CN110852689A - Skid-mounted hazardous waste intelligent storage management system - Google Patents

Abstract

The invention discloses a skid-mounted hazardous waste intelligent storage management system, which comprises a storage warehouse and a cloud platform, wherein the storage warehouse is used for storing hazardous waste; a plurality of storage units for storing dangerous wastes are arranged in the storage warehouse; the hazardous waste is pasted with a first electronic tag, the first electronic tag comprises information parameters of the hazardous waste, and the information parameters comprise source information and characteristic information of the hazardous waste; the storage warehouse comprises a warehouse door, and the warehouse door is provided with an identification unit in communication connection with the cloud platform; when the dangerous waste is put in storage, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for storage data recording; when the hazardous waste is discharged from the warehouse, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for discharging data recording. Dangerous waste goes out warehouse entry, all carries out data record by the cloud platform, can effectively carry out intelligent management to the dangerous waste in the factory of the useless enterprise of producing from the useless source to before dispatching from the factory, and resources of using manpower sparingly reduce the error that manual operation easily appears, the wrong problem of judging etc..

Description

Skid-mounted hazardous waste intelligent storage management system

Technical Field

The invention relates to the technical field of environmental protection management, in particular to a skid-mounted hazardous waste intelligent storage management system.

Background

The unreasonable disposal of hazardous waste (referred to as hazardous waste) can cause adverse social effects. With the increasing public awareness of environmental protection, the non-standard disposal of hazardous wastes has become a popular target. Meanwhile, the hazardous wastes generated by diversified social and economic activities are various in types and complex in nature and have potential risks of pollution hazards, so that the standardized hazardous waste treatment technology is always the key point of enterprise management.

The treatment of the hazardous wastes generated by the enterprise comprises the steps of collecting the hazardous wastes in the enterprise, managing the ledger and storing the hazardous wastes in a temporary storage library in the enterprise, proposing transfer applications to relevant supervision departments after a certain amount of hazardous wastes are collected, and filling a transfer joint statement after approval is passed. The waste producing enterprise contacts with a qualified hazardous waste transport unit to transfer the hazardous waste, and then the hazardous waste is transported to a special hazardous waste disposal temporary storage warehouse or a disposal area, and an electronic transfer joint list is reported to a supervision department. The waste production enterprises in the process often have the following problems: (1) the production waste link and the production waste unit are more, and the unified management of the machine accounts is difficult; (2) manual recording is easy to make mistakes, and coordination among departments is poor; (3) dangerous waste is not uniformly counted in caliber and is not uniformly packaged; (4) the construction of the storage is not standard, and potential risks exist; (5) the storage library is not planned in place and exceeds the actual storage capacity, so that potential risks exist; (6) key data of the repository are not dynamically grasped in time, and potential risks exist; (7) the manual checking of the quantity of dangerous wastes in the storage warehouse and the time program are complicated, the time exceeding the allowed time of the regulation is difficult to control, and potential risks exist.

Disclosure of Invention

In order to solve the technical problem, the invention provides a skid-mounted intelligent hazardous waste storage management system, which comprises: a repository and a cloud platform;

a plurality of storage units for storing hazardous wastes are arranged in the storage warehouse;

the hazardous waste is pasted with a first electronic tag, the first electronic tag comprises information parameters of the hazardous waste, and the information parameters comprise source information and characteristic information of the hazardous waste;

the storage warehouse comprises a warehouse door, and the warehouse door is provided with an identification unit in communication connection with the cloud platform;

when dangerous waste is put in storage, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for storage data recording; when the hazardous waste is discharged from the warehouse, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for discharging data recording.

Optionally, the cloud platform further comprises an environment monitoring unit and an early warning unit, and the cloud platform is in communication connection with the environment monitoring unit and the early warning unit;

the environment monitoring unit is used for monitoring the environmental parameters in the storage and sending the environmental parameters to the cloud platform, and when the environmental parameters in the storage monitored by the environment monitoring unit exceed a set parameter range, the cloud platform controls the early warning unit to start.

Optionally, the early warning unit includes a fan disposed outside the storage, the storage is provided with an air outlet and an air inlet communicated with the fan, and the fan and the air outlet are both in communication connection with the cloud platform;

the environmental parameter comprises at least one of a temperature value, a humidity value and an air volume value; when the environment monitoring unit monitors that the environment parameters in the storage warehouse exceed the set parameter range, the cloud platform controls the fan to start and controls the air outlet to open.

Optionally, the environment monitoring unit includes at least one of a temperature sensor, a humidity sensor and an air volume sensor.

Optionally, the system further comprises a plurality of liquid leakage monitoring units, the plurality of liquid leakage monitoring units are arranged in the plurality of storage units in a one-to-one correspondence manner, and the plurality of liquid leakage monitoring units are all in communication connection with the cloud platform; when the liquid leakage monitoring unit monitors that the liquid leakage occurs in the storage unit, the cloud platform controls the early warning unit to start.

Optionally, the liquid collecting device further comprises a liquid collecting unit, wherein the liquid collecting unit comprises a plurality of liquid guiding pipelines arranged on the ground of the reservoir, the reservoir is provided with a collecting pipe, and the plurality of liquid guiding pipelines are arranged in a gathering mode and are communicated with the collecting pipe.

Optionally, the system further comprises a verification unit, wherein when the dangerous waste is put into storage; the verification unit verifies the information parameters of the first electronic tag and the corresponding hazardous wastes and generates a second electronic tag attached to the hazardous wastes, wherein the second electronic tag contains verification information of the hazardous wastes; when the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording.

Optionally, the verification unit comprises a weigher for weighing the hazardous waste, and the second electronic tag comprises characteristic information of the hazardous waste.

Optionally, a door lock unit is arranged on a warehouse door of the storage warehouse, and the door lock unit is in communication connection with the cloud platform;

when the dangerous waste is discharged from the warehouse, the cloud platform compares the received information read by the identification module with the information discharged from the warehouse, and after the information is compared and confirmed, the cloud platform controls the door lock unit to be opened.

Optionally, the cloud platform stores the position information of each storage unit, the storage units are in communication connection with the cloud platform, and the cloud platform matches and associates the position information of each storage unit with the information parameters of the hazardous waste stored in the storage unit.

Optionally, the storage is a skid-mounted storage.

According to the skid-mounted hazardous waste intelligent storage management system, when hazardous waste is put in and out of a warehouse, the information parameters of the hazardous waste are read through the identification unit, data recording is carried out through the cloud platform, the hazardous waste in a workshop of a waste production enterprise can be intelligently managed from a waste production source to before delivery, manpower resources are saved, and the problems of errors, omission, misjudgment and the like easily caused by manual operation are solved.

Drawings

Fig. 1 is a schematic structural diagram of a skid-mounted hazardous waste intelligent storage management system according to an exemplary embodiment of the present invention.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The skid-mounted hazardous waste intelligent storage management system is described in detail below with reference to the attached drawings. The features of the following examples and embodiments may be combined with each other without conflict.

Referring to fig. 1, the skid-mounted hazardous waste intelligent storage management system of the present invention may include a storage 10 and a cloud platform.

A plurality of storage units 11 for storing hazardous waste are provided in the storage 10. It should be noted that the storage unit 11 may refer to a specific storage structure, such as a storage barrel. Or a storage station, and the dangerous waste can be an article such as a paint bucket and the like and can be directly stored on the corresponding storage station.

The hazardous waste is pasted with a first electronic tag, the first electronic tag comprises information parameters of the hazardous waste, and the information parameters comprise source information and characteristic information of the hazardous waste. The source information may be the name of the generation unit or business of the hazardous waste, may be embodied to the subordinate plant directly generating the hazardous waste, and the like. The characteristic information can be key information such as the category, weight, date and the like of the hazardous waste and meets the relevant requirements of the national pollution control standard for hazardous waste storage. First electronic tags can adopt two-dimensional code or RFID label, pastes and establishes on the surface of hazardous waste, can set for in advance according to the system and conveniently read with the matching.

In practical application, the hazardous waste's the unit that produces can be understood as the useless unit that produces of danger, also when the useless collection department of danger entering workshop danger that the workshop unit produced, produce by the useless identification system of danger to hazardous waste after discerning, weighing and obtain first electronic tags. The content of the first electronic tag of each hazardous waste can be stored in the cloud platform for storage.

The repository 10 comprises a repository door 12, and the repository door 12 is provided with an identification unit in communication connection with the cloud platform, wherein the identification unit can read the first electronic tag. When the dangerous waste is put in storage, the identification unit reads the first electronic tag, sends the read information parameters to the cloud platform for storage data recording, and temporarily stores the information parameters in the corresponding storage unit according to the attributes of the dangerous waste, so that confusion is avoided. When the hazardous waste is discharged from the warehouse, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for discharging data recording. Optionally, a monitor display 121 may be disposed on the warehouse door 12 for the staff to perform patrol.

According to the skid-mounted hazardous waste intelligent storage management system, when hazardous waste is put in and out of a warehouse, the information parameters of the hazardous waste are read through the identification unit, data recording is carried out through the cloud platform, the hazardous waste in a workshop of a waste production enterprise can be intelligently managed from a waste production source to before delivery, manpower resources are saved, and the problems of errors, omission, misjudgment and the like easily caused by manual operation are solved.

In some alternative embodiments, the storage 10 is a skid-mounted storage, that is, the storage 10 is a skid-mounted structure, and is a modular device that can be designed and expanded according to the storage capacity. The skid-mounted hazardous waste intelligent storage management system further comprises an environment monitoring unit 40 and an early warning unit, and the cloud platform is in communication connection with the environment monitoring unit 40 and the early warning unit. The environment monitoring unit 40 is used for monitoring the environmental parameters in the storage 10 and sending the environmental parameters to the cloud platform, and when the environment monitoring unit 40 monitors that the environmental parameters in the storage 10 exceed a set parameter range, the cloud platform controls the early warning unit to start working to perform emergency ventilation in the storage 10 so as to prevent the risk of explosion of hazardous wastes.

In practical applications, the environment monitoring unit 40 includes at least one of a temperature sensor, a humidity sensor and an air volume sensor. The environmental parameter includes at least one of a temperature value, a humidity value, and an air volume value. In order to ensure better monitoring effect, the environment monitoring unit 40 may further include a sensor for monitoring the concentration of flammable and explosive gases and a leakage-proof liquid sensor, and the skid-mounted hazardous waste intelligent storage management system may further include an early warning system, which is in communication connection with each sensor and the cloud platform. When any one of the sensors detects an abnormal condition, the cloud platform immediately controls the early warning unit to start working, emergency ventilation is carried out on the interior of the storage 10, and abnormal data are transmitted to the cloud platform, so that the risk of combustion or explosion is prevented. The environmental monitoring unit 40 may be in the form of various sensors disposed within the reservoir 10 depending on the nature of the hazardous waste and the distribution of the storage units.

The early warning unit is including locating fan 13 outside the storage storehouse 10, fan 13 can regard as urgent fan to use, storage storehouse 10 be equipped with the air exit 14 and with the air intake that fan 13 intercommunication set up, the air intake can be connected with fan 13 through the connecting tube, fan 13 with the air exit 14 all with cloud platform communication connection. When the environment monitoring unit 40 monitors that the environmental parameters in the storage 10 exceed the set parameter range, the cloud platform controls the fan 13 to start and controls the air outlet 14 to open, and the fan 13 can exchange air in the storage 10 through a connecting pipeline. It should be noted that the number of the fans 13 and the air outlets 14 may be one, or may be multiple, and the present invention is not limited thereto.

Further, the skid-mounted hazardous waste intelligent storage management system provided by the invention can further comprise a plurality of liquid leakage monitoring units, wherein the liquid leakage monitoring units are correspondingly arranged in the storage units one by one, and the liquid leakage monitoring units are in communication connection with the cloud platform. When the liquid leakage monitoring unit monitors that the liquid leakage occurs in the storage unit, the cloud platform controls the early warning unit to start. It can be understood that once the storage unit in the storage warehouse appears revealing, the liquid reveals that the monitor cell transmits detected signal for the cloud platform, and the cloud platform can control early warning unit's fan at once and start to control the air exit and open, reach the purpose of the harmful gas that sparse harmful liquid gived off.

In order to recover leaked liquid and further reduce harmful pollution, the skid-mounted hazardous waste intelligent storage management system further comprises a liquid collection unit, wherein the liquid collection unit comprises a plurality of liquid guide pipelines 15 arranged on the ground of the storage 10, the storage 10 is provided with a collection pipe 16, and the plurality of liquid guide pipelines 15 are arranged in a gathering mode and are communicated with the collection pipe 16. When liquid dangerous waste leaks out from the storage unit 11, the liquid dangerous waste can be collected by intensively flowing out of the collecting pipe 16 through the liquid guiding pipe 15, and the liquid dangerous waste is prevented from leaking out. Therefore, through the cooperative work of the cloud platform, the environment monitoring unit, the early warning unit and the liquid leakage monitoring unit, the gas and the liquid in the storage can be monitored and early warned, and risks such as dangerous waste leakage are prevented.

In some optional embodiments, the skid-mounted hazardous waste intelligent storage management system of the present invention may further comprise a verification unit. When the dangerous waste is put in storage, the verification unit verifies the information parameters of the first electronic tag and the corresponding dangerous waste and generates a second electronic tag attached to the dangerous waste, wherein the second electronic tag contains verification information of the dangerous waste. When the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording. Optionally, the verification unit comprises a weigher for weighing the hazardous waste, the second electronic tag contains characteristic information of the hazardous waste, the characteristic information may comprise weight information of the hazardous waste, and the like, and it is understood that the second electronic tag can increase the weight information for verifying the weight of the hazardous waste compared with the first electronic tag, and the rest information should be consistent with the content of the first electronic tag. Optionally, the second electronic tag may be a two-dimensional code or an RFID tag, and may be set in advance and matched according to the system for convenient reading.

In practical applications, the verification information may include information such as the name of the generation unit or business of the hazardous waste, the type of hazardous waste, the rechecked weight, and the date. Before the dangerous waste collected by each dangerous waste generating unit and attached with the first electronic tag enters the storage 10, the verification unit verifies the information parameters of the first electronic tag and the corresponding dangerous waste, namely, the dangerous waste is re-identified, weighed and rechecked, and generates a second electronic tag to be attached to the dangerous waste. When the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording, so as to ensure the information accuracy of the hazardous waste entering the warehouse 10.

In some alternative embodiments, the door 12 of the storage 10 may be provided with a door lock unit, which is communicatively connected to the cloud platform. When the dangerous waste is discharged from the warehouse, the cloud platform compares the received information read by the identification module with the information discharged from the warehouse, and after the information is compared and confirmed, the cloud platform controls the door lock unit to be opened. The cloud platform stores the position information of each storage unit 11, the storage units 11 are in communication connection with the cloud platform, and the cloud platform matches and associates the position information of each storage unit 11 with the information parameters of the hazardous wastes stored in the storage unit 11.

In practical application, when the dangerous waste is put in storage, the verification unit verifies the information parameters of the first electronic tag and the corresponding dangerous waste. After verification is completed, the cloud platform can control the door lock unit to be opened, the management system automatically identifies and matches the placement positions in the warehouse, and hazardous wastes are placed and stored according to the corresponding positions. When the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording. And the cloud platform compares the received information read by the identification module with the information of leaving the warehouse, and after the information comparison is confirmed, the cloud platform controls the door lock unit to be opened.

The skid-mounted hazardous waste intelligent storage management system disclosed by the invention uses a skid-mounted structure, has an expandable and intelligently controlled operation space, and can effectively and intelligently manage hazardous waste in a workshop of a waste production enterprise from a waste production source to before leaving a factory. The management system has the characteristics of safety, environmental protection, quick disassembly and assembly, movement, reuse and the like. The intelligent management system reduces the problems of errors, omissions, misjudgments and the like easily caused by manual operation by using technical means, saves human resources and reduces risks of burning, leakage, explosion and the like of hazardous wastes in a plant area. In addition, the cloud platform can be regarded as a database, information in the first electronic tag, information in the second electronic tag, detection data of each sensor, gas and liquid leakage data and the like are stored in the cloud platform, intelligent management can be achieved, and functions of dangerous waste storage overweight early warning, dangerous waste storage overtime early warning and the like can be achieved.

In a preferred embodiment, by adopting the skid-mounted intelligent hazardous waste storage management system, firstly, through the link identification of the whole-process hazardous waste inside a waste production enterprise, the type and type of the hazardous waste of the enterprise are determined, and a basic hazardous waste database is established for the hazardous waste identification system at the hazardous waste generation unit.

For example, a workshop spraying process generates 10kg of waste paint bucket, which belongs to the dangerous waste according to the national dangerous waste list (code 900-. Before the dangerous waste is put in storage, a dangerous waste identification system identifies and weighs the dangerous waste to generate a first electronic tag. After the workshop generation unit is used for identifying and determining the dangerous waste type, weight, generation place and generation time by a dangerous waste identification system, first electronic tags of which the corresponding number contains two-dimensional codes or RFID are generated according to the quantity of paint buckets, and the first electronic tags are stuck to the obvious positions on the surfaces of the waste paint buckets one by one. And synchronously uploading the data in the first electronic tag to the cloud platform, and allowing only the identified dangerous waste attached with the first electronic tag to enter the storage warehouse.

At the entrance of the warehouse door of the storage warehouse, the waste paint bucket is identified again through the verification unit, the first electronic tag is read and verified, and the second electronic tag is generated and attached to the surface of the waste paint bucket. The information of the second electronic tag comprises a dangerous waste name, dangerous waste category, weight, date, a production waste unit, a warehousing area and the like. And at the position of the warehouse door, the identification unit reads the second electronic tag, the door lock unit is automatically opened, the management system automatically identifies and matches the placing position in the warehouse, and the dangerous waste is placed and stored according to the corresponding position. When the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording. And the cloud platform compares the received information read by the identification module with the information of leaving the warehouse, and after the information comparison is confirmed, the cloud platform controls the door lock unit to be opened.

It can be understood that in the whole warehousing and ex-warehouse process, the related data are uploaded to the cloud platform in time to realize dynamic updating. The waste paint bucket is uniformly delivered from the storage warehouse and the label of the waste paint bucket is read, so that the data are uploaded to the cloud platform in real time and share information with the management system. And after the label is successfully read, the waste oil paint bucket can be taken out of the warehouse.

When abnormal conditions occur, once the sensor in the storage warehouse senses that the environment (including temperature, humidity, air volume and the like) or key gas or liquid has abnormal values, the cloud platform controls the early warning system to start alarming, and the alarming is fed back to an administrator to perform corresponding operation. The administrator can also look up and count in real time according to the storage data of the storage warehouse and the cloud platform, and when the storage of the waste paint bucket exceeds the preset weight of the storage warehouse or exceeds the preset according to the dangerous waste storage corresponding management system, the administrator is informed to carry out warehouse-out operation through the dangerous waste management system.

The waste paint bucket is collected to a skid-mounted storage warehouse for temporary storage through a production unit by a workshop, and finally is discharged from the warehouse and collected by qualified enterprises, and the delivery process is finished, so that the waste paint bucket meets the requirements of national laws and regulations. The dangerous and useless system administrator realizes the purposes of real-time dynamic monitoring, real-time precaution and management of data.

It should be noted that, through the above description of the embodiments, those skilled in the art can clearly understand that part or all of the present invention can be implemented by software and combined with necessary general hardware platform. With this understanding in mind, aspects of the present invention or portions thereof that may contribute to the prior art may be embodied in the form of a software product that may include one or more machine-readable media having stored thereon machine-executable instructions that, when executed by one or more machines such as a computer, network of computers, or other electronic devices, cause the one or more machines to perform operations in accordance with embodiments of the present invention. The machine-readable medium may include, but is not limited to, floppy diskettes, optical disks, CD-ROMs (compact disc-read only memories), magneto-optical disks, ROMs (read only memories), RAMs (random access memories), EPROMs (erasable programmable read only memories), EEPROMs (electrically erasable programmable read only memories), magnetic or optical cards, flash memory, or other type of media/machine-readable medium suitable for storing machine-executable instructions.

The invention is operational with numerous general purpose or special purpose computing system environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet-type devices, multiprocessor systems, microprocessor-based systems, set top boxes, programmable consumer electronics, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above systems or devices, and the like.

The invention may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, etc. that perform particular tasks or implement particular abstract data types. The invention may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

It should be noted that, as will be understood by those skilled in the art, the above-mentioned part of the components may be programmable logic devices, including: one or more of Programmable Array Logic (PAL), Generic Array Logic (GAL), Field-Programmable Gate Array (FPGA), and Complex Programmable Logic Device (CPLD), which is not limited in this respect.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make variations and modifications of the present invention without departing from the spirit and scope of the present invention by using the methods and technical contents disclosed above.

Claims (11)

1. The utility model provides a useless intelligent storage management system of sled dress formula danger which characterized in that includes: a repository and a cloud platform;

a plurality of storage units for storing hazardous wastes are arranged in the storage warehouse;

the hazardous waste is pasted with a first electronic tag, the first electronic tag comprises information parameters of the hazardous waste, and the information parameters comprise source information and characteristic information of the hazardous waste;

the storage warehouse comprises a warehouse door, and the warehouse door is provided with an identification unit in communication connection with the cloud platform;

when dangerous waste is put in storage, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for storage data recording; when the hazardous waste is discharged from the warehouse, the identification unit reads the first electronic tag and sends the read information parameters to the cloud platform for discharging data recording.

2. The skid-mounted hazardous waste intelligent storage management system according to claim 1, further comprising an environment monitoring unit and an early warning unit, wherein the cloud platform is in communication connection with the environment monitoring unit and the early warning unit;

the environment monitoring unit is used for monitoring the environmental parameters in the storage and sending the environmental parameters to the cloud platform, and when the environmental parameters in the storage monitored by the environment monitoring unit exceed a set parameter range, the cloud platform controls the early warning unit to start.

3. The skid-mounted hazardous waste intelligent storage management system according to claim 2, wherein the early warning unit comprises a fan arranged outside the storage warehouse, the storage warehouse is provided with an air outlet and an air inlet communicated with the fan, and the fan and the air outlet are both in communication connection with the cloud platform;

the environmental parameter comprises at least one of a temperature value, a humidity value and an air volume value; when the environment monitoring unit monitors that the environment parameters in the storage warehouse exceed the set parameter range, the cloud platform controls the fan to start and controls the air outlet to open.

4. The intelligent skid-mounted hazardous waste storage management system according to claim 3, wherein the environment monitoring unit comprises at least one of a temperature sensor, a humidity sensor and an air volume sensor.

5. The skid-mounted hazardous waste intelligent storage management system according to claim 2, further comprising a plurality of liquid leakage monitoring units, wherein the plurality of liquid leakage monitoring units are arranged in the plurality of storage units in a one-to-one correspondence manner, and are all in communication connection with the cloud platform; when the liquid leakage monitoring unit monitors that the liquid leakage occurs in the storage unit, the cloud platform controls the early warning unit to start.

6. The intelligent skid-mounted hazardous waste storage and management system according to claim 5, further comprising a liquid collection unit, wherein the liquid collection unit comprises a plurality of liquid guiding pipelines arranged on the ground of the storage, the storage is provided with a collecting pipe, and the plurality of liquid guiding pipelines are arranged in a gathering manner and are communicated with the collecting pipe.

7. The intelligent storage management system for hazardous waste of claim 1, further comprising a verification unit; when dangerous waste is put in storage, the verification unit verifies the information parameters of the first electronic tag and the corresponding dangerous waste and generates a second electronic tag attached to the dangerous waste, wherein the second electronic tag comprises verification information of the dangerous waste; when the hazardous waste is delivered from the warehouse, the identification module reads the second electronic tag and sends the read information to the cloud platform for delivery data recording.

8. The intelligent storage management system for hazardous waste of claim 7, wherein the verification unit comprises a weighing device for weighing the hazardous waste, and the second electronic tag comprises the characteristic information of the hazardous waste.

9. The skid-mounted hazardous waste intelligent storage management system according to claim 7, wherein a door lock unit is arranged on a storage door of the storage warehouse, and the door lock unit is in communication connection with the cloud platform;

when the dangerous waste is discharged from the warehouse, the cloud platform compares the received information read by the identification module with the information discharged from the warehouse, and after the information is compared and confirmed, the cloud platform controls the door lock unit to be opened.

10. The skid-mounted hazardous waste intelligent storage management system according to claim 7, wherein the cloud platform stores position information of each storage unit, the storage units are in communication connection with the cloud platform, and the cloud platform matches and associates the position information of each storage unit with information parameters of hazardous waste stored in the storage unit.

11. The skid-mounted hazardous waste intelligent storage management system according to claim 1, wherein the storage warehouse is a skid-mounted storage warehouse.

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