned related art, the inventor believes that the garbage collection has the defect that the garbage collection is easy to cause large burden on subsequent garbage treatment and utilization due to unreasonable storage.

SUMMERY OF THE UTILITY MODEL

In order to enable garbage recycling to be more convenient for subsequent garbage treatment and utilization, the application provides an intelligent garbage recycling system.

The application provides a pair of intelligence rubbish is retrieved and is recycled system adopts following technical scheme:

the utility model provides an intelligence rubbish is retrieved and is recycled system, includes the automobile body, be provided with the first mechanism and the second of cleaning that the use cleaned rubbish on the automobile body and clean the mechanism, be provided with first stock chest and the second stock chest that is used for storing rubbish on the automobile body, first stock chest corresponds to first cleaning the mechanism and setting up, the second stock chest corresponds to the second cleans the mechanism and sets up, still be provided with on the automobile body clean the first rubbish that cleans the mechanism to the first receiving mechanism that first stock chest carried and clean the rubbish that the mechanism cleaned with the second to the second receiving mechanism that the second stock chest carried, first stock chest department is provided with the shearing mechanism that is used for shearing rubbish.

Through adopting above-mentioned technical scheme, the first mechanism and the second of cleaning cleans the rubbish and cleans the place to rubbish respectively, improve the efficiency of cleaning rubbish, first stock chest is corresponding to the first mechanism setting of cleaning, first stock chest will be cleaned the rubbish that the mechanism cleaned by the first storage and save, the second stock chest is corresponding to the second and cleans the mechanism setting, the second stock chest will be cleaned the rubbish that the mechanism cleaned by the second and save, first stock chest stores rubbish respectively with the second stock chest, subsequent refuse treatment work of being convenient for. First storage silo department sets up the mechanism of cuting that is used for shearing rubbish, and the mechanism of cuting is sheared in order to cut rubbish into the segment to the first rubbish that cleans the mechanism and cleans for rubbish in the first storage silo is difficult for piling up out great space, improves the storage effect of first storage silo, and on the other hand will get into the rubbish of first storage silo and cut into the segment, convenient follow-up processing to rubbish in the first storage silo.

Preferably, first receiving mechanism includes cyclone, the cyclone top is provided with the air outlet and the bottom is provided with the blanking mouth, cyclone's top is fixed in the roof of automobile body in order to follow the air-out of automobile body top, first stock chest top surface is provided with first roof, cyclone's bottom is fixed in first roof in order to the blanking of first stock chest.

Through adopting above-mentioned technical scheme, cyclone sets up in first storage tank top, and the rubbish that first cleaning mechanism cleaned falls into first storage tank from cyclone's blanking mouth after transmitting cyclone, and the rubbish whereabouts through cyclone is stable, and then makes the shearing effect of falling in the rubbish of first storage tank and receiving when the shearing mechanism is passed through stable.

Preferably, the shearing mechanism comprises an installation component, a driving component and a shearing component driven by the driving component to shear the garbage, the installation component is fixedly arranged on the vehicle body, and the driving component and the shearing component are both fixedly arranged on the installation component.

Through adopting above-mentioned technical scheme, the installation component supports drive assembly and shearing component, orders about by drive assembly shearing component and shears the rubbish that falls into first storage silo.

Preferably, the shearing assembly comprises a first shearing knife, a second shearing knife and a driven wheel for shearing the first shearing knife and the second shearing knife, the mounting assembly comprises an upper fixing plate, a middle fixing plate and a lower fixing plate which are sequentially arranged from top to bottom and parallel to each other, the upper fixing plate is fixedly provided with a connecting shaft between the lower fixing plates, and the connecting shaft penetrates through the middle parts of the first shearing knife and the second shearing knife.

Through adopting above-mentioned technical scheme, first sword and the second is cuted the sword and is rotated and connect in the connecting axle and all use the connecting axle to rotate as the center in order to carry out shearing movement, by the driven roller its first sword of cuting is cuted the sword with the second and is rotated in order to carry out shearing movement, and the shearing movement action of first sword and the second is cuted the sword is stable.

Preferably, first groove of stepping down has been seted up to first shearing sword, the second groove of stepping down has been seted up to the second shearing sword, it is located from the driving wheel first groove of stepping down with in the second groove of stepping down, just from the driving wheel rotation set up in well fixed plate, wherein one side of following driving wheel both ends terminal surface is provided with first drive block and the another side is provided with the second drive block, the cooperation has been seted up to first shearing sword the first slot of first drive block, the cooperation has been seted up to the second shearing sword the second slot of second drive block.

Through adopting above-mentioned technical scheme, it is located first groove of stepping down and the second groove of stepping down to follow the driving wheel, it sets up first drive block and another side and sets up the second drive block to follow one of them face of driven wheel both ends terminal surface, when rotating from the driving wheel, first drive block rotates in order to order about first shear knife motion with the follower in first slot, the second drive block rotates in order to order about second shear knife motion with the follower in the second slot, order about first shear knife and the continuous shear motion that produces of second shear knife from this, this kind of shearing mode is stable, can control shearing efficiency through control follower rotational speed, the controllability of shearing efficiency is high.

Preferably, the driving assembly comprises a shearing motor, a driving gear driven by the shearing motor to rotate and a driven gear ring meshed with the driving gear, the driving gear is coaxially fixed to a rotating shaft of the shearing motor, and the driven gear ring is coaxially fixed to the driven wheel.

Through adopting above-mentioned technical scheme, the shear motor orders about the driving gear and rotates, and the driving gear meshes and drives driven ring gear rotation with driven ring gear, drives from the driving wheel rotation from this. The meshing transmission mode of the driving gear and the driven gear ring is stable, namely, the driven gear rotates stably, and further the shearing action of the first shearing knife and the second shearing knife is stable. The rotating speed of the rotating bevel gear and the driven wheel can be controlled by controlling the operating power of the shearing motor, so that the shearing rates of the first shearing knife and the second shearing knife are controlled, and the effect of controlling the shearing rates of the first shearing knife and the second shearing knife is convenient and stable.

Preferably, the second receiving mechanism comprises a guide plate and a second receiving assembly, and the guide plate is arranged between the second receiving assembly and the second cleaning mechanism to guide the garbage cleaned by the second cleaning mechanism to the second receiving assembly.

Through adopting above-mentioned technical scheme, when the second cleaned the mechanism and swept rubbish to second receiving mechanism, guided by the motion of deflector to rubbish for rubbish is more stable to second receiving mechanism's removal action, and it is more high-efficient stable to clean the conveying effect of the rubbish that the mechanism cleaned by the second receiving mechanism to improve the second receiving mechanism.

Preferably, the second material collecting assembly comprises a material collecting main roller, a material collecting slave roller, a material collecting motor and a material collecting belt, wherein the material collecting main roller is rotatably arranged on the vehicle body, the material collecting slave roller is rotatably arranged on the vehicle body, the material collecting motor is fixedly arranged on the material collecting motor, the material collecting belt is wrapped on the material collecting main roller and the material collecting slave roller, the rotating shaft of the material collecting motor is fixedly connected with the material collecting main roller in a coaxial mode, a second top plate is arranged on the second storage pool, and an opening for allowing garbage to fall is formed in a.

Through adopting above-mentioned technical scheme, receive the material motor and order about and receive the material home roll and rotate, receive the material and follow the roller and follow and receive the material home roll and rotate under the transmission effect of receiving the material and biography the area, receive the material and pass the area and will clean the rubbish that the mechanism cleaned by the second and convey to the second storage tank, rubbish has to receive the material to transmit to receiving the material home roll after and fall down and fall into the second storage tank from the opening of roof under the conveying effect of receiving the material and passing the area.

In summary, the present application includes at least one of the following beneficial technical effects:

1. shear the mechanism and cut the rubbish that first cleaning mechanism cleaned and cut into the segment in order to cut rubbish, on the one hand for rubbish in the first storage tank is difficult for piling up out great space, improves the storage effect of first storage tank, and on the other hand will get into the rubbish of first storage tank and cut into the segment, convenient follow-up processing to rubbish in the first storage tank.

2. Cyclone sets up in first storage silo top, and the rubbish that first cleaning mechanism cleaned is transmitted to cyclone and is fallen into first storage silo from cyclone's blanking mouth after, and the rubbish whereabouts through cyclone is stable, and then makes the shearing effect of falling down and receiving when shearing the mechanism in the rubbish of first storage silo stable.

Drawings

FIG. 1 is an overall three-dimensional view of an embodiment of the present application.

Fig. 2 is an internal structural view of an embodiment of the present application.

Figure 3 is a structural view of a sweeper brush assembly in an embodiment of the present application.

Fig. 4 is a structural view of a shearing mechanism in the embodiment of the present application.

FIG. 5 is a structural view of a shear assembly in an embodiment of the present application.

Fig. 6 is a structural view at the second sweeping mechanism in the embodiment of the present application.

Description of reference numerals: 1. a vehicle body; 11. a headstock; 12. a vehicle body; 121. a wind expansion groove; 1211. a wind-spreading plate; 122. a cylinder; 123. a first storage tank; 1231. a first top plate; 124. a second storage tank; 1241. a second top plate; 2. a first cleaning mechanism; 21. a sweeper assembly; 211. a first motor; 212. a brushing member; 213. a tray body; 2131. a central disk; 2132. an outer ring; 22. a gettering assembly; 221. an air duct; 222. an exhaust fan; 3. a second cleaning mechanism; 31. mounting a plate; 32. a stone sweeping assembly; 321. mounting an auxiliary plate; 322. a second motor; 323. a rotating shaft; 324. a stone sweeping part; 3241. pushing the plate; 3242. a shovel plate; 3243. a reinforcing plate; 33. a transfer assembly; 331. a transfer motor; 332. a drive roll; 333. a driven roller; 334. a transmission belt; 3341. a bearing stage; 41. a cyclone separator; 5. a shearing mechanism; 51. mounting the component; 511. an upper fixing plate; 5111. a connecting shaft; 512. a middle fixing plate; 513. a lower fixing plate; 52. a drive assembly; 521. a shear motor; 522. a driving gear; 523. a driven gear ring; 53. a shear assembly; 531. a first shearing knife; 5311. a first scissor portion; 5312. a first shank portion; 532. a second shearing knife; 5321. a second scissor portion; 5322. a second shank portion; 533. a driven wheel; 5331. a first driving block; 5332. a second driving block; 6. a second storage mechanism; 61. a guide plate; 62. a second material receiving assembly; 621. a material receiving main roller; 622. a receiving slave roller; 623. a material receiving motor; 624. and (5) receiving and conveying the material.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses intelligence rubbish recycling system, refer to fig. 1 and 2, including automobile body 1, automobile body 1 has locomotive 11 and automobile body 12, and by the automobile body 12 towards the direction of locomotive 11 for preceding, there is locomotive 11 towards the direction of automobile body 12 for back. The vehicle body 1 is provided with a first cleaning mechanism 2 and a second cleaning mechanism 3, wherein the first cleaning mechanism 2 is arranged at the front part of the vehicle body 1, and the second cleaning mechanism 3 is arranged at the rear part of the vehicle body 1, so that when the vehicle body 1 moves forward, the first cleaning mechanism 2 and the second cleaning mechanism 3 sequentially clean the road surface in front of the vehicle body 1. In this embodiment, the first cleaning mechanism 2 is disposed below the vehicle head 11.

Referring to fig. 2 and 3, the first cleaning mechanism 2 includes a brush assembly 21 and a suction assembly 22, the brush assembly 21 includes two brushes 212, and the two brushes 212 are located on the same line in the width direction of the vehicle body 1. The sweeping brush 212 comprises a disc body 213 and bristles arranged on the disc body 213, the disc body 213 comprises a central disc 2131 and an outer ring 2132, the central disc 2131 is positioned in the outer ring 2132, the bristles of the sweeping brush 212 are all arranged on the outer ring 2132, and the thickness of the central disc 2131 is smaller than that of the outer ring 2132 so that the bristles of the outer ring 2132 can better contact the ground, and meanwhile, the possibility of collision between the central disc 2131 and the bottom surface is reduced. The two first motors 211 are arranged at the bottom of the vehicle head 11, and the two first motors 211 and the two brushing members 212 are arranged in a one-to-one correspondence manner. The rotating shaft of the first motor 211 penetrates below the head 11, and the bearing of the first motor 211 is coaxially and fixedly connected with the central disc 2131 of the corresponding sweeping part 212.

Referring to fig. 2, the suction assembly 22 includes an air duct 221 and an exhaust fan 222, an air expansion groove 121 is formed at the front end of the bottom surface of the vehicle body 12, a notch of the air expansion groove 121 located at the bottom surface of the vehicle body 12 is an air suction opening, four air expansion plates 1211 are arranged at the air suction opening of the vehicle body 12, the four air expansion plates 1211 surround the air suction opening, and adjacent sides of the adjacent air expansion plates 1211 are fixedly connected to form a horizontal closed structure. The air diffuser 1211 has only one side fixed to the bottom of the vehicle body 12, the air diffuser 1211 is inclined, and the height of the air diffuser 1211 gradually decreases from the side connected to the vehicle body 1 to the side away from the vehicle body 1.

Referring to fig. 2, a first storage tank 123 is arranged at a position of the vehicle body 12 corresponding to the first cleaning mechanism 2, a first storage mechanism is further arranged at the first storage tank 123, the first storage mechanism includes a cyclone separator 41, an air outlet is arranged at the top of the cyclone separator 41, a discharge outlet is arranged at the bottom of the cyclone separator, and the top of the cyclone separator 41 is fixed on the top wall of the vehicle body 12 to discharge air from the top of the vehicle body 12. The top surface of the first storage tank 123 is provided with a horizontal first top plate 1231, a through hole is formed in the position of the first top plate 1231 corresponding to the cyclone separator 41, and the bottom of the cyclone separator 41 is fixed to the through hole on the first top plate 1231 to drop materials to the first storage tank 123.

Referring to fig. 2 and 4, a shearing mechanism 5 is disposed at a position of the first material storage tank 123 close to the blanking port, the shearing mechanism 5 includes a mounting assembly 51, a driving assembly 52 and a shearing assembly 53, the mounting assembly 51 includes an upper fixing plate 511, a middle fixing plate 512 and a lower fixing plate 513, and the upper fixing plate 511, the middle fixing plate 512 and the lower fixing plate 513 are sequentially disposed from top to bottom and are parallel to each other. The cutting assembly 53 includes a first cutting blade 531, a second cutting blade 532 and a driven wheel 533, and the first cutting blade 531 and the second cutting blade 532 are equal in shape and size. The upper fixing plate 511 and the lower fixing plate 513 have the same shape and size, a connecting shaft 5111 is arranged between the upper fixing plate 511 and the lower fixing plate 513, the connecting shaft 5111 penetrates through the middle parts of the first shearing blade 531 and the second shearing blade 532, the upper end of the connecting shaft 5111 is fixed to the upper fixing plate 511, and the lower end of the connecting shaft 5111 is fixed to the lower fixing plate 513. With reference to fig. 5, the first cutting blade 531 has a first scissor portion 5311 and a first blade portion 5312, the first blade portion 5312 has a first recess, the second cutting blade 532 has a second scissor portion 5321 and a second blade holder 5322, the second blade holder 5322 has a second recess, the driven wheel 533 is located at the first recess and the second recess, the driven wheel 533 is rotatably connected to the middle fixing plate 512, a first driving block 5331 is disposed on a surface of the driven wheel 533 facing a bottom wall of the first recess, a first elongated slot is disposed on the bottom wall of the first recess, and the first driving block 5331 is inserted into the first slot; the surface of the driven wheel 533 facing the bottom wall of the second abdicating groove is provided with a second driving block 5332, the bottom wall of the second abdicating groove is provided with a second slot, and the second driving block 5332 is inserted into the second slot. The first driving block 5331 and the second driving block 5332 are located at both ends of one diameter of the driven wheel 533. The driving assembly 52 includes a shearing motor 521, a driving gear 522 and a driven gear ring 523, the shearing motor 521 is fixed at the top of the first material storage tank 123, the driving gear 522 is coaxially fixed on the rotating shaft of the shearing motor 521, and the driven gear ring 523 is coaxially fixed on the side wall of the driven wheel 533 and is engaged with the driving gear 522. Therefore, the driving gear 522 is driven to rotate by the shearing motor 521, the driving gear 522 is meshed with the driven gear ring 523 to drive the driven wheel 533 to rotate, the first driving block 5331 on the driven wheel 533 is matched with the first slot of the first shearing knife 531, and the second driving block 5332 on the driven wheel 533 is matched with the second slot of the second shearing knife 532, so that the first shearing knife 531 and the second shearing knife 532 continuously do shearing motion to shear the material falling from the blanking port.

Referring to fig. 2 and 6, the second cleaning mechanism 3 includes a mounting plate 31, a stone sweeping assembly 32 and a conveying assembly 33, the mounting plate 31 is fixedly disposed at the rear portion of the vehicle body 12, the two mounting plates 31 are respectively fixed to two side walls in the width direction of the vehicle body 12, an air cylinder 122 is disposed at an included angle between the mounting plate 31 and the corresponding side wall of the vehicle body 12, a cylinder end of the air cylinder 122 is rotatably connected to the corresponding side wall of the vehicle body 12, a piston rod of the air cylinder is rotatably connected to the top of the corresponding mounting plate 31, and the air cylinder 122 can control the second cleaning mechanism.

Referring to fig. 2 and 6, the stone sweeping assembly 32 includes two installation sub-plates 321, two second motors 322, a rotating shaft 323 and stone sweeping members 324, the two installation sub-plates 321 are arranged corresponding to the two installation plates 31 one by one, and the installation sub-plates 321 are fixed on one side of the corresponding installation plate 31 far away from the vehicle body 1. The rotation shaft 323 is horizontally disposed, and both ends of the rotation shaft 323 are rotatably connected to the two mounting sub-plates 321, respectively. The second motor 322 is fixedly disposed on one of the two mounting sub-plates 321, and a rotating shaft of the second motor 322 is coaxially and fixedly connected with the rotating shaft 323. The plurality of stone-sweeping members 324 are arranged, the stone-sweeping members 324 are all fixed on the rotating shaft 323, and the plurality of stone-sweeping members 324 are distributed at equal intervals along the circumferential direction of the rotating shaft 323. The stone-sweeping member 324 includes a push plate 3241, a shovel plate 3242 and a reinforcing plate 3243, the push plate 3241 has a length direction same as that of the rotation shaft 323, one side of the push plate 3241 in a width direction is fixed to the rotation shaft 323, the shovel plate 3242 is fixedly disposed on one side of the push plate 3241 away from the rotation shaft 323, the shovel plate 3242 is arc-shaped, and a diameter of the shovel plate 3242 is equal to a distance from one end of the push plate 3241 away from the rotation shaft 323 to an axis of the rotation shaft 323. The rotation direction of the rotation shaft 323 is: the rotation shaft 323 rotates such that the bottom of the rotation shaft 323 faces in a direction approaching the vehicle body 12 and the top of the rotation shaft 323 faces in a direction away from the vehicle body 12. The blade plate 3242 is fixed to a surface of the push plate 3241 facing the rotation direction when rotating following the rotation shaft 323. A reinforcing plate 3243 is fixedly arranged at an included angle between the shovel plate 3242 and the push plate 3241, the reinforcing plate 3243 is in an approximately triangular shape, and two right-angle edges of the reinforcing plate 3243 are respectively fixed to the push plate 3241 and the shovel plate 3242. The position of push plate 3241 near shovel plate 3242 is provided with a plurality of weep holes for the material on the push plate 3241 can fall to transport assembly 33 from the weep hole on, the weep hole is rectangular hole form.

With continued reference to fig. 2 and 6, the conveying assembly 33 includes a conveying motor 331, a driving roller 332, a driven roller 333 and a conveying belt 334, the two ends of the driving roller 332 are respectively and rotatably connected to the two mounting plates 31, the two ends of the driven roller 333 are also respectively and rotatably connected to the two mounting plates 31, the driving roller 332 is parallel to the driven roller 333, the driving roller 332 is close to the vehicle body 1, the driven roller 333 is close to the stone-sweeping member 324, the driving roller 332 is higher than the bottom of the vehicle body 12, and the driven roller 333 is close to the stone-sweeping member 324. The driving belt 334 is wrapped around the driving roller 332 and the driven roller 333, the driving belt 334 has an inner annular surface and an outer annular surface, the surface of the driving belt 334 contacting the driving roller 332 and the driven roller 333 is the inner annular surface, the outer annular surface of the driving belt 334 is provided with a bearing step 3341, the cross section of the bearing step 3341 is in a right triangle shape, the top surface of the bearing step 3341 is a bearing surface, and the bearing surface is in a horizontal state when the second cleaning mechanism 3 performs cleaning work. The transmission motor 331 is fixedly arranged on one of the two mounting plates 31, a rotating shaft of the transmission motor 331 is arranged towards the drive roll 332, a first bevel gear is coaxially and fixedly arranged at the end of the rotating shaft of the motor, a second bevel gear meshed with the first bevel gear is arranged at one end of the drive roll 332, and the second bevel gear is coaxially and fixedly connected with the drive roll 332.

With reference to fig. 2 and 6, a second storage tank 124 is disposed at a position of the vehicle body 12 corresponding to the second cleaning mechanism 3, a second storage mechanism 6 is further disposed at the second storage tank 124, the second storage mechanism 6 includes a guide plate 61 and a second material receiving assembly 62, the second material receiving assembly 62 includes a material receiving main roller 621, a material receiving sub roller 622 and a material receiving motor 623, two ends of the material receiving main roller 621 are respectively rotatably connected to two side walls of the second storage tank 124 along the width direction of the vehicle body 1, the material receiving main roller 621 is disposed at a position of the second storage tank 124 far away from the second cleaning mechanism 3, the material receiving motor 623 is fixed to the vehicle body 12, a rotating shaft of the material receiving motor 623 penetrates through the vehicle body 12, and the rotating shaft of the material receiving motor 623 is coaxially and fixedly connected to the material receiving main roller. The receiving roller 622 is also rotatably connected to two side walls of the second material storage tank 124 along the width direction of the vehicle body 1 from two ends of the receiving roller 622, the receiving roller 622 is located at a position of the second material storage tank close to the second cleaning mechanism 3, and the receiving roller 622 is located close to the driving roller 332. The receiving main roller 621 and the receiving sub roller 622 are covered with a receiving belt 624. The guide plate 61 is arc-shaped and the guide plate 61 has a higher side on a lower side, the higher side of the guide plate 61 is disposed near the drive roller 332, the lower side of the guide plate 61 is disposed near the receiving roller 622, and thus the material conveyed by the conveying assembly 33 is guided to the second receiving mechanism 6 through the guide plate 61. The top of the second storage tank 124 is fixedly provided with a second top plate 1241, the second top plate 1241 is parallel to the receiving conveyor 624, the second top plate 1241 is lower than the receiving conveyor 624 at the same vertical position, the top of the second storage tank 124 is provided with an opening, and the opening of the second storage tank 124 is located under the receiving main roller to allow the material on the second storage mechanism 6 to fall into the second storage tank 124.

The implementation principle of the intelligent garbage recycling system in the embodiment of the application is as follows: when carrying out rubbish and cleaning, automobile body 1 normally traveles, automobile body 1 cleans the place through rubbish, the anterior first mechanism 2 that cleans of automobile body 1 cleans the place at first to rubbish, two brush pieces 212 of sweeping clean the place and sweep the rubbish, the light rubbish absorption that the subassembly 22 will be swept, light rubbish enters into cyclone 41 and subsides the whereabouts, light rubbish falls down and when shearing mechanism 5 from cyclone 41's blanking mouth, it cuts light rubbish in order to cut into the segment with light rubbish to shear mechanism 5, the light rubbish of cutting into the segment falls into first storage silo 123 and is difficult for producing big space, make first storage silo 123 can store more light rubbish. After the first cleaning mechanism 2 passes through a garbage cleaning place, the second cleaning mechanism 3 reaches the garbage cleaning place, and the second cleaning mechanism 3 cleans the garbage cleaning place. The stone sweeping assembly 32 scoops up the heavy garbage at the garbage cleaning site and sends the heavy garbage to the conveying assembly 33, the conveying assembly 33 conveys the heavy garbage to the guide plate 61, the heavy garbage is guided to the second material receiving assembly 62 under the guiding action of the guide plate 61, and the second material receiving assembly 62 conveys the heavy garbage upwards to the top opening of the second storage tank 124 and sends the heavy garbage into the second storage tank 124. The garbage at the garbage cleaning place is cleaned twice in the mode, the light garbage is cleaned and enters the first storage tank 123, the heavy garbage is cleaned and enters the second storage tank 124, the light garbage and the heavy garbage are cleaned respectively, a good cleaning effect is achieved, the light garbage and the heavy garbage are stored separately, and the light garbage and the heavy garbage can be conveniently and subsequently treated and recycled respectively.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an intelligence rubbish is retrieved and is recycled system which characterized in that: comprises a vehicle body (1), a first cleaning mechanism (2) and a second cleaning mechanism (3) which are used for cleaning garbage are arranged on the vehicle body (1), a first storage tank (123) and a second storage tank (124) for storing garbage are arranged on the vehicle body (1), the first material storage tank (123) is arranged corresponding to the first cleaning mechanism (2), the second material storage tank (124) is arranged corresponding to the second cleaning mechanism (3), the vehicle body (1) is also provided with a first containing mechanism (4) for conveying the garbage cleaned by the first cleaning mechanism (2) to the first storage tank (123) and a second containing mechanism (6) for conveying the garbage cleaned by the second cleaning mechanism (3) to the second storage tank (124), and a shearing mechanism (5) for shearing the garbage is arranged at the first storage tank (123).

2. The intelligent garbage recycling system according to claim 1, characterized in that: first receiving mechanism (4) include cyclone (41), cyclone (41) top is provided with the air outlet and the bottom is provided with the blanking mouth, the roof that the top of cyclone (41) is fixed in automobile body (1) is in order to follow automobile body (1) top air-out, first stock chest (123) top surface is provided with first roof (1231), the bottom of cyclone (41) is fixed in first roof (1231) in order to the blanking to first stock chest (123).

3. The intelligent garbage recycling system according to claim 1, characterized in that: shear mechanism (5) including installation component (51), drive assembly (52) and receive drive assembly (52) drive to carry out shearing subassembly (53) of cuting rubbish, installation component (51) fixed set up in automobile body (1), drive assembly (52) with it all fixed set up in to cut subassembly (53) on installation component (51).

4. The intelligent garbage recycling system according to claim 3, characterized in that: cut subassembly (53) including first shearing sword (531), second shearing sword (532) and order about first shearing sword (531) and second shearing sword (532) carry out shearing action from driving wheel (533), installation component (51) are including upper fixed plate (511), well fixed plate (512) and bottom plate (513) that from top to bottom set gradually and be parallel to each other, upper fixed plate (511) with it is fixed between bottom plate (513) to be provided with connecting axle (5111), connecting axle (5111) are run through first shearing sword (531) with second shearing sword (532) middle part.

5. The intelligent garbage recycling system according to claim 4, characterized in that: first groove of stepping down has been seted up to first shear sword (531), the second groove of stepping down has been seted up to second shear sword (532), it is located from driving wheel (533) first groove of stepping down with in the second groove of stepping down, just from driving wheel (533) rotate set up in well fixed plate (512), wherein one side of following driving wheel (533) both ends terminal surface is provided with first drive block (5331) and the another side is provided with second drive block (5332), the cooperation has been seted up to first shear sword (531) the first slot of first drive block (5331), the cooperation has been seted up to second shear sword (532) the second slot of second drive block (5332).

6. The intelligent garbage recycling system according to claim 4, characterized in that: the driving assembly (52) comprises a shearing motor (521), a driving gear (522) driven by the shearing motor (521) to rotate and a driven gear ring (523) meshed with the driving gear (522), the driving gear (522) is coaxially fixed on a rotating shaft of the shearing motor (521), and the driven gear ring (523) is coaxially fixed on a driven wheel (533).

7. The intelligent garbage recycling system according to claim 1, characterized in that: the second receiving mechanism (6) comprises a guide plate (61) and a second receiving assembly (62), wherein the guide plate (61) is arranged between the second receiving assembly (62) and the second cleaning mechanism (3) to guide the garbage cleaned by the second cleaning mechanism (3) to the second receiving assembly (62).

8. The intelligent garbage recycling system according to claim 7, characterized in that: the second is received material subassembly (62) and is set up including rotating in receipts material main roll (621) of automobile body (1), rotate and set up in receipts material of automobile body (1) from roller (622), fixed set up in receiving material motor (623) and the cladding set up in receipts material main roll (621) and receive material from receiving material biography area (624) of roller (622), receive the pivot of material motor (623) with receive the coaxial fixed connection of material main roll (621), be provided with second roof (1241) on second storage pond (124), second roof (1241) are located the position of receiving material main roll (621) below and are provided with the opening that supplies rubbish whereabouts.

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