RU2230015C1 - Hard household garbage handling system - Google Patents

Abstract

FIELD: public services. SUBSTANCE: proposed system contains check and control station including radio station, processor, recording device and dispatcher's working place, at least one garbage collecting device in form of container for garbage equipped with at least one intake hopper with cover and electronic lock, radio station, Client's unit, data input-output device, garbage parameters transmitters, for instance, mass, volume and moisture transmitters and ecological danger transmitters, for instance, radiation background and mercury vapors sensors and full-load indicator of garbage collector, at least one garbage discharge recording (re-loading) station equipment with radio station, processor, data input-output device recording device and dispatcher's working place and at least one transportation vehicle for carrying garbage equipment with radio station, control and information processing unit, data input-output device, electronic lock of container cover, body lifting and manipulator interlock unit, garbage parameters transmitters, garbage ecological danger transmitters and container full load indicator. EFFECT: enlarged operating capabilities, increased ecological safety. 13 cl, 1 dwg

Description

The invention relates to utilities and can mainly be used within various territorial entities for the environmentally sound management of solid waste (hereinafter referred to as waste), mainly solid household waste, which includes the collection of waste from the sources of their generation, waste accounting and environmental safety control as well as transportation of waste to unloading or transshipment facilities for further sorting, processing, disposal and disposal.

Known garbage chutes of high-rise buildings according to the patents of the Russian Federation No. 2098575, 1997; No. 2129641, 1999; No. 2148137, 2000; No. 2168595, 2001 and No. 2170313, 2001, which provide waste collection from residents of the entrance of a multi-storey building to a waste collection chamber and in a common part contain a barrel with an end section located in the waste collection chamber and having an unloading device, and receiving valves installed on the barrel and located on each floor. In terms of safety of waste management, these chutes are equipped with, for example, devices for cleaning, washing and disinfecting the trunk of the chute, as well as devices to prevent the spread of fire in a fire in a garbage collection chamber. However, garbage chutes do not provide a high degree of safety of waste management, since their equipment does not allow for the identification of environmentally hazardous waste at the collection stage and, therefore, should be isolated and promptly removed by specialists of appropriate qualifications. In addition, these means of waste collection do not allow their accounting.

From the literature (Fedorov LG, Trends in the development of waste transfer stations in the Moscow region. - Scientific and technical journal "Clean City", 1998, No. 2, pp. 8 - 9), a waste management system is known that contains means for collecting waste from sources formations, vehicles for the transport of waste and at least one garbage transfer station. This system does not provide a high degree of safety of waste management, since it provides for the monitoring of the environmental safety of waste, in the best case, only at a garbage transfer station. The system also does not provide measures to prevent unauthorized unloading of vehicles for the transport of waste by drivers in places not provided for this. In addition, the accounting of the amount of waste, also performed at the garbage transfer station, does not allow to obtain differentiated information on the amount of waste collected from individual customers, and therefore it is rational to organize mutual settlements.

The closest in technical essence to the proposed invention should be considered the territorial control system for the transportation of environmentally hazardous goods according to the patent of the Russian Federation No. 2173889, 2001, G 08 B 25/10, which provides the controlled export of environmentally hazardous solid household and industrial waste to storage and processing facilities. This system, selected for the prototype, contains a control point, including a series-connected radio station, a first processor, a workplace of an environmental manager, a second processor, a comparison unit and an encoding device connected to the workplace of an environmental manager, and the comparison unit is connected to the first processor, as well as at least one waste transport vehicle equipped with a series-connected radio station, a subscriber coding device and a registration device, as well as connected to the subscriber coding device by a coordinate information sensor, a cargo (waste) nature sensor and signal sensors, moreover, the radio stations of the control point and the waste transport vehicle are connected by a radio channel. In this case, the navigation sensor of the global radio navigation satellite system is used as a coordinate information sensor, a device that reads information about the cargo (waste) from the cargo marker, for example, in the form of a bar or perforator code, is used as a sensor of the nature of the cargo (waste), and signal sensors made in the form of contacts, they are able to record facts, for example, raising or lowering a container of a vehicle, unsealing sealed cargo, opening or closing doors of a cab s, the bonnet or the vehicle fuel tank.

The specified well-known territorial control system for the transportation of environmentally hazardous goods ensures that the environmental manager receives information on the current position, speed and condition of each vehicle included in the system for transporting waste, the presence and nature of the cargo (waste) from the control center upon request him and the occurrence of environmental hazard alarms, the formation and display to the environmental manager of the results of the comparison of the main parameters received from a vehicle for transporting waste, with its normative values, monitoring by an environmental manager of compliance with the specified parameters to normative values and, if necessary, transmitting by an environmental manager via voice communication instructions to drivers of vehicles for transporting waste to adjust their actions, as well as calling mobile groups liquidation of an emergency environmental situation.

However, firstly, the well-known system selected for the prototype provides only centralized control over the waste transportation process, the fact, nature and degree of environmental hazard of which has already been established earlier by other forces and means that are not part of this system, but does not allow environmental hazardous waste at the stage of its collection from sources of generation and therefore to prevent the mixing of environmentally hazardous waste identified at this stage with waste already collected from sources of generation that does not represent and environmental hazards, and to carry out their safe disposal, using the timely actions of the mobile groups of the territorial emergency services. In addition, as follows from the description of the invention, this system only generates signals about unauthorized unloading of vehicles of environmentally hazardous waste by drivers in prohibited places and ensures that they are brought to the mobile groups of the territorial emergency service, but does not prevent such unauthorized actions of drivers, unscrupulously performing their functional duties. This greatly reduces the degree of safety of waste management.

Secondly, this system does not allow centralized control over the collection of waste from sources of generation while taking into account and obtaining information, for example, about the mass, volume and humidity of consumption waste, including those collected from various customers or delivered to unloading facilities (transhipment ), which can serve as the basis for mutual settlements of the organization that collects and removes waste, with a large number of clients served by it and objects for unloading (transshipment) of waste, as well as contribute to the formation of a rational tariff policy by this organization.

And thirdly, the system selected for the prototype does not allow for timely receipt by the control center of information on the full loading of the capacity of a particular waste collection tool from the source of education, for example, a garbage chute of a multi-story building or container installed on a designated site, bringing it to the dispatcher to the driver of the vehicle for the transport of waste appropriate instructions and therefore the removal of waste from the source of formation, which in case of overflow of the capacity of the collection means waste in may cause clogging of the surrounding area and the violation of the environmental situation.

In General, the specified second and third circumstances significantly reduce the functionality of the prototype system.

Therefore, the disadvantages of the well-known territorial control system for the transportation of environmentally hazardous goods are the insufficiently high degree of environmental safety of waste management, as well as its insufficiently wide functionality.

The purpose of the present invention is to increase the degree of environmental safety of waste management, as well as expanding the functionality of the system that performs the specified waste management.

The goals are achieved according to the invention in that the proposed solid waste management system for consumption, comprising, in accordance with the prototype, a monitoring and control station comprising serially connected radio station, processor and dispatcher workstation, and at least one waste transport vehicle with a radio station, a sensor of the nature of the waste and signal sensors, while the radio stations of the control and management center and the vehicle for the transport of waste are interconnected radio channel, differs from the prototype in that it is equipped with at least one waste collection device based on a waste container, equipped with at least one receiving hopper with a lid and an electronic lock, connected in series by the radio station, the client node and the input device - output of information connected to the client node by the sensors of waste parameters and sensors of the environmental hazard of the waste, while the electronic lock is connected to the client node, and at least one point of accounting for waste from the unloading facility (overload) equipped with a serially connected radio station, a processor and a dispatcher’s workstation, as well as a recording device and an information input / output device connected to the processor, the monitoring and control station is equipped with a registration device connected to the processor, the waste transport vehicle is equipped with a control and processing unit information and the information input-output device connected to it and the electronic lock of the container lid, while the radio station, the departure sensors c and signal sensors of the vehicle for waste transportation are connected to the control and information processing unit, as parameters of the nature of the vehicle’s waste for waste transportation, waste parameter sensors and environmental hazard hazard sensors are used, and the radio stations of the waste collection facility and the waste collection point of the unloading facility (overload ) are associated with the radio station control and management of radio channels. In this case, the client node of the waste collection means and the control and information processing unit of the vehicle for transporting waste are microprocessor-based, the container of the vehicle for transporting waste is equipped with a receiving hopper, the vehicle for transporting waste is equipped with a body lifting block and a manipulator locking unit connected to the control unit and information processing, a trans-container full load sensor was used as a signal sensor of a vehicle for waste transportation tailor means, sensors of waste mass, volume and humidity were used as sensors of waste parameters, a background radiation sensor and a mercury vapor sensor were used as environmental hazard sensors, a refuse chute of a multi-story building or a press container installed on the designated the site, and the waste collection device is equipped with a full load signal sensor connected to the client node.

A significant increase in the degree of environmental safety of solid waste management declared above as one of the objectives of the invention makes it possible to provide the proposed solid waste management system with at least one waste collection means (for example, a refuse chute of a multi-story building or a press container installed on designated area) based on a waste container equipped with at least one receiving hopper with a lid and an electronic lock, properly connected by a radio station, a client node, made, for example, on the basis of a microprocessor, and an information input / output device, environmental hazard hazard sensors connected to the client node, for example, a background radiation sensor and a mercury vapor sensor, and a signal sensor for fully loading the waste collection means, when the electronic lock is connected to the customer’s node, supplying the proposed system with at least one waste collection point of the unloading (overload) facility, equipped with series-connected an audio station, a processor and a dispatcher’s workstation, as well as an information input-output device connected to the processor, equipping the waste transport vehicle with an information processing and control unit made, for example, based on a microprocessor, and electronic information input-output device connected to it the lock of the container lid and the unit for blocking the lifting of the body and the manipulator and supplying the container of the vehicle for waste transportation with a receiving hopper when the radio station, sensors the waste collector and the signal sensor of the vehicle for transporting the waste (full container load sensor of the vehicle container) are connected to the control and information processing unit, together with the use of environmental hazard hazard sensors, for example, a background radiation sensor and the mercury vapor sensor, and the communication of the radio stations of the waste collection facility, the waste metering facility of the unloading (transshipment) facility and the transport medium facilities for the transport of waste with a radio station control and management of radio channels. This provision is confirmed by the following circumstances.

Firstly, equipping the waste collection vehicle and the vehicle for transporting waste with environmental hazard sensors, for example, a background radiation sensor and a mercury vapor sensor, makes it possible to identify environmentally hazardous waste at the stage of collection from waste sources, i.e. at the initial stage of waste management. The equipment of the waste collection device with at least one receiving hopper with a lid and an electronic lock and a vehicle for the transportation of waste with an electronic lock of the lid of a container equipped with a receiving hopper enables signals from environmental hazard sensors in the case of loading of environmentally hazardous waste into the receiving hopper lock the receiving hopper with an electronic lock and prevent, on the one hand, access to the receiving hopper with environmentally hazardous waste, and, on the other hand, with eshivanie with being in the container waste collection vehicle or vehicle container already collected from waste generation sources that pose no environmental hazard. At the same time, the above-mentioned means of processing and transmitting information via the radio channel of a waste transport vehicle or waste collection means ensure the transmission of information on the identification of environmentally hazardous waste to the workplace of the control and control center dispatcher, enabling the dispatcher to promptly notify the mobile group of the territorial emergency service. Equipping the waste collection vehicle and the waste transport vehicle with information input / output devices enables the arriving mobile group of the territorial emergency service using, for example, a plastic magnetic card, to confirm that they are authorized, open an electronic lock and unlock the receiving container to remove environmentally hazardous waste .

Secondly, the equipment of a vehicle for transporting waste with a container full load sensor and a blocking block for lifting the body and the manipulator together with the above means for processing and transmitting information over the air provide, on the one hand, the transfer of information about the full load of the vehicle container to the dispatcher’s workstation the control and management station and, on the other hand, blocking the lifting of its body or manipulator at the signal of the dispatcher, which helps prevent unauthorized driver’s actions for unloading waste in places not specified for this purpose. At the same time, supplying the waste registration point of the unloading (overloading) facility with an information input / output device together with the above-mentioned means of processing and transmitting information via a radio channel allows the dispatcher of this point to use, for example, a plastic magnetic card provided by the driver of the vehicle arriving for unloading for waste transportation , transfer information about the number of the arrived vehicle to the control and management point, and remove the blocker to the control and control point manager Body and manipulator hoist for authorized unloading.

And, finally, thirdly, the provision of a waste collection facility, for example, a garbage chute of a multi-story building or container installed on a designated site, with a full load signal sensor, together with the above-mentioned means of processing and transmitting information over the air, can ensure timely transmission to the control point and management information on the full capacity utilization of the corresponding means of waste collection and the operational delivery by the dispatcher of this item to the vehicle driver waste transport instructions on waste collection. This ensures timely removal of waste from the source of formation, which does not lead to overflow of the capacity of the waste collection facility and, as a result, to clogging the nearby territory and violating the environmental situation. In addition, this indicates the expansion of the functionality of the proposed system.

A significant expansion of the functionality of the proposed system, declared as another objective of the invention, allows it to be provided with at least one means of waste collection (for example, a refuse chute of a multi-story building or a press container installed in a designated area) based on a waste container, equipped with at least one receiving hopper with a lid and an electronic lock, connected in series by a radio station, a client unit made, for example, based on mi the processor, and the input / output device, as well as the sensors of the waste parameters connected to the client node, for example, the sensors for the mass, volume and humidity of the waste when the electronic lock is connected to the client node, and at least one waste metering point for the discharge object ( overload), equipped with a serially connected radio station, a processor and a dispatcher’s workstation, as well as a recording device and an information input-output device connected to the processor, supplying a monitoring and control center under with a registration device connected to the processor, equipping a vehicle for waste transportation with an information processing and control unit made, for example, based on a microprocessor, and having an information input / output device and an electronic lock on the container lid connected to it and supplying the waste container of the vehicle for waste transportation when the radio station and the nature of the waste character of the vehicle waste transport connected to the control unit and information processing, as The sensors of the nature of the vehicle’s waste for the transport of waste used sensors of the parameters of the waste, for example, sensors for the mass, volume and humidity of the waste, and the radio stations of the waste collection vehicle, the waste transport vehicle and the waste collection point of the unloading (transshipment) facility are connected to the radio station radio channel control. This statement is confirmed by the following considerations.

Due to the presence of a container with a lid and an electronic lock, as well as an input / output device and a customer’s unit, the proposed system allows collecting waste only from certain customers, for example, residents of a given entrance or home (some houses) or public utilities (janitors ), only after identifying which, on the basis of information read by the information input / output device from the information carrier inserted into it by the client, for example, a plastic magnetic card, by opening An electronic lock for the cover of the waste collection device is provided. The indicated means, together with the receiving hopper and the sensors of the waste parameters, for example, the sensors of the mass, volume and humidity of the waste collection means, ensure the accounting of the waste collected from each individual client by weight and volume taking into account humidity. This information, after the above-mentioned means of processing and transferring information to the control and management center, is entered into its registration device, after which data on the mass and volume of waste collected from each individual client serve as the basis for the calculations of the organization that collects and removes the waste, with the clients she serves, and data on the humidity of the waste collected are used to justify the rates established by the organization.

The similar technical means that the waste transport vehicle is equipped with, firstly, provide the same function, and, secondly, they allow transferring information about the amount of waste collected by the waste transport vehicle to the information carrier available to its driver, for example a plastic magnetic card. In this case, after arriving at the registration point of the unloading (transshipment) facility, the driver transfers the storage medium to the dispatcher of this point, who, using the I / O device, enters information on the quantity and humidity of the delivered waste into the registration device. This information serves as the basis for mutual settlements between the organization that collects and removes the waste and the object of unloading (transshipment), and also helps the latter to form a rational tariff policy.

The foregoing indicates the achievement of the declared objectives of the invention due to the presence of the proposed distinctive features of the proposed solid waste management system.

The drawing shows a structural diagram of the proposed solid waste management system for consumption, where 1 is a control and management point, 2 is a waste collection facility, 3 is a waste metering facility for unloading (overload), 4 is a waste transport vehicle, 5 is a radio station ( with receiving and transmitting antenna), 6 - processor, 7 - dispatcher workstation, 8 - registration device, 9 - client node, 10 - information input / output device, 11 - electronic lock, 12 - mass sensor, 13 - volume sensor, 14 - humidity sensor, 15 - mercury vapor sensor, 16 - sensors to the radiation background, 17 - full load sensor, 18 - control and information processing unit and 19 - body lift block and manipulator.

The proposed solid waste management system for consumption includes a control and management point 1, at least one waste collection means 2, at least one waste disposal (transshipment) item 3, and at least one transport vehicle 4 waste. Point 1 of the control and management contains a series-connected radio station 5, processor 6 and the workplace 7 of the dispatcher, the latter two can be made on the basis of a personal computer equipped with appropriate software, as well as a registration device 8 connected to the processor 6. Each collection tool 2 the waste contains a series-connected radio station 5, made, for example, on the basis of the microprocessor, the client node 9 and the information input / output device 10, as well as the client connected to the node 9 and an electronic lock 11, a mass sensor 12, a volume sensor 13, a humidity sensor 14, a mercury vapor sensor 15, a background radiation sensor 16, and a full load sensor 17. Each item 3 of the waste account of the unloading (overload) facility contains a radio station 5, a processor 6 and a dispatcher’s workstation 7 connected in series, the latter two can be made on the basis of a personal computer equipped with appropriate software, as well as a registration device 8 and an input device 10 output information connected to the processor 6. Each vehicle 4 for transporting waste contains serially connected radio station 5, made, for example, based on a microprocessor an information control and processing unit 18 and an information input / output device 10, as well as an electronic lock 11, a mass sensor 12, a volume sensor 13, a humidity sensor 14, a mercury vapor sensor 15, a radiation background sensor 16 connected to the information control and processing unit 18, a full load sensor 17 and a body lift and manipulator lock block 19. Radio stations 5 of each means 2 of waste collection, each point 3 of the waste account of the unloading (transshipment) facility and each vehicle 4 for waste transportation are connected to the radio station 5 of point 1 of the control and management of radio channels.

The proposed solid waste management system for consumption is as follows.

If it is necessary to load the waste into the waste collection device 2, for example, into a garbage chute of a multi-story building or a press container installed on the designated site, a client, for example, a resident of this entrance or at home (a number of houses) or a public service worker (janitor), inserts it into the device 10 input-output information, located, for example, on the receiving hopper of the waste collection device 2, its own individual storage medium, such as a plastic magnetic card. In the case of using a multi-storey building refuse chute as a means of waste collection 2, for the convenience of customers, information input / output devices 10 are equipped with all receiving chutes of the garbage chute installed on each floor. The data read from the individual information carrier is sent to the client’s node 9, where this client’s identification takes place, after which, upon a signal from the client’s node 9, the electronic lock 11 of the receiving hopper lid opens. After the client loads the waste into the receiving hopper and closes the lid, the electronic lock 11 locks the cover of the receiving hopper and, upon a signal from the customer’s node 9, the mass sensor 12, the volume sensor 13, the humidity sensor 14, the mercury vapor sensor 15 and the background radiation sensor 16 are turned on.

If, as a result of the analysis of signals from the last two sensors, the customer’s node 9 determines in the waste loaded into the receiving hopper that the radiation standards and the mercury vapor content exceed the established norms, the electronic lock 11 is blocked by its signal and the environmental hazard signal is transmitted via radio channel to monitoring and control point 1, entering the workplace 7 dispatchers. Having received an environmental hazard signal, the dispatcher of monitoring and control point 1 notifies the mobile group of the territorial emergency service, which, after arriving at this waste collection facility 2, confirms its authority and authorization by entering information from an information medium, such as a plastic magnetic card, through device 10 input / output information to node 9 of the client, identifying this mobile group of the territorial emergency service, removing locks ku electronic lock 11 and transmitting relevant information to the workplace 7 of the dispatcher of point 1 of control and management, opens the lid of the receiving hopper and removes environmentally hazardous waste.

If the radiation background and the content of mercury vapor in the waste loaded into the receiving hopper do not exceed the established standards, information about their weight, volume and humidity from the corresponding sensors is sent to the client’s node 9. From the customer’s individual data carrier (plastic magnetic card) issued to the client after prepayment, the customer receives information from the client’s node 9 and the information input / output device 10 removes the amount corresponding to the cost of collection and removal of the registered waste mass and volume in accordance with current tariff, and issues the appropriate receipt. If the amount of the prepayment made by the customer has been used up, the information input / output device 10 issues an invoice to the customer for subsequent payment. After that, the individual storage medium is returned to the client, and the loaded waste is transferred from the receiving hopper to the capacity of the waste collection means 2. Information about the mass, volume and humidity of the waste loaded by this client and the nature of the payment transactions from the client’s node 9 is transmitted over the air to the control and management point 1, where it is entered into the data bank for this identified client stored in the registration device 8. These operations are likewise repeated many times until the capacity of the waste collection means 2 is fully loaded.

In the case of a full load of the capacity of the waste collection device 2, the signal from the full load sensor 17 through the client’s node 9 is transmitted via radio channel to the monitoring and control point 1, where the dispatcher is displayed at the workplace 7, and information about the number of this waste collection device 2 and its full time download is recorded in the device 8 registration. In this case, the dispatcher of point 1 of the control and management directs one of the vehicles 4 for transporting waste to this means 2 for collecting waste for export.

Upon arrival for waste collection, the driver of the vehicle 4 for transporting waste through an information carrier, such as a plastic magnetic card, through the information input / output device 10 of the waste collection device 2, enters into the customer’s node 9 information about the number of his vehicle 4 for waste transportation, which together with the time of arrival and data on the amount of collected waste, it is transmitted over the air to point 1 of control and management, where it is entered into the registration device 8 and displayed at the workplace 7 of the dispatcher EPA. At the same time, the number of this waste collection tool 2 and information on the amount of collected waste are recorded on the driver’s data carrier.

If this means of waste collection 2 is the garbage chute of a multi-story building, the client’s node 9, after identifying the number of the arrived vehicle 4 for waste transport, opens the electronic lock 11 of the garbage chute unloading device, and the driver, by known methods, transfers the waste from the garbage collection chamber to the receiving hopper of the vehicle’s container 4 for transportation waste. At the same time, the environmental hazard of the loaded waste is monitored and information on its mass, volume and humidity is obtained using the appropriate sensors of the vehicle 4 for waste transportation, the results of which in this case are transmitted via the control and information processing unit 18 via radio channel to control and management point 1 to display on the workplace 7 dispatcher and write to the device 8 registration. In case of environmental hazard, the actions of the dispatcher and the mobile groups of the territorial emergency services loaded into the waste bunker are similar to those described above. After that, the electronic lock 11 of the discharge device of the garbage chute is closed and a signal about this arrives at point 1 of control and management, where it is displayed at the workplace 7 of the dispatcher and is fixed by the registration device 8.

Waste collection by vehicle 4 for transportation of waste from separate waste containers that are not equipped with the listed electronic equipment is carried out in the presence of an employee of the municipal service (janitor) or a client who owns a separate container. In this case, upon arrival of the vehicle 4 for transporting waste through its information input / output device 10 from an individual information carrier, for example, a plastic magnetic card, data on the client or municipal service employee are entered into the information management and processing unit 18, where they are identified, after which, upon a signal from the control and information processing unit 18, the electronic lock 11 of the cover of the receiving hopper of the container container 4 for transporting waste and waste from the compartment opens nogo waste container are transferred into a hopper.

After the driver loads the waste into the receiving hopper of the container of the vehicle 4 for transporting the waste and closing the cover of the receiving hopper, the electronic lock 11 locks the cover of the receiving hopper, and, upon a signal from the control and information processing unit 18, the mass sensor 12, the volume sensor 13, the humidity sensor 14 are turned on , a mercury vapor sensor 15 and a background radiation sensor 16 installed in a receiving hopper of a container of the vehicle 4 for transporting waste. In this case, the further operation of the proposed system and its elements, the actions of the dispatcher of control and management point 1, and in the case of identifying environmentally hazardous waste and the mobile group of the territorial emergency service, occur in the same way as was described for the case when the client loads the waste into the reception Hopper means 2 waste collection.

When the container of the vehicle 4 for transporting waste turns out to be completely loaded with waste, the sensor 17 of the full load of the vehicle 4 for transporting waste will give a corresponding signal, by which the control and information processing unit 18 will issue a command to the block 19 for lifting the body and the manipulator for this blocking unauthorized unloading and will transmit this information to paragraph 1 of the control and management for display at the workplace 7 dispatcher and recording in the device 8 registration. After that, the driver of the vehicle 4 for transporting waste to his storage medium through the device 10 input / output information from the unit 18 of the control and information processing will transfer data about the total mass and volume and average humidity of the waste collected in the container of his vehicle 4 for transporting waste.

If this means of waste collection 2 is a press container installed on a designated area, then after the above-described exchange of information between a driver information carrier and a client node 9 through a device 10 of input / output of information of a waste collection means 2, the driver replaces the press container filled with waste empty, after which, upon a signal from the loading signal sensor (not shown) to the vehicle 4 for transporting waste from the filled press container, the control and information processing unit 18 of the transport vehicle means 4 for waste transportation issues a command to the block 19 of the lifting block of the body and the manipulator, which blocks the unloading of the press container, and broadcasts this command over the air to point 1 of the control and management.

Next, the vehicle 4 for transporting waste with a container filled and blocked from unauthorized unloading or a loaded press container is sent to the unloading (transshipment) facility. Upon arrival at the point 3 of the waste account of the unloading (transshipment) facility, the driver of the vehicle 4 for waste transportation transfers to the dispatcher of this point his storage medium, the dispatcher of point 3 of the waste accounting of the unloading (transshipment) facility through the information input / output device 10 and the processor 6 records number of the arrived vehicle 4 for transportation of waste, as well as the mass, volume and average humidity of the delivered waste to the registration device 8, which are further used by the unloading (transshipment) facility in mutual settlements with the organization that collects and removes the waste, and to justify rational tariffs for its services, after which it returns the carrier of information to the driver. At the same time, this information, together with the arrival time of the vehicle 4 for transporting waste over the air, is transmitted to the control and management point 1, where it is displayed at the workplace 7 of the dispatcher for monitoring and verification and is entered into the registration device 8 for documentation. After that, the dispatcher of control and management point 1 via a radio channel through the control and information processing unit 18 issues an unlock command to the body and manipulator lifting blocking unit 19 and the driver unloads the vehicle 4 for waste transportation at the place indicated by the dispatcher of point 3 of the waste account of the unloading facility ( overload). Next, the driver directs his vehicle 4 to collect waste in accordance with the instructions of the dispatcher of paragraph 1 of the control and management.

Thus, the use of the proposed solid waste management system for consumption provides an increase in the degree of environmental safety of waste management, as well as expanding the functionality of the system that performs the specified waste management.

Claims (13)

1. A solid waste management system for consumption, comprising a monitoring and control unit including a radio station, a processor and a dispatcher’s workstation connected in series, and at least one waste transport vehicle with a radio station, a waste character sensor and signal sensors, the radio stations of the control and management center and the vehicle for transporting waste are connected by a radio channel, characterized in that it is equipped with at least one means of collecting waste on again, a waste container equipped with at least one receiving hopper with a lid and an electronic lock, connected in series by a radio station, a client node and an input / output device, waste parameter sensors and environmental hazard sensors connected to the client node, wherein an electronic lock connected to the client’s site, and at least one waste collection point of the unloading or transshipment facility equipped with a radio station, processor and dispatcher workstation connected in series as well as with a recording device and an information input / output device connected to the processor, the monitoring and control unit is equipped with a registration device connected to the processor, the waste transport vehicle is equipped with a control and information processing unit and an information input / output device and an electronic lock connected to it container lids, while the radio station, the nature of the waste sensors and signal sensors of the vehicle for transporting waste are connected to the control unit and process According to information, the sensors of the parameters of waste and environmental hazard sensors of waste were used as sensors of the nature of the vehicle’s waste for transporting waste, and the radio stations of the waste collection facility and waste collection point of the unloading or transshipment facility are associated with the radio station of the control and radio channel control center. 2. The system according to claim 1, characterized in that the client node of the waste collection means and the control and information processing unit of the vehicle for transporting waste are based on a microprocessor. 3. The system according to claim 1, characterized in that the container of the vehicle for transporting waste is equipped with a receiving hopper. 4. The system according to claim 1, characterized in that the vehicle for transporting waste is equipped with a block for lifting the body and the manipulator, connected to the control unit and information processing. 5. The system according to claim 1, characterized in that the full container load sensor of the vehicle container is used as a signal sensor of a vehicle for transporting waste. 6. The system according to claim 1, characterized in that a waste mass sensor is used as a waste parameter sensor. 7. The system according to claim 1, characterized in that the waste volume sensor is used as a waste parameter sensor. 8. The system according to claim 1, characterized in that the waste moisture sensor is used as a waste parameter sensor. 9. The system according to claim 1, characterized in that a radiation background sensor is used as a sensor of the environmental hazard of the waste. 10. The system according to claim 1, characterized in that a mercury vapor sensor is used as a sensor of the environmental hazard of the waste. 11. The system according to claim 1, characterized in that a waste chute of a multi-story building is used as a means of collecting waste. 12. The system according to claim 1, characterized in that as a means of collecting waste used a press container mounted on a designated site. 13. The system according to claim 1, characterized in that the waste collection means is equipped with a full load signal sensor connected to the client node.