CN110789889A - Intelligent garbage station - Google Patents

Abstract

The invention relates to an intelligent garbage station, which comprises at least two garbage receiving devices, wherein the two garbage receiving devices are used for receiving different types of garbage, the garbage receiving devices are respectively provided with a feeding hole and a discharging hole, the discharging holes of the garbage receiving devices are respectively provided with a garbage preprocessing device, the garbage preprocessing device is used for carrying out the preprocessing judgment on the garbage guided out by the garbage receiving devices, the garbage preprocessing device sends a control signal to a processing unit when the garbage guided out by the garbage receiving devices is not in accordance with the set garbage, the processing unit sends a notice to a display of equipment and carries out reminding and/or packs and guides the garbage which is not in accordance with the set garbage by the garbage guiding device, the discharging end of the garbage preprocessing device is connected with the feeding hole of a garbage classification device, the garbage station can pre-classify the garbage, the method plays a role in guiding the public garbage classification habit.

Description

Intelligent garbage station

Technical Field

The invention relates to the technical field of intelligent equipment, in particular to an intelligent garbage station.

Background

The garbage classification treatment is the most fundamental and most effective mode for garbage treatment in many developed countries, and encourages people to make garbage classification as an effective way for garbage pretreatment, the habits of garbage classification are many from preschool education, such as japan and korea in east asia, the garbage classification is deep in the mind of people and is just the habit of people to lose garbage, but the situation of China is special, the population is numerous, the quality difference of population is large, when garbage pre-classification is implemented, simple passing through policies is difficult to operate in actual execution, so that the policy is directed to the current development situation of the China, which is not suitable for the current stage of China, and the cost required when garbage classification is implemented is large;

when garbage is classified in advance, the garbage can only pass the senses of people, and therefore the garbage can does not have the function of garbage pre-classification basically.

Disclosure of Invention

The invention aims to provide an intelligent garbage station which can pre-classify garbage and guide the garbage classification habit of people.

The technical scheme adopted by the invention is as follows.

The utility model provides an intelligent garbage station, includes two at least rubbish receiving arrangement, two rubbish receiving arrangement are used for receiving the rubbish of different grade type, all be provided with feed inlet and discharge gate on the rubbish receiving arrangement, rubbish receiving arrangement's discharge gate position is provided with rubbish preprocessing device respectively, rubbish preprocessing device is used for implementing to carry out the rubbish that rubbish receiving arrangement derived and predetermine in advance, rubbish preprocessing device exports rubbish to rubbish receiving arrangement and sends control signal to the processing unit when inconsistent with the rubbish of settlement, and the processing unit sends the display of notice to equipment to it is derived by rubbish derivation device to remind and/or will not conform to the rubbish of settlement to pack, rubbish preprocessing device's discharge end links up with the feed inlet of rubbish classification device.

The invention has the technical effects that: the garbage is classified integrally, the garbage is divided into two types of recoverable garbage and non-recoverable garbage, the recoverable garbage is put into a recoverable garbage receiving device, the garbage pre-treatment device is used for pre-judging the garbage led out by the garbage receiving device, the garbage classification device is used for further classifying and compressing the recoverable garbage after the identified garbage is the recoverable garbage, the non-recoverable garbage is put into the non-recoverable garbage receiving device, the garbage pre-treatment device is used for pre-judging the garbage led out by the garbage receiving device, the garbage classification device is used for further classifying the non-recoverable garbage after the identified garbage is the non-recoverable garbage, the garbage pre-treatment device is used for pre-judging the garbage led out by the garbage receiving device after the recoverable garbage and the non-recoverable garbage are respectively mistakenly thrown into the corresponding garbage receiving device, and send the notice to in the display that rubbish station set up to show and remind, remind the user to correctly drop into rubbish, and will not conform to the rubbish that sets up and derive and pack by rubbish guiding device, in order reminding the user to correctly put in rubbish, this rubbish station can play the guide to people's rubbish classification custom in advance of rubbish while, play.

Drawings

FIG. 1 is a schematic plan view of an intelligent trash station;

FIGS. 2 and 3 are schematic diagrams of two perspective structures of the intelligent garbage station;

fig. 4 and 5 are schematic diagrams of two visual structures of the garbage receiving device;

fig. 6 and 7 are schematic diagrams of two visual structures of a single garbage receiving device;

FIG. 8 is an enlarged schematic view of a waste pretreatment device;

FIGS. 9 and 10 are schematic structural views of two states of the garbage receiving device and the garbage preprocessing device;

FIG. 11 is a plan view of the garbage pretreatment device with the CCD camera facing upward;

FIG. 12 is a plan view of the garbage pre-treating device with the CCD camera facing down;

fig. 13 to 15 are schematic views of three structures of a CCD collection camera in the garbage pretreatment device;

FIG. 16 is a schematic plan view of the waste extraction device;

fig. 17 and 18 are schematic views of two perspective structures of the garbage packing mechanism in the garbage leading-out device;

FIG. 19 is an enlarged view of I in FIG. 18;

FIG. 20 is a schematic plan view of the refuse exchange guide mechanism;

FIG. 21 is a schematic plan view of the waste exchange guide mechanism after removal from the exchange tube;

fig. 22 to 24 are schematic views of three perspective structures of a garbage exchange material guiding mechanism;

FIG. 25 is a cross-sectional view of the refuse exchange guide mechanism;

fig. 26 and 27 are two perspective structural diagrams of a first one-way locking mechanism in the garbage exchange material guiding mechanism;

fig. 28 and 29 are two perspective structural diagrams of a second one-way locking mechanism in the garbage exchange material guiding mechanism;

fig. 30 is a block diagram of a logical plane structure of the intelligent trash station.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error, legibility and inconsistency; the specific features of the intelligent garbage station are explained in detail below:

an intelligent garbage station comprises at least two garbage receiving devices 10, wherein the two garbage receiving devices 10 are used for receiving different types of garbage, the garbage receiving devices 10 are provided with a feeding hole and a discharging hole, the discharging holes of the garbage receiving devices 10 are respectively provided with a garbage preprocessing device 20, the garbage preprocessing device 20 is used for carrying out pre-judgment on the garbage led out by the garbage receiving devices 10, the garbage preprocessing device 20 sends a control signal to a processing unit when the garbage led out by the garbage receiving devices 10 is not in accordance with the set garbage, the processing unit sends a notice to a display of the equipment and carries out reminding and/or packs and leads out the garbage which is not in accordance with the set garbage by a garbage leading-out device 30, and the discharging end of the garbage preprocessing device 20 is connected with the feeding hole of a garbage classification device 40;

this intelligent garbage station sets up in each community's exit position, makes things convenient for the people to carry out the input of rubbish, for adapting to the national conditions development, is provided with two input ports with intelligent garbage station now, is the rubbish receiving arrangement 10 of two kinds of disposal bags promptly, and one of them is: the recyclable waste receiving device 10 includes: the non-recyclable garbage receiving device 10 is used for classifying the recyclable garbage and the non-recyclable garbage in advance by people and putting the recyclable garbage and the non-recyclable garbage into a feeding hole of the garbage receiving device 10 of the intelligent garbage station;

in the specific operation, as shown in fig. 1 to 5 and fig. 30, the recyclable waste is put into the recyclable waste receiving device 10, the waste pre-treatment device 20 performs pre-determination on the waste derived from the waste receiving device 10, and when the identified waste is recyclable waste, the recyclable waste is further classified and compressed by the waste classification device 40;

the method comprises the steps that non-recyclable garbage is thrown into a non-recyclable garbage receiving device 10, the garbage derived from a garbage receiving device 40 is pre-judged through a garbage pre-processing device 20, and when the recognized garbage is the non-recyclable garbage, the non-recyclable garbage is further classified through a garbage classifying device 40;

when the recoverable garbage and the unrecoverable garbage are mistakenly thrown in the corresponding garbage receiving devices 10 respectively, the garbage preprocessing device 20 is used for carrying out pre-judgment on the garbage led out by the garbage receiving devices 10 and sending a notice to a display arranged in a garbage station to remind a user of indicating, or reminding the user of correctly throwing the garbage in a loudspeaker mode, or leading out the garbage which does not accord with the setting by the garbage leading-out device 30 and packing to remind the user of correctly throwing the garbage, or leading out the garbage in a mode of packing and leading out the garbage by the reminding and garbage leading-out device 30 to remind the user of correctly classifying again;

therefore, the garbage station can pre-classify the garbage and guide the garbage classification habit of people to a certain extent.

As a preferred scheme of the present invention, the discharge port of the garbage pretreatment device 20 is provided with an exchange material guiding mechanism, and the exchange material guiding mechanism is used for guiding the thrown and dislocated garbage to the feed port of the side garbage classification device 40;

after the user puts the unrecoverable garbage into the recyclable garbage receiving device 10 and recognizes the unrecoverable garbage through the garbage preprocessing device 20, the recyclable garbage is guided into the unrecoverable garbage sorting device 40 through the exchange guide mechanism to be further classified, and the user is guided to correctly put the recyclable garbage into the recyclable garbage receiving device 40 only through a broadcasting or display reminding mode, and similarly, after the user puts the recyclable garbage into the unrecoverable garbage receiving device 10 and recognizes the unrecoverable garbage through the garbage preprocessing device 20, the recyclable garbage is guided into the recyclable garbage receiving device 40 through the exchange guide mechanism to be further classified, and the user is reminded to classify through the broadcasting or display reminding mode.

Specifically, the garbage pretreatment device 20 is provided with a garbage raking mechanism, and the garbage raking mechanism is used for raking and dispersing the garbage bags packed in the garbage receiving device 10;

when a part of users classify the garbage, the garbage is put into the garbage bag or the garbage box uniformly, after the garbage is led in from the garbage receiving device 10, the garbage pretreatment device 20 cannot judge the garbage in the plastic bag effectively, and then classification processing cannot be performed, so that the received garbage is torn off through the garbage raking mechanism, the raked garbage is identified through the garbage pretreatment device 20, and when the garbage has unrecoverable garbage or recoverable garbage, the garbage is led out again through the garbage leading-out device 30, the users are reminded to throw the garbage again, and the recoverable garbage and the unrecoverable garbage are classified.

As shown in fig. 4 to 10, as a preferred embodiment of the present invention, the garbage receiving device 10 includes a receiving pipe 11, the receiving pipe 11 is in a bent pipe shape, a pipe orifice at one end of the receiving pipe 11 is horizontal, and a pipe orifice at the other end of the receiving pipe 11 is vertical and downward, a baffle 12 is disposed at the horizontal pipe orifice of the receiving pipe 11, an upper end plate surface of the baffle 12 and the receiving pipe 11 form a rotational connection, and a rotational connection shaft 121 is horizontally arranged;

the user drops into rubbish from the horizontal pipe end of the receiving pipe 11 of the rubbish receiving device 10, and overcome the gravity of baffle 12, make the baffle up end rotate around connecting axle 121, thereby throw rubbish into receiving pipe 11, set up baffle 12 on receiving pipe 11, can effectively avoid the user to drop rubbish into the horizontal pipe end mouth of receiving pipe 11 with the mode of plastic bag packing with rubbish is whole, let as far as possible be used for leading-in this receiving pipe 11 with the mode of single direction rubbish, in order to make things convenient for rubbish preprocessing device 20 to lead into rubbish in the receiving pipe 11 and discern, and then play the effective classification to rubbish.

Furthermore, a material raking rod 13 is arranged on the pipe wall of the receiving pipe 11, the material raking rod 13 is arranged on a rotating shaft, a driving motor drives the rotating shaft to rotate, and the length direction of the rotating shaft is horizontal and is parallel to the connecting shaft 121 of the baffle 12;

in order to ensure that the garbage introduced into the receiving pipe 11 can effectively enter the garbage pretreatment device 20, the driving motor drives the raking rod 13 to rotate, so that the garbage blocked in the pipe cavity of the receiving pipe 11 is introduced into the garbage pretreatment device 20, the introduced garbage can be effectively identified, and the garbage can be classified.

With reference to the enlarged view of fig. 6, in order to turn on and off the motor, a cam 122 is disposed at one end of the connecting shaft 121, a first arc surface 1221 and a second arc surface 1222 are disposed at a rim of the cam 122, a center of the second arc surface 1222 is concentrically disposed with the connecting shaft 121, the first arc surface 1221 is eccentrically disposed with the connecting shaft 121, a proximity switch 123 is disposed beside an outer wall of the receiving tube 11, a rod-type touch switch 1231 is disposed on the proximity switch 123, a return spring 1232 is disposed on the rod-type touch switch 1231, two ends of the return spring 1232 respectively abut against a rod end of the rod-type touch switch 1231 and a housing of the proximity switch 123, the rim of the cam 122 abuts against a rod end of the rod-type touch switch 1231, and the proximity switch 123 is used for controlling the start and stop of the driving motor;

when the user drops into rubbish by the horizontal mouth of pipe of receiving tube 11, rotate baffle 12, make connecting axle 121 rotate, connecting axle 121 pivoted in-process, make cam 122 rotate in step, support with the rod end of rod-type touch switch 1231 when first arc surface 1221, and compress reset spring 1232, support with the rod end of rod-type touch switch 1231 until second arc surface 1222, and then compress to the lowest position, after rod-type touch switch 1231 compresses to the lowest position, proximity switch 123 makes driving motor start, thereby last raking material operation to rubbish, ensure that rubbish can be effectual on leading-in rubbish preprocessing device 20, after baffle 12 resets, make rod-type touch switch 1231 reset, and then the outage of red silk thread to driving motor.

As shown in fig. 9 and 10, a semicircular arc plate 124 is arranged on the lower end surface of the baffle plate 12 extending inwards into the tube cavity, the semicircular arc plate 124 is arranged along the length direction of the lower end surface of the baffle plate 12, sealing rubber plates 125 are arranged on two sides of the horizontal end tube opening of the receiving tube 11, and the outer side plate surface of the baffle plate 12 is abutted against or separated from the sealing rubber plates 125;

an iron core 1251 is embedded in the sealing rubber plate 125, a sealing baffle strip 126 is arranged on the lower pipe wall of the receiving pipe 11, and the sealing baffle strip 126 is abutted against or separated from the lower end plate surface of the baffle plate 12;

the sealing rubber strips 125 and the sealing stop strips 126 are respectively arranged on two sides of the receiving pipe 11 and on the wall of the lower pipe, so that the horizontal pipe end of the receiving pipe 11 is sealed, and odor is prevented from being emitted from the position.

In order to realize effective material raking operation on garbage, the material raking rods 13 are arranged at intervals along the length direction of the rotating shaft, the rod ends of the material raking rods 13 are connected with one end of a spring 131, and the other end of the spring 131 is provided with a material raking hammer head 132;

under the linkage effect through harrow material tup 132 and spring 131 for harrow material tup 132 and rubbish elastic contact back can realize opening the effective harrow of rubbish, avoid blocking up of rubbish, come in order to ensure that rubbish can preliminary dispersion, and the elasticity of spring 131 is raised and is stirred, can effectively realize opening the stirring of the rubbish of gathering together.

As shown in fig. 5 to 10, in order to effectively implement the pretreatment of the garbage in the pipe cavity of the receiving pipe 11, the garbage pretreatment device 20 includes a receiving plate 21 disposed at a vertical pipe opening of the receiving pipe 11 of the garbage receiving device 10, one side of the receiving plate 21 is connected to the pipe wall of the receiving pipe 11 through a hinge shaft 211, the receiving plate 21 is connected to a rotating mechanism, the rotating mechanism drives the receiving plate 21 to rotate around the hinge shaft 211, and the surface of the receiving plate 21 is in a horizontal state and a vertical state;

after the garbage is guided into the receiving pipe 11, the receiving plate 21 rotates and the surface of the receiving plate is horizontal, so that the garbage receiving operation is achieved, the garbage is conveniently identified, after the identified garbage sets the garbage for the garbage receiving device 10, the receiving plate 21 resets and is in a vertical state, so that the garbage is avoided, and the garbage is further classified in the garbage classification device 40.

As shown in fig. 7, in order to facilitate the garbage pretreatment device 20 to accurately identify the garbage, the garbage raking mechanism includes a plurality of groups of raking claws 22 disposed on the upper surface of the receiving plate 21, the raking claws 22 are connected to a linkage mechanism, and the linkage mechanism links the raking claws 22 to move toward or away from each other and perform raking action on the garbage bag;

when the receiving plate 21 rotates around the hinge shaft 211, the surface of the receiving plate 21 is horizontal and performs the receiving operation of the garbage in the leading-in receiving pipe 11, and the multiple groups of raking claws 22 of the garbage raking mechanism are far away, so that the further raking operation of the garbage is realized, and the effective recognition of the garbage by the garbage recognition mechanism is ensured.

Further, as shown in fig. 8, in order to realize the turning driving of the material receiving plate 21, the rotating mechanism includes a rotating gear 212 disposed on the hinge shaft 211, the rotating gear 212 is engaged with a rack 213, the rack 213 is vertically disposed, and the upper end of the rack is connected to the piston rod of the electric cylinder 214;

articulated shaft 211 rotary type sets up on the orificial pipe wall of lower extreme of material receiving pipe 11, through starting electric cylinder 214 to make articulated shaft 211 rotate, and then make material receiving plate 21 present level and vertical two kinds of states, thereby realize connecing the material and two kinds of action states of unloading to rubbish.

Further, as shown in fig. 7 and 8, a plurality of strip-shaped holes 210 are formed in the material receiving plate 21, the length directions of the strip-shaped holes 210 and the material receiving plate 21 are the same, a sliding block 221 is slidably disposed in the strip-shaped holes 210, the raking claw 22 is disposed on the sliding block 221, a guide sliding rod 222 is disposed on the sliding block 221 in a suspended manner, the length direction of the guide sliding rod 222 is horizontal and parallel to the length direction of the material receiving plate 21, a guide plate 215 is disposed on the outer plate surface of the material receiving plate 21, the rod end of the guide sliding rod 222 and the guide plate 215 form a sliding fit, a guide spring 223 is sleeved on the guide rod 222, and two ends of the guide spring 223 respectively abut against the sliding block 221 and the guide plate 215;

when the receiving plate 21 is in a horizontal state and the garbage receiving operation is performed, the sliding block 221 slides along the strip-shaped hole 210 and compresses the guide spring 223, so that the raking claw 22 is kept away, the garbage is raked to two sides, the garbage is raked to be uniform, the garbage on the receiving plate 21 is identified by the identification mechanism, and when the receiving plate 21 rotates and the receiving plate 21 is made to be vertical, the guide spring 223 acts on the guide spring 223, so that the raking claw 22 is linked to reset.

Further, as shown in fig. 8, the linkage mechanism includes a linkage folded plate 224 connected to the slider 221, the linkage folded plate 224 includes a first vertical plate section, an inclined plate section and a second vertical plate section, the outer plate surface of the receiving plate 21 extends to form a support plate 216, the support plate 216 is slidably provided with a driving support plate 217, the driving support plate 217 extends to form a driving roller 218, the wheel surface of the driving roller 218 abuts against one side plate surface of the linkage folded plate 224, and the linkage slider 221 slides on the strip-shaped hole 210;

the linkage folding plate 224 integrally forms an inverted 'splayed' shape with a large upper opening and a small lower opening, the driving support plate 217 moves along the extension direction of the linkage folding plate 224, so that the driving roller 218 abuts against the linkage folding plate 224, the guide spring 223 is compressed, the raking claw 22 is far away from each other along the strip-shaped hole 210, and the raking effect on garbage is realized, when the driving support plate 217 moves reversely along the support plate 216, the linkage folding plate 224 is close to each other under the elastic force action of the guide spring 223, and the resetting of the raking claw 22 is realized.

The upper end of the rack 213 and the transition rod 23, the transition rod 23 extends vertically and upwardly, the transition rod 23 is slidably disposed in the transition pipe 24, a transition spring 25 is disposed in a pipe cavity of the transition pipe 24, the upper end and the lower end of the transition spring 25 are respectively abutted against the upper end of the transition pipe 24 and the upper rod end of the transition rod 23, the upper end of the transition pipe 24 is connected with a piston rod of the electric cylinder 214, an abutting roller 241 extends from the outer wall of the transition pipe 24, the wheel core of the abutting roller 241 is horizontal, a driving inclined plate 2171 extends from the driving support plate 217, the driving inclined plate 2171 is abutted against the abutting roller 241, and the driving support plate 217 is located on the support plate 216 to slide reciprocally;

as shown in fig. 9 and 10, when the electric cylinder 214 is energized, the transition pipe 24 moves downward, and the transition rod 23 moves downward, thereby realizing the turnover of the material receiving plate 21, when the material receiving plate 21 is turned over to the horizontal state, the transition pipe 24 continuously moves downwards so as to compress the transition spring 25, so that the transition tube 24 can move further downward, as the abutment rollers 241 on the transition tube 24 abut the drive ramp 2171, thereby causing the driving bracket plate 217 to slide in the horizontal direction of the driving bracket plate 217, thereby realizing the opening operation of the linkage folded plate 224, realizing the separation of the raking claw 22, thereby realizing the raking operation of the garbage to ensure the effective garbage identification operation of the garbage identification mechanism, when the electric cylinder 214 is reset, the material receiving plate 21 is reset, and then the material receiving plate 21 is reset by the harrowing claw 22, and the material receiving plate 21 is reset, so that the unloading operation of the garbage on the material receiving plate 21 is realized.

As shown in fig. 11 to fig. 15, in order to realize effective recognition of garbage, the garbage preprocessing device 20 is further provided with a garbage scanning mechanism, the garbage scanning mechanism includes a CCD collection camera 28, the CCD collection camera 28 is disposed on a turning unit, the turning unit is started and is linked with the CCD collection camera 28 to point to the garbage on the garbage preprocessing device 20, the CCD collection camera 28 transmits collected image signals to a processing unit, the processing unit judges whether an image is of a set garbage type, if not, the garbage is packed and guided out by the garbage guiding device 30, if so, the garbage is guided out to the garbage classifying device 40 for classification;

the garbage sorting device comprises an industrial CCD camera, a garbage sorting device and a garbage exchange and guide mechanism, wherein the industrial CCD camera is used for recognizing garbage, the CCD camera 28 is used for recognizing the garbage on a material receiving plate 21, after the garbage recognition is finished, image information is transmitted to a processing unit to be processed and judged, the image information is judged with a pre-introduced image, so that the garbage leading-out device 30 and the garbage exchange and guide mechanism are controlled to act, when the introduced garbage is unset garbage, the garbage leading-out device 30 acts to lead out and pack the garbage, so as to remind a user to throw the garbage again, when the introduced garbage is set garbage, the material receiving plate 21 resets, so that the garbage is led into the garbage sorting device 40 to be further sorted, the acting principle is similar to that of a color sorter, and after the garbage is recognized by the industrial CCD camera, each subsequent mechanism is started to act.

Specifically, as shown in fig. 4 and fig. 6, in order to turn over the CCD capturing cameras 28, the CCD capturing cameras 28 are equidistantly distributed in a camera housing 281, two ends of the camera housing 281 are provided with rotating shafts 2811, the rotating shafts are rotatably disposed on the pipe wall of the receiving pipe 11, the shaft end of the hinge shaft 211 of the material receiving plate 21 is provided with a linking gear 210, the rotating shaft of the camera housing 281 is provided with a driven gear 2812, the hinge shaft 211 of the material receiving plate 21 rotates and links the camera housing 281 to rotate, and the camera housing 281 is provided with an ash removing mechanism for removing the housing;

when the electric cylinder 214 is started, the hinge shaft 211 rotates, and the linkage camera housing 281 synchronously rotates and stops along with the rotation stop of the material receiving plate 21, when the material receiving plate 21 rotates to a horizontal state, the CCD collecting camera 28 faces the garbage on the material receiving plate 21, so that the garbage on the material receiving plate 21 is identified, and after the identification is finished, the subsequent mechanisms are controlled to act, so that the subsequent treatment of the garbage is realized.

In order to realize the guiding of the garbage, the garbage guiding device 30 comprises a guiding pipe 31 arranged below the receiving pipe 11, the guiding pipe 31 is in a herringbone shape, a gate 32 is arranged at the connecting position of two pipe orifices at the upper end of the upper guiding pipe 31, the gate 32 and one pipe orifice at the upper end of the guiding pipe 31 form abutting or separating fit, a garbage packing mechanism is arranged at the discharge end at the lower end of the guiding pipe 31, and the garbage packing mechanism is used for packing the garbage;

when the CCD collecting camera 28 identifies that the garbage on the material receiving plate 21 exists or the garbage on the material receiving plate 21 is not set, the material receiving plate 21 is reset vertically, so that the rated garbage falls on the delivery pipe 31, the gate 32 in two pipe orifices at the upper end of the delivery pipe 31 is turned over and reset to the other pipe orifice, so that the delivery pipe 31 is delivered from one pipe orifice and delivered into the garbage packing mechanism for packing again, and the problem of disorder caused by excessive delivery of the garbage is avoided;

as shown in fig. 14 and 15, the above-mentioned camera housing 281 is provided with a glass cover 282 at the collecting end, a scraper plate 283 is provided on the glass cover 282, and when the camera housing 281 is turned upside down and the glass cover 282 is turned downward, the end of the scraper plate 282 abuts against the glass cover 282 and performs a dust scraping operation on the glass cover 282;

the hinge shaft 211 rotates to enable the camera housing 281 to synchronously turn over through the driven gear 2812 of the linkage gear 210, so that the CCD camera inclines upwards in an inapplicable state and is isolated from the outside, the glass mask 282 is prevented from being polluted by sewage, and when the CCD is required to collect image information, the CCD collecting camera 28 turns downwards in an inclined way and points to the material receiving plate 21 to realize the garbage identification;

4 CCD collection cameras 28 are arranged along the length direction of the camera housing 281 at intervals, the opening surface of the camera housing 281 is arranged obliquely, the glass cover 282 is arranged in the oblique opening surface of the camera housing 281, and the collection end of the CCD collection camera 28 is parallel to the direction of the opening;

as shown in fig. 13 to 15, sliding rails 284 are disposed on two sides of the camera housing 281, a length direction of the sliding rails 284 is consistent with an inclined direction of an inclined opening of the camera housing 281, and two ends of the scraper plate 283 are slidably disposed in the sliding rails 284 through a connection mechanism;

when the camera housing 281 is turned over with the glass cover 282 facing downwards, the scraper plate 283 can move along the material sliding rail 284, and due to the inclined arrangement of the glass cover 282, a component force exists along the length direction of the material sliding rail 284 under the action of gravity, so that the end of the scraper plate 282 abuts against the end of the scraper plate 282 and slides along the glass cover 282, and a self-cleaning operation of the glass cover 282 is realized;

the sliding rail 284 is provided with a sliding hole 2841, the sliding hole 2841 is a rectangular hole and is arranged along the length direction of the sliding rail 284, the two ends of the scraper plate 283 extend to form supporting rods 2831, the rod end of each supporting rod 2831 extends to form the sliding hole 2841, the extending end of each supporting rod 2831 is provided with a rolling bearing 2832, and the rolling bearing 2832 can effectively reduce the running resistance of the scraper plate 283 along the rail, so that the scraper plate 283 can be driven by no external force to move along the length direction of the glass mask 282, and the ash removal operation of the glass mask 282 is realized;

when the camera housing 281 is turned over until the glass mask 282 faces upwards, under the action of the self gravity of the scraper plate 283, the scraper plate 283 can move reversely along the length direction of the material sliding rail 284, so as to realize further dust cleaning operation on the glass mask 282;

the slide hole 2841 is a strip-shaped hole, the width of the slide hole 2841 is slightly greater than the diameter of the rolling bearing 2832, when the camera housing 281 is turned over to the glass mask 282 upwards, under the action of gravity, the extrusion pressure of the scraping adhesive tape at the plate end of the scraping plate 283 and the glass mask 282 can be further improved, and the scraping reliability of the glass mask 282 is further realized.

A connecting rod 2833 also extends from the supporting rod 2831, the connecting rod 2833 extends to the middle position of the back surface of the camera housing 281, a counterweight 2834 is hinged to the connecting rod 2833, and the counterweight 2834 can ensure the normal sliding of the scraper plate 283 along the sliding hole 2841 of the material sliding rail 284, so as to ensure the effective dust cleaning operation of the glass mask 282.

As shown in fig. 16, in order to classify the garbage, the garbage packing mechanism includes a garbage bag opening mechanism and a garbage bag feeding mechanism, the garbage bag opening mechanism includes first and second adsorption plates 331 and 332, the first and second adsorption plates 331 and 332 are arranged vertically and oppositely, the first and second adsorption plates 331 and 332 are respectively disposed at two sides of the outlet pipe 31, the garbage bag feeding mechanism is disposed below the first and second adsorption plates 331 and 332, and the first and second adsorption plates 331 and 332 move relatively or away from each other; the first adsorption plate 331 and the second adsorption plate 332 are respectively communicated with an air inlet of an air extractor through air pipes, the first adsorption plate 331 is arranged on a piston of a first rodless cylinder 333, the second adsorption plate 332 is arranged on a piston of a second rodless cylinder 334, and the first rodless cylinder 333 is parallel to the rod length direction of the second rodless cylinder 334 and is vertical to the conveying direction of the delivery pipe 31;

when the delivery pipe 31 delivers the garbage, the first rodless cylinder 333 and the second rodless cylinder 334 are started to open the garbage bag, so that the garbage bag is loaded, and after the garbage bag is loaded, the garbage bag is delivered from the opening, and the user is reminded to deliver the garbage again, so that the user is reminded to deliver the garbage correctly.

Further, as shown in fig. 16, in order to realize the feeding operation of the garbage bags, the garbage bag feeding mechanism includes two material supporting rods 34 disposed behind and below the discharge port of the discharge pipe 31, the material supporting rods 34 are horizontal and perpendicular to the conveying direction of the discharge pipe 31, the material supporting rods 34 are connected to a lifting mechanism, and the lifting mechanism drives the material supporting rods 34 to lift and move close to or away from the gap between the first and second adsorption plates 331 and 332;

be provided with two perforations on the disposal bag, disposal bag pile up together, prop material pole 34 and wear to put on the disposal bag and in two perforations, thereby realize the level and smooth support to the disposal bag, start an adsorption plate action, thereby adsorb a disposal bag on propping material pole 34, and elevating system moves, thereby make material pole 34 descend, another adsorption plate is close to, thereby realize the adsorption operation to disposal bag another side, keep away from the back when two adsorption plates, thereby realize the operation of strutting to the disposal bag, make things convenient for rubbish can drop into and pack in the disposal bag, with the realization to the packing of rubbish, and on display or public address loudspeaker, indicate the user to classify rubbish, in order to correctly put in rubbish.

The material supporting rods 34 are provided with abutting plates 341 in a sliding manner, and the abutting plates 341 are arranged along the two material supporting rods 34 in a sliding manner; the abutting plate 341 is vertical in plate surface and extends with a first sliding rod 342 and a second sliding rod 343, the first sliding rod 342 and the second sliding rod 343 are horizontal and parallel to the material supporting rod 34, a frame plate 344 is arranged at the rod end of the material supporting rod 34, sliding fit is formed between the rod ends of the first sliding rod 342 and the second sliding rod 343 and the frame plate 344, a spring 3421 is sleeved on the first sliding rod 342, two ends of the spring 3421 are respectively abutted against the abutting plate 3411 and the frame plate 344, a locking mechanism is arranged between the second sliding rod 343 and the frame plate 344, and when the rod end of the second sliding rod 343 extends out of a side plate of the frame plate 344 for the longest length, the locking mechanism locks the second sliding rod 343;

in order to realize the effective feeding of the garbage bag, so that the garbage bag is pulled out from the material supporting rods 34 in a flat posture, the abutting plate 341 is always abutted against one side surface of the garbage bag by the spring 3421 to ensure the flatness of the garbage bag, when the garbage bag needs to be installed, the first and second sliding rods 342 and 343 are pulled, so that the locking mechanism locks the second sliding rod 343, thereby facilitating the garbage bag to be sleeved on the two material supporting rods 34, when the locking mechanism is released, the abutting plate 341 performs the abutting action on the garbage bag to abut against the garbage bag, and the adsorption plate is started, thereby realizing the adsorption on one side surface of the garbage bag, and pulling the garbage bag off from the material supporting rods 34.

As shown in fig. 19, in order to lock the second sliding rod 343, the locking mechanism includes a bearing seat 3441 disposed on the frame plate 344, a locking pipe 3442 is disposed on the bearing seat 3441, the bearing seat 3441 and the locking pipe 3442 are concentric, a locking rod 3431 is vertically disposed on a shaft of the second sliding rod 343, an escape slot 34421 for the locking rod 3431 to pass through is disposed on an inner wall of the locking pipe 3442, the second sliding rod 343 slides along a tube core formed by the bearing seat 3441 and the locking pipe 3442, and when the locking rod 3431 extends out of a tube opening at one end of the locking pipe 3442, the locking pipe 3442 rotates and makes the locking rod 3431 abut against the tube opening of the locking pipe 3442;

when the disposal bag needs to be replaced, through pulling first and second sliding rods 342, 343, make tapered end pole 3431 and locking pipe 3442's mouth of pipe support and lean on, thereby avoid first and second sliding rod 342, 343 to reset, and then can conveniently wear to overlap the disposal bag on vaulting pole 34, wear to overlap the back that finishes when the disposal bag, rotate locking pipe 3442, make tapered end pole 3431 correspond with the notch of dodging groove 34421, under the spring action of spring 3421, thereby realize first and second sliding rod 342, 343 to reset, and then realize compressing tightly two vaulting poles 34, and then make the disposal bag open the flat, in order to ensure to the absorption of disposal bag and tear out.

Further, in order to realize the rotation of the locking pipe 3442 and the locking and unlocking operation of the second sliding rod 343, the outer wall of the locking pipe 3442 is provided with a locking gear ring 34422, the locking gear ring 34422 is engaged with a gear rack 345, the gear rack 345 is horizontal in the length direction and parallel to the guiding direction of the guiding pipe 31, the gear rack 345 is slidably engaged with the rail 3451, one end of the gear rack 345 is hinged with one end of a first connecting rod 3452, the other end of the first connecting rod 3452 is hinged with a first supporting rod on an adjusting turntable 3453, the adjusting turntable 3453 is provided with a second supporting rod, the first supporting rod and the second supporting rod are obtuse angles, the rod end of the second supporting rod 345 is hinged with one end of a second connecting rod 3454, the other end of the second connecting rod 3454 is hinged with one end of an adjusting sliding rod 3455, the rod body of the adjusting sliding rod 3455 is slidably arranged in a strip-shaped hole 34561 of the adjusting chute plate 3456, the hinge shafts at the two ends of the first connecting rod 3452 and the second connecting rod 3454 are horizontal and vertical to the conveying direction of the delivery pipe 31;

by shifting the adjusting slide bar 3455, the rack 345 slides on the rail 3451, and the locking pipe 3442 rotates, so as to unlock and lock the sliding return of the second slide bar 343.

Specifically, one ends of the first and second sliding rods 342, 343 extending out of the frame plate 344 are connected into a whole through a dragging handle 346, the adjusting chute plate 3456 is fixed on the dragging handle 346, one end of the adjusting chute plate 3456 is provided with a return sliding rod 347, a rod end of the return sliding rod 347 forms a sliding fit with a rod body of the adjusting sliding rod 3455, the return sliding rod 347 is perpendicular to the adjusting sliding rod 3455, the return sliding rod 347 is sleeved with a return spring 3471, two ends of the return spring 3471 respectively abut against the adjusting chute plate 3456 and the adjusting sliding rod 3455, and a length direction of the strip-shaped hole 34561 is parallel to a length direction of the guide pipe 31.

In order to realize the lifting operation of the material supporting rod 34, the rod ends of the material supporting rod 34 are connected into a whole through the frame plate, the lifting mechanism comprises a piston rod connected with a lifting electric cylinder 35, and the piston rod of the lifting electric cylinder 35 is vertically arranged so as to realize the supporting and the lifting operation of the material supporting rod 34.

As another embodiment of the present invention, referring to fig. 20 to 29, in order to exchange the garbage which is staggered with each other, the discharge port of the garbage preprocessing device 20 is provided with an exchange guide mechanism which includes an exchange tube 29 disposed below the outlet of the receiving tube 11 of the garbage receiving device 10, two inlets are disposed on the exchange tube 29, two inlets of the exchange tube 29 are provided with material poking rollers 291, the roller core of the material poking rollers 291 is horizontal, the roller body is provided with a material poking plate 292, one end surface of the material poking plate 292 is arranged along the roller length direction of the material poking rollers 291, and the driving unit drives the material poking rollers 291 to rotate;

when the garbage introduced into the garbage receiving device 10 is non-set garbage, the outlet of the receiving pipe 11 is provided with the exchange pipe 29, so that the material shifting roller 291 at the position of the exchange pipe 29 enables the garbage introduced into the pipe orifice at the lower end of the receiving pipe 11 to be guided out from one outlet of the exchange pipe 29 to the garbage classification device 40 at a correct set position for classification, when the garbage introduced into the garbage receiving device 10 is set garbage, the garbage discharge port of the garbage receiving pipe 11 is introduced into the pipe orifice of the exchange pipe 29, the material shifting roller 291 is started to rotate, the material shifting roller 291 rotates in a reverse direction, the material shifting plate 292 drives the garbage to further classify towards the exchange pipe 20 and the garbage classification device 40 where the garbage receiving device 10 is located, and further processing of the garbage is achieved.

The kick-out plate 292 is composed of a plurality of unit rods, the unit rods are arranged along the radial direction of the kick-out roller 291, and the unit rods are arranged along the length direction of the kick-out roller 291 and in a coplanar manner;

a material shifting spring 293 is arranged at the rod end of the unit rod, a material shifting head 294 is arranged at the end part of the material shifting spring 293, the position of a feed inlet of the exchange tube 29 is arranged in a hole expanding shape, and an avoiding opening 295 for avoiding the material shifting head 294 is arranged on the inner wall of the feed inlet of the exchange tube 29;

the material poking plate 292 formed by the unit rods can effectively realize the material raking operation of the garbage, and the material poking head 294 arranged at the front end of the material poking spring 293 can effectively realize the elastic extrusion of the garbage, so that the garbage is guided to the position of the pipe orifice of the exchange pipe 29, and the material guiding operation of the garbage is further realized;

in order to further push the garbage led into the exchange tube 29, two ends of the material stirring roller 291 are rotatably arranged on the tube wall of the exchange tube 29, one end of the material stirring roller 291 extending out of the tube wall of the exchange tube 29 is connected with the first rotating rod 296, and the other end of the material stirring roller 291 is connected with the second rotating rod 297;

with reference to the two enlarged views in fig. 25, the first rotating rod 296 is connected to a first linkage mechanism, the first linkage mechanism is connected to a first material raking plate 298, the first material raking plate 298 is transversely arranged in one pipe orifice of the exchange pipe 29, the first linkage mechanism drives the first material raking plate 298 to reciprocate in the pipe orifice of the exchange pipe 29, a first one-way locking mechanism is arranged between the material stirring roller 291 and the first rotating rod 296, when the material stirring roller 291 is in forward transmission, the material stirring roller 291 and the first rotating rod 296 are locked and synchronously rotate by the first one-way locking mechanism, when the material stirring roller 291 is in reverse rotation, the material stirring roller 291 and the first rotating rod 296 are unlocked and rotate relatively;

the second rotating rod 297 is connected with a second linkage mechanism, the second linkage mechanism is connected with a second rake material plate 299, the second rake material plate 299 is transversely arranged in the other pipe orifice of the exchange pipe 29, the second linkage mechanism drives the second rake material plate 299 to be located in the pipe orifice of the exchange pipe 29 to reciprocate, a second one-way locking mechanism is arranged between the material stirring roller 291 and the second rotating rod 297, when the material stirring roller 291 reversely rotates, the second one-way locking mechanism enables the material stirring roller 291 and the second rotating rod 297 to be locked and synchronously rotate, and when the material stirring roller 291 reversely rotates, the second one-way locking mechanism enables the material stirring roller 291 and the second rotating rod 297 to be unlocked and relatively rotate;

during the process that the power mechanism drives the stirring roller 291 to rotate, garbage led into the pipe orifice of the exchange pipe 29 is stirred into a pipe cavity at the lower end of the exchange pipe, during the rotation process of the stirring roller 291, one end of the stirring roller 291 is connected with the second rotating rod 297 through the second one-way locking mechanism, at the moment, the stirring roller 291 rotates in the positive direction, so that the second one-way locking mechanism is unlocked with the second rotating rod 297, and further the stirring roller 291 can rotate on the exchange pipe 29, relative rotation is generated between the second rotating rod 297 and the stirring roller 291, so that normal rotation of the stirring roller 291 is not affected, during the forward rotation process of the stirring roller 291, the first unit locking mechanism locks the first rotating rod 296 with the stirring roller 291, so that the first rotating rod 296 rotates synchronously with the stirring roller 291, the first linkage mechanism acts, and thereby linking the first scraper to move along the pipe cavity at the lower end of the exchange pipe 29, the garbage is pushed out to realize the pushing of the garbage and the function of garbage exchange or normal guiding;

similarly, when the material stirring roller 291 needs to rotate reversely, the material stirring roller 291 guides the garbage out of another pipe orifice at the lower end of the exchange pipe 29, and during the process of reverse rotation of the material stirring roller 291, the second one-way locking mechanism and the second rotating rod 297 are locked, the second rotating rod 297 and the material stirring roller 291 rotate synchronously, during the process of forward rotation of the material stirring roller 291, the first unit locking mechanism unlocks the first rotating rod 296 and the material stirring roller 291, so that the first rotating rod 296 rotates relative to the material stirring roller 291, the first rotating rod 296 stops rotating, and during the process of rotation of the second rotating rod 297, the second raking plate 299 is linked to move along another pipe cavity at the lower end of the exchange pipe 29, so that the garbage is pushed out, and the garbage exchange or normal guiding function is realized;

the garbage pushing device is ingenious in structure, garbage can be pushed through normal rotation of the material poking roller 291, and the number of the power mechanisms can be reduced.

As a preferable aspect of the present invention, the first one-way locking mechanism includes a first pawl 2911 provided at one end of the material shifting roller 291, one end of the first pawl 2911 is hinged to one end of the material shifting roller 291, and a hinge shaft is parallel to the material shifting roller 291, one end of the material shifting roller 291 is rotatably provided with a first ratchet plate 2912, ratchet teeth of the first ratchet plate 2912 are arranged along an inner ring of the first ratchet plate 2912, the first pawl 2911 is engaged with the ratchet teeth of the first ratchet plate 2912, and the first ratchet plate 2912 is connected to one end of a first rotating rod 296;

when the material stirring roller 291 rotates forwards, the first pawl 2911 abuts against the ratchet arranged at the inner ring of the first ratchet wheel 2912 sleeved at the roller end of the material stirring roller 291, so that the first ratchet wheel 2912 and the first pawl 2911 are locked, the material stirring roller 291 and the first rotating rod 296 are locked, and when the first rotating rod 296 rotates normally, the first material stirring plate 298 is pushed forwards and backwards, and the garbage is pushed out from the lower end pipe opening of the exchange pipe 29;

as shown in fig. 26 and fig. 27, the pawls provided in the inner ring of the first pawl plate 2912 are arranged at equal intervals along the circumferential direction, and during the forward rotation of the material stirring roller 291, the first pawls 2911 can be effectively locked with the first ratchet plate 2912, and when the material stirring roller 291 rotates reversely, the first pawls 2911 can form a back-way with the pawls in the inner ring of the first ratchet plate 2912, so that the unlocking of the first one-way locking mechanism is realized, and the relative rotation between the material stirring roller 291 and the first rotating rod 296 is realized;

similarly, the second one-way locking mechanism comprises a second pawl 2913 arranged at the other end of the material stirring roller 291, one end of the second pawl 2913 is hinged to one end of the material stirring roller 291, a hinged shaft of the second pawl 2913 is parallel to the material stirring roller 291, one end of the material stirring roller 291 is rotatably provided with a second ratchet wheel plate 2914, the ratchet teeth of the second ratchet wheel plate 2914 are arranged along the inner ring of the second ratchet wheel plate 2914, the second pawl 2913 is matched with the ratchet teeth of the second ratchet wheel plate 2914, and the second ratchet wheel plate 2914 is connected with one end of a second rotating rod 297;

when the material stirring roller 291 rotates forwards, the second pawls 2913 avoid the ratchets in the inner ring of the second ratchet wheel 2914, so that the material stirring roller 291 can normally rotate in the second ratchet wheel 2914, when the material stirring roller 291 rotates reversely, the second pawls 2913 abut against the ratchets of the second ratchet wheel 2914, so that the material stirring roller 291 is locked with the second ratchet wheel 2914, the second rotating rod 297 rotates synchronously by linkage, and in the process of synchronous rotation of the second rotating rod 297, the second material raking plate 299 is pushed back and forth, so that the garbage is pushed out from the garbage in another pipe port at the lower end of the exchange pipe 29;

as shown in fig. 28 and fig. 29, the pawls provided on the inner ring of the second pawl plate 2914 are arranged at equal intervals along the circumferential direction, and during the reverse rotation of the material stirring roller 291, the second pawls 2913 can be effectively locked with the second ratchet plate 2914, and when the material stirring roller 291 rotates forward, the second pawls 2913 can form an escape with the pawls on the inner ring of the second ratchet plate 2914, so that the unlocking of the second one-way locking mechanism is realized, and the relative rotation between the material stirring roller 291 and the second rotating rod 297 is realized;

in order to guide the first pawl 2911 and the second pawl 2913 into the ratchet teeth of the inner ring of the first ratchet wheel 2912 and the ratchet teeth of the inner ring of the second ratchet wheel 2914 respectively in a vertical posture, a first torsion spring is arranged on a hinge shaft of the first pawl 2911, and a second torsion spring is arranged on a hinge shaft of the second pawl 2913;

the first torsion spring and the second torsion spring enable the first pawl 2911 and the second pawl 2913 to be respectively led into the ratchets in the inner ring of the first ratchet wheel 2912 and the ratchets in the inner ring of the second ratchet wheel 2914 in a vertical posture, so that a locking function is achieved, when the material stirring roller 291 rotates reversely, the hinged shaft of the first pawl 2911 is compressed, the first pawl 2911 and the ratchets in the inner ring of the first ratchet wheel 2912 abut against and are separated, unlocking is achieved, when the material stirring roller 291 rotates normally, the hinged shaft of the second pawl 2913 is compressed, the second pawl 2913 and the ratchets in the inner ring of the second ratchet wheel 2914 are separated, and unlocking is achieved.

In order to avoid the rotation of the first pawl 2911 and the second pawl 2913, one end of the material stirring roller 291 is provided with a first notch 291a, the first pawl 2911 is rotatably arranged in the first notch 291a, the other end of the material stirring roller 291 is provided with a second notch 291b, and the second pawl 2913 is rotatably arranged in the second notch 291 b.

As a preferable scheme of the present invention, one end of the material stirring roller 291 is provided with a first support bearing 291c, and an outer ring of the first support bearing 291c abuts against an inner ring of the first ratchet wheel 2912;

the first support bearing 291c arranged at the end of the material stirring roller 291 can effectively support the first rotating rod 296 in a rotating manner, so that the first rotating rod 296 can be limited, and the first rotating rod 296 can be effectively supported in a rotating manner;

similarly, the other end of the material stirring roller 291 is provided with a second support bearing 291d, and the outer ring of the second support bearing 291d abuts against the inner ring of the second ratchet wheel 2914; the second support bearing 291d can effectively realize the rotational support of the second rotating lever 297, providing stable and effective rotational support of the second rotating lever 297.

In order to realize the rotational support of the first rotational lever 296 and the second rotational lever 297, the first rotational lever 296 is rotatably disposed on the first support 2961, the first support 2961 is connected to the outer wall of the exchange tube 29, the second rotational lever 297 is rotatably disposed on the second support 2971, and the second support 2971 is connected to the outer wall of the exchange tube 29.

In order to realize reciprocating pushing of the first material raking plate 298, the first linkage mechanism comprises a first cam 2962 arranged at the rod end of a first rotating rod 296, the rim of the first cam 2962 abuts against a first linkage roller 2963, a roller bracket of the first linkage roller 2963 is provided with a first support sliding rod 2964, the first support sliding rod 2964 is arranged on a first sliding rod bracket 2965 in a sliding manner, a first support spring 2966 is sleeved on the first support sliding rod 2964, two ends of the first support spring 2966 abut against the roller bracket and the first sliding rod bracket 2965 respectively, and the rod end of the first support sliding rod 2964 is connected with the first material raking plate 298;

in the rotating process of the material stirring roller 291, the first rotating rod 296 is rotated, when the first rotating rod 296 rotates, the first cam 2962 abuts against the first linkage roller 2963, linkage of the first material raking plate 298 is realized, reciprocating movement of the first material raking plate 298 is realized under the reset action of the first supporting spring 2966, reciprocating driving of rubbish in a tube cavity at the lower end of the exchange tube 29 is realized, and then the rubbish is pushed out from the tube cavity at the lower end of the exchange tube 20.

The second linkage mechanism comprises a second cam 2972 arranged at the rod end of the second rotating rod 297, the rim of the second cam 2972 abuts against a second linkage roller 2973, a roller support of the second linkage roller 2973 is provided with a second supporting slide bar 2974, the second supporting slide bar 2974 is arranged on a second slide bar support 2975 in a sliding manner, a second supporting spring 2976 is sleeved on the second supporting slide bar 2974, two ends of the second supporting spring 2976 abut against the roller support and the second slide bar support 2975 respectively, and the rod end of the second supporting slide bar 2974 is connected with a second rake plate 299;

similarly, in the rotating process of the material stirring roller 291, the second rotating rod 297 is rotated, when the second rotating rod 297 rotates, the second cam 2972 abuts against the second linkage roller 2973, so that the linkage of the second material raking plate 299 is realized, the reciprocating movement of the second material raking plate 299 is realized under the reset action of the second supporting spring 2976, the reciprocating driving of the garbage in the other tube cavity at the lower end of the exchange tube 29 is realized, and the garbage is pushed out from the garbage in the tube cavity at the lower end of the exchange tube 20.

In order to realize the sliding guide of the first material raking plate 298 and the second material raking plate 299 in the horizontal direction, the exchange tube 29 is provided with a first sliding hole 2900 and a second sliding hole 2901, the first sliding hole 2900 and the second sliding hole 2901 are strip-shaped holes, the length direction of the first sliding hole 2900 and the length direction 2901 is consistent with the extending direction of two tube openings of the exchange tube 29, the first material raking plate 298 is arranged in the first sliding hole 2900 in a sliding mode, and the second material raking plate 299 is arranged in the second sliding hole 2901 in a sliding mode.

A first gear 291e is arranged on the rod body of the material stirring roller 291, the first gear 291e is meshed with a second gear 291f, the second gear 291f is connected with an output shaft of a gearbox, and an input shaft of the gearbox is connected with a rotating shaft of a driving motor.

Referring to fig. 30, a garbage disposal method includes the following steps:

A. two receiving devices, namely a recyclable garbage receiving device 10 and an unrecoverable garbage receiving device 10, are arranged at the positions of the pedestrian entrances and exits of the community;

B. a pretreatment device 20 is arranged on the recyclable garbage receiving device 10 and the non-recyclable garbage receiving device 10 decibels, and the pretreatment device 20 is used for identifying the garbage introduced by the garbage receiving device 10;

C. when the garbage preprocessing device 20 recognizes that the unrecoverable garbage is thrown into the recyclable garbage receiving device 10, the unrecoverable garbage is guided out and/or the unrecoverable garbage is guided out into the unrecoverable garbage receiving device 10;

D. when the garbage preprocessing device 20 recognizes that the garbage thrown into the recyclable garbage receiving device 10 is recyclable garbage, the recyclable garbage is guided into the garbage classification device 40 for further classification processing;

E. when the garbage preprocessing device 20 recognizes that the recyclable garbage is thrown into the non-recyclable garbage receiving device 10, the recyclable garbage is guided out and/or the recyclable garbage is guided out into the recyclable garbage receiving device 10;

F. when the garbage pretreatment device 20 recognizes that the garbage thrown into the unrecoverable garbage receiving device 10 is unrecoverable garbage, the unrecoverable garbage is guided into the garbage classification device 40 for further classification;

in the steps C and E, the recyclable garbage and the non-recyclable garbage are packed and guided out by the garbage guiding device 30.

When the garbage leading-out device 30 leads out the garbage, the user is reminded of correct classification through a display or a loudspeaker.

The garbage receiving device 10 comprises a receiving pipe 11, the receiving pipe 11 is in a bent pipe shape, a pipe orifice at one end of the receiving pipe 11 is horizontal, a pipe orifice at the other end of the receiving pipe 11 is vertical and downward, a baffle plate 12 is arranged at the horizontal pipe orifice end of the receiving pipe 11, the upper end plate surface of the baffle plate 12 and the receiving pipe 11 form a rotary connection, and a rotary connecting shaft 121 is horizontally arranged; the pipe wall of the receiving pipe 11 is provided with a material raking rod 13, the material raking rod 13 is arranged on a rotating shaft, the driving motor drives the rotating shaft to rotate, and the length direction of the rotating shaft is horizontal and is parallel to a connecting shaft 121 of the baffle 12.

The garbage pretreatment device 20 comprises a material receiving plate 21 arranged at the vertical pipe opening position of a receiving pipe 11 of the garbage receiving device 10, one side of the material receiving plate 21 is connected with the pipe wall of the receiving pipe 11 through a hinge shaft 211, the material receiving plate 21 is connected with a rotating mechanism, the rotating mechanism drives the material receiving plate 21 to rotate around the hinge shaft 211, and the surface of the material receiving plate 21 is in a horizontal state and a vertical state.

The garbage raking mechanism comprises a plurality of groups of raking claws 22 arranged on the upper plate surface of the material receiving plate 21, the raking claws 22 are connected with a linkage mechanism, and the linkage mechanism links the raking claws 22 to move towards or away from each other and performs raking actions on the garbage bags.

Garbage preprocessing device 20 still is provided with rubbish scanning mechanism, rubbish scanning mechanism includes CCD collection camera 28, CCD collection camera 28 sets up on the upset unit, and the upset unit starts and interlock CCD collects the rubbish on the directional garbage preprocessing device 20 of camera 28, CCD collection camera 28 is with the image signal transmission processing unit who gathers, processing unit judges whether the rubbish kind that the image was set for, if not the rubbish kind that sets for, packs by rubbish derivation device 30 and derives, if the rubbish kind that sets for, exports rubbish to classifying device 40 in with rubbish.

The garbage leading-out device 30 comprises a leading-out pipe 31 arranged below the receiving pipe 11, the leading-out pipe 31 is in a herringbone shape, a gate 32 is arranged at the connecting position of two pipe orifices in the upper end of the upper leading-out pipe 31, the gate 32 and one pipe orifice in the upper end of the leading-out pipe 31 are abutted to or matched in a separating mode, a garbage packing mechanism is arranged at the discharge end of the lower end of the leading-out pipe 31, and the garbage packing mechanism is used for packing garbage.

The discharge gate of rubbish preprocessing device 20 is provided with exchange guide mechanism and is including setting up the exchange pipe 29 in the receiving tube 11 export below of rubbish receiving arrangement 10, be provided with two entrances on exchange pipe 29, two entrances of exchange pipe 29 are provided with material stirring roller 291, be provided with switch plate 292 on material stirring roller 291 roller core level and the roll body, a terminal surface of switch plate 292 arranges along material stirring roller 291 roller length direction, and drive unit drive material stirring roller 291 rotates.

Two ends of the material stirring roller 291 are rotatably arranged on the tube wall of the exchange tube 29, one end of the material stirring roller 291 extending out of the tube wall of the exchange tube 29 is connected with the first rotating rod 296, and the other end of the material stirring roller 291 is connected with the second rotating rod 297;

the first rotating rod 296 is connected with a first linkage mechanism, the first linkage mechanism is connected with a first material raking plate 298, the first material raking plate 298 is transversely arranged in one pipe orifice of the exchange pipe 29, the first linkage mechanism drives the first material raking plate 298 to reciprocate in the pipe orifice of the exchange pipe 29, a first one-way locking mechanism is arranged between the material stirring roller 291 and the first rotating rod 296, when the material stirring roller 291 is in forward transmission, the material stirring roller 291 and the first rotating rod 296 are locked and synchronously rotate by the first one-way locking mechanism, and when the material stirring roller 291 rotates reversely, the material stirring roller 291 and the first rotating rod 296 are unlocked and rotate relatively by the first one-way locking mechanism;

the second rotating rod 297 is connected with a second linkage mechanism, the second linkage mechanism is connected with a second rake material plate 299, the second rake material plate 299 is transversely arranged in another pipe orifice of the exchange pipe 29, the second linkage mechanism drives the second rake material plate 299 to be located in the pipe orifice of the exchange pipe 29 to reciprocate, a second one-way locking mechanism is arranged between the material stirring roller 291 and the second rotating rod 297, when the material stirring roller 291 reversely rotates, the second one-way locking mechanism enables the material stirring roller 291 and the second rotating rod 297 to be locked and synchronously rotate, and when the material stirring roller 291 reversely rotates, the second one-way locking mechanism enables the material stirring roller 291 and the second rotating rod 297 to be unlocked and relatively rotate.

Claims (10)

1. An intelligent garbage station is characterized in that: comprising at least two waste receiving devices (10), said two waste receiving devices (10) being adapted to receive different types of waste, the garbage receiving devices (10) are all provided with a feeding hole and a discharging hole, the discharging holes of the garbage receiving devices (10) are respectively provided with a garbage pretreatment device (20), the garbage pretreatment device (20) is used for carrying out pre-judgment on the garbage led out by the garbage receiving device (10), the garbage preprocessing device (20) sends a control signal to the processing unit when the garbage led out by the garbage receiving device (10) is not in accordance with the set garbage, the processing unit sends a notice to a display of the equipment, and the garbage which does not accord with the setting is reminded and/or packed and guided out by a garbage guiding-out device (30), the discharge end of the garbage pretreatment device (20) is connected with the feed inlet of the garbage classification device (40).

2. The intelligent trash station of claim 1, wherein: and a discharge port of the garbage pretreatment device (20) is provided with an exchange material guide mechanism, and the exchange material guide mechanism is used for guiding and conveying thrown-in misplaced garbage into a feed port of a garbage classification device (40) beside.

3. The intelligent garbage station according to claim 1 or 2, characterized in that: the garbage pre-treatment device (20) is provided with a garbage raking mechanism, and the garbage raking mechanism is used for raking and dispersing the garbage bags packed in the garbage receiving device (10).

4. The intelligent trash station of claim 3, wherein: garbage receiving device (10) are including receiving tube (11), receiving tube (11) are the tubulose that bends, the one end mouth of pipe level of receiving tube (11), the vertical downwards of the other end mouth of pipe, the horizontal pipe mouth end of receiving tube (11) is provided with baffle (12), the upper end face and receiving tube (11) of baffle (12) constitute to rotate to be connected and rotate connecting axle (121) level and arrange.

5. The intelligent garbage station according to claim 1 or 2, characterized in that: the garbage pretreatment device (20) comprises a material receiving plate (21) arranged at the position of a vertical pipe opening of a receiving pipe (11) of the garbage receiving device (10), one side of the material receiving plate (21) is connected with the pipe wall of the receiving pipe (11) through a hinge shaft (211), the material receiving plate (21) is connected with a rotating mechanism, the rotating mechanism drives the material receiving plate (21) to rotate around the position of the hinge shaft (211), and the surface of the material receiving plate (21) is in a horizontal state and a vertical state; the garbage raking mechanism comprises a plurality of groups of raking claws (22) arranged on the upper plate surface of the material receiving plate (21), the raking claws (22) are connected with the linkage mechanism, and the linkage mechanism links the raking claws (22) to move towards or away from each other and performs raking actions on garbage bags.

6. The intelligent trash station of claim 5, wherein: the rotating mechanism comprises a rotating gear (212) arranged on a hinged shaft (211), the rotating gear (212) is meshed with a rack (213), the rack (213) is vertically arranged, and the upper end of the rack is connected with a piston rod of an electric cylinder (214); the material receiving plate (21) is provided with a plurality of strip-shaped holes (210), the length directions of the strip-shaped holes (210) and the material receiving plate (21) are consistent, a sliding block (221) is arranged in the strip-shaped holes (210) in a sliding mode, the raking claw (22) is arranged on the sliding block (221), a guide sliding rod (222) is arranged on the sliding block (221) in a hanging mode, the length direction of the guide sliding rod (222) is horizontal and parallel to the length direction of the material receiving plate (21), a guide plate (215) is arranged on the outer side plate surface of the material receiving plate (21), the rod end of the guide sliding rod (222) is in sliding fit with the guide plate (215), a guide spring (223) is sleeved on the guide rod (222), and two ends of the guide spring (223) are respectively abutted against the sliding block (221) and the guide plate (; the linkage mechanism comprises a linkage folded plate (224) connected with a sliding block (221), the linkage folded plate (224) comprises a first vertical plate section, an inclined plate section and a second vertical plate section, a support plate (216) extends from the outer side surface of the material receiving plate (21), a driving support plate (217) is arranged on the support plate (216) in a sliding mode, a driving roller (218) extends from the driving support plate (217), the wheel surface of the driving roller (218) abuts against one side surface of the linkage folded plate (224), and the linkage sliding block (221) is located on the strip-shaped hole (210) and slides; the upper end of the rack (213) and the transition rod (23), the transition rod (23) vertically extends upwards, the transition rod (23) is slidably arranged in the transition pipe (24), a transition spring (25) is arranged in a pipe cavity of the transition pipe (24), the upper end and the lower end of the transition spring (25) are respectively abutted to the upper end of the transition pipe (24) and the upper rod end of the transition rod (23), the upper end of the transition pipe (24) is connected with a piston rod of an electric cylinder (214), the outer wall of the transition pipe (24) extends to abut against a roller (241), the wheel core of the abutting against roller (241) is horizontal, a driving inclined plate (2171) extends from the driving support plate (217), the driving inclined plate (2171) abuts against the roller (241), and the driving support plate (217) is located on the support plate (216) to slide in a reciprocating mode.

7. The intelligent trash station of claim 1, wherein: rubbish preprocessing device (20) still are provided with rubbish scanning mechanism, rubbish scanning mechanism includes CCD collection camera (28), CCD collection camera (28) set up on the upset unit, and the upset unit starts and interlock CCD gathers the rubbish on camera (28) directional rubbish preprocessing device (20), CCD collection camera (28) is with the image signal transmission processing unit who gathers, processing unit judges the rubbish kind that the image was set for, if not the rubbish kind of setting for, packs by rubbish derivation device (30) and derives, if the rubbish kind of setting for, exports rubbish to classifying device (40) in and classifies.

8. The intelligent trash station of claim 1, wherein: rubbish guiding device (30) is including setting up contact tube (31) in receiver tube (11) below, contact tube (31) are the chevron shape, and go up two mouth of pipe hookup locations in the upper end of contact tube (31) and be provided with gate (32), gate (32) and a mouth of pipe of the upper end of contact tube (31) constitute to lean on or the separation cooperation, the lower extreme discharge end of contact tube (31) is provided with rubbish packing mechanism, rubbish packing mechanism is used for implementing the packing to rubbish.

9. The intelligent trash station of claim 2, wherein: exchange guide mechanism is including setting up exchange tube (29) in the receiving tube (11) export below of rubbish receiving arrangement (10), be provided with two entrances on exchange tube (29), two entrances of exchange tube (29) are provided with material stirring roller (291), be provided with on material stirring roller (291) roller core level and the roll body switch board (292), a terminal surface of switch board (292) arranges along material stirring roller (291) roller length direction, and drive unit drive material stirring roller (291) rotates.

10. The intelligent trash station of claim 9, wherein: two ends of the material stirring roller (291) are rotatably arranged on the tube wall of the exchange tube (29), one end of the material stirring roller (291) extending out of the tube wall of the exchange tube (29) is connected with the first rotating rod (296), and the other end of the material stirring roller (291) is connected with the second rotating rod (297);

the first rotating rod (296) is connected with a first linkage mechanism, the first linkage mechanism is connected with a first material raking plate (298), the first material raking plate (298) is transversely arranged in one pipe orifice of the exchange pipe (29), the first linkage mechanism drives the first material raking plate (298) to be located in the pipe orifice of the exchange pipe (29) to reciprocate, a first one-way locking mechanism is arranged between the material stirring roller (291) and the first rotating rod (296), when the material stirring roller (291) is in forward transmission, the material stirring roller (291) and the first rotating rod (296) are locked and synchronously rotate by the first one-way locking mechanism, and when the material stirring roller (291) is in reverse rotation, the material stirring roller (291) and the first rotating rod (296) are unlocked and rotate relatively by the first one-way locking mechanism;

the second rotating rod (297) is connected with the second linkage mechanism, the second linkage mechanism is connected with the second rake material plate (299), the second rake material plate (299) is transversely arranged in the other pipe orifice of the exchange pipe (29), the second linkage mechanism drives the second rake material plate (299) to reciprocate in the pipe cavity of the exchange pipe (29), a second one-way locking mechanism is arranged between the material poking roller (291) and the second rotating rod (297), when the material poking roller (291) reversely transmits, the second one-way locking mechanism enables the material poking roller (291) and the second rotating rod (297) to be locked and synchronously rotate, and when the material poking roller (291) positively rotates, the second one-way locking mechanism enables the material poking roller (291) and the second rotating rod (297) to be unlocked and relatively rotate.

Images