CN215827540U - A Garbage Sorting and Collection System Based on Speech Recognition - Google Patents

Abstract

The utility model relates to a garbage classification and collection system based on speech recognition. The system includes at least one group of garbage classification collection stations and a server; each group of garbage classification collection stations includes a controller, a voice interactor, a human body sensor, and at least two garbage classification collection stations The bucket and the host computer, the controller, the human sensor and the voice interactor are arranged on one of the garbage classification collection buckets; the garbage classification collection bucket includes an outer bucket, an inner bucket, an automatic lid opening mechanism, a garbage location identifier, a pressure sensor and an automatic The compression mechanism and the controller are respectively electrically connected with the voice interactor, the human body sensor, the automatic cover opening mechanism, the pressure sensor, the garbage position identifier and the automatic compression mechanism; the host computer, the server and the controller are connected by wireless communication. The system provided by the utility model can help users to classify garbage, and at the same time compress the garbage when the garbage in the garbage classification collection bin is overflowing, so as to avoid the phenomenon that the garbage overflows and the sewage crosses.

Description

Garbage classification collection system based on voice recognition

Technical Field

The utility model relates to the field of garbage classification processing, in particular to a garbage classification and collection system based on voice recognition.

Background

With the improvement of the living standard of people, the variety and the quantity of the household garbage are increased day by day. According to the statistics of the China society for urban environmental health, nearly 10 hundred million tons of garbage are generated in China every year, wherein the quantity of the household garbage is about 4 hundred million tons, the garbage brings huge pressure to the living environment of human beings, and the garbage problem does not disturb people all the time.

The current garbage disposal industry generally adopts a centralized burning or landfill mode to dispose the domestic garbage, which not only causes the waste of partial resources, but also causes secondary pollution due to improper disposal; the classification can only depend on the self classification of the abandoner. Nowadays, artificial intelligence technology has penetrated the aspect of people's life, and traditional garbage bin only acts as the container effect, can't help the user to classify, still appears rubbish full often, the phenomenon of sewage crossing.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides a garbage classification and collection system based on voice recognition, which realizes intelligent classification and collection of garbage.

The utility model provides a voice recognition-based garbage classification and collection system, which comprises at least one group of garbage classification and collection stations and a server for collecting the operation conditions of the garbage classification and collection stations; each group of garbage classified collection stations comprises a controller, a voice interactor, a human body sensor, at least 2 garbage classified collection barrels and an upper computer, wherein the voice interactor is used for carrying out voice interaction with a user and determining the type of garbage to be thrown according to the voice of the user, the human body sensor is used for detecting whether a person passes through the garbage classified collection barrels, the upper computer is used for monitoring the running condition of each garbage classified collection barrel, and the controller, the human body sensor, the voice interactor and the upper computer are arranged on 1 of the garbage classified collection barrels; the garbage classification collecting barrel comprises an outer barrel, an inner barrel arranged in the outer barrel, an automatic cover opening mechanism for controlling the opening and closing of a barrel cover on the top of the outer barrel, a pressure sensor for measuring the weight and the compression compactness of garbage, a garbage position recognizer for recognizing the garbage storage amount in the inner barrel, and an automatic compression mechanism for compressing the garbage stored in the inner barrel, wherein the automatic cover opening mechanism is fixedly arranged on the top of the outer barrel and hinged with the barrel cover; the controller is respectively and electrically connected with the voice interaction device, the automatic cover opening mechanism, the pressure sensor, the garbage position recognizer and the automatic compression mechanism, and the human body sensor is electrically connected with the voice interaction device; the controller is in communication connection with the server and the upper computer.

Further, the barrel cover comprises a fixed plate and a movable plate hinged with the fixed plate, the automatic cover opening mechanism comprises a direct current speed reducing motor, a first belt component and a second belt component which are respectively arranged on two sides of the top opening of the outer barrel, a first sliding block arranged on the first belt component, a second sliding block arranged on the second belt component, a first guide component for limiting and guiding the first sliding block, and a second guide component for limiting and guiding the second sliding block; the direct current speed reducing motor, the first guide assembly and the second guide assembly are arranged at the top of the outer barrel, the direct current speed reducing motor is electrically connected with the controller, the output end of the direct current speed reducing motor is connected with the first belt assembly, the first guide assembly is connected with the first sliding block in a sliding mode, and the second guide assembly is connected with the second sliding block in a sliding mode; the first sliding block is connected with the second sliding block through a first connecting rod, and the movable plate is hinged with the first connecting rod; the two ends of the fixed plate are respectively hinged with the first guide component and the second guide component.

Furthermore, a magnetoelectric proximity switch is installed on the second belt component and used for limiting, a diffuse reflection infrared sensor is further installed on the movable plate, and the magnetoelectric proximity switch and the diffuse reflection infrared sensor are electrically connected with the controller.

Furthermore, the automatic compression mechanism comprises a first pressing plate, a second pressing plate, a pressing plate bracket, an inner traction frame, an outer traction frame, a guide rail, a linear module and a stepping motor; the first pressing plate and the second pressing plate are arranged on the pressing plate bracket and are hinged with the pressing plate bracket, and the pressing plate bracket is connected with the sliding rail in a sliding manner; the number of the slide rails is at least 2, the slide rails are respectively and vertically arranged on at least 2 side walls of the inner barrel, the inner traction frame is in sliding connection with the slide rails, and the first pressing plate and the second pressing plate are hinged with the inner traction frame through connecting rods; the outer traction frame is arranged between the inner barrel and the outer barrel, two strip-shaped openings are vertically arranged on the side wall of the inner barrel, and two ends of the outer traction frame penetrate through the strip-shaped openings and are fixedly connected with the inner traction frame; step motor and linear module set up between interior bucket and outer bucket, and linear module is connected with outer traction frame, and step motor is connected with the controller electricity, and step motor's output is connected with linear module, reciprocates along rectangular shape opening through linear module drive outer traction frame.

Furthermore, install automatic connector on the slider of linear module, be equipped with the connecting block on the outer traction frame, the slider slides from top to bottom under step motor's drive to make automatic connector and connecting block butt joint block.

Furthermore, the garbage classification and collection barrel also comprises a solar rotary light searching mechanism, wherein the solar rotary light searching mechanism comprises a base, a photosensitive sensor, a solar panel, a rotating assembly, a synchronizing wheel and a speed reducing motor, wherein the base is arranged at the top of the garbage classification and collection barrel; the photosensitive sensor is arranged on the solar panel, the speed reducing motor and the rotating assembly are arranged on the base, the synchronizing wheel is arranged at the output end of the speed reducing motor and is connected with the rotating assembly through a belt, and the solar panel is arranged on the rotating assembly; the photosensitive sensor and the speed reducing motor are electrically connected with the controller.

Further, the garbage classification collection barrel further comprises an ultraviolet lamp disinfection lamp, and the ultraviolet lamp disinfection lamp is arranged in the inner barrel and electrically connected with the controller.

Further, garbage classification collecting bin includes the rubbish collecting bin that remains in kitchen, and the rubbish collecting bin that remains in kitchen is including the rubbish reducing mechanism that remains in kitchen who is used for smashing the rubbish in kitchen and being used for turning into the rubbish processing apparatus that remains in kitchen of fertilizer, and rubbish reducing mechanism and the rubbish processing apparatus that remains in kitchen set up the bottom at interior bucket, and rubbish reducing mechanism's that remains in kitchen feed inlet and interior bucket intercommunication, and rubbish reducing mechanism's that remains in kitchen discharge gate and the rubbish processing apparatus's that remains in kitchen feed inlet are connected.

The garbage classification and collection system based on the voice recognition provided by the utility model at least has the following beneficial effects: the garbage classification garbage can is provided with the voice interaction device and the automatic compression mechanism, the voice interaction device can be utilized to guide a user to throw garbage, the garbage to be thrown is classified, the controller controls the automatic opening of the can cover of the garbage classification collecting can corresponding to the garbage category of the garbage to be thrown, the user can throw the garbage conveniently, and correct garbage classification is achieved. And meanwhile, the garbage position sensor is arranged, and when the garbage in the garbage classification collection barrel is filled with garbage, the automatic compression mechanism is controlled to automatically compress the garbage so as to avoid the phenomena of garbage overflow and sewage transverse flow. In addition, the controllers in the garbage classification collecting stations are in communication connection with the upper computer and the server, so that users or workers can obtain the operation conditions of the garbage classification collecting stations in each group in real time.

Drawings

In order to more clearly illustrate the embodiments of the present 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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an intelligent garbage classification and collection system based on speech recognition according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a garbage sorting and collecting station according to an embodiment of the present invention;

FIG. 3 is a schematic view of an overall structure of a garbage classification collecting bin according to an embodiment of the present invention;

fig. 4 is a schematic view of a lid structure of the garbage classification collecting bin according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an automatic lid opening mechanism of the garbage sorting and collecting bin according to an embodiment of the present invention;

FIG. 6 is a first schematic view of an inner barrel of the garbage classification collecting barrel according to an embodiment of the present invention;

FIG. 7 is a schematic view of an inner barrel of the garbage classification collecting barrel according to an embodiment of the present invention;

FIG. 8 is a schematic view of an automatic compressing mechanism according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of a garbage classification collecting can according to another embodiment of the present invention;

fig. 10 is a schematic structural view of a solar light-searching mechanism according to an embodiment of the utility model;

FIG. 11 is a flowchart illustrating steps of an automatic decapping method according to an embodiment of the utility model;

FIG. 12 is a flowchart illustrating steps of an automatic garbage compression method according to an embodiment of the present invention;

1-garbage classification collection station, 2-server, 10-controller, 11-voice interaction device, 12-human body sensor, 13-garbage classification collection barrel, 14-upper computer 131-outer barrel, 132-inner barrel, 133-automatic uncovering mechanism, 134-garbage position recognizer, 135-automatic compressing mechanism, 136-fixed plate, 137-movable plate, 1331-direct current speed reducing motor, 1332-first belt assembly, 1333-second belt assembly, 1334-first sliding block, 1335-second sliding block, 1336-first guiding assembly, 1337-second guiding assembly, 1338-first connecting rod, 1339-second connecting rod, 1351-first pressing plate, 1352-second pressing plate, 1353-inner traction frame, 1358-pressing plate support, 1354-external traction frame, 1355-sliding rail, 1356-linear module, 1357-stepping motor, 138-solar energy rotary light-searching mechanism, 1381-base, 1383-solar panel, 1384-rotary component, 1385-synchronous wheel and 1386-speed reducing motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In one embodiment of the present invention, a speech recognition based garbage classification collecting system is provided, as shown in fig. 1, the system includes at least one group of garbage classification collecting stations 1 and a server 2 for collecting the operation conditions of each group of garbage classification collecting stations. Specifically, a plurality of groups of garbage classification collecting stations in a preset area can be used as a system, the plurality of groups of garbage classification collecting stations upload the running conditions of the garbage classification collecting stations to a server and are stored by a database of the server, monitoring personnel can access the database through a Personal Computer (PC), and the garbage capacity, the working state, whether the garbage classification collecting stations are full or not and the like are monitored, so that data support is provided for intelligent sanitation integrated management.

As shown in fig. 2, each group of garbage sorting and collecting station 1 includes a controller 10, a voice interactor 11 performing voice interaction with a user and determining a type of garbage to be thrown according to a voice of the user, a human body sensor 12 for detecting whether a person passes through, at least 2 garbage sorting and collecting bins 13, and an upper computer 14 for monitoring operation conditions of the respective garbage sorting and collecting bins, wherein the controller 10, the human body sensor 12, the voice interactor 11, and the upper computer 14 are disposed on 1 of the garbage sorting and collecting bins.

Specifically, for the convenience of distinguishing, the garbage classification collecting bin where the controller 10, the human body sensor 12, the voice interaction device 11 and the upper computer 14 are located can be used as a main collecting station, and other garbage classification collecting bins can be used as auxiliary collecting stations.

More specifically, in the present embodiment, the garbage classification collecting bin 13 may include a recyclable garbage classification collecting bin, a kitchen garbage classification collecting bin, a harmful garbage classification collecting bin, and other garbage classification collecting bins, which respectively correspond to the recyclable garbage, the kitchen garbage, the harmful garbage, and other garbage collection.

In this embodiment, the Controller 10 may utilize a single chip or a PLC (Programmable Logic Controller) to implement a control function. The voice interaction device 11 can be an SNR9816 voice chip and an STM32 single chip microcomputer, an instruction self-learning algorithm is built in, collected voice is converted into a digital signal after noise reduction and filtering processing, and the digital signal is compared with a preset garbage name-garbage category comparison relation, so that the corresponding relation between the garbage name and the garbage category is established, and garbage classification is realized. The body sensor 12 may be a pyroelectric sensor, and it should be understood that the above implementation is only an example and not a limitation of the present invention.

Further, in the present embodiment, as shown in fig. 3 and 8, the garbage sorting and collecting bin 13 includes an outer bin 131, an inner bin 132 disposed inside the outer bin, an automatic lid opening mechanism 133 for controlling opening and closing of a bin cover on the top of the outer bin, a garbage position identifier 134 for identifying the amount of garbage stored in the inner bin, a pressure sensor for measuring the weight of the garbage and the degree of compaction, and an automatic compression mechanism 135 for compressing the garbage stored in the inner bin, wherein the automatic lid opening mechanism 133 is fixedly disposed on the top of the outer bin 131 and hinged to the bin cover, the pressure sensor is disposed at the bottom of the inner bin, and the garbage position identifier 134 and the automatic compression mechanism 135 are disposed on the inner bin.

The controller 10 is electrically connected to the voice interactor 11, the automatic uncovering mechanism 133, the pressure sensor, the garbage position identifier 134 and the automatic compressing mechanism 135 respectively, so as to control the voice interactor 11, the automatic uncovering mechanism 133, the pressure sensor, the garbage position identifier 134 and the automatic compressing mechanism 135.

The body sensor 12 is electrically connected to the voice interactor 11 so as to wake up the voice interactor when a person is detected to pass.

The controller 10 is in communication connection with the server 2 and the upper computer 14. Specifically, through WIFI wireless connection between controller 10 and the server, the controller 10 of collection station sends data to the rear end server, and monitoring personnel acquires data such as each collection station rubbish capacity, operating condition, whether overflow through the database in the PC access server, provides data support for wisdom sanitation integration management. The controller 1 is connected with an upper computer through an Ethernet wired connection (OPC protocol), and the upper computer is arranged in a main collection station and used as a human-computer interface to display internal states (including the garbage capacity, the residual space, the compression stroke, the ultraviolet lamp state and the like) for users.

Furthermore, a garbage door can be arranged on the outer barrel 131, the inner barrel 132 is movably connected with the outer barrel 131, and the inner barrel can be taken out from the garbage door, so that garbage can be taken out conveniently.

The working process of the garbage classification system based on the voice recognition provided in the embodiment is as follows:

the human body sensor detects whether pedestrians pass through in real time, and sends a signal to the voice interaction device when the pedestrians pass through is detected, the voice interaction device is awakened, the voice interaction device sends out prompting sound of 'welcome use', a use guide is broadcasted, voice interaction is carried out with a user, the user is guided to speak out the name of garbage to be thrown, after the name of the garbage to be thrown is collected, name information of the garbage to be thrown is sent to the controller, the controller determines the garbage category according to the corresponding relation between the preset garbage name and the garbage category, and generates a corresponding control instruction, and the automatic cover opening mechanism corresponding to the garbage classification collecting barrel is controlled to open a cover, so that the garbage to be thrown is thrown into the corresponding garbage classification collecting barrel by the user. Further, the uncovering time (such as counting down for 10 seconds) can be preset, and when the preset uncovering time is reached, the controller controls the automatic uncovering mechanism to close the barrel cover. Further, the voice interactor can also voice-feed back to the user the corresponding garbage category and the running status of the garbage classification collection bucket ("compress please later" or "apology this bucket is full").

The position of the rubbish that the interior bucket was deposited is detected in real time to the rubbish position recognizer in every waste classification collecting bin, and when the rubbish position exceeded and predetermine the position, rubbish position recognizer can send overflow signal to controller, and the automatic compressing mechanism in the waste classification collecting bin that corresponds is controlled by the controller compresses rubbish.

Specifically, in this embodiment, rubbish position identification ware can be infrared geminate transistor sensor, set up the inboard preset position department in interior bucket, infrared geminate transistor sensor includes an infrared emission pipe and an infrared ray receiver tube, set up respectively on two relative inside walls of interior bucket, rubbish that holds in the interior bucket surpasss preset position (also the rubbish capacity in the categorised collection bucket of rubbish reaches the biggest upper limit promptly), then can shelter from the infrared ray of infrared emission pipe transmission, thereby infrared geminate transistor sensor sends the overflow signal to the controller, trigger corresponding automatic compression mechanism and compress.

Furthermore, after the controller receives the overflow signal, the automatic compression mechanism is controlled to compress the garbage, the overflow signal can be sent to the upper computer to be displayed, and the voice interaction device can be controlled to send voices such as 'compressing, please later' and the like so as to prompt a user.

Furthermore, if the residual space after automatic compression reaches a set threshold, an overflow lock is triggered, and an overflow signal is sent to a supervision department. And the data can be uploaded to a cloud platform, so that data support is provided for intelligent environmental sanitation integrated management. The set threshold is set by the operator according to actual needs, and the utility model is not limited to this.

In addition, because the controller in every group of rubbish classified collection station still with the host computer, the server communication is connected, therefore the controller can be with the operation condition of each group's rubbish classified collection station upload to the server, the server is saved the operation condition who receives, the staff can visit relevant data through the PC, so that relevant staff can in time master the operation condition of each group's rubbish classified collection station, in time handle according to the operation condition (for example, rubbish surpasss preset position in the rubbish classified collection bucket, and still surpass preset position after automatic compression mechanism compresses, then can show corresponding condition in the display screen of host computer, the staff sees the back can in time carry away rubbish in the bucket, in order to avoid rubbish too much to spill over). Meanwhile, the controller can also send the running condition of the garbage classification collecting station to the upper computer, and the running condition is displayed to a user by the upper computer. Specifically, in this embodiment, the server may perform wireless communication with the controller through WIFI wireless connection, and the upper computer may connect to the controller through an ethernet wired connection (OPC protocol). More specifically, the operation conditions may further include the garbage capacity, the remaining space, the compression stroke of the automatic compression mechanism, the cover closing countdown, the warning prompt, the overflow indication, the voltage display, and the like of each garbage classified collection bin in each garbage classified collection station (more specifically, a weight sensor may be disposed in each garbage classified collection bin, and the garbage weight and the capacity sensor may be monitored to detect the garbage capacity, and then the controller calculates the percentage of the remaining space of the garbage classified collection bin, and feeds the percentage back to the upper computer for display). The above-mentioned operation conditions are only examples, and other operation conditions may also be included, for example, when the ultraviolet disinfection lamp is provided in the trash sorting and collecting bin, the operation conditions further include the state of the ultraviolet disinfection lamp, and the like.

The garbage classification collection system based on speech recognition that provides in this embodiment is equipped with speech interaction ware, automatic mechanism of uncapping, guide the user through speech interaction and carry out garbage classification, utilize speech interaction ware to gather the rubbish name that the user spoken, judge affiliated classification according to the rubbish name, and trigger the automatic uncapping of corresponding garbage classification collection bucket, can also feed back the running state to the user through speech interaction ware pronunciation simultaneously, make garbage classification become simple effective, solve the garbage classification problem from the source. Meanwhile, the garbage classification collection system comprises at least one group of garbage classification collection stations and a server used for collecting the operation conditions of the garbage classification collection stations, and workers can access the database of the server through a PC (personal computer) to uniformly manage the garbage classification collection stations, so that the garbage classification collection system is more convenient. The system is provided with a human body sensor, and the voice interaction device can be awakened only when a pedestrian is detected to pass through, so that the energy consumption is reduced. The system is also provided with an automatic compression mechanism, and when the garbage capacity is detected to exceed the preset capacity (the garbage position reaches the preset position), the controller controls the automatic compression mechanism to compress the garbage so as to prevent the garbage from overflowing and the sewage from flowing transversely.

In still another embodiment of the present invention, as shown in fig. 4, the tub cover includes a fixed plate 136 and a movable plate 137 hinged to the fixed plate 136, and the automatic lid opening mechanism 133 includes a dc gear motor 1331, a first belt assembly 1332 and a second belt assembly 1333 respectively installed at both sides of the top opening of the tub, a first slider 1334 installed on the first belt assembly 1332, a second slider 1335 installed on the second belt assembly 1333, a first guide assembly 1336 for position-limited guiding the first slider 1334, and a second guide assembly 1337 for position-limited guiding the second slider 1335.

The direct current gear motor 1331, the first guide assembly 1336 and the second guide assembly 1337 are installed at the top of the outer tub 131, the direct current gear motor 1331 is electrically connected with the controller 10, the output end of the direct current gear motor 1331 is connected with the first belt assembly 1332, the first guide assembly 1336 is slidably connected with the first slide block 1334, and the second guide assembly 1337 is slidably connected with the second slide block 1335; the first slide block 1334 and the second slide block 1335 are connected by a first connecting rod 1338, and the movable plate 137 is hinged to the first connecting rod 1338; the fixed plate 136 is hinged to the first guide assembly 1336 and the second guide assembly 1337 at two ends thereof.

The process that the controller controls the automatic uncovering mechanism to uncover comprises the following steps: the controller controls the direct current gear motor to operate, and the output end of the direct current gear motor is connected with the first belt assembly to drive the first belt assembly to move, so that the first sliding block slides on the first guide assembly, and meanwhile, the first sliding block is connected with the second sliding block through the first connecting rod, so that the second sliding block can be driven to slide on the second guide assembly. And the movable plate is articulated with first connecting rod, fixed plate, and the both ends of fixed plate are articulated with first direction subassembly, second direction subassembly, therefore the movable plate can slide under the drive of first slider, second slider to realize opening and shutting of bung.

Further, in this embodiment, the first belt assembly 1332 includes a first synchronizing wheel, a second synchronizing wheel and a first belt sleeved on the first synchronizing wheel and the second synchronizing wheel, and the second belt assembly includes a third synchronizing wheel, a fourth synchronizing wheel and a second belt sleeved on the third synchronizing wheel and the fourth synchronizing wheel.

The first synchronizing wheel is connected with the output end of the direct current speed reducing motor, and the first belt and the second synchronizing wheel are driven to rotate by the direct current speed reducing motor. More specifically, the second synchronizing wheel is connected to the fourth synchronizing wheel through the second connecting rod 1339, and when the second synchronizing wheel rotates, the second connecting rod 1339 and the fourth synchronizing wheel are driven to rotate, so as to drive the second belt and the third synchronizing wheel to rotate, thereby enabling the second slider to slide more smoothly on the second guiding assembly.

By adopting the automatic cover opening mechanism provided by the embodiment, the barrel cover can be more stably and smoothly operated when being opened or closed.

In yet another embodiment of the present invention, as shown in fig. 3, a magneto-electric proximity switch 13331 is further mounted on the second belt assembly 1333 for limiting, and a diffuse reflection infrared sensor 13332 is further mounted on the movable plate 137. The magneto-electric proximity switch 13331 and the diffuse reflection infrared sensor 13332 are electrically connected to the controller 10.

The diffuse reflection infrared sensor can detect hands, when the hands are detected, an identification signal is sent to the controller, the controller controls the automatic uncovering mechanism to stop closing, the automatic uncovering mechanism is controlled to restore the cover to an uncovering state, and the cover closing countdown is carried out for 10s again to avoid pinching hands.

The magnetoelectric proximity switch can detect the distance between the magnetoelectric proximity switch and the second slider, and the controller controls the stop of the automatic cover opening mechanism according to the detected distance, thereby realizing the limit of the movable plate.

In yet another embodiment of the present invention, as shown in fig. 6, 7, 8, 9, the automatic compression mechanism 135 includes a first platen 1351, a second platen 1352, a platen holder 1358, an inner traction frame 1353, an outer traction frame 1354, a slide rail 1355, a linear module 1356, and a stepper motor 1357.

The first pressing plate 1351 and the second pressing plate 1352 are mounted on the pressing plate bracket 1358 and are hinged to the pressing plate bracket 1358, and the pressing plate bracket 1358 is slidably connected to the sliding rail 1355.

At least 2 sliding rails 1355 are vertically arranged on at least 2 side walls of the inner barrel, the inner traction frame 1353 and the pressing plate bracket are in sliding connection with the sliding rails 1355, and the first pressing plate 1351 and the second pressing plate 1352 are hinged with the pressing plate bracket 1353 through connecting rods.

The outer traction frame 1354 is arranged between the inner barrel 132 and the outer barrel 131, two strip-shaped openings are vertically arranged on the side wall of the inner barrel 132, and two ends of the outer traction frame 1354 penetrate through the strip-shaped openings to be fixedly connected with the inner traction frame 1353; the stepping motor 1357 and the linear module 1356 are disposed between the inner tub 132 and the outer tub 131, the linear module 1356 is connected to the outer traction frame 1354, the stepping motor 1357 is electrically connected to the controller 10, and an output end of the stepping motor is connected to the linear module 1356, so that the outer traction frame 1354 is driven by the linear module 1356 to move up and down along the elongated opening.

More specifically, linear module 1356 includes the shaft coupling, the guide rail, the lead screw, set up on the shaft coupling and with guide rail sliding connection's third slider, third slider and outer traction frame fixed connection, after automatic compressing mechanism received the control command of controller, step motor operation, it rotates to drive the shaft coupling, the shaft coupling drives the lead screw and rotates, thereby it slides from top to bottom along the guide rail to drive the third slider on the lead screw, and then drive the outer traction frame of being connected with the third slider and slide from top to bottom, and outer traction frame drives interior traction frame and slides from top to bottom, thereby make the first clamp plate of being connected with interior traction frame, the second clamp plate compresses rubbish.

In another embodiment of the present invention, as shown in fig. 9, an automatic connector 1358 is mounted on a third slide block of the linear module 1356, a connection block is disposed on the external traction frame, and the third slide block slides up and down under the driving of the stepping motor, so that the automatic connector is in butt joint with the connection block.

Specific automatic connector 1358 includes reset spring and 2 wedge sliders, and 2 wedge sliders pass through reset spring and are connected with the third slider, set up respectively on third slider and the relative one side of outer traction frame, wherein two relative settings about two wedge sliders, the centre is formed with the recess that can hold the connecting block.

When the third slider slides from top to bottom, one of them wedge slider of automatic connector is touched to the connecting block, and the wedge slider compresses the spring under the pressure of connecting block, and between two wedge sliders of automatic connector were gone into to the connecting block, automatic connector continued motion, and the wedge slider can reset under the effect of spring, and two wedge sliders will be outer traction frame deadlocking, realize the power connection. Further, when the outer traction frame is required to be separated from the linear module, the inner barrel can be horizontally pulled out.

In another embodiment of the present invention, as shown in fig. 9 and 10, the garbage classification collecting barrel 13 further comprises a solar rotary light-searching mechanism 138, wherein the solar rotary light-searching mechanism 138 comprises a base 1381 mounted on the top of the garbage classification collecting barrel, a photosensitive sensor (not shown), a solar panel 1383, a rotating component 1384, a synchronizing wheel 1385 and a speed-reducing motor 1386; the photosensitive sensor is arranged on a solar panel 1383, the speed reducing motor 1386 and the rotating component 1384 are arranged on a base 1381, the synchronous wheel 1385 is arranged at the output end of the speed reducing motor 1386 and is connected with the rotating component 1384 through a belt, and the solar panel 1383 is arranged on the rotating component 1384; the photosensor and the reduction motor 1386 are electrically connected to the controller 10.

The rotatory mechanism of looking for of solar energy that provides in this embodiment utilizes photosensitive sensor to detect the sun light direction, with detected signal transmission to controller 10 in, by controller 10 control gear motor 1386 opens to it is rotatory to drive rotating assembly, makes the solar panel on the rotating assembly rotatory. So that the solar panel follows the sun rays. Further, rotating assembly includes flange bearing frame, bearing, main shaft and connecting seat, and wherein flange bearing frame installs on base 1381, and the bearing is installed on flange bearing frame to rotate with the main shaft and be connected, connecting seat one end is connected with solar panel, and the other end is connected with the main shaft, and synchronizing wheel 1385 passes through the belt and is connected with the bearing, drives the bearing and rotates, thereby makes the main shaft in the bearing rotate, and then drives solar panel and rotate.

In another embodiment of the present invention, the garbage classification and collection bin further includes an SLD-S type solar intelligent charging controller for automatically controlling the solar panel to charge the storage battery, and meanwhile, the garbage classification and collection bin has a commercial power complementary switching function, and when there is commercial power, the voltage of the storage battery drops to a commercial power switching voltage point, the storage battery is automatically switched to the commercial power to supply power.

In another embodiment of the present invention, the garbage sorting and collecting bin 13 further includes an ultraviolet lamp sterilizing lamp disposed in the inner bin 132 and electrically connected to the controller 10. In one implementation, an ultraviolet sterilizing lamp may be provided at an inlet of the inner tub 132.

Specifically, in this embodiment, adopt dark ultraviolet UVLED light source to disinfect, the central wavelength of ultraviolet lamp pearl is 280nm, when effectively preventing the bacterial virus, does not produce harmful accessory substance such as ozone. Further, the current can be set to 300mA, the irradiation time can be set to 50s each time, the sterilization rate is larger than 90% when the ultraviolet sterilization lamp is 5cm away, and the sterilization rate is effectively improved.

In another embodiment of the present invention, the garbage classification collecting bin 13 includes a kitchen garbage collecting bin, the kitchen garbage collecting bin includes a kitchen garbage crushing device for crushing kitchen garbage and a kitchen garbage disposal device for converting the kitchen garbage into organic fertilizer, the kitchen garbage crushing device and the kitchen garbage disposal device are disposed at the bottom of the inner bin, a feeding port of the kitchen garbage crushing device is communicated with the inner bin, and a discharging port of the kitchen garbage crushing device is connected with the feeding port of the kitchen garbage disposal device.

In this embodiment, set up the surplus rubbish reducing mechanism in kitchen that is used for smashing surplus rubbish in kitchen and be used for turning into the surplus rubbish processing apparatus in kitchen of fertilizer with the surplus rubbish in kitchen that sets up in the surplus rubbish collecting vessel in kitchen, the surplus rubbish in kitchen that collects in the interior bucket can be handled on the spot, turns into the fertilizer, rethread pipeline transportation or artificial transportation to realized the reuse of surplus rubbish in kitchen, changing waste into valuables, and avoid causing the surplus rubbish in kitchen to rot because of the save time overlength, the peculiar smell appears, influence sanitation's problem.

The utility model also provides a voice recognition-based garbage classification method which is applied to the voice recognition-based garbage classification and collection system.

As shown in fig. 11, the automatic decapping method includes the steps of:

step S101: the human body sensor detects whether a pedestrian passes through in real time, and when the human body sensor detects that the pedestrian passes through, the human body sensor sends a detection signal to the voice interaction device to awaken the voice interaction device.

Step S102: the voice interaction device conducts voice guidance on a user, collects names of the garbage to be thrown and sends the names to the controller, the controller determines garbage categories of the garbage to be thrown according to preset corresponding relations between the garbage names and the garbage categories, and the automatic cover opening mechanism of the garbage classification collection barrel corresponding to the garbage categories is controlled to open the barrel cover according to the garbage categories.

As shown in fig. 12, the automatic garbage compression method includes:

step S201: the garbage position recognizer detects the garbage position in the garbage classification collecting barrel in real time and sends a detection result to the controller.

Step S202: if the garbage position identifier detects that the garbage in the garbage classification collection barrel exceeds a preset position, an overflow signal is sent to the controller;

step S203: the controller receives the overflow signal and then sends the overflow signal to the upper computer, controls the corresponding automatic compression mechanism to compress the garbage, starts timing by the controller, and displays the compression stroke in real time according to the time value sent by the controller by the upper computer.

Step S204: the pressure sensor detects the pressure at the bottom of the inner barrel in real time, when the pressure value sent by the pressure sensor reaches a preset pressure threshold value, the controller sends a signal reaching the preset pressure threshold value to the upper computer, controls the automatic compression mechanism to stop compression, stops timing, calculates the current garbage amount and the residual space percentage according to compression time, and sends the current garbage amount and the residual space percentage to the upper computer. Step S205: after the upper computer receives the garbage weight, the current garbage amount and the residual space percentage, the garbage containing condition of the corresponding garbage classification collecting barrel is displayed on the display screen.

In another embodiment of the utility model, the method further comprises the step that when the percentage of the remaining space calculated by the controller in real time is smaller than the set threshold, the controller controls the automatic cover opening mechanism to stop running, and when the controller controls the automatic cover opening mechanism to open, the controller controls the automatic compression mechanism to stop running and the ultraviolet disinfection lamp to stop running. Through the method, the interlocking protection of uncovering and garbage compression can be realized.

It will be appreciated by those skilled in the art that changes could be made to the details of the above-described embodiments without departing from the underlying principles thereof. The scope of the utility model is, therefore, indicated by the appended claims, in which all terms are intended to be interpreted in their broadest reasonable sense unless otherwise indicated.

Claims (8)

1. A garbage classification and collection system based on voice recognition is characterized by comprising at least one group of garbage classification and collection stations and a server for collecting the operation conditions of the garbage classification and collection stations;

each group of garbage classification collecting stations comprises a controller, a voice interactor, a human body sensor, at least 2 garbage classification collecting barrels and an upper computer, wherein the voice interactor is used for carrying out voice interaction with a user and determining the type of garbage to be thrown according to the voice of the user, the human body sensor is used for detecting whether a person passes through the garbage classification collecting barrels, the upper computer is used for monitoring the running condition of each garbage classification collecting barrel, and the controller, the human body sensor, the voice interactor and the upper computer are arranged on 1 of the garbage classification collecting barrels;

the garbage classification collecting barrel comprises an outer barrel, an inner barrel arranged in the outer barrel, an automatic cover opening mechanism for controlling opening and closing of a barrel cover on the top of the outer barrel, a pressure sensor for measuring the weight and compression compactness of garbage, a garbage position identifier for identifying the garbage storage amount in the inner barrel, and an automatic compression mechanism for compressing the garbage stored in the inner barrel, wherein the automatic cover opening mechanism is fixedly arranged on the top of the outer barrel and hinged with the barrel cover, the pressure sensor is arranged at the bottom of the inner barrel, and the garbage position identifier and the automatic compression mechanism are arranged on the inner barrel;

the controller is respectively and electrically connected with the voice interactor, the automatic cover opening mechanism, the pressure sensor, the garbage position recognizer and the automatic compression mechanism, and the human body sensor is electrically connected with the voice interactor;

the controller is in communication connection with the server and the upper computer.

2. The garbage classified collection system based on voice recognition according to claim 1, wherein the barrel cover comprises a fixed plate and a movable plate hinged to the fixed plate, the automatic cover opening mechanism comprises a direct current speed reduction motor, a first belt assembly and a second belt assembly respectively installed on two sides of the top opening of the outer barrel, a first sliding block installed on the first belt assembly, a second sliding block installed on the second belt assembly, a first guide assembly for spacing and guiding the first sliding block, and a second guide assembly for spacing and guiding the second sliding block;

the direct current speed reducing motor, the first guide assembly and the second guide assembly are arranged at the top of the outer barrel, the direct current speed reducing motor is electrically connected with the controller, the output end of the direct current speed reducing motor is connected with the first belt assembly, the first guide assembly is connected with the first sliding block in a sliding mode, and the second guide assembly is connected with the second sliding block in a sliding mode;

the first sliding block is connected with the second sliding block through a first connecting rod, and the movable plate is hinged with the first connecting rod;

and two ends of the fixed plate are respectively hinged with the first guide assembly and the second guide assembly.

3. The garbage classification and collection system based on voice recognition according to claim 2, wherein the second belt assembly is provided with a magnetoelectric proximity switch for limiting, the movable plate is further provided with a diffuse reflection infrared sensor, and the magnetoelectric proximity switch and the diffuse reflection infrared sensor are electrically connected with the controller.

4. The speech recognition based garbage classified collection system according to claim 1, wherein the automatic compressing mechanism comprises a first pressing plate, a second pressing plate, a pressing plate bracket, an inner traction frame, an outer traction frame, a slide rail, a linear module and a stepping motor;

the first pressing plate and the second pressing plate are mounted on the pressing plate support and are hinged with the pressing plate support, and the pressing plate support is connected with the sliding rail in a sliding mode;

the number of the slide rails is at least 2, the slide rails are respectively and vertically arranged on at least 2 side walls of the inner barrel, the pressure plate bracket is in sliding connection with the slide rails, the inner traction frame is in sliding connection with the slide rails, and the first pressure plate and the second pressure plate are hinged with the inner traction frame through connecting rods;

the outer traction frame is arranged between the inner barrel and the outer barrel, two strip-shaped openings are vertically arranged on the side wall of the inner barrel, and two ends of the outer traction frame penetrate through the strip-shaped openings and are fixedly connected with the inner traction frame;

the stepping motor and the linear module are arranged between the inner barrel and the outer barrel, the linear module is connected with the outer traction frame, the stepping motor is electrically connected with the controller, the output end of the stepping motor is connected with the linear module, and the outer traction frame is driven by the linear module to move up and down along the elongated opening.

5. The garbage classification and collection system based on voice recognition according to claim 4, wherein an automatic connector is mounted on a sliding block of the linear module, a connecting block is arranged on the external traction frame, and the sliding block slides up and down under the driving of the stepping motor, so that the automatic connector is in butt joint with the connecting block.

6. The voice recognition based garbage classified collection system according to claim 1, wherein the garbage classified collection bin further comprises a solar rotary light-searching mechanism, the solar rotary light-searching mechanism comprises a base, a photosensitive sensor, a solar panel, a rotating assembly, a synchronous wheel and a speed reduction motor, and the base is mounted on the top of the garbage classified collection bin;

the photosensitive sensor is installed on the solar panel, the speed reducing motor and the rotating assembly are installed on the base, the synchronizing wheel is installed at the output end of the speed reducing motor and connected with the rotating assembly through a belt, and the solar panel is installed on the rotating assembly;

the photosensitive sensor and the speed reducing motor are electrically connected with the controller.

7. The speech recognition based garbage classified collection system according to claim 1, wherein the garbage classified collection bin further comprises an ultraviolet disinfection lamp disposed in the inner bin and electrically connected to the controller.

8. The voice recognition based garbage classified collection system according to claim 1, wherein the garbage classified collection barrel comprises a kitchen waste collection barrel, the kitchen waste collection barrel comprises a kitchen waste crushing device for crushing kitchen waste and a kitchen waste treatment device for converting the kitchen waste into organic fertilizer, the kitchen waste crushing device and the kitchen waste treatment device are arranged at the bottom of the inner barrel, a feed port of the kitchen waste crushing device is communicated with the inner barrel, and a discharge port of the kitchen waste crushing device is connected with the feed port of the kitchen waste treatment device.

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