CN111591623A - A intelligent classification dustbin for construction of wisdom city - Google Patents

Abstract

The invention discloses an intelligent classification dustbin for smart city construction, which comprises a dustbin, wherein a ventilation pipeline is arranged in the dustbin, an annular garbage groove is arranged in the end wall outside the ventilation pipeline, and a camera for analyzing garbage types is arranged on the end wall of one side, close to the ventilation pipeline, of the annular garbage groove; the garbage can self-classifying device has the advantages of simple structure, convenience in operation and maintenance, can automatically classify garbage, prevents people with poor quality from directly throwing unsorted garbage into the garbage can, simultaneously reduces the workload of workers in the garbage recycling station, improves the garbage recycling efficiency, and purifies the air in the garbage can and around the garbage can, so that the condition that the air around the garbage can is severe due to the fact that the garbage in the garbage can is fermented under the normal temperature environment is avoided, the air quality around the garbage can is improved, and the garbage can self-classifying device has high use and popularization values.

Description

A intelligent classification dustbin for construction of wisdom city

Technical Field

The invention relates to the field of intelligent equipment, in particular to an intelligent classification garbage can for smart city construction.

Background

With the continuous development of smart city construction, some cities gradually move to intelligent construction from the former basic construction, the urban environment is obviously improved, but in the urban garbage treatment process, the garbage can be classified and recovered due to different properties of the garbage, so that the value of the garbage is increased, but the traditional garbage can is far from meeting the existing garbage classification standard, when the garbage is recovered to a treatment station, manual memorability sorting is still needed, the labor intensity is high, the efficiency is low, the working environment of sorting workers is extremely severe, the existing intelligent garbage can still needs personnel to classify, and the efficiency is still low, so that the invention aims to design the intelligent classification garbage can for smart city construction.

Disclosure of Invention

The invention aims to provide an intelligent classification dustbin for smart city construction, which can overcome the defects in the prior art.

According to the invention, the intelligent classification garbage can for smart city construction comprises a garbage can, a ventilation pipeline is arranged in the garbage can, an annular garbage groove is arranged in the end wall of the outer part of the ventilation pipeline, a camera for analyzing the type of garbage is arranged on the end wall of the annular garbage groove close to one side of the ventilation pipeline, a garbage screening device for sorting the garbage is arranged in the annular garbage groove, four groups of garbage cavities communicated with the annular garbage groove are uniformly arranged in the end wall of the bottom part of the annular garbage groove, a garbage can for containing the garbage is arranged in the garbage cavity, a closed door is rotationally arranged in the end wall of the garbage cavity far away from one side of the ventilation pipeline, so that a worker can take out the garbage can full of the garbage, an air purification cavity communicated with the ventilation pipeline is arranged in the end wall of the bottom part of the garbage cavity, and an air purification device for purifying air is arranged in the air purification, thereby improving the air quality of the environment around the garbage can, compression cavities are arranged in the front and rear end walls of the garbage cavity, a compression slide block is arranged in the compression cavity in a sliding manner, a compression plate is rotatably arranged at one side of the compression slide block close to the garbage cavity, an auxiliary power cavity is arranged in the compression plate, connection cavities are symmetrically arranged in the front and rear end walls of the auxiliary power cavity, a fixed connection device for connecting the compression plate with the compression slide block and connecting two groups of compression plates is arranged in the connection cavities, a containing device for containing the compression plate is arranged in the auxiliary power cavity, an auxiliary power device for driving the fixed connection device and the containing device to rotate is arranged in the auxiliary power cavity, a compression device for compressing the volume of garbage contained in the garbage can is arranged in the compression cavity, a control cavity is arranged in the compression cavity, the compression control device is arranged in the control cavity and used for controlling the compression device to rotate, a main power cavity is arranged in the end wall of the bottom of the main power shaft, and a main power device used for driving the device to rotate is arranged in the main power cavity.

Preferably, the garbage screening device comprises a screening plate rotatably arranged in the garbage cavity, the screening plate separates the garbage cavity from the annular garbage groove, a turning shaft is arranged at the rear end of the screening plate, a turning cavity is arranged in the wall of the rear end of the garbage cavity, a turning gear is arranged at the rear end of the turning shaft, a synchronizing shaft is arranged in the turning cavity, power transmission is carried out between the synchronizing shaft and the turning shaft close to one side of the ventilation pipeline through a first belt set, a homodromous gear meshed with the turning gear far away from one side of the ventilation pipeline is arranged at the rear end of the synchronizing shaft, a screening electromagnetic guide rail is arranged in the turning cavity, a turning rack meshed with the turning gear is slidably arranged on the end wall close to one side of the turning shaft of the screening electromagnetic guide rail, the screening electromagnetic guide rail controls the sliding of the turning rack, and further controls the rotation of the screening plate, eight groups of dragging plates are uniformly arranged at one end of the annular chain, which is far away from the ventilation pipeline, the dragging plates drive garbage thrown from different directions to be isolated and are sequentially analyzed by the cameras, a speed reducing cavity is arranged in the end wall of one side of the annular garbage groove, which is close to the ventilation pipeline, a driven shaft is arranged in the speed reducing cavity, a chain wheel matched with the annular chain is arranged at one end of the driven shaft, which is far away from the ventilation pipeline, a driven gear is arranged at one end of the driven shaft, which is near to the ventilation pipeline, a driving shaft is arranged in the speed reducing cavity, a driving gear meshed with the driven gear is arranged on the outer wall of the driving shaft, one end of the driving shaft, which is far away from the ventilation pipeline, is provided with a reduction worm wheel, a reduction shaft is arranged in a reduction cavity, and a reduction worm matched with the reduction worm wheel is arranged on the outer wall of the reduction shaft, and then the reduction worm drives the annular chain to rotate.

Preferably, the air purification device comprises a foam maker which is arranged in the air purification cavity in a sliding way, the foam generator is communicated with the garbage can through an air inlet pipeline, one end of the foam generator, which is close to the main power cavity, is provided with a vibrating rod, an equal-diameter cam is rotatably arranged in the main power cavity, a purification slide block hinged with the vibrating rod is slidably arranged in the main power cavity, the equal-diameter cam is matched with the purification slide block, thereby driving the equal-diameter cam to rotate, further driving the foam generator to perform oscillation sliding in the air purification cavity, improving the efficiency of generating bubbles by the foam generator, a purifying fan is arranged in the ventilation pipeline in a rotating way, the purifying fan continuously exhausts the gas in the ventilation pipeline, and then negative pressure is formed in the air purification cavity, so that the gas in the garbage can is continuously pumped out and purified.

Preferably, the fixed connecting device comprises a connecting screw rod slidably arranged in the connecting cavity, the connecting screw rod is separated from the corresponding compression plate, a connecting sleeve shaft matched with the connecting screw rod is rotatably arranged in the connecting cavity, the connecting sleeve shaft drives the connecting screw rod to slide, a connecting gear is arranged on the outer wall of the connecting sleeve shaft, two groups of fixing cavities are uniformly arranged in the compression sliding block, a fixing sleeve shaft is arranged in the connecting cavity, a fixing screw rod matched with the fixing cavity is slidably arranged in the connecting cavity, the fixing sleeve shaft drives the fixing screw rod to slide, a synchronous gear group for driving the connecting sleeve shaft and the fixing sleeve shaft to synchronously rotate is arranged in the connecting cavity, power transmission is carried out between the two groups of connecting sleeve shafts in the compression plate through the two belt groups, and the compression plate, the compression sliding block and the two groups of compression plates which are opposite are connected and fixed, an extension shaft is arranged in the auxiliary power cavity, an extension gear meshed with the connecting gear is arranged at one end, far away from the compression sliding block, of the extension shaft, and a connecting bevel gear used for driving the fixed connecting device to rotate is arranged at one end, close to the compression sliding block, of the extension shaft.

Preferably, the storage device comprises a storage shaft arranged in the auxiliary power cavity, storage gears are arranged at two ends of the storage shaft, which are far away from the auxiliary power cavity, a fixed gear fixedly connected with the compression slider is arranged in the connection cavity, the fixed gear is meshed with the storage gears, and a transmission gear for driving the storage shaft to rotate is arranged on the outer wall of the storage shaft, so that the compression plate is erected under the condition of non-connection, and the garbage cavity is prevented from being closed.

Preferably, the auxiliary power device comprises an auxiliary motor arranged in the auxiliary power cavity, an auxiliary power shaft connected with the auxiliary motor in a power mode is arranged in the auxiliary power cavity, an auxiliary sleeve shaft is slidably arranged on the outer wall of the auxiliary power shaft, an auxiliary bevel gear meshed with the connecting bevel gear is arranged at one end, away from the auxiliary power shaft, of the auxiliary sleeve shaft, an auxiliary power gear disengaged with the transmission gear is arranged on the outer wall of the auxiliary sleeve shaft, a switching slide block is slidably arranged in the auxiliary power cavity, the auxiliary sleeve shaft is rotatably arranged in the switching slide block, a switching turbine is arranged on the outer wall of the auxiliary power shaft, a switching shaft is arranged in the auxiliary power cavity, a switching worm matched with the switching turbine is arranged on the outer wall of the switching shaft, and a switching cam matched with the switching slide block is arranged at the top end of the switching shaft, thereby controlling the auxiliary sleeve shaft to slide.

Preferably, the compression device comprises a spline shaft arranged in the compression cavity, an ascending cavity is arranged in the end wall of the bottom of the compression cavity, compression bevel gears arranged in the ascending cavity are arranged at the bottom end of the spline shaft, two groups of compression screws are uniformly arranged in the compression cavity, an ascending bevel gear arranged in the ascending cavity is arranged at the bottom end of the compression screw, a spline sleeve shaft matched with the spline shaft is arranged in the control cavity, compression gears are arranged on the outer wall of the spline sleeve shaft, two groups of screw sleeve shafts matched with the compression screws are uniformly arranged in the control cavity, a descending gear is arranged on the outer wall of the screw sleeve shaft, an idle gear disengaged with the descending gear and the compression gears is arranged in the control cavity, a compression shaft is arranged in the ascending cavity, and a forward bevel gear meshed with the compression bevel gears is arranged on the outer wall of the compression, the outer wall of the compression shaft is provided with a reverse bevel gear which is separated from the ascending bevel gear, a control slide block is arranged in the ascending cavity in a sliding mode, the compression shaft is arranged on the control slide block in a rotating mode, the end wall of the top of the ascending cavity is provided with a compression electromagnetic guide rail used for driving the control slide block to slide so as to drive the compression shaft to slide, and a compression sleeve shaft used for driving the compression device to rotate is arranged in the ascending cavity.

Preferably, the compression control device includes a pushing slider slidably disposed in the fixed cavity, a control chute is disposed in an end wall of the control cavity on a side away from the compression plate, a transmission sliding out of fit with the pushing slider is slidably disposed in the control chute, a meshing slider out of fit with the transmission sliding is slidably disposed in the control chute, the idler wheel is rotatably disposed on the meshing slider, and when the compression plate is connected to the compression slider, the pushing slider drives the meshing slider to slide, so that the meshing slider is meshed with the compression gear and the down gear, and the screw sleeve shaft is driven to rotate.

Preferably, the main power device comprises a main motor arranged in the main power cavity, a main power gear in power connection with the main motor is arranged in the main power cavity, a main power shaft is arranged in the main power cavity, a transmission gear meshed with the main power gear is arranged on the outer wall of the main power shaft, the purifying fan is fixedly connected with the main power shaft, the constant diameter cam is fixedly arranged on the outer wall of the main power shaft, a main bevel gear is arranged at the bottom end of the main power shaft, four groups of transmission shafts are uniformly arranged in the main power cavity, a driven bevel gear meshed with the main bevel gear is arranged at one end of each transmission shaft close to the main power shaft, power transmission is carried out between the transmission shaft and the compression electromagnetic guide rail through a third belt group to drive the compression sleeve shaft to rotate, and power transmission is carried out between the main power shaft and the deceleration shaft through a fourth belt group, and then the speed reducing shaft is driven to rotate.

The invention has the beneficial effects that: the garbage can self-classifying device has the advantages of simple structure, convenience in operation and maintenance, can automatically classify garbage, prevents people with poor quality from directly throwing unsorted garbage into the garbage can, simultaneously reduces the workload of workers in the garbage recycling station, improves the garbage recycling efficiency, and purifies the air in the garbage can and around the garbage can, so that the condition that the air around the garbage can is severe due to the fact that the garbage in the garbage can is fermented under the normal temperature environment is avoided, the air quality around the garbage can is improved, and the garbage can self-classifying device has high use and popularization values.

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.

FIG. 1 is a schematic diagram of an overall structure of an intelligent classification garbage can for smart city construction according to the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

FIG. 5 is a schematic diagram of D-D of FIG. 1;

FIG. 6 is a schematic diagram of the structure of E-E in FIG. 4;

FIG. 7 is a schematic view of the structure of F-F in FIG. 6;

FIG. 8 is an enlarged view of G of FIG. 7;

FIG. 9 is an enlarged view of H in FIG. 8;

FIG. 10 is a schematic view of the structure of I-I in FIG. 6;

fig. 11 is an enlarged schematic view of the structure of J in fig. 10.

Detailed Description

The present invention will be described in detail with reference to the drawings, wherein for the convenience of description, the following orientations are defined as follows: the front, rear, left, and right described below correspond to the up-down direction of the projection relationship of fig. 1 itself.

As shown in fig. 1-11, the intelligent classification garbage can for smart city construction of the present invention includes a garbage can 11, a ventilation pipeline 17 is disposed in the garbage can 11, an annular garbage groove 12 is disposed in an end wall of an outer portion of the ventilation pipeline 17, a camera 26 for analyzing a type of garbage is disposed on an end wall of the annular garbage groove 12 close to one side of the ventilation pipeline 17, a garbage screening device 901 for sorting garbage is disposed in the annular garbage groove 12, four garbage chambers 104 communicated with the annular garbage groove 12 are uniformly disposed in an end wall of a bottom portion of the annular garbage groove 12, a garbage can 16 for holding garbage is disposed in the garbage chamber 104, a closing door 15 is rotatably disposed in an end wall of the garbage chamber 104 far from the ventilation pipeline 17, so that a worker can take out the garbage can 16 filled with garbage, an air purification chamber 44 communicated with the ventilation pipeline 17 is disposed in the end wall of the bottom portion of the garbage chamber 104, the air purification cavity 44 is internally provided with an air purification device 902 for purifying air, so as to improve the air quality of the surrounding environment of the dustbin 11, the front and rear end walls of the dustbin 104 are internally provided with compression cavities 56, the compression cavities 56 are internally provided with compression sliders 54 in a sliding manner, the compression sliders 54 are rotatably provided with compression plates 53 near one side of the dustbin 104, the compression plates 53 are internally provided with auxiliary power cavities 84, the front and rear end walls of the auxiliary power cavities 84 are symmetrically provided with connection cavities 79, the connection cavities 79 are internally provided with fixed connection devices 903 for connecting the compression plates 53 with the compression sliders 54 and connecting the two compression plates 53, the auxiliary power cavities 84 are internally provided with storage devices 904 for storing the compression plates 53, the auxiliary power cavities 84 are internally provided with auxiliary power devices 905 for driving the fixed connection devices 903 and the storage devices 904 to rotate, a compression device 906 for compressing the volume of the garbage contained in the garbage can 16 is arranged in the compression cavity 56, a control cavity 70 is arranged in the compression cavity 56, a compression control device 907 for controlling the rotation of the compression device 906 is arranged in the control cavity 70, a main power cavity 37 is arranged in the end wall of the bottom of the main power shaft 18, and a main power device 908 for driving the rotation of the device is arranged in the main power cavity 37.

Beneficially, the garbage screening device 901 includes a screening plate 14 rotatably disposed in the garbage cavity 104, the screening plate 14 separates the garbage cavity 104 from the annular garbage chute 12, a turning shaft 45 is disposed at the rear end of the screening plate 14, a turning cavity 49 is disposed in the rear end wall of the garbage cavity 104, a turning gear 46 is disposed at the rear end of the turning shaft 45, a synchronizing shaft 51 is disposed in the turning cavity 49, power transmission is performed between the synchronizing shaft 51 and the turning shaft 45 near one side of the ventilation pipeline 17 through a first belt set 50, a homodromous gear 52 engaged with the turning gear 46 far from one side of the ventilation pipeline 17 is disposed at the rear end of the synchronizing shaft 51, a screening electromagnetic guide rail 48 is disposed in the turning cavity 49, a turning rack 47 engaged with the turning gear 46 is slidably disposed on the end wall of one side of the screening electromagnetic guide rail 48 near the turning shaft 45, the screening electromagnetic guide rail 48 controls the sliding of the turnover rack 47 to further control the rotation of the screening plate 14, eight groups of dragging plates 13 are uniformly arranged at one end of the annular chain 31 far away from the ventilation pipeline 17, the dragging plates 13 drive garbage thrown from different directions to be isolated and are sequentially analyzed by the camera 26, a deceleration cavity 34 is arranged in the end wall of one side of the annular garbage chute 12 close to the ventilation pipeline 17, a driven shaft 30 is arranged in the deceleration cavity 34, one end of the driven shaft 30 far away from the ventilation pipeline 17 is provided with a chain wheel 29 matched with the annular chain 31, one end of the driven shaft 30 close to the ventilation pipeline 17 is provided with a driven gear 32, a driving shaft 28 is arranged in the deceleration cavity 34, the outer wall of the driving shaft 28 is provided with a driving gear 33 meshed with the driven gear 32, and one end of the driving shaft 28 far away from the ventilation pipeline 17 is provided with, the speed reducing cavity 34 is internally provided with a speed reducing shaft 24, the outer wall of the speed reducing shaft 24 is provided with a speed reducing worm 25 matched with the speed reducing worm wheel 27, and the speed reducing worm 25 drives the annular chain 31 to rotate.

Beneficially, the air purification device 902 includes a foaming device 20 slidably disposed in the air purification cavity 44, the foaming device 20 is communicated with the garbage can 16 through an air inlet duct 35, a vibration rod 19 is disposed at one end of the foaming device 20 close to the main power cavity 37, an equal-diameter cam 40 is rotatably disposed in the main power cavity 37, a purification slider 21 hinged to the vibration rod 19 is slidably disposed in the main power cavity 37, the equal-diameter cam 40 is matched with the purification slider 21 to drive the equal-diameter cam 40 to rotate, so as to drive the foaming device 20 to oscillate and slide in the air purification cavity 44, so as to improve the efficiency of generating bubbles by the foaming device 20, a purification fan 22 is rotatably disposed in the ventilation pipeline 17, the purification fan 22 continuously exhausts air in the ventilation pipeline 17, so as to form a negative pressure in the air purification cavity 44, so as to continuously pump out the gas in the garbage can 16 and perform purification treatment.

Beneficially, the fixed connection device 903 includes a connection screw 77 slidably disposed in the connection cavity 79, the connection screw 77 is disengaged from the opposite compression plate 53, a connection sleeve 76 engaged with the connection screw 77 is rotatably disposed in the connection cavity 79, so that the connection sleeve 76 drives the connection screw 77 to slide, a connection gear 75 is disposed on an outer wall of the connection sleeve 76, two sets of the fixed cavities 60 are uniformly disposed in the compression slider 54, a fixed sleeve 71 is disposed in the connection cavity 79, a fixed screw 72 engaged with the fixed cavity 60 is slidably disposed in the connection cavity 79, the fixed sleeve 71 drives the fixed screw 72 to slide, a synchronous gear set 74 for driving the connection sleeve 76 and the fixed sleeve 71 to rotate synchronously is disposed in the connection cavity 79, and power transmission is performed between the two sets of the connection sleeve 76 in the compression plate 53 through the second belt set 89, the compression plates 53, the compression sliding blocks 54 and the two sets of compression plates 53 opposite to each other are connected and fixed, an extension shaft 80 is arranged in the auxiliary power cavity 84, an extension gear 78 engaged with the connecting gear 75 is arranged at one end, far away from the compression sliding blocks 54, of the extension shaft 80, and a connecting bevel gear 81 used for driving the fixed connecting device 903 to rotate is arranged at one end, close to the compression sliding blocks 54, of the extension shaft 80.

Advantageously, the containing device 904 comprises a containing shaft 86 disposed in the auxiliary power cavity 84, two ends of the containing shaft 86 away from the auxiliary power cavity 84 are provided with containing gears 88, a fixed gear 87 fixedly connected with the compression slider 54 is disposed in the connecting cavity 79, the fixed gear 87 is meshed with the containing gear 88, a transmission gear 92 for driving the containing shaft 86 to rotate is disposed on an outer wall of the containing shaft 86, and therefore the compression plate 53 is erected without being connected, and the garbage cavity 104 is prevented from being closed.

Advantageously, the auxiliary power device 905 includes an auxiliary motor 85 disposed in the auxiliary power cavity 84, an auxiliary power shaft 94 disposed in the auxiliary power cavity 84 and in power connection with the auxiliary motor 85, an auxiliary sleeve shaft 90 slidably disposed on an outer wall of the auxiliary power shaft 94, an auxiliary bevel gear 82 engaged with the connection bevel gear 81 and disposed at an end of the auxiliary sleeve shaft 90 away from the auxiliary power shaft 94, an auxiliary power gear 91 disengaged from the transmission gear 92 and disposed on an outer wall of the auxiliary sleeve shaft 90, a switching slider 83 slidably disposed in the auxiliary power cavity 84, the auxiliary sleeve shaft 90 rotatably disposed in the switching slider 83, a switching worm wheel 93 disposed on an outer wall of the auxiliary power shaft 94, a switching shaft 97 disposed in the auxiliary power cavity 84, and a switching worm 95 engaged with the switching worm wheel 93 and disposed on an outer wall of the switching shaft 97, the top end of the switching shaft 97 is arranged on a switching cam 96 matched with the switching slider 83, so as to control the auxiliary sleeve shaft 90 to slide.

Advantageously, the compressing device 906 includes a spline shaft 55 disposed in the compressing chamber 56, an ascending chamber 98 is disposed in the bottom end wall of the compressing chamber 56, a compression bevel gear 57 disposed in the ascending chamber 98 is disposed at the bottom end of the spline shaft 55, two sets of the compression screws 65 are uniformly disposed in the compressing chamber 56, an ascending bevel gear 99 disposed in the ascending chamber 98 is disposed at the bottom end of the compression screw 65, a spline sleeve shaft 68 engaged with the spline shaft 55 is disposed in the control chamber 70, a compression gear 69 is disposed on the outer wall of the spline sleeve shaft 68, two sets of screw sleeve shafts 63 engaged with the compression screws 65 are uniformly disposed in the control chamber 70, a descending gear 64 is disposed on the outer wall of the screw sleeve shaft 63, an idle gear 67 disengaged with the descending gear 64 and the compression gear 69 is disposed in the control chamber 70, a compressing shaft 58 is disposed in the ascending chamber 98, a forward bevel gear 59 meshed with the compression bevel gear 57 is arranged on the outer wall of the compression shaft 58, a reverse bevel gear 100 disengaged from the up bevel gear 99 is arranged on the outer wall of the compression shaft 58, a control slider 101 is arranged in the up cavity 98 in a sliding manner, the compression shaft 58 is rotatably arranged on the control slider 101, a compression electromagnetic guide rail 103 used for driving the control slider 101 to slide is arranged on the end wall of the top of the up cavity 98, the compression shaft 58 is further driven to slide, and a compression sleeve shaft 102 used for driving the compression device 906 to rotate is arranged in the up cavity 98.

Advantageously, the compression control device 907 includes an ejector slide block 61 slidably disposed in the fixed cavity 60, a control slide slot 73 is disposed in an end wall of the control cavity 70 on a side away from the compression plate 53, a transmission slide block 62 disengaged from the ejector slide block 61 is slidably disposed in the control slide slot 73, a meshing slide block 66 disengaged from the transmission slide block 62 is slidably disposed in the control slide slot 73, the idle gear 67 is rotatably disposed on the meshing slide block 66, and after the compression plate 53 is connected to the compression slide block 54, the ejector slide block 61 drives the meshing slide block 66 to slide, so that the meshing slide block 66 is meshed with the compression gear 69 and the down gear 64, and the screw sleeve shaft 63 is driven to rotate.

Beneficially, the main power device 908 includes a main motor 36 disposed in the main power cavity 37, a main power gear 39 dynamically connected to the main motor 36 is disposed in the main power cavity 37, a main power shaft 18 is disposed in the main power cavity 37, a transmission gear 38 engaged with the main power gear 39 is disposed on an outer wall of the main power shaft 18, the purifying fan 22 is fixedly connected to the main power shaft 18, the constant diameter cam 40 is fixedly disposed on an outer wall of the main power shaft 18, a main bevel gear 41 is disposed at a bottom end of the main power shaft 18, four groups of transmission shafts 42 are uniformly disposed in the main power cavity 37, one end of each transmission shaft 42 close to the main power shaft 18 is provided with a driven bevel gear 105 engaged with the main bevel gear 41, and power transmission is performed between the transmission shaft 42 and the compression electromagnetic guide rail 103 through a third belt group 43, so as to drive the compression sleeve shaft 102 to rotate, the main power shaft 18 and the speed reducing shaft 24 are in power transmission through a fourth belt set 23, and then the speed reducing shaft 24 is driven to rotate.

In an initial state, the two opposite screening plates 14 are matched to divide the garbage cavity 104 from the annular garbage chute 12, the two opposite compression plates 53 are disengaged, the accommodating gear 88 is disengaged from the fixed gear 87, the auxiliary power gear 91 is engaged with the transmission gear 92, the auxiliary bevel gear 82 is disengaged from the connecting bevel gear 81, the forward bevel gear 59 is engaged with the compression bevel gear 57, and the upward bevel gear 99 is disengaged from the reverse bevel gear 100.

When the equipment is used, the main motor 36 starts to work and drives the main power gear 39 to rotate, then the main power gear 39 drives the transmission gear 38, the main power shaft 18, the equal-diameter cam 40, the main bevel gear 41 and the purifying fan 22 to rotate, then the main power shaft 18 drives the four belt sets 23, the speed reducing shaft 24, the speed reducing worm 25, the speed reducing worm wheel 27, the driving shaft 28, the driving gear 33, the driven gear 32, the driven shaft 30 and the chain wheel 29 to rotate, then the chain wheel 29 drives the annular chain 31 and the dragging plate 13 to rotate around the central axis of the main power shaft 18, when garbage is thrown in, the dragging plate 13 drives the garbage to slide and four groups of cameras 26 sequentially analyze the garbage types, when the garbage is detected to belong to a certain type, the corresponding screening electromagnetic guide rail 48 is electrified and drives the overturning rack 47 to slide, and then drives the overturning gear 46 and the overturning shaft 45 to rotate, and, the turning shaft 45 drives the first belt set 50, the synchronizing shaft 51 and the homodromous gear 52 to rotate so as to drive the screening plates 14 to rotate, the two screening plates 14 are disengaged, the garbage cavity 104 is communicated with the annular garbage groove 12, garbage falls into the garbage can 16, the purifying fan 22 continuously rotates to discharge gas in the ventilation pipeline 17, negative pressure is formed in the air purifying cavity 44, the gas in the garbage can 16 enters the foaming device 20 through the air inlet pipeline 35 to form bubbles, meanwhile, the constant diameter cam 40 drives the purifying slide block 21, the vibrating rod 19 and the foaming device 20 to slide, the generation efficiency of the bubbles is improved, the gas in the garbage can 16 is further purified, meanwhile, the driving bevel gear 41 drives the driven bevel gear 105, the transmission shaft 42, the third belt set 43, the compression sleeve shaft 102, the compression shaft 58, the forward bevel gear 59 and the reverse bevel gear 100 to rotate, the forward bevel gear 59 drives the compression bevel gear 57, the spline shaft 55, the spline sleeve shaft 68 and the compression gear 69 to rotate;

when the garbage in the garbage can 16 is stored to a certain volume, the auxiliary motor 85 starts to work and drives the auxiliary power shaft 94, the switching worm gear 93, the auxiliary sleeve shaft 90, the auxiliary power gear 91 and the auxiliary bevel gear 82 to rotate, then the auxiliary power gear 91 drives the transmission gear 92, the storage shaft 86 and the storage gear 88 to rotate, further drives the compression plate 53 to rotate around the central axis of the fixed gear 87, meanwhile, the switching worm gear 93 drives the switching worm 95, the switching shaft 97 and the switching cam 96 to rotate, after the compression plate 53 rotates ninety degrees, the switching cam 96 drives the switching slider 83 to slide to one side far away from the auxiliary motor 85, further drives the auxiliary sleeve shaft 90, the auxiliary bevel gear 82 and the auxiliary power gear 91 to slide, further disengages the auxiliary power gear 91 from the transmission gear 92, the auxiliary bevel gear 82 is engaged with the connecting bevel gear 81, and further the auxiliary bevel gear 82 drives the connecting bevel gear 81, The extension shaft 80, the extension gear 78, the connecting gear 75 and the connecting sleeve shaft 76 rotate, the connecting sleeve shaft 76 drives the connecting screw 77 to slide, the connecting screw 77 is matched with the opposite compression plate 53, the connecting gear 75 drives the synchronous gear set 74 and the fixed sleeve shaft 71 to rotate, the fixed sleeve shaft 71 drives the fixed screw 72 to slide, the fixed screw 72 is matched with the compression slider 54, the fixed screw 72 is matched with the pushing slider 61 and drives the pushing slider 61, the transmission slider 62, the meshing slider 66 and the idle gear 67 to slide, the idle gear 67 is meshed with the compression gear 69 and the downlink gear 64, meanwhile, the auxiliary motor 85 stops working, the compression gear 69 drives the idle gear 67, the downlink gear 64 and the screw sleeve shaft 63 to rotate, the compression slider 54 is driven to slide downwards, the volume of the garbage in the garbage can 16 is compressed, when the volume of the garbage in the garbage can 16 is compressed to the minimum, the compression electromagnetic guide rail 103 is electrified and drives the control slide block 101, the compression shaft 58, the forward bevel gear 59 and the reverse bevel gear 100 to slide, then the reverse bevel gear 100 is meshed with the up bevel gear 99, the forward bevel gear 59 is disengaged from the compression bevel gear 57, then the reverse bevel gear 100 drives the up bevel gear 99 and the compression screw 65 to rotate reversely, further the compression screw 65 drives the screw sleeve shaft 63, the compression slide block 54 and the compression plate 53 to slide upwards, when the compression slide block 54 slides to the topmost end, the auxiliary motor 85 works reversely and drives the auxiliary power shaft 94, the switching turbine 93, the auxiliary sleeve shaft 90, the auxiliary power gear 91 and the auxiliary bevel gear 82 to rotate reversely, further the auxiliary bevel gear 82 drives the connection bevel gear 81, the extension shaft 80, the extension gear 78, the connection gear 75 and the connection sleeve shaft 76 to rotate reversely, further the connection sleeve shaft 76 drives the connection screw 77 to, further, the connecting screw 77 is disengaged from the opposite compression plate 53, the connecting gear 75 drives the synchronous gear set 74 and the fixed sleeve shaft 71 to rotate, the fixed sleeve shaft 71 drives the fixed screw 72 to slide, the fixed screw 72 is disengaged from the compression slider 54, the fixed screw 72 is disengaged from the pushing slider 61, the engaging slider 66 is disengaged from the compression gear 69 and the down gear 64, the switching worm gear 93 drives the switching worm 95, the switching shaft 97 and the switching cam 96 to rotate in the reverse direction, the auxiliary sleeve shaft 90, the auxiliary bevel gear 82 and the auxiliary power gear 91 are driven to slide, the auxiliary power gear 91 is engaged with the transmission gear 92, the auxiliary bevel gear 82 is disengaged from the connecting bevel gear 81, the auxiliary power gear 91 drives the transmission gear 92, the storage shaft 86 and the storage gear 88 to rotate in the reverse direction, and further drives the compression plate 53 to rotate in the reverse direction around the central axis of the fixed gear 87, when the compression plate 53 is rotated ninety degrees in the reverse direction, the auxiliary motor 85 stops operating.

The invention has the beneficial effects that: the garbage can self-classifying device has the advantages of simple structure, convenience in operation and maintenance, can automatically classify garbage, prevents people with poor quality from directly throwing unsorted garbage into the garbage can, simultaneously reduces the workload of workers in the garbage recycling station, improves the garbage recycling efficiency, and purifies the air in the garbage can and around the garbage can, so that the condition that the air around the garbage can is severe due to the fact that the garbage in the garbage can is fermented under the normal temperature environment is avoided, the air quality around the garbage can is improved, and the garbage can self-classifying device has high use and popularization values.

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 (9)

1. The utility model provides an intelligent classification dustbin for construction of wisdom city, includes the dustbin, its characterized in that: the garbage can is characterized in that a ventilation pipeline is arranged in the garbage can, an annular garbage groove is arranged in the end wall of the outer portion of the ventilation pipeline, a camera used for analyzing the type of garbage is arranged on the end wall of one side, close to the ventilation pipeline, of the annular garbage groove, a garbage screening device used for sorting the garbage is arranged in the annular garbage groove, four groups of garbage cavities communicated with the annular garbage groove are uniformly arranged in the end wall of the bottom of the annular garbage groove, garbage cans used for containing the garbage are arranged in the garbage cavities, a closing door is rotationally arranged in the end wall of one side, far away from the ventilation pipeline, of the garbage cavity, so that workers can take out the garbage cans filled with the garbage conveniently, an air purification cavity communicated with the ventilation pipeline is arranged in the end wall of the bottom of the garbage cavity, an air purification device used for purifying air is arranged in the air purification, the garbage can is characterized in that compression cavities are arranged in the front and rear end walls of the garbage cavity, compression sliders are arranged in the compression cavities in a sliding manner, compression plates are rotatably arranged on one sides of the compression sliders close to the garbage cavity, auxiliary power cavities are arranged in the compression plates, connecting cavities are symmetrically arranged in the front and rear end walls of the auxiliary power cavities, fixed connecting devices for connecting the compression plates with the compression sliders and connecting the two groups of compression plates are arranged in the connecting cavities, accommodating devices for accommodating the compression plates are arranged in the auxiliary power cavities, auxiliary power devices for driving the fixed connecting devices and the accommodating devices to rotate are arranged in the auxiliary power cavities, compression devices for compressing the volume of garbage contained in the garbage can are arranged in the compression cavities, control cavities are arranged in the compression cavities, and compression control devices for controlling the rotation of the compression devices are arranged in the control cavities, the end wall of the bottom of the main power shaft is internally provided with a main power cavity, and a main power device for driving the device to rotate is arranged in the main power cavity.

2. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the garbage screening device comprises a screening plate which is rotatably arranged in the garbage cavity, the garbage cavity is separated from the annular garbage groove by the screening plate, a turnover shaft is arranged at the rear end of the screening plate, a turnover cavity is arranged in the wall of the rear end of the garbage cavity, a turnover gear is arranged at the rear end of the turnover shaft, a synchronizing shaft is arranged in the turnover cavity, the synchronizing shaft and the turnover shaft close to one side of the ventilation pipeline are subjected to power transmission through a belt set, a homodromous gear meshed with the turnover gear far away from one side of the ventilation pipeline is arranged at the rear end of the synchronizing shaft, a screening electromagnetic guide rail is arranged in the turnover cavity, a turnover rack meshed with the turnover gear is slidably arranged on the end wall close to one side of the turnover shaft of the screening electromagnetic guide rail, the screening electromagnetic guide rail controls the turnover rack to slide, and further controls the rotation of the screening plate, eight groups of dragging plates are uniformly arranged at one end of the annular chain, which is far away from the ventilation pipeline, the dragging plates drive garbage thrown from different directions to be isolated and are sequentially analyzed by the cameras, a speed reducing cavity is arranged in the end wall of one side of the annular garbage groove, which is close to the ventilation pipeline, a driven shaft is arranged in the speed reducing cavity, a chain wheel matched with the annular chain is arranged at one end of the driven shaft, which is far away from the ventilation pipeline, a driven gear is arranged at one end of the driven shaft, which is near to the ventilation pipeline, a driving shaft is arranged in the speed reducing cavity, a driving gear meshed with the driven gear is arranged on the outer wall of the driving shaft, one end of the driving shaft, which is far away from the ventilation pipeline, is provided with a reduction worm wheel, a reduction shaft is arranged in a reduction cavity, and a reduction worm matched with the reduction worm wheel is arranged on the outer wall of the reduction shaft, and then the reduction worm drives the annular chain to rotate.

3. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the air purification device comprises a foam maker which is arranged in the air purification cavity in a sliding way, the foam maker is communicated with the garbage can through an air inlet pipeline, a vibrating rod is arranged at one end of the foam maker close to the main power cavity, an equal-diameter cam is rotatably arranged in the main power cavity, a purification slide block hinged with the vibrating rod is arranged in the main power cavity in a sliding manner, the constant diameter cam is matched with the purification slide block, thereby driving the equal-diameter cam to rotate, further driving the foam generator to perform oscillation sliding in the air purification cavity, improving the efficiency of generating bubbles by the foam generator, a purifying fan is arranged in the ventilation pipeline in a rotating way, the purifying fan continuously exhausts the gas in the ventilation pipeline, and then negative pressure is formed in the air purification cavity, so that the gas in the garbage can is continuously pumped out and purified.

4. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the fixed connecting device comprises a connecting screw rod which is arranged in the connecting cavity in a sliding manner, the connecting screw rod is separated from the corresponding compression plate in a matching manner, a connecting sleeve shaft matched with the connecting screw rod is arranged in the connecting cavity in a rotating manner, the connecting sleeve shaft drives the connecting screw rod to slide, a connecting gear is arranged on the outer wall of the connecting sleeve shaft, two groups of fixing cavities are uniformly arranged in the compression slide plate, a fixing sleeve shaft is arranged in the connecting cavity, a fixing screw rod matched with the fixing cavity is arranged in the connecting cavity in a sliding manner, the fixing sleeve shaft drives the fixing screw rod to slide, a synchronous gear group for driving the connecting sleeve shaft and the fixing sleeve shaft to synchronously rotate is arranged in the connecting cavity, power transmission is carried out between the two groups of connecting sleeve shafts in the compression plate through the second belt group, and the compression plate, the compression slide plate and the two groups of compression plates which are opposite are connected and fixed, an extension shaft is arranged in the auxiliary power cavity, an extension gear meshed with the connecting gear is arranged at one end, far away from the compression sliding block, of the extension shaft, and a connecting bevel gear used for driving the fixed connecting device to rotate is arranged at one end, close to the compression sliding block, of the extension shaft.

5. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the storage device comprises a storage shaft arranged in the auxiliary power cavity, storage gears are arranged at two ends of the storage shaft far away from the auxiliary power cavity, a fixed gear fixedly connected with the compression sliding block is arranged in the connection cavity, the fixed gear is meshed with the storage gear, a transmission gear used for driving the storage shaft to rotate is arranged on the outer wall of the storage shaft, and then the compression plate is erected under the condition that the compression plate is not connected, so that the garbage cavity is prevented from being sealed.

6. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the auxiliary power device comprises an auxiliary motor arranged in the auxiliary power cavity, an auxiliary power shaft which is in power connection with the auxiliary motor is arranged in the auxiliary power cavity, an auxiliary sleeve shaft is arranged on the outer wall of the auxiliary power shaft in a sliding manner, an auxiliary bevel gear meshed with the connecting bevel gear is arranged at one end of the auxiliary sleeve shaft, which is far away from the auxiliary power shaft, an auxiliary power gear which is disengaged from the transmission gear is arranged on the outer wall of the auxiliary sleeve shaft, a switching slide block is arranged in the auxiliary power cavity in a sliding manner, the auxiliary sleeve shaft is rotatably arranged in the switching sliding block, the outer wall of the auxiliary power shaft is provided with a switching turbine, a switching shaft is arranged in the auxiliary power cavity, a switching worm matched with the switching turbine is arranged on the outer wall of the switching shaft, the top end of the switching shaft is arranged on a switching cam matched with the switching slide block, and the auxiliary sleeve shaft is further controlled to slide.

7. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the compression device comprises a spline shaft arranged in the compression cavity, an ascending cavity is arranged in the end wall at the bottom of the compression cavity, compression bevel gears positioned in the ascending cavity are arranged at the bottom end of the spline shaft, two groups of compression screws are uniformly arranged in the compression cavity, an ascending bevel gear positioned in the ascending cavity is arranged at the bottom end of the compression screw, a spline sleeve shaft matched with the spline shaft is arranged in the control cavity, compression gears are arranged on the outer wall of the spline sleeve shaft, two groups of screw sleeve shafts matched with the compression screws are uniformly arranged in the control cavity, a descending gear is arranged on the outer wall of the screw sleeve shaft, an idle gear disengaged with the descending gear and the compression gears is arranged in the control cavity, a compression shaft is arranged in the ascending cavity, and a forward bevel gear meshed with the compression bevel gears is arranged on the outer wall of the, the outer wall of the compression shaft is provided with a reverse bevel gear which is separated from the ascending bevel gear, a control slide block is arranged in the ascending cavity in a sliding mode, the compression shaft is arranged on the control slide block in a rotating mode, the end wall of the top of the ascending cavity is provided with a compression electromagnetic guide rail used for driving the control slide block to slide so as to drive the compression shaft to slide, and a compression sleeve shaft used for driving the compression device to rotate is arranged in the ascending cavity.

8. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the compression control device comprises a pushing sliding block which is arranged in the fixed cavity in a sliding mode, a control sliding groove is formed in the end wall of one side, away from the compression plate, of the control cavity, a transmission sliding block which is separated from the pushing sliding block in a sliding mode is arranged in the control sliding groove, a meshing sliding block which is separated from the transmission sliding mode is arranged in the control sliding groove in a sliding mode, the idle wheel is arranged on the meshing sliding block in a rotating mode, and when the compression plate is connected with the compression sliding block, the pushing sliding block drives the meshing sliding block to slide, so that the meshing sliding block is meshed with the compression gear and the downlink gear, and the screw sleeve shaft is driven to rotate.

9. The intelligent classification garbage can for smart city construction according to claim 1, wherein: the main power device comprises a main motor arranged in the main power cavity, a main power gear in power connection with the main motor is arranged in the main power cavity, a main power shaft is arranged in the main power cavity, a transmission gear meshed with the main power gear is arranged on the outer wall of the main power shaft, the purifying fan is fixedly connected with the main power shaft, the constant-diameter cam is fixedly arranged on the outer wall of the main power shaft, a main bevel gear is arranged at the bottom end of the main power shaft, four groups of transmission shafts are uniformly arranged in the main power cavity, a driven bevel gear meshed with the main bevel gear is arranged at one end, close to the main power shaft, of each transmission shaft, power transmission is carried out between each transmission shaft and the compression electromagnetic guide rail through a third belt group, so that the compression sleeve shaft is driven to rotate, and power transmission is carried out between each main power shaft and the corresponding deceleration shaft through a fourth belt group, and then the speed reducing shaft is driven to rotate.

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