CN211086959U - Garbage disposal system of integrated wisdom street lamp - Google Patents

Abstract

The application relates to a garbage disposal system of integrated wisdom street lamp. The garbage disposal system comprises an intelligent street lamp and a garbage disposal device; the intelligent street lamp comprises an intelligent street lamp rod body, environment sensing equipment and a photoelectric sensor; the garbage disposal device comprises a garbage scanning platform, a GIS system and a processor; the environment sensing equipment is used for sending the environment parameter information to the processor; the photoelectric sensor is used for sending photoelectric parameter information to the processor; the processor classifies the garbage to be treated according to the type of the garbage in a preset database and at least one item of environmental parameter information and photoelectric parameter information to obtain a garbage category, and performs garbage treatment according to the garbage category; and the GIS system is used for determining the garbage transportation path according to the position information of the garbage disposal system and the position information of the garbage disposal site. Therefore, the efficiency of classifying and recycling the garbage is improved, unnecessary garbage disposal places are reduced, and secondary pollution to the environment is avoided.

Description

Garbage disposal system of integrated wisdom street lamp

Technical Field

The application relates to the technical field of garbage disposal, in particular to a garbage disposal system of integrated wisdom street lamp.

Background

With the increase of urbanization speed, domestic garbage generated in China increases at a speed of 10% per year, the quantity of urban garbage generated per year is more than two hundred million tons, and the garbage classification and treatment problems are to be solved urgently. Conventionally, a trash can is installed at a fixed location, and then, after centralized collection is performed by a worker, the collected trash is classified and the like at a specific processing place.

However, after the collected garbage is collected by the relevant staff in a centralized manner, the collected garbage is collected and recycled in a specific processing place, and the like, which requires a large amount of manpower and material resources for collection, classification, recycling and other operations, and thus, the efficiency is low, the garbage transportation scheduling is complicated, and a large amount of garbage processing places are occupied for recycling the garbage, which is likely to cause secondary pollution to the environment.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a garbage disposal system integrated with an intelligent street lamp in order to solve the above technical problems.

A garbage disposal system integrated with an intelligent street lamp comprises the intelligent street lamp and a garbage disposal device;

the intelligent street lamp comprises an intelligent street lamp rod body, environment sensing equipment and a photoelectric sensor;

the garbage treatment device comprises a garbage scanning platform, a GIS system and a processor;

the garbage scanning platform is arranged at the bottom end of the intelligent street lamp rod body; the environment sensing equipment and the photoelectric sensor are arranged on the intelligent street lamp rod body and are positioned above the garbage scanning platform; the processor is respectively in communication connection with the environment sensing equipment and the photoelectric sensor;

the environment sensing equipment is used for acquiring environment parameter information of garbage to be treated and sending the environment parameter information to the processor;

the photoelectric sensor is used for collecting photoelectric parameter information of the garbage to be treated and sending the photoelectric parameter information to the processor;

the processor classifies the garbage to be processed according to the type of the garbage in a preset database and at least one of the environmental parameter information and the photoelectric parameter information to obtain a garbage category, and performs garbage processing according to the garbage category;

the GIS system is used for positioning the garbage disposal system to obtain the position information of the garbage disposal system;

the GIS system acquires the position information of the garbage disposal site and determines a garbage transportation path according to the position information of the garbage disposal system and the position information of the garbage disposal site.

In one embodiment, a gravity sensing device is further disposed on the garbage scanning platform, and the gravity sensing device is in communication connection with the processor and is used for weighing the recyclable garbage and sending a weighing result to the processor, so that the processor generates a recycling amount according to the type of the recyclable garbage and the weighing result;

the garbage scanning platform is also provided with a press device for pressing and recovering the recoverable garbage;

the press machine device further comprises a press machine baffle, and the press machine baffle is arranged on the garbage scanning platform and used for shielding the press machine device.

In one embodiment, the processor acquires user information of the recyclable garbage, and generates a two-dimensional code according to the user information and at least one of the type, the amount, the weighing result and the recycling amount of the garbage to be processed;

and the processor acquires the verification information corresponding to the two-dimensional code and pays the corresponding amount to the account of the corresponding user according to the verification information.

In one embodiment, the waste disposal system further comprises at least one waste bin;

the at least one garbage can is arranged in a preset distance of the garbage scanning platform and is electrically connected with the garbage scanning platform.

In one embodiment, the waste management system further comprises a controller;

the controller is used for controlling the at least one garbage bin to be opened for a preset time according to the garbage category.

In one embodiment, an infrared device is arranged on the garbage can;

the infrared device is arranged at the top end of the garbage can and used for monitoring the capacity information of the garbage can and sending the capacity information to the processor, so that the processor informs the garbage disposal site according to the capacity information.

In one embodiment, the waste management system further comprises a monitoring sensor;

the monitoring sensor is used for collecting abnormal discarding information of garbage and sending the abnormal discarding information to the processor so that the processor informs the garbage disposal site according to the abnormal discarding information; and acquiring road information in the coverage range of the monitoring sensor, and assisting the GIS system to carry out path planning.

In one embodiment, the waste management system further comprises an L ED display screen;

l ED display screen set up in on the wisdom street lamp body of rod, be used for showing the information of the correspondence of refuse to be handled.

In one embodiment, the intelligent street lamp further comprises a lamp, wherein the lamp is mounted on the intelligent street lamp rod body and used for providing a light source.

In one embodiment, the garbage disposal device further comprises a liquid scanning device;

the liquid scanning device is arranged on the garbage scanning platform and used for collecting attribute information of garbage to be processed, which is in contact with the liquid scanning device, and sending the attribute information to the processor;

and the processor classifies the garbage to be processed according to the type of the garbage in the preset database and at least one of the environmental parameter information, the photoelectric parameter information and the attribute information.

The garbage disposal system of the integrated intelligent street lamp can achieve the purpose of saving occupied area by integrating the garbage disposal system on the intelligent street lamp and setting and installing the garbage disposal system by means of the existing field of the intelligent street lamp without additionally creating a field, and can be installed and set by means of the intelligent street lamp rod body, the environment sensing equipment and the photoelectric sensor on the intelligent street lamp without additionally installing corresponding environment sensing equipment and a photoelectric sensor aiming at the garbage disposal system, thereby saving the cost for installing the garbage disposal system, and performing garbage classification work at the garbage recycling source by combining the garbage scanning platform, the pressure machine device and the gravity sensing device, so that related workers do not need to classify and recycle the collected garbage again, improving the efficiency of garbage classification and recycling, reducing the occupation of unnecessary garbage disposal field, and avoiding secondary pollution to the environment, and when the garbage needs to be transported, a path planning scheme aiming at the garbage treatment system is provided, so that the garbage transportation efficiency is improved.

Drawings

FIG. 1 is a diagram of an exemplary application environment of a garbage disposal system integrated with intelligent street lamps;

FIG. 2 is a schematic structural diagram of an integrated intelligent street lamp garbage disposal system according to an embodiment;

FIG. 3 is an internal block diagram of a controller in one embodiment.

The reference numbers illustrate:

waste disposal system 10

Internet of things platform 20

Garbage truck 30

Garbage generating source 40

GIS system 120

Intelligent street lamp pole body 101

L ED display screen 102

Environment sensing device 103

Drain outlet 104

Garbage scanning platform 105

Lamp 106

Display light and/or broadcast device 107

Photoelectric sensor 108

Liquid scanning device 109

Garbage bin 110

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that the terms "first," "second," and the like, as used herein, may be used herein to describe various elements and positional relationships, but are not limited by these terms. These terms are only used to distinguish one element or positional relationship from another element or positional relationship.

Fig. 1 is an application environment diagram of a garbage disposal system 10 integrated with an intelligent street lamp according to an embodiment of the present application. The intelligent street lamp integrated waste disposal system 10 provided by the embodiment of the application can be applied to the application environment of the intelligent street lamp integrated waste disposal system 10 shown in fig. 1. The application environment of the integrated intelligent street lamp garbage disposal system 10 includes: the system comprises a garbage disposal system 10, an internet of things platform 20, a garbage transport vehicle 30 and a garbage generation source 40.

The garbage disposal system 10, the internet of things platform 20 and the garbage transport vehicle 30 are connected through a wireless network or a wired network, the garbage generation source 40 and the garbage disposal system 10 form a garbage generation and collection relationship, and the internet of things platform 20 stores information related to the garbage generation source 40.

In one embodiment, as shown in fig. 2, a garbage disposal system 10 integrated with intelligent street lamps is provided, the garbage disposal system 10 includes the intelligent street lamps and a garbage disposal device;

the intelligent street lamp comprises an intelligent street lamp rod body 101, an environment sensing device 103 and a photoelectric sensor 108;

the garbage disposal device comprises a garbage scanning platform 105, a GIS system 120 and a processor;

the trash scanning platform 105 is arranged at the bottom end of the intelligent street lamp rod body 101; the environment sensing device 103 and the photoelectric sensor 108 are arranged on the intelligent street lamp rod body 101 and are positioned above the garbage scanning platform 105; the processor is respectively in communication connection with the environment sensing device 103 and the photoelectric sensor 108;

the environment sensing equipment 103 is used for acquiring environment parameter information of the garbage to be treated and sending the environment parameter information to the processor;

the photoelectric sensor 108 is used for collecting photoelectric parameter information of the garbage to be treated and sending the photoelectric parameter information to the processor;

the processor classifies the garbage to be treated according to the type of the garbage in a preset database and at least one item of environmental parameter information and photoelectric parameter information to obtain a garbage category, and performs garbage treatment according to the garbage category;

the GIS system 120 is used for positioning the garbage disposal system 10 to obtain the position information of the garbage disposal system 10;

the GIS system 120 acquires the location information of the trash processing site and determines the trash transportation path according to the location information of the trash processing system 10 and the location information of the trash processing site.

The environment sensing device 103 is mainly used for collecting environmental parameter information of the garbage, such as odor, moisture and the like of the garbage, and sending the environmental parameter information to the processor. The photoelectric sensor 108 is mainly used for collecting photoelectric parameter information of garbage, such as images and light reflection degree, and sending the photoelectric parameter information to the processor. The garbage scanning platform 105 is mainly used for bearing garbage to be identified and providing a clean and reliable background for the garbage to be identified so as to facilitate the collection of various parameter information of the garbage by the environment sensing equipment 103 and the photoelectric sensor 108; the waste scanning platform 105 is made of a material having a hardness to ensure that it can withstand the waste placed thereon and the pressure applied from the outside when the waste is recycled and pressed. The preset database comprises information of shapes, colors, smells and the like of various wastes. The database also includes the address of the relevant person and the information such as telephone. The recyclable garbage refers to garbage which can be recycled and recycled, and mainly comprises waste paper, plastics, glass, metal, cloth, electronic products and other recyclable garbage.

Exemplarily, the intelligent street lamp pole body 101 is a hollow structure and is mainly used for bearing an external device arranged on the intelligent street lamp pole body 101. The trash scanning platform 105 is connected to the smart street light pole 101 by welding and screws (for example, the connection method is not limited to a specific connection method) for carrying the trash to be processed. The environment sensing device 103 is embedded inside the intelligent street lamp pole body 101, and the photoelectric sensor 108 is mounted on the intelligent street lamp pole body 101.

When the environment sensing device 103, the photoelectric sensor 108 and the garbage scanning platform 105 are used for classifying garbage and determining recyclable garbage, a press machine is arranged in a press machine device arranged on the garbage scanning platform 105 and used for pressing garbage (such as waste paper, plastic, metal and the like) which can be pressed, and therefore the occupied space of the recyclable garbage is reduced.

When the garbage needs to be transported, the GIS system 120 locates the garbage disposal system 10 and sends the position information of the garbage disposal system 10 to the internet of things platform 20, and the internet of things platform 20 schedules and plans the garbage sites and the transportation vehicles according to the position information of the garbage disposal system 10 and the available information and the position information of the urban garbage disposal sites.

The waste disposal system 10 of the integrated intelligent street lamp can achieve the purpose of saving occupied area by integrating the waste disposal system 10 on the intelligent street lamp and setting and installing the waste disposal system 10 by means of the existing field of the intelligent street lamp without additionally creating a field, and can be installed and set by means of the intelligent street lamp rod body 101, the environment sensing equipment 103 and the photoelectric sensor 108 on the intelligent street lamp without additionally installing the corresponding environment sensing equipment 103 and the photoelectric sensor 108 aiming at the waste disposal system 10, thereby saving the cost for installing the waste disposal system 10, and performing waste classification work at the source of waste recovery by combining the waste scanning platform 105, the press device and the gravity sensing device, so that related workers do not need to classify and recover the collected waste again, improving the efficiency of waste classification and recovery, and reducing unnecessary waste disposal places, the secondary pollution to the environment is avoided, a path planning scheme aiming at the garbage treatment system 10 is provided when the garbage needs to be transported, and the garbage transportation efficiency is improved.

Optionally, a gravity sensing device is further disposed on the garbage scanning platform 105, and the gravity sensing device is in communication connection with the processor, and is configured to weigh the recyclable garbage and send a weighing result to the processor, so that the processor generates a recycling amount according to the type and the weighing result of the recyclable garbage.

For example, after determining the recyclable waste, the gravity sensing device disposed on the waste scanning platform 105 may weigh the waste to be recycled, and send the weighing result to the processor, so that the processor generates a recycling amount according to the type and weighing result of the recyclable waste.

Optionally, a press device is further disposed on the garbage scanning platform 105 for pressing and recycling the recyclable garbage. Particularly, the press device can be used for pressing the recyclable garbage, so that the occupied space of the recyclable garbage is reduced.

Optionally, the press device further comprises a press baffle, which is disposed on the garbage scanning platform 105 and used for shielding the press device.

When suppressing rubbish with the press device and retrieving, exert pressure of placing on rubbish scanning platform 105 and probably very big, the press baffle can prevent external interference to rubbish pressing process, still keeps apart external personnel etc. simultaneously, improves the security of whole rubbish suppression recovery process.

Optionally, the processor obtains user information of the recyclable garbage, and generates the two-dimensional code according to the user information and at least one of the type, the quantity, the weighing result and the recycling amount of the garbage to be processed.

Optionally, the processor acquires verification information corresponding to the two-dimensional code, and pays a corresponding amount to an account of the corresponding user according to the verification information.

Optionally, the garbage disposal system 10 further includes a two-dimensional code printing device, which is disposed on the garbage scanning platform 105 and is configured to print the two-dimensional code generated by the processor; the two-dimensional code is generated by the processor and comprises belonged user information, the type and the quantity of recyclable garbage, a weighing result and a recycling amount.

Optionally, the manager verifies and confirms the amount of the collected money and sends the verification and confirmation to the processor, and the processor types the corresponding amount into the user account according to the verification and confirmation result.

Optionally, the waste disposal system 10 further comprises at least one waste bin 110; at least one trash can 110 is disposed within a predetermined distance of the trash scanning platform 105 and electrically connected to the trash scanning platform 105. Wherein the waste treatment system 10 further comprises a controller; a controller for controlling at least one garbage can 110 to be opened for a preset time according to the type of garbage.

Illustratively, if the garbage is classified into 4 types, i.e., recyclable garbage, kitchen garbage, harmful garbage, and other garbage, the garbage disposal system 10 also includes at least 4 garbage cans 110 for containing different types of garbage. When the garbage disposal system 10 recognizes the garbage to be recognized as the recyclable garbage, the controller controls to open the garbage bin 110 corresponding to the recyclable garbage, and after the user places the corresponding garbage in the garbage bin 110 corresponding to the recyclable garbage, the controller controls to close the garbage bin 110 corresponding to the recyclable garbage after a preset time period is delayed.

The controller may be a server, and an internal structure diagram of the controller may be as shown in fig. 3. The controller includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the controller is configured to provide computational and control capabilities. The memory of the controller comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the controller is used to store control data. The network interface of the controller is used for communicating with an external terminal through network connection.

Those skilled in the art will appreciate that the configuration shown in fig. 3 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation on the controller to which the present application is applied, and that a particular controller may include more or fewer components than those shown, or combine certain components, or have a different arrangement of components.

Optionally, a paper bag placing place is further built in the garbage scanning platform 105, wherein the paper bag is mainly used for containing recyclable garbage.

Optionally, an infrared device is arranged on the trash can 110; the infrared device is arranged at the top end of the garbage can 110 and used for monitoring the capacity information of the garbage can 110 and sending the capacity information to the processor, so that the processor informs the garbage disposal site according to the capacity information.

Optionally, when the infrared device detects that the trash can 110 is to be filled, the information is fed back to the internet of things platform 20 through the feedback system of the smart street lamp, the internet of things platform 20 notifies a manager, and the manager performs trash recycling.

Optionally, the waste treatment system 10 further comprises a monitoring sensor; the monitoring sensor is used for collecting abnormal discarding information of the garbage and sending the abnormal discarding information to the processor so that the processor informs the garbage disposal site according to the abnormal discarding information; and acquiring road information within the coverage of the monitoring sensor for assisting the GIS system 120 in path planning.

Optionally, the garbage disposal system 10 further comprises L ED display screens 102, L ED display screens 102 are arranged on the intelligent street lamp rod body 101 and are used for displaying corresponding information of garbage to be disposed.

Specifically, an L ED display screen 102 is embedded inside the intelligent street lamp rod body 101. the L ED display screen 102 is usually used for displaying advertisement and emergency information, and after garbage to be identified is placed on the garbage scanning table, the information displayed on the L ED display screen 102 is converted into an image corresponding to the garbage to be identified and the type of the identified garbage so as to prompt a user of the type of the garbage identified by the user.

Optionally, the garbage disposal system 10 further comprises a display light and/or a broadcasting device; the display lamp and/or the broadcasting equipment are used for carrying out corresponding prompt according to the type of the recyclable garbage and/or the recycling amount.

Specifically, the display lamp and/or the broadcasting equipment are embedded in the intelligent street lamp pole body 101. The type number of the display lamps and/or the display lamps of the broadcasting equipment is consistent with the type number of the garbage, for example, the type number of the garbage is 4, and the display lamps are respectively display lamps with 4 different colors such as green, blue, red, gray and the like, and respectively correspond to recoverable garbage, kitchen garbage, harmful garbage and other garbage. The display lamp and/or the broadcasting equipment in the broadcasting equipment are used for reminding the user and broadcasting the garbage types.

Optionally, the garbage classification system 10 further comprises a display light and/or a broadcast device 107; the display lamp and/or the broadcast device 107 is used for prompting correspondingly according to the type of the recyclable garbage and/or the recycling amount.

Specifically, the display lamp and/or the broadcasting device 107 is embedded in the intelligent street light pole body 101. The number of types of the display lamps and/or the broadcast equipment 107 is the same as the number of types of garbage, for example, the types of garbage are 4, and the display lamps are respectively display lamps with 4 different colors such as green, blue, red and gray, and correspond to recoverable garbage, kitchen garbage, harmful garbage and other garbage. The display lights and/or the broadcast devices in the broadcast device 107 are used to alert the user and broadcast the type of garbage.

Optionally, a sewage draining outlet 104 is arranged on the garbage scanning platform 105; the drain 104 is connected to an underground drain.

Specifically, the sewage drain 104 is embedded in the garbage scanning platform 105. For the dumping of harmless liquids, it may be connected to an underground drainage via a conduit or a conducting channel similar to a conduit.

Optionally, the photosensor 108 further comprises a monitoring photosensor 108; the monitoring photoelectric sensor 108 is used for collecting abnormal discarding information of the wasteland and sending the collected abnormal discarding information to the processor, and the processor processes the abnormal discarding information; and acquiring road information in the coverage area of the monitoring photoelectric sensor 108 for assisting the GIS system 120 in path planning.

Specifically, the monitoring photoelectric sensor 108 is used for identifying the behavior information of litter and throwing things from high altitude, further performing face identification, checking personnel information according to the command street lamp database, comparing the personnel information with the database information, and after needing the management personnel to confirm the information, warning the personnel in a form of sending a short message, and timely notifying the personnel to quickly arrive at the site, warning the personnel and placing the litter in a correct position.

Optionally, the processor uploads the obtained information such as the weighing result, the recycling amount, the two-dimensional code, and the abnormal discarding information to the internet of things platform 20, so that the internet of things platform 20 shares the information such as the weighing result, the recycling amount, the two-dimensional code, and the abnormal discarding information.

Optionally, the liquid scanning device 109 is disposed on the garbage scanning platform 105, and is configured to collect attribute information of garbage contacting the liquid scanning device 109, and send the collected attribute information to the processor;

the processor classifies the garbage according to at least one item of environmental parameter information, photoelectric parameter information and attribute information.

The liquid scanner 109 is mainly used to collect attribute information of the garbage, such as whether the garbage contains toxic or harmful substances.

The types of waste include, but are not limited to, recyclable waste, kitchen waste, hazardous waste, and other waste. The recyclable garbage is garbage which can be recycled and recycled, and mainly comprises waste paper, plastics, glass, metal, cloth, electronic products and other recyclable garbage. The kitchen waste is degradable waste generated in daily life of residents, and mainly comprises vegetable sides, vegetable leaves, melon and fruit skins and shells, leftovers, green plants for flowers and plants, overdue food, broken meat bones, tea leaves residues, traditional Chinese medicine residues and the like. The harmful garbage refers to heavy metal and toxic substances harmful to human bodies or waste which causes real harm or potential harm to the environment, and mainly comprises batteries, fluorescent tubes, bulbs, mercury thermometers, paint buckets, partial household appliances, overdue medicines, overdue cosmetics and the like. Other garbage refers to nontoxic and harmless garbage which is difficult to recycle, and mainly comprises lunch boxes, polluted paper, cigarette butts, paper diapers, disposable tableware, shells, flowerpots, ceramics and the like.

The liquid scanning device 110 is embedded on the garbage scanning table and is used for identifying the attribute information of the liquid placed on the garbage scanning table.

When garbage classification is needed, if the garbage to be classified is solid or tangible garbage, the garbage is placed on the garbage scanning platform 105, the environment sensing equipment 103 collects environment parameter information of the garbage placed on the garbage scanning platform 105 under a natural light source or a supplementary light source provided by the lamp 106, and sends the collected environment parameter information to the processor; the photoelectric sensor 108 collects the photoelectric parameter information of the garbage placed on the garbage scanning platform 105 and sends the collected photoelectric parameter information to the processor; if the garbage to be classified is liquid garbage, the garbage is placed on a liquid scanning device 109 on a garbage scanning platform 105, the liquid scanning device 109 collects attribute information of the garbage to be identified, and meanwhile, the collected attribute information is sent to a processor; optionally, when the liquid scanning device 109 is disposed on the garbage scanning platform 105 and also belongs to a part of the garbage scanning platform 105, and when the garbage to be classified is liquid garbage, the environment sensing device 103 and the photoelectric sensor 108 may also classify the garbage according to at least one of the environment parameter information, the photoelectric parameter information, and the attribute information, so as to obtain a type of the corresponding garbage.

In one embodiment, the garbage disposal system 10 applied to the integrated intelligent street lamp provides a garbage recycling method for disposing garbage.

The intelligent street lamp identifies the behaviors of littering and random placement of garbage, high-altitude throwing and the like through the photoelectric sensor 108; the intelligent street lamp internet of things platform 20 performs alarm processing and further performs face recognition, and the intelligent street lamp subsystem database checks personnel information and compares the personnel information with the database information; after needing the background management personnel to confirm the information, the background management personnel can warn the information in a form of sending short messages and can also timely inform the staff to quickly arrive at the site, warn the staff to process the warning and place garbage at the correct position; when the user uses the system for the first time, the APP account needs to be registered, and only direct login is needed later. In the working engineering, the scanning garbage platform 105 mainly provides information including total garbage recycling amount, recycling amount of each time, cash withdrawal, garbage delivery time, garbage types, garbage weight or quantity, electronic products and the like, and the information is uploaded to the intelligent street lamp internet of things platform 20 and the mobile phone APP terminal; the garbage classification and recovery device is used for classifying and recovering garbage, mainly utilizes a photoelectric sensor 108 and an environment sensing device 103 of a smart street lamp to detect and classify the type of the garbage, then weighs the recoverable garbage through the photoelectric sensor 108 and a gravity sensing device, calculates the recovery price, then a user puts the recoverable garbage into a garbage bag, prints two-dimensional codes (information such as type, quality or quantity, the recovery price and the like), places the garbage bag in a recoverable garbage can 110 until a worker scans the two-dimensional codes to confirm articles, and the user can receive corresponding money; the information of the garbage can 110 is uploaded to the intelligent street lamp internet of things platform 20, when the garbage can 110 is to be filled, the internet of things platform 20 informs a manager, the manager can send out a garbage truck, meanwhile, the capacity information of the garbage can 110 and the walking route of the garbage truck can be fed back to a mobile phone APP of a cleaner in real time, and meanwhile, reasonable path planning is carried out on the garbage truck, so that road blockage is avoided, and unnecessary time is wasted; after the cleaning staff reachd garbage bin 110 position, need take out the disposal bag that is equipped with rubbish, check the information of rubbish, after confirming through cell-phone APP, the user can receive the recovery amount of money, and the user can be carried and appear.

In a specific implementation, the garbage disposal system 10 relies on the intelligent street lamp internet of things platform 20, and mainly comprises a garbage information database, a garbage scanning platform, garbage turbulence random discharge, high-altitude object throwing, garbage truck path planning, garbage can 110 management and a mobile phone APP.

The data of the garbage information database comes from the network and government departments, and the contained information is the information such as the type, the color and the market price of the recyclable garbage. The data in the data are updated in real time, and the updating interval time is one month.

The rubbish scanning platform is in the same place with the welding of wisdom street lamp body of rod 101, and the classification of rubbish such as recoverable rubbish, rubbish from cooking, harmful rubbish and other rubbish and the recovery of recoverable rubbish mainly used. And the opening and closing of the trash can 110 can be controlled by the power system. The system can collect user's information, including time, number of times, kind that the user put in, recoverable rubbish weight or quantity, and the information links to each other with cell-phone APP for the point is provided and is used, and the recovery amount of money is to the account.

The garbage random discharge is identified by the photoelectric sensor 108, and the platform automatically alarms after the abnormal behavior of random discharge is identified. After alarming, face recognition is carried out, the intelligent street lamp subsystem database checks personnel information, the personnel information is compared with the database information, warning can be carried out in a short message sending mode, workers can be informed in time to rapidly arrive at the site, warning treatment is carried out on the workers, and rubbish is placed at the correct position.

The high-altitude parabolic model is mainly identified by using the photoelectric sensor 108, and the platform automatically alarms after the abnormal behavior of the high-altitude parabolic model is identified. The intelligent street lamp subsystem database checks the information of the high-altitude parabolic householder, can warn the high-altitude parabolic householder in a form of sending a short message, and timely informs workers to quickly arrive at the scene, warn the workers and correctly process garbage.

There are two main roles of the trash can 110 management. First, the trash can 110 is opened and closed, and the scanning platform is connected with the trash can 110 through an external wire, and the wire is buried underground. After the user monitors the type of the garbage, the external circuit is powered on, the garbage can 110 is automatically opened, after the user places the garbage in the garbage can 110, the garbage can 110 is automatically powered off after waiting for several seconds, and the garbage can 110 is closed. The second is the capacity for garbage. Monitor its capacity through the infrared equipment in the garbage bin 110, when the garbage bin 110 will be full, wisdom street lamp thing networking platform 20 carries out alarm processing, notifies the garbage truck to go out.

Route planning of garbage truck, after garbage bin 110 reported to the police unusually, wisdom street lamp thing networking platform 20 was according to the road information that photoelectric sensor 108 uploaded and the CIS locating information of wisdom street lamp, and the shortest road walking route is used in the planning, and the garbage truck is based on the good route of planning and is started, increases cleanup crew's work efficiency.

The mobile phone APP mainly comprises three authorities. The first level is a user side, and mainly comprises the following contents: the total amount of garbage collected, the amount collected each time, cash withdrawal, garbage delivery time, garbage types, garbage weight or quantity, electronic products and the like. The information at the user end is derived from the spam scanning platform 105. The second level is the cleaner: the capacity of the trash can 110, the route planning of the garbage truck, the trash information confirmation and the like, and the information of the cleaner is derived from the intelligent street lamp internet of things platform 20 and the trash scanning platform 105. The third level is a manager, and the content is background management of the mobile phone APP.

The total garbage recovery amount is the total recovery amount of the user recoverable garbage. The recycling amount of each time is the recycling amount of each time of the garbage of the user. And the cash withdrawal function is used for withdrawing the cash of the user and directly transferring the cash to the bank card. The garbage delivery time is the time for delivering various types of garbage by a user. The garbage type is the garbage scanning result of the garbage scanning platform 105. The weight or quantity of the garbage, the weight of the recyclable garbage (waste paper, metal and cloth) delivered to the user and the quantity of the recyclable garbage plastic and glass containers). The electronic product (money and details) is the information of the electronic product of the user, including the appearance, the brand, the service life, whether the electronic product can be started for use, software, hardware and other comprehensive factors of the electronic product, and the final recycle price. The capacity of the garbage bin 110 is fed back to the mobile phone APP terminal and the intelligent street lamp Internet of things platform 20 in real time through the infrared device feedback capacity in the garbage bin 110.

Route planning of garbage truck, through the road information that photoelectric sensor 108 uploaded and the GIS locating information of wisdom street lamp, the shortest road walking route supplies the garbage truck driver to refer to when planning the usefulness, improves cleanup crew's work efficiency.

Rubbish information confirms, and after the cleanup crew arrived garbage bin 110 position, the disposal bag that needs to be equipped with rubbish was taken out, checks the information of rubbish, confirms through cell-phone APP after, and the user can receive the recovery amount of money, and the user can be carried and present.

And background management of the mobile phone APP is performed for a maintenance end of a manager.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The garbage disposal system integrated with the intelligent street lamp is characterized by comprising the intelligent street lamp and a garbage disposal device;

the intelligent street lamp comprises an intelligent street lamp rod body, environment sensing equipment and a photoelectric sensor;

the garbage treatment device comprises a garbage scanning platform, a GIS system and a processor;

the garbage scanning platform is arranged at the bottom end of the intelligent street lamp rod body; the environment sensing equipment and the photoelectric sensor are arranged on the intelligent street lamp rod body and are positioned above the garbage scanning platform; the processor is respectively in communication connection with the environment sensing equipment and the photoelectric sensor;

the environment sensing equipment is used for acquiring environment parameter information of garbage to be treated and sending the environment parameter information to the processor;

the photoelectric sensor is used for collecting photoelectric parameter information of the garbage to be treated and sending the photoelectric parameter information to the processor;

the processor classifies the garbage to be processed according to the type of the garbage in a preset database and at least one of the environmental parameter information and the photoelectric parameter information to obtain a garbage category, and performs garbage processing according to the garbage category;

the GIS system is used for positioning the garbage disposal system to obtain the position information of the garbage disposal system;

the GIS system acquires the position information of the garbage disposal site and determines a garbage transportation path according to the position information of the garbage disposal system and the position information of the garbage disposal site.

2. A waste disposal system as claimed in claim 1, wherein the waste to be disposed of comprises recyclable waste;

the garbage scanning platform is also provided with a gravity sensing device which is in communication connection with the processor and is used for weighing the recyclable garbage and sending a weighing result to the processor so that the processor can generate a recycling amount according to the type of the recyclable garbage and the weighing result;

the garbage scanning platform is also provided with a press device for pressing and recovering the recoverable garbage;

the press machine device further comprises a press machine baffle, and the press machine baffle is arranged on the garbage scanning platform and used for shielding the press machine device.

3. A garbage disposal system according to claim 2, wherein the processor acquires user information of the recyclable garbage, and generates a two-dimensional code based on the user information and at least one of the kind, the amount, the weighing result, and the recycling amount of the garbage to be disposed;

and the processor acquires the verification information corresponding to the two-dimensional code and pays the corresponding amount to the account of the corresponding user according to the verification information.

4. A waste disposal system as defined in claim 1, further comprising at least one waste bin;

the at least one garbage can is arranged in a preset distance of the garbage scanning platform and is electrically connected with the garbage scanning platform.

5. A waste disposal system as claimed in claim 4, further comprising a controller;

the controller is used for controlling the at least one garbage bin to be opened for a preset time according to the garbage category.

6. A waste disposal system as claimed in claim 4, wherein the waste bin is provided with an infrared device;

the infrared device is arranged at the top end of the garbage can and used for monitoring the capacity information of the garbage can and sending the capacity information to the processor, so that the processor informs the garbage disposal site according to the capacity information.

7. A waste disposal system as defined in claim 1, further comprising a monitoring sensor;

the monitoring sensor is used for collecting abnormal discarding information of garbage and sending the abnormal discarding information to the processor so that the processor informs the garbage disposal site according to the abnormal discarding information; and acquiring road information in the coverage range of the monitoring sensor, and assisting the GIS system to carry out path planning.

8. A waste disposal system as defined in claim 1, further comprising an L ED display screen;

l ED display screen set up in on the wisdom street lamp body of rod, be used for showing the information of the correspondence of refuse to be handled.

9. The garbage disposal system of claim 1, wherein the intelligent street lamp further comprises a lamp, and the lamp is mounted on the intelligent street lamp rod body and used for providing a light source.

10. A waste disposal system according to claim 1, wherein the waste disposal device further comprises a liquid scanning device;

the liquid scanning device is arranged on the garbage scanning platform and used for collecting attribute information of garbage to be processed, which is in contact with the liquid scanning device, and sending the attribute information to the processor;

and the processor classifies the garbage to be processed according to the type of the garbage in the preset database and at least one of the environmental parameter information, the photoelectric parameter information and the attribute information.

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