CN110803434B - Industrial waste storage management system - Google Patents

Abstract

The invention provides an industrial waste storage management system, which is characterized by comprising: a waste storage device; a waste conveyance device; a management device communicatively coupled to the waste storage device and the waste conveyance device, wherein the waste storage device includes: waste material storage portion, waste material information acquisition portion for gather industrial waste material in real time, acquire industrial waste's waste material information, memory side communication portion for with waste material information transmission to management device, the management device includes: the waste material type storage part stores waste material types, the waste material position storage part stores placement positions corresponding to the waste material types, the waste material type acquisition part acquires waste material types of industrial waste materials, the placement position acquisition part acquires placement positions corresponding to the industrial waste materials, the instruction generation part generates a conveying warehousing instruction, the management side communication part sends the conveying warehousing instruction to the waste material conveying device, and the waste material conveying device conveys the waste material storage device to the placement positions.

Description

Industrial waste storage management system

Technical Field

The invention relates to the technical field of industrial waste treatment, in particular to an industrial waste storage management system.

Background

With the development of industrial technology, the industrial waste generated in industrial production is also exponentially increased, and the industrial waste is large in quantity, complex in composition and various in variety, and mainly comprises solid waste and liquid waste.

The solid waste mainly refers to various waste residues, dust and other wastes discharged by industrial and mining enterprises in the production process, such as waste batteries in the automobile industry, acid-base sludge in the chemical industry, waste casting sand in the mechanical industry, activated carbon residue in the food industry, fiber scraps of animals and plants in the fiber industry, brick and tile fragments in the silicate industry, and the like. The liquid waste mainly refers to various toxic and harmful liquids discharged in the production process of the chemical industry, such as organic solvents (waste liquid and the like generated in the nitrobenzene-aniline production process), waste mineral oil (oil sludge, oil residue, sludge and the like generated in the natural crude oil and natural gas exploitation), rectification residues (waste residues and the like generated in the basic chemical manufacturing production process), metal-containing wastes (waste residues and waste water containing copper, zinc, chromium, arsenic and the like), and the like.

If the industrial waste is not timely and correctly treated, a passive stacking method is adopted, so that the land is occupied, soil, water sources and the atmosphere are polluted, the growth of crops is influenced, and the human health is harmed. For example, in the soil near the nonferrous metal smelting plant, the lead content is 10-40 times of the content in the normal soil, the copper content is 5-200 times of the content in the normal soil, and the zinc content is 5-50 times of the content in the normal soil, so that the toxic substances enter a water body through the soil on one hand, and are accumulated in the soil to be absorbed by crops on the other hand, and the toxic substances poison the crops.

On the other hand, industrial waste flows into rivers, lakes and seas under the action of rainwater and snow water, causing serious pollution and destruction of water bodies, and causing greater pollution if the industrial waste is directly introduced into rivers, lakes or coastal seas.

In addition, under the action of temperature and moisture, some organic substances in the industrial waste are decomposed to generate harmful gas, so that air pollution is caused. For example: when coal gangue piled up like a mountain spontaneously ignites, fire spreads and is difficult to rescue, a large amount of SO2 gas is discharged, the environment is polluted, and smoke dust and harmful gas discharged in the burning process can also pollute the atmosphere.

Although many waste treatment plants can treat and recycle industrial waste, the amount of industrial waste discharged by a waste discharge plant in a predetermined time (for example, in a period of one day) is not equal to the amount of waste treated by the waste treatment plant in the predetermined time, if the amount of industrial waste is greater than the amount of waste treated, the industrial waste cannot be treated in time, which results in accumulation of waste and damage to the environment, and if the amount of industrial waste is less than the amount of waste treated, the capacity of the waste treatment plant is wasted, and resources are wasted.

In addition, the waste treatment capacity of each waste treatment plant is different, and the treatment modes of different types of industrial waste are also different, so that the industrial waste cannot be accurately conveyed to the matched waste treatment plants for treatment, and the industrial waste needs to be conveyed secondarily, which not only causes low waste treatment efficiency, but also wastes time and financial resources for secondary conveyance.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme:

the invention provides an industrial waste storage management system, which is used for storing and managing industrial waste generated by a plurality of waste discharge factories in a management area, and is characterized by comprising the following components: a plurality of waste storage devices; a waste transport device for transporting the waste storage device to a waste storage bin within the management area; and a management device communicatively connected to the waste storage device and the waste conveyance device, wherein the waste storage device includes: waste material storage portion for store industrial waste material, waste material information acquisition portion for gather the industrial waste material in real time in the waste material storage portion, acquire the waste material information of industrial waste material, as current waste material information, storage side communication portion for with waste material information transmission to management device, the management device includes: a waste type storage part for storing the waste type of each industrial waste corresponding to the waste information, a waste position storage part for storing the corresponding placement position of each waste type in the management area in the waste storage bin, a waste type acquisition part for retrieving the waste information storage part according to the current waste information to acquire the waste type of the industrial waste as the current waste type, a placement position acquisition part for retrieving the waste position storage part according to the current waste type to acquire the placement position corresponding to the industrial waste as the current placement position, an instruction generation part for generating a delivery warehousing instruction according to the current placement position, a management side communication part for sending the delivery warehousing instruction to the waste transport device, thereby the waste transport device transports the corresponding waste storage device to the current placement position.

The present invention provides an industrial waste storage management system, which may further have the feature that the management apparatus further includes a position storage section, a storage apparatus selection section, and a path setting section, the position storage section stores an area map of a management area and a waste discharge plant position of each waste discharge plant in the management area, the waste information collection section has a capacity collection unit for collecting and acquiring a remaining capacity of the waste storage section, the storage-side communication section transmits the remaining capacity to the management apparatus, the management-side communication section receives an amount of industrial waste discharged from each waste discharge plant and the remaining capacity, the storage apparatus selection section performs matching calculation based on the remaining capacity and the amount of industrial waste, selects a waste storage apparatus matching the waste discharge plant as a waste storage apparatus to be recovered, the waste information collection section has a position collection unit, the position acquisition unit is used for acquiring the current storage position of the waste storage part in real time to serve as a to-be-recovered storage position, the path setting part calculates according to the area map, the waste discharge factory position and the to-be-recovered storage position to set a recovery conveying path of the to-be-recovered waste storage device, the instruction generating part generates a recovery conveying instruction according to the recovery conveying path, the management-side communication part sends the recovery conveying instruction to the corresponding waste conveying device to serve as the to-be-recovered waste conveying device, and therefore the to-be-recovered waste storage device is conveyed to the corresponding waste discharge factory by the to-be-recovered waste conveying device.

The present invention provides an industrial waste storage management system, which may further have a feature that the waste information collection section has a prompt signal generation unit that generates a corresponding prompt signal when the capacity collection unit collects that the remaining capacity is zero, the storage side communication section transmits the prompt signal to the management device, the position storage section stores the position of the waste storage bin in the management area, the refuge storage device setting section sets the corresponding waste storage device as a refuge storage device according to the prompt signal, the path setting section performs calculation according to the area map, the storage bin position, and the current storage position to set a refuge path of the refuge storage device, the instruction generation section generates a refuge instruction according to the refuge path, the management side communication section transmits the refuge instruction to the corresponding waste conveyance device as a refuge conveyance device, thereby allowing the return bin transporting device to transport the return bin storage device back to the waste storage bin.

The present invention provides an industrial waste storage management system, which may further have a feature that a position storage portion stores a processing plant position of a waste processing plant within a management area, a capacity acquisition unit acquires a current amount of industrial waste in the waste storage portion as an amount of waste to be processed, a management-side communication portion receives a waste processing amount of industrial waste that can be processed by each waste processing plant, a storage device selection portion performs matching calculation based on the amount of waste to be processed and the waste processing amount, selects a waste storage device matching the waste processing plant as a waste storage device to be processed, a path setting portion performs calculation based on an area map, the processing plant position, and a storage bin position, sets a processing transport path of the waste storage device to be processed, an instruction generation portion generates a processing transport instruction based on the processing transport path, the management-side communication section transmits the processing conveyance instruction to the corresponding waste conveyance device as the to-be-processed waste conveyance device, thereby causing the to-be-processed waste conveyance device to convey the to-be-processed waste storage device to the corresponding waste treatment plant.

The present invention provides an industrial waste storage management system, which may further have a feature that the management apparatus further includes a processed waste amount judgment section for judging whether or not the processed waste amount satisfies the amount of the waste to be processed when the storage apparatus selection section performs the matching calculation, and if so, the instruction generation section generates an instruction to permit the transport, and the management-side communication section transmits the instruction to permit the transport to the waste transport apparatus to be processed, so that the waste transport apparatus to be processed transports the waste storage apparatus to be processed to the corresponding waste processing plant, and if not, the instruction production section generates an instruction to prohibit the transport, and the management-side communication section transmits the instruction to prohibit the transport to the waste transport apparatus to be processed, so that the waste transport apparatus to be processed transports the waste storage apparatus to be processed back to the waste storage bin.

The present invention provides an industrial waste storage management system, which may further have a feature that the management apparatus further includes a processing capability storage unit and a processing capability judgment unit,

the processing capacity storage section stores processing waste material types of industrial waste materials that can be processed by each waste material processing plant,

when the storage device selection section performs the matching calculation, the processing capability judgment section searches the processing capability storage section based on the current waste type, judges that the waste treatment plant can treat the industrial waste,

if it is determined that the operation is performed, the command generating unit generates a processing permission command, and the management-side communication unit transmits the processing permission command to the to-be-processed waste transport device to cause the to-be-processed waste transport device to transport the to-be-processed waste storage device to the corresponding waste processing plant,

if not, the command generation unit generates a processing prohibition command, and the management-side communication unit sends the processing prohibition command to the to-be-processed waste transport device, so that the to-be-processed waste transport device transports the to-be-processed waste storage device back to the waste storage bin.

The present invention provides an industrial waste storage management system, and may also have a feature wherein the types of industrial waste include solid waste and liquid waste.

The present invention provides an industrial waste storage management system, which may further have a feature in which the waste information collecting section has a concentration collecting unit for collecting a current concentration of the liquid waste,

the processing capacity storage section stores processing concentrations of liquid wastes that can be processed by each of the waste processing plants,

when the storage device selection part performs matching calculation, the processing capacity judgment part searches the processing capacity storage part according to the current concentration, judges whether the processing concentration meets the current concentration,

if the judgment result is yes, the command generating part generates a processing permission command,

if not, the command generation unit generates a processing prohibition command.

The invention provides an industrial waste storage management system, which can also be characterized in that the management device is also provided with a position retrieval judging part, a waste counting part and a report forming part, wherein the position storage part is retrieved according to the current storage position of the waste storage part, the waste storage part is judged to enter a waste storage bin or leave the waste storage bin, when the waste storage part is judged to enter the waste storage bin, the waste counting part takes the current waste amount collected by a position collecting unit as the warehousing waste amount, counts the warehousing waste amount within the preset time to obtain the warehousing waste total amount within the preset time, when the waste storage part is judged to leave the waste storage bin, the waste counting part takes the current waste amount collected by the position collecting unit as the ex-warehouse waste amount, counts the ex-warehouse waste amount within the preset time to obtain the ex-warehouse waste total amount within the preset time, the report forming part forms a warehousing report and an ex-warehouse report within corresponding preset time according to the total amount of the warehousing waste and the total amount of the ex-warehouse waste, and the management side communication part sends the warehousing report and the ex-warehouse report to a terminal of an industrial waste supervision department for recording.

The present invention provides an industrial waste storage management system, and may further have a feature in which the predetermined time is 1 day.

Action and Effect of the invention

According to the industrial waste storage management system, the plurality of waste storage devices, the waste conveying devices and the management device are arranged, the waste storage devices are provided with the waste information acquisition parts used for acquiring the waste information, the management device is provided with the waste type acquisition parts and can acquire the types of the waste according to the waste information and send conveying instructions to the waste conveying devices according to the types of the waste so as to convey the waste storage devices to the preset placing positions, therefore, the industrial waste storage management system can identify the industrial waste and classify and place the industrial waste according to the types of the waste, intelligent classification management is realized, the industrial waste can be conveniently inquired, counted and the like, the management cost of the industrial waste is greatly reduced, and the working efficiency is effectively improved. In addition, because the industrial waste storage management system is provided with the plurality of waste storage devices and can temporarily store the industrial waste, the industrial waste storage management system plays a role of a transfer station between the waste discharge factory and the waste treatment factory, if the quantity of the industrial waste is greater than the waste treatment quantity, the redundant industrial waste can be temporarily stored, if the quantity of the industrial waste is less than the waste treatment quantity, the stored industrial waste can be conveyed to the waste treatment factory for treatment, and the phenomena that the industrial waste cannot be treated in time and the capacity of the waste treatment factory is wasted can not be generated.

Drawings

FIG. 1 is a block diagram of an industrial waste storage management system according to an embodiment of the present invention;

FIG. 2 is a block diagram of a waste storage device according to an embodiment of the present invention;

FIG. 3 is a block diagram showing a configuration of a trash information collecting unit according to an embodiment of the present invention;

fig. 4 is a block diagram of the structure of a management apparatus of the embodiment of the present invention;

FIG. 5 is a workflow diagram of the recycling and storage of an industrial waste storage management system of an embodiment of the present invention;

fig. 6 is a work flow diagram of a shipping process of an industrial waste storage management system of an embodiment of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement objects and effects of the present invention easy to understand, the industrial waste storage management system of the present invention is specifically described below with reference to the accompanying drawings.

Fig. 1 is a block diagram of an industrial waste storage management system according to an embodiment of the present invention.

As shown in fig. 1, an industrial waste storage management system 100 in the present embodiment is used for storage management of industrial waste generated by a plurality of waste discharge plants in a management area, and includes a plurality of waste storage devices 10, a waste transport device 20, and a management device 30.

In this embodiment, the management area is an area range of a city, and a plurality of waste discharge plants that generate industrial waste, a plurality of waste treatment plants that can treat industrial waste according to a standard, and a waste storage bin for storing industrial waste are provided in the management area. In other embodiments, the management area may also be set to a range of cities, intended to maintain a balance between the waste discharge capacity and the waste treatment capacity of the waste plant and the waste treatment plant and to accurately locate the waste storage locations.

Fig. 2 is a block diagram of a waste storage device according to an embodiment of the present invention.

As shown in fig. 2, the waste material storing devices 10 are each placed in the waste material stocker according to a predetermined placement rule (for example, a linear array placement manner) and a predetermined placement position (for example, a placement position distinguished by the kind of industrial waste material), and include a waste material storage section 101, a waste material information collecting section 102, and a storage-side communication section 103.

The storage-side communication unit 103 is used for communication exchange with the rest of the scrap storage apparatus 10 and the management apparatus 30. In the present embodiment, the storage-side communication unit 103 is a communication module connected to the management apparatus 30 in a wireless communication manner.

The waste storage unit 101 is used for storing industrial waste. In this embodiment, the waste storage 101 is a square bin or a container that conforms to the industrial waste storage standard.

Fig. 3 is a block diagram showing a configuration of a trash information collecting unit according to an embodiment of the present invention.

As shown in fig. 3, the waste information collecting unit 102 is a communication socket having a plurality of extensible communication interfaces (e.g., XML communication interfaces) and a plurality of sensors for collecting industrial waste in the waste storage unit 101 in real time, and includes a waste information collecting unit 102a, a capacity collecting unit 102b, a position collecting unit 102c, a concentration collecting unit 102d, and a prompt signal generating unit 102 e. In other embodiments, the waste information collecting unit 102 can also collect other information of the industrial waste, such as the radiant quantity, weight, density, composition, property, volume, temperature, volatility, container pressure, corrosion level, etc. of the liquid waste, and the radiant quantity, weight, density, composition, property, volume, temperature, corrosion level, etc. of the solid waste.

The waste information collecting unit 102a is configured to collect waste information of the obtained industrial waste as current waste information.

The capacity collection unit 102b is used for collecting and acquiring the remaining capacity of the trash storage 101.

The position acquisition unit 102c is configured to acquire the current storage position of the trash storage 101 in real time.

The concentration acquisition unit 102d is used to acquire the current concentration of the liquid waste in the industrial waste.

The prompt signal generating unit 102e generates a corresponding prompt signal when the capacity acquiring unit acquires that the remaining capacity is zero.

The waste conveyance device 20 is used to convey the waste storage devices 10, including conveying the waste storage devices 10 to predetermined positions in waste storage bins, conveying the waste storage devices 10 to and back to corresponding waste discharge plants, and conveying the waste storage devices 10 in the waste storage bins to corresponding waste treatment plants. In this embodiment, the waste transporter 20 is a container truck that is compliant with industry standards and is used in conjunction with the waste storage device 10.

Fig. 4 is a block diagram of a management apparatus according to an embodiment of the present invention.

As shown in fig. 4, the management device 30 is an industrial computer for managing the storage of industrial waste, and includes a waste type storage unit 301, a waste position storage unit 302, a waste type acquisition unit 303, a placement position acquisition unit 304, a command generation unit 305, a position storage unit 306, a storage device selection unit 307, a route setting unit 308, a stocker setting unit 309, a processing waste amount determination unit 310, a position search determination unit 311, a waste statistics unit 312, a report formation unit 313, a processing capacity storage unit 314, a processing capacity determination unit 315, a management-side communication unit 316, and a management-side control unit 317.

In the present embodiment, the management device 30 performs storage management of the industrial waste in the entire management area, specifically includes recovering the industrial waste from the waste discharge plant, storing the industrial waste in the waste storage bin, and transporting the industrial waste to the waste treatment plant for treatment.

The management-side communication unit 316 is used to exchange communications among the rest of the management apparatus 30, the scrap storage apparatus 10, and the scrap conveyor 20. In the present embodiment, the management-side communication unit 316 is a communication module that is connected to the scrap storage device 10 and the scrap conveyor 20 in a wireless communication manner.

The management-side control section 317 is a control chip provided with a predetermined control program for controlling the operation of the rest of the management apparatus 30.

The waste material type storage unit 301 stores waste material types for each industrial waste material corresponding to the waste material information. In the present embodiment, the kinds of industrial waste include solid waste and liquid waste.

The waste position storage unit 302 stores the placement positions of the waste types in the waste storage bins.

The location storage unit 306 stores an area map of the management area, the bin location of the waste bin in the management area, the waste plant location of each waste plant in the management area, and the process plant location of each waste process plant in the management area.

The processing capacity storage unit 314 stores the processing waste type of the industrial waste that can be processed by each waste processing plant and the processing concentration of the waste processing plant that can process the liquid waste.

The specific process of storing industrial waste into the waste storage bin is as follows:

the scrap type acquisition unit 303 searches the scrap type storage unit 301 based on the current scrap information, and acquires the scrap type of the industrial scrap as the current scrap type.

The placement position acquisition unit 304 searches the scrap position storage unit 302 based on the current scrap type, and acquires a placement position corresponding to the industrial scrap as the current placement position.

The command generation unit 305 generates a delivery/storage command from the current placement position.

The management-side communication unit 316 transmits a delivery-warehousing instruction to the scrap delivery device 20, and causes the scrap delivery device 20 to deliver the corresponding scrap storage device 10 to the current placement position.

Each waste discharge plant transmits the amount of the industrial waste discharged within a predetermined time to the management device 30 through a communication terminal (for example, a mobile phone, a computer, or the like), wherein the predetermined time is one day in the embodiment, and the specific process of recycling the industrial waste from the waste discharge plant is as follows:

the capacity collection unit 102b collects the remaining capacity of the trash storage 101 in real time.

The storage side communication section 103 transmits the remaining capacity to the management device 30,

the management-side communication section 316 receives the amount of industrial waste discharged by each waste plant and the remaining capacity of each waste storage section 101.

The storage device selection unit 307 performs matching calculation based on the remaining capacity and the amount of industrial waste, and selects the waste storage device 10 matched with the waste discharge plant as a waste storage device to be recovered. In this embodiment, one waste storage apparatus 10 may be used as a waste storage apparatus to be recycled matched with a plurality of waste discharge plants, that is, the remaining capacity of one waste storage apparatus 10 can store the amount of industrial waste discharged from a plurality of waste discharge plants.

The position acquisition unit 102c acquires the current storage position of the trash storage portion 101 in real time as a storage position to be recovered.

The route setting unit 308 calculates a collection conveyance route of the waste storage device to be collected from the area map, the waste discharge plant position, and the storage position to be collected.

The command generating unit 305 generates a collecting transport command from the collecting transport path.

The management-side communication portion 316 transmits the recycling conveyance instruction to the corresponding scrap conveying device 20 as a to-be-recycled scrap conveying device, thereby causing the to-be-recycled scrap conveying device to convey the to-be-recycled scrap storage device to the corresponding waste discharge plant.

When the capacity collection unit 102d collects that the remaining capacity is zero, that is, when the waste storage device 10 is full of industrial waste, the prompt signal generation unit 102e generates a corresponding prompt signal.

The stocker setting unit 309 sets the corresponding scrap stocker 10 as a stocker in accordance with the presentation signal.

The position acquiring unit 102c sets the current storage position of the collected waste storage unit 101 as the warehouse-back storage position.

The route setting unit 308 performs calculation based on the area map, the storage bin position, and the retrieval storage position, and sets a retrieval route of the retrieval storage device.

The instruction generating unit 305 generates a binning instruction from the binning path.

The management-side communication unit 316 transmits a return instruction to the corresponding waste conveyance device 20 as a return conveyance device, and causes the return conveyance device to convey the return storage device back to the waste storage bin.

Each waste treatment plant also sends the management device 30, via a communication terminal (for example, a mobile phone, a computer, or the like), the waste treatment amount of the industrial waste that can be treated within a predetermined time, in this embodiment, the predetermined time is one day, and the process of transporting the industrial waste to the waste treatment plant for treatment is specifically as follows:

the capacity collection unit 102c collects the current amount of industrial waste in the waste storage portion 101 as the amount of waste to be processed.

The management-side communication unit 316 receives the waste processing amount of the industrial waste that can be processed by each waste processing plant.

The storage device selecting section 307 performs matching calculation based on the amount of waste to be processed and the amount of processed waste, and selects the waste storage device 10 matched with the waste processing plant as a waste storage device to be processed.

When the storage device selecting section 307 performs the matching calculation, the processed waste amount judging section 310 judges whether the waste processing amount can satisfy the amount of the waste to be processed,

if it is determined that the instruction generation unit 305 generates the transport permission instruction, the management-side communication unit 316 transmits the transport permission instruction to the to-be-processed-scrap transport apparatus,

if not, the command generating unit 305 generates a transport prohibition command, and the management-side communication unit 316 transmits the transport prohibition command to the to-be-processed waste transport apparatus.

When the storage device selection unit 307 performs the matching calculation, the processing capacity judgment unit 315 searches the processing capacity storage unit 314 according to the current waste type, judges whether or not the current concentration can be satisfied in the waste treatment plant,

if it is determined that the instruction generation unit 305 generates the treatment permission instruction, the management-side communication unit 316 transmits the treatment permission instruction to the to-be-treated-waste conveyance device,

if not, the command generating unit 305 generates a processing prohibition command, and the management-side communication unit 316 transmits the processing prohibition command to the to-be-processed waste conveyance device.

If the type of the industrial waste is liquid waste, the processing capacity judging section 315 searches the processing capacity storing section 314 based on the current type of the waste, judges that the waste treatment plant can treat the industrial waste,

if it is determined that the instruction generation unit 305 generates the treatment permission instruction, the management-side communication unit 316 transmits the treatment permission instruction to the to-be-treated-waste conveyance device,

if not, the command generating unit 305 generates a processing prohibition command, and the management-side communication unit 316 transmits the processing prohibition command to the to-be-processed waste conveyance device.

The route setting unit 308 performs calculation based on the area map, the processing plant position, and the storage bin position, and sets a processing transport route of the to-be-processed waste storage apparatus.

After the transport permission command and the processing permission command are generated, the management-side control unit 316 controls the command generation unit 305 to generate a processing transport command from the processing transport path.

The management-side communication portion 316 transmits the processing conveyance command to the corresponding waste conveyance device 20 as a to-be-processed waste conveyance device, thereby causing the to-be-processed waste conveyance device to convey the to-be-processed waste storage device to the corresponding waste treatment plant.

When the industrial waste is transported into or out of the waste storage bin, the management device 30 also counts the amount of the industrial waste in a predetermined time, forms a report and sends the report to the industrial waste monitoring department for recording, in this embodiment, the predetermined time is one day, and the counting process is specifically as follows:

the position storage part 306 is searched according to the current storage position of the waste storage part 101, the waste storage part is judged to enter the waste storage bin or leave the waste storage bin,

when the waste storage part 101 is judged to enter the waste storage bin, the waste counting part 312 takes the current amount of waste collected by the capacity collection unit 102c as the amount of warehousing waste, counts the amount of warehousing waste within a predetermined time to obtain the total amount of warehousing waste within the predetermined time,

when it is determined that the waste storage unit 101 leaves the waste storage bin, the waste counting unit 312 takes the current amount of waste collected by the capacity collection unit 102c as the amount of waste discharged from the warehouse, and counts the amount of waste discharged from the warehouse within a predetermined time to obtain the total amount of waste discharged from the warehouse within the predetermined time.

The report forming unit 313 forms a warehousing report and a delivery report within a predetermined time period from the total amount of the warehousing waste and the total amount of the delivery waste.

The management-side communication unit 316 transmits the warehousing report and the ex-warehouse report to the terminals of the industrial waste monitoring department for filing.

In this embodiment, whether the waste storage unit 101 enters or leaves the waste storage bin is determined by the current storage location of the waste storage unit 101, so that the total amount of the warehousing waste and the total amount of the ex-warehouse waste are counted to form a warehousing report and an ex-warehouse report. In other embodiments, each waste storage portion 101 may be provided with a corresponding identification card, an identifier used with the identification card is disposed at an entrance of the waste storage bin, and the identification card is identified by the identifier each time the waste storage portion 101 enters or exits the waste storage bin, so as to obtain the amount of the warehousing waste material and the amount of the ex-warehouse waste material corresponding to the waste storage portion 101. In addition, each waste storage portion 101 has an authority level identification portion (for example, fingerprint identification or a coded lock) for identifying the authority level of the current worker or the current operating device (for example, a transfer robot, etc.), so as to determine whether the worker or the operating device has the authority to open the waste storage portion 101, when the authority level is determined as yes, the current worker or the current operating device is allowed to open the waste storage portion 101 to take out the industrial waste, and if the authority level is determined as no, an alarm prompt sound is generated, a monitoring end is reminded, and the alarm information is transmitted to a terminal (for example, a mobile phone or a computer, etc.) of a manager.

FIG. 5 is a flowchart of the recovery and storage operations of an industrial waste storage management system in accordance with an embodiment of the present invention.

As shown in fig. 5, the industrial waste storage and management system of this embodiment can perform storage management on the industrial waste in the management area, and the management device receives the amount of the industrial waste in the waste discharge plant within a predetermined time (one day in this embodiment), and the specific steps are as follows:

step S1, the storage device selection part 307 selects the waste storage device 10 matched with the waste discharge plant as the storage location to be recovered according to the remaining capacity and the amount of industrial waste, and then proceeds to step S2;

in step S2, the route setting unit 308 sets a collection transport route for the storage location to be collected, and the process proceeds to step S3;

in step S3, the command generation unit 305 generates a collection conveyance command, and then the process proceeds to step S4;

in step S4, the management-side communication unit 316 transmits the collection conveyance command to the corresponding scrap conveyance device 20 as the scrap conveyance device to be collected, and then proceeds to step S5;

in step S5, the to-be-recovered waste transport device transports the to-be-recovered waste storage device to a corresponding waste discharge plant.

When the waste storage device 10 is filled with industrial waste, the prompt signal generating unit 102e generates a corresponding prompt signal, and the to-be-recovered waste conveying device conveys the to-be-recovered waste storage device back to the waste storage bin, which comprises the following specific steps:

step S6, the stocker setting unit 309 sets the corresponding scrap stocker 10 as the stocker according to the presentation signal, and the process proceeds to step S7;

in step S7, the path setting unit 308 sets a retrieval path of the retrieval storage device, and the process proceeds to step S8;

in step S8, the command generation unit 305 generates a bin return command, and then proceeds to step S9;

in step S9, the management-side communication unit 316 transmits a return instruction to the corresponding scrap conveyor 20 as a return conveyor, and the process proceeds to step S10.

In step S10, the return bin transporting device transports the return bin storing device back to the waste storage bin.

Fig. 6 is a work flow diagram of a shipping process of an industrial waste storage management system of an embodiment of the present invention.

As shown in fig. 6, the management device receives the waste treatment amount of the waste treatment plant within a predetermined time (one day in the present embodiment), and when the industrial waste needs to be treated, the management device transports the waste storage device 10 to the corresponding waste treatment plant by the waste transport device 20, and the specific steps are as follows:

step T1, the storage device selection section 307 selects the waste storage device 10 matching the waste treatment plant as a waste storage device to be treated according to the amount of waste to be treated and the amount of waste treatment, and then proceeds to step T2;

step T2, the processed waste amount judgment section 310 judges whether the amount of waste processed can satisfy the amount of waste to be processed, and if yes, proceeds to step T3;

in step T3, the processing ability judging section 315 judges whether or not the waste treatment plant has the ability to treat the industrial waste, and if so, proceeds to step T4;

at step T4, the command generation unit 305 generates a transport permission command, and proceeds to step T5;

at step T5, the route setting unit 308 sets the processing transport route of the waste material storage device to be processed, and the process proceeds to step T6;

at step T6, the instruction generation unit 305 generates a processing conveyance instruction, and then proceeds to step T7;

a step T7 in which the management-side communication unit 316 transmits a processing conveyance command to the corresponding scrap conveyance device 20 as a to-be-processed scrap conveyance device, and proceeds to a step T8;

in step T8, the to-be-treated waste transport device transports the to-be-treated waste storage device to a corresponding waste treatment plant.

Examples effects and effects

According to the industrial waste storage management system of this embodiment, because a plurality of waste storage devices, waste conveyor and management device have, waste storage device has the waste information collection portion that is used for gathering the waste information, management device has waste type acquisition portion, can acquire the waste type according to the waste information, and send the transport instruction to waste conveyor according to the waste type, thereby transport waste storage device to predetermined place the position, therefore, this embodiment industrial waste storage management system can discern industrial waste, and classify and place it according to the waste type, intelligent classification management has been realized, be convenient for inquire industrial waste, check, work such as statistics, the administrative cost of industrial waste has significantly reduced and work efficiency has been improved effectively. In addition, because the industrial waste storage management system of this embodiment has a plurality of waste storage devices, can keep in industrial waste, consequently, the effect of a transfer station has been played between the mill of wasting discharge and waste disposal mill, if the industrial waste volume is greater than the waste processing volume then can keep in unnecessary industrial waste, if the industrial waste volume is less than the waste processing volume, then can transport the industrial waste of stock to the waste disposal mill and handle, can not produce the phenomenon that industrial waste can't in time handle and waste the waste disposal mill productivity.

Because the management device comprises the storage device selection part, the matched waste storage device can be selected according to the residual capacity of the waste storage part, so that each waste storage device can be filled with industrial waste as much as possible, the waste and the repeated transportation of the storage space of the waste storage device are avoided as much as possible, and the recovery cost is effectively reduced. Since the management device includes the position storage unit and the route setting unit, and the route setting unit can set the collection and conveyance route of the scrap conveyance device based on the area map, the waste discharge factory position, and the current storage position, the management device can determine the optimum collection and conveyance route for the scrap conveyance device, thereby effectively saving the cost of collection and conveyance and improving the efficiency of collection and conveyance.

Furthermore, because the information acquisition part is provided with the prompt signal generation unit, when the capacity acquisition unit acquires that the residual capacity is zero, the corresponding prompt signal can be generated, so that the waste material conveying device can return to the waste material storage bin once being filled with industrial waste materials, the cost of recycling and conveying is further effectively saved, and the recycling and conveying efficiency is improved.

Because storage device selects the portion can select with the waste material processing mill assorted waste material storage device that treats, it can judge accurately whether the processing waste material volume matches with the waste material handling capacity to handle waste material volume judgement portion, consequently, make waste material conveyor can transport industrial waste material to assorted waste material processing mill accurately, can not lead to the phenomenon that the waste material processing mill can't in time handle and waste material processing mill productivity, improved the degree of accuracy of industrial waste material management and the efficiency of waste material processing effectively.

Further, since the management device has the processing capability judging section, it is possible to judge whether or not the waste material processing plant has the corresponding waste material processing capability according to the type of the industrial waste material, and therefore, the industrial waste material can be accurately transported to the corresponding waste material processing plant, the problem of secondary transportation caused by the inability of the waste material processing plant to handle the industrial waste material is not caused, the cost of handling and transporting the industrial waste material is effectively saved, and the efficiency of waste material processing is improved.

Further, the processing ability determination portion can determine whether or not the processing concentration of the liquid that can be processed by the waste processing plant can satisfy the demand according to the current concentration of the liquid waste, and therefore, the industrial waste can be more accurately transported to the corresponding waste processing plant, the processing transportation cost is further saved, and the efficiency of the waste processing is improved.

Because the system is provided with the position retrieval judgment part, the waste counting part and the report forming part, the amount of the industrial waste entering and leaving the waste storage bin can be counted, corresponding warehousing reports and ex-warehousing reports are formed and sent to the terminal of the industrial waste supervision department for filing, therefore, the industrial waste storage management system of the embodiment can accurately and quickly manage the industrial waste in the waste storage bin, better allocate the recycling, conveying, processing and conveying, and effectively improve the management efficiency and the accuracy.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. An industrial waste storage management system for storage management of industrial waste produced by a plurality of waste discharge plants in a management area, comprising:

a plurality of waste storage devices;

a waste transport device for transporting the waste storage device to a waste storage bin within the management area; and

a management device communicatively coupled to the waste storage device and the waste transport device,

wherein the waste storage device comprises:

a waste storage part for storing the industrial waste,

a waste information collecting part for collecting the industrial waste in the waste storage part in real time to obtain the waste information of the industrial waste as the current waste information,

a storage-side communication section for transmitting the trash information to the management apparatus,

the management device includes:

a waste material type storage unit for storing a waste material type of each of the industrial waste materials corresponding to the waste material information,

a scrap position storage unit for storing a corresponding position of each of the scrap types in the scrap storage bin,

a waste type acquiring unit for searching the waste type storage unit based on the current waste information to acquire a waste type of the industrial waste as a current waste type,

a placement position acquisition unit that searches the scrap position storage unit based on the current scrap type to acquire the placement position corresponding to the industrial scrap as a current placement position,

a command generation unit for generating a delivery/storage command based on the current placement position,

and a management-side communication unit that transmits the delivery/storage instruction to a waste delivery device, and causes the waste delivery device to deliver the corresponding waste storage device to the current placement position.

2. The industrial waste storage management system of claim 1, wherein:

wherein the management device further comprises a position storage unit, a storage device selection unit, and a route setting unit,

the position storage section stores an area map of the management area and a waste plant position of each waste plant in the management area,

the waste information collecting part is provided with a capacity collecting unit which is used for collecting and acquiring the residual capacity of the waste storage part,

the storage side communication section transmits the remaining capacity to the management device,

the management-side communication section receives the amount of industrial waste discharged by each of the waste discharge plants and the remaining capacity,

the storage device selection part performs matching calculation according to the residual capacity and the industrial waste amount, selects the waste storage device matched with the waste discharge factory as a waste storage device to be recovered,

the waste information collecting part is provided with a position collecting unit which is used for collecting the current storage position of the waste storage part in real time as the storage position to be recovered,

the route setting unit calculates a collection transport route of the waste storage device to be collected based on the area map, the waste discharge plant position, and the storage position to be collected,

the command generation unit generates a collection conveyance command based on the collection conveyance path,

the management-side communication portion sends the recycling conveyance instruction to the corresponding waste conveyance device as a to-be-recycled waste conveyance device, so that the to-be-recycled waste conveyance device conveys the to-be-recycled waste storage device to the corresponding waste discharge plant.

3. The industrial waste storage management system of claim 2, wherein:

wherein the waste information acquisition part is provided with a prompt signal generation unit, when the capacity acquisition unit acquires that the residual capacity is zero, the prompt signal generation unit generates a corresponding prompt signal,

the storage-side communication unit transmits the presentation signal to the management device,

the position storage part stores the storage bin position of the waste storage bin in the management area,

the management device further has a stocker setting section,

the storage device returning setting unit sets the corresponding waste storage device as a storage device returning according to the prompt signal,

the path setting unit calculates the area map, the storage position and the current storage position to set a retrieval path of the retrieval storage device,

an instruction generating section for generating a binning instruction according to the binning path,

the management-side communication unit sends the refuge command to the corresponding waste material transport device as a refuge transport device, and the refuge transport device transports the refuge storage device back to the waste material storage bin.

4. The industrial waste storage management system according to any one of claims 2 to 3, wherein:

wherein the position storage unit stores a processing plant position of the waste processing plant in the management area,

the capacity acquisition unit is also used for acquiring the current waste amount of the industrial waste in the waste storage part as the waste amount to be treated,

the management-side communication unit receives a waste processing amount of the industrial waste that can be processed by each of the waste processing plants,

the storage device selection part performs matching calculation according to the amount of the waste to be processed and the waste processing amount, selects the waste storage device matched with the waste processing factory as a waste storage device to be processed,

the path setting unit calculates a processing transport path of the to-be-processed waste storage apparatus based on the area map, the processing plant position, and the storage bin position,

the command generation unit generates a processing transport command based on the processing transport path,

the management-side communication portion transmits the processing conveyance instruction to the corresponding waste conveyance device as a to-be-processed waste conveyance device, thereby causing the to-be-processed waste conveyance device to convey the to-be-processed waste storage device to the corresponding waste treatment plant.

5. The industrial waste storage management system of claim 4, wherein:

wherein the management device further comprises a processing waste amount judgment part,

when the storage device selection part carries out matching calculation, the processing waste material amount judgment part is used for judging whether the waste material processing amount can meet the waste material amount to be processed,

if it is determined that the operation is performed, the command generating unit generates a transport permission command, and the management-side communication unit transmits the transport permission command to the to-be-processed-waste transport device so that the to-be-processed-waste transport device transports the to-be-processed-waste storing device to the corresponding waste treatment plant,

if not, the command generating section generates a transport prohibition command, and the management-side communication section transmits the transport prohibition command to the to-be-processed waste transport device, so that the to-be-processed waste transport device transports the to-be-processed waste storage device back to the waste storage bin.

6. The industrial waste storage management system of claim 4, wherein:

wherein the management device further comprises a processing capability storage unit and a processing capability determination unit,

the processing capacity storage unit stores processing waste material types of the industrial waste materials that can be processed by the waste material processing plants,

a processing capability judging section for searching the processing capability storing section based on the current waste type to judge whether the industrial waste can be processed by the waste processing plant when the storage device selecting section performs the matching calculation,

if it is determined that the operation is performed, the command generating unit generates a processing permission command, and the management-side communication unit transmits the processing permission command to the to-be-processed waste transport device so that the to-be-processed waste transport device transports the to-be-processed waste storage device to the corresponding waste treatment plant,

if not, the command generating section generates a processing prohibition command, and the management-side communication section transmits the processing prohibition command to the to-be-processed waste transport device, so that the to-be-processed waste transport device transports the to-be-processed waste storage device back to the waste storage bin.

7. The industrial waste storage management system of claim 6, wherein:

wherein the industrial waste includes solid waste and liquid waste.

8. The industrial waste storage management system of claim 7, wherein:

wherein the waste information collecting section has a concentration collecting unit for collecting a current concentration of the liquid waste,

the processing capacity storage unit stores processing concentrations of the liquid wastes that can be processed by each of the waste processing plants,

when the storage device selection unit performs matching calculation, a processing capability judgment unit searches the processing capability storage unit based on the current density to judge whether the processing density satisfies the current density,

if so, the command generation unit generates the processing permission command,

if not, the command generation unit generates the processing prohibition command.

9. The industrial waste storage management system of claim 4, wherein:

wherein the management device further comprises a position search determination unit, a garbage collection unit, and a report generation unit,

retrieving the position storage part according to the current storage position of the waste storage part, judging whether the waste storage part enters the waste storage bin or leaves the waste storage bin,

when the waste storage part is judged to enter the waste storage bin, the waste counting part takes the current waste amount collected by the capacity collection unit as the warehousing waste amount, counts the warehousing waste amount within the preset time to obtain the warehousing waste total amount within the preset time,

when the waste storage part is judged to leave the waste storage bin, the waste counting part takes the current waste amount collected by the capacity collection unit as the ex-warehouse waste amount, counts the ex-warehouse waste amount in the preset time, and obtains the total ex-warehouse waste amount in the preset time,

the report forming part forms a warehousing report and an ex-warehouse report in the preset time according to the total amount of the warehousing waste and the total amount of the ex-warehouse waste,

and the management side communication part sends the warehousing report and the ex-warehouse report to a terminal of an industrial waste supervision department for recording.

10. The industrial waste storage management system of claim 9, wherein:

wherein the predetermined time is 1 day.

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