CN115496243A

CN115496243A - Hazardous waste transfer processing method, storage medium and server

Info

Publication number: CN115496243A
Application number: CN202211437272.9A
Authority: CN
Inventors: 刘薇; 谭德强; 张欣毅; 杜炜
Original assignee: Beijing Boteng Huitong Technology Co ltd
Current assignee: Beijing Boteng Huitong Technology Co ltd
Priority date: 2022-11-17
Filing date: 2022-11-17
Publication date: 2022-12-20
Anticipated expiration: 2042-11-17
Also published as: CN115496243B

Abstract

The application provides a hazardous waste transfer processing method, a storage medium and a server, wherein the method comprises the following steps: broadcasting hazardous waste article dispatching information; receiving first order receiving information aiming at the order sending information, wherein the first order receiving information comprises a first identity identification of a corresponding first transfer terminal; when the position of the first transfer terminal is detected to be matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information; receiving a first transfer completion message generated after electronic unlocking is carried out on the container in the order information and the transfer of the hazardous waste is completed; and closing an electronic unlocking function of the corresponding container in the order information based on the first transfer completion message. This application can improve convenience and security among the dangerous waste article transfer process.

Description

Hazardous waste transfer processing method, storage medium and server

Technical Field

The application relates to the technical field of computers, in particular to a hazardous waste transfer processing method, a storage medium and a server.

Background

In the industrial production and manufacturing process, a large amount of hazardous waste materials are generated, the hazardous waste materials comprise liquid, solid or gas materials such as industrial waste oil and chemical pollutants, and the direct discharge of the hazardous waste materials can seriously pollute the environment, so that the hazardous waste materials are generally required to be properly treated such as storage and recovery.

In the treatment process such as aiming at the recovery of dangerous waste articles, the dangerous waste articles need to be collected and transported, the traditional method mostly simply adopts a telephone to inform recovery enterprises to recover the dangerous waste articles, a recovery management system is introduced in some improved schemes, and when the recovery is detected, the recovery enterprises or recovery personnel are automatically contacted to recover.

However, although the existing treatment method solves the problem that the dangerous waste articles can be recovered in time, the existing container for storing the dangerous waste articles mainly adopts a mechanical lock to ensure the safety of the dangerous waste articles in the container, thus, the recycling staff needs to get the physical key to unlock, and convenience needs to be improved.

Disclosure of Invention

In view of the above, there is a need to provide a method, a storage medium and a server for transferring hazardous waste, so as to improve the convenience of the hazardous waste transferring process.

A hazardous waste transfer treatment method comprises the following steps:

broadcasting hazardous waste article dispatching information, wherein the dispatching information comprises a container identifier of at least one container for storing hazardous waste articles to be transferred and a position of the container;

receiving first order receiving information aiming at the order sending information, wherein the first order receiving information comprises a first identity identification of a corresponding first transfer terminal;

when the position of the first transfer terminal is matched with the position of the container, activating an electronic unlocking function of the container in the dispatch information;

receiving a first transfer completion message generated after electronically unlocking the containers in the order information and completing the transfer of the hazardous waste;

closing an electronic unlocking function of a corresponding container in the order information based on the first transfer completion message.

In one embodiment, the container identifier in the order information comprises a plurality of container identifiers; when the total amount of transferable articles contained in the first order receiving information is less than the total amount of articles to be transferred in the order dispatching information, the method further comprises the following steps:

receiving second order receiving information aiming at the order dispatching information, wherein the second order receiving information comprises a second identity mark of a corresponding second transfer terminal and a second transferable article total amount;

when detecting that the position of the second transfer terminal is matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information;

receiving a second transfer completion message sent by the second transfer terminal after the second transfer terminal electronically unlocks the container in the order information and completes the transfer of the hazardous waste;

closing an electronic unlocking function of a corresponding container in the order information based on the second transfer completion message.

In one embodiment, the first order taking information further includes container identifiers of a first part of containers selected from the order item, the second order taking information further includes container identifiers of a second part of containers selected from the order item, and the first part of containers and the second part of containers do not intersect with each other.

In one embodiment, before the broadcasting the hazardous waste article dispatch information, the method further comprises:

acquiring the article capacity in a plurality of containers for storing the dangerous waste articles to be transferred;

when the article capacity reaches a corresponding first capacity threshold value, generating corresponding hazardous waste article dispatching information; or

And when the sum of the article capacities of a plurality of containers belonging to the same production and waste unit and/or the same position range is detected to reach the corresponding second capacity threshold value, generating corresponding dangerous waste article dispatching information.

In one embodiment, the hazardous waste material comprises hazardous waste liquid, the article capacity comprises first level information of the hazardous waste liquid, and the capacity threshold comprises a volume threshold;

the acquiring of the capacity of the articles in the container for storing the hazardous waste articles to be transferred comprises:

receiving first liquid level information of hazardous waste liquid in the container at a plurality of positions reported by the container;

determining first volume information of the hazardous waste liquid based on the first level information at the plurality of locations.

In one embodiment, after the activating the electronic unlocking function of the container in the order information, the method further comprises:

receiving an unlocking request generated by scanning an identification code on the container by the first transfer terminal, wherein the unlocking request comprises an identification mark;

and verifying the unlocking request, and unlocking the container when the identity identification in the unlocking request is verified to be consistent with the first identity identification.

In one embodiment, the generating of the corresponding hazardous waste item order information comprises:

determining a transfer deadline matching the item capacity;

selecting at least one transfer terminal matched with the transfer deadline from a transfer terminal set matched with the container as the first transfer terminal;

generating the hazardous waste item dispatching information based on the transfer deadline and the first transfer terminal.

In one embodiment, the acquiring the capacity of the articles in the plurality of containers for storing the hazardous waste articles to be transferred includes: monitoring the goods capacity information reported by each container in the container set based on the message middleware;

the generation of corresponding hazardous waste article dispatch information includes:

caching the article capacity information according to a receiving time sequence when the number of the received article capacity information messages in the current time period exceeds a preset number threshold;

and when the number of the received messages of the article capacity information is lower than the time period of the preset number threshold, generating corresponding information of the order of the dangerous waste articles according to the receiving time sequence.

In one embodiment, a server for managing hazardous waste is provided, comprising:

one or more processors;

a memory for storing one or more programs,

wherein the one or more programs, when executed by the one or more processors, cause the one or more processors to perform the hazardous waste transfer treatment method of any of the embodiments of the present application.

In one embodiment, a computer storage medium having stored thereon executable instructions that, when executed by a processor, cause the processor to perform a hazardous waste transfer treatment method as in any one of the embodiments of the present application is provided.

According to the hazardous waste transfer processing method, the storage medium and the server, the electronic unlocking function is set for the container for storing the hazardous waste, and the server for managing and monitoring the hazardous waste controls the opening and closing of the electronic unlocking function of the container, so that when relevant personnel are arranged to transfer the hazardous waste stored in the container, the electronic unlocking function can be activated, a user of the hazardous waste transfer equipment can electronically unlock the hazardous waste transfer equipment without using a key, the unlocking convenience is improved, and after the hazardous waste in the container is transferred, the electronic unlocking function of the container can be closed, non-relevant personnel are prevented from breaking the unlocking password of the container in an electronic unlocking mode, the safety of storing the hazardous waste in the container is improved, and the convenience and the safety of the hazardous waste transfer process are further improved in the whole process.

Drawings

FIG. 1 is a schematic view of a hazardous waste transfer processing method according to an embodiment;

FIG. 2 is a flow chart of a hazardous waste transfer process according to one embodiment;

FIG. 3 is a flow chart of a hazardous waste transfer process according to another embodiment;

FIG. 4 is a flow diagram of the generation of corresponding hazardous waste item dispatch information in one embodiment;

FIG. 5 is a flow chart of a process for checking hazardous waste liquid in one embodiment;

fig. 6 is a schematic structural diagram of a server in one embodiment.

Detailed Description

Hereinafter, embodiments of the present application will be described with reference to the accompanying drawings. It is to be understood that such description is merely illustrative and not intended to limit the scope of the present application. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present application.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The terms "a", "an" and "the", and the like, as used herein, are also intended to include the meaning of "a plurality" and "the" unless the context clearly indicates otherwise. Furthermore, the terms "comprises," "comprising," or the like, as used herein, specify the presence of stated features, steps, operations, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, or components.

In addition, although the terms "first", "second", etc. are used herein several times to describe various elements (or various thresholds or various applications or various instructions or various operations) etc., these elements (or thresholds or applications or instructions or operations) should not be limited by these terms. These terms are only used to distinguish one element (or threshold or application or instruction or operation) from another element (or threshold or application or instruction or operation). For example, the first order taking information may be referred to as second order taking information, and the second order taking information may also be referred to as first order taking information, without departing from the scope of the present application, and both the first order taking information and the second order taking information are not the same order taking information.

All terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. It is noted that the terms used herein should be interpreted as having a meaning that is consistent with the context of this specification and should not be interpreted in an idealized or overly formal sense.

The method for transferring hazardous waste in this application can be applied to the scenario shown in fig. 1, and referring to fig. 1, a plurality of containers 110 (such as 110-1, 110-2, 110-3, 110-n in the figure) are provided, which may be devices with network and sensors and other detection devices, for storing hazardous waste, such as containers such as smart oil tanks used by waste units such as oil refineries that may generate hazardous waste. The containers 110 may report the capacity of the articles in the containers to the server 120 for managing the hazardous waste articles periodically, the server 120 may generate the order delivery information in case of demand after receiving the capacity of the articles reported by each container 110, and the transfer terminal 130 for transferring the capacity of the articles in the containers may actively or passively receive the order from the order delivery information, wherein the transfer terminal 130 may be a device capable of transferring and transporting the hazardous waste articles, such as a tank truck.

In an embodiment, as shown in fig. 2, a method for transferring and processing hazardous waste is provided, and this embodiment is described by taking an example of applying the method to a server 120 as shown in fig. 1, and includes:

step 202, dangerous waste article dispatching information is broadcasted.

In this embodiment, the server may periodically broadcast the order information of the hazardous waste articles, and may also determine whether to generate the order information according to the received article capacity information in the container. The order information comprises one or more of container identification of at least one container for storing the dangerous waste articles to be transferred, article capacity in the container, position of the container and the like. The container identifier is used for uniquely identifying a container, and can be information such as a code of the container. The content of the articles in the container represents the content information of the hazardous waste articles stored in the container, and can be one or more of the volume, weight, height in the container and the like of the articles, which can directly or indirectly reflect the content of the articles. The position of the container can be longitude and latitude information of the container, position information reported by a positioning unit in the container, and position information of a bound production and waste unit. The waste producing unit can be a waste producing enterprise, an institution, a scientific research institution or other related institutions which can produce dangerous waste articles. The hazardous waste materials include various hazardous waste solids, hazardous waste liquids and hazardous waste gases such as industrial waste oil, chemical pollutants, etc., such as industrial waste oil when being liquid, and waste batteries when being solid.

The server can broadcast to all the transfer terminals in the network, and can also directionally broadcast the dispatch information to one or more transfer terminals.

Each container corresponds to one piece of position information, and the position information can be the position information of the container itself or the position information of the production and waste unit to which the container belongs. The location information may be latitude and longitude coordinates, or may be street information. Optionally, the container may be provided with a positioning device, and the server may further obtain the position information of the container when collecting the information of the capacity of the article in the container. Thus, the transfer terminal can know the distance between itself and itself according to the position information and select whether to take the order or not.

Step 204, receiving first order receiving information aiming at the order dispatching information.

The first order receiving information comprises a first identity identification of the corresponding first transfer terminal. Optionally, each transfer terminal that receives the corresponding order receiving information may select whether to receive an order or not, or only a transfer terminal with an order receiving authority may select whether to receive an order or not, and a transfer terminal without an order receiving authority may only check the order receiving information but not the order, or may not check the corresponding order receiving information.

The transfer terminal with the order receiving authority aiming at the order information can select whether to receive the order information, the transfer terminal can be a terminal related to a dangerous waste recycling company, and the recycling company has the recycling authority for a container corresponding to the order information. For example, the corresponding recycling company signs a recycling agreement with the waste unit corresponding to the container, so as to have recycling authority, or the corresponding recycling company has a recycling license plate, or the corresponding recycling company can have recycling authority for the dispatch information in the container. It can be understood that the recovery companies signed by different production and waste units are not necessarily the same, so that different transfer terminals also have different recovery authorities for hazardous waste articles in different containers, that is, the transfer terminals corresponding to different delivery information and having the receiving authority are not necessarily the same.

The transfer terminal selecting the order receiving can report order receiving information to the server, the order receiving information indicates that the corresponding order is accepted, and the server can receive the order receiving information aiming at the order sending information. The order receiving information triggered by the first transfer terminal is first order receiving information, and the order receiving information comprises an identity of the first transfer terminal, namely a first identity. The transfer terminal can be an electronic device such as a mobile phone and a computer, and the identity of the transfer terminal can be a character string which can determine the identity of the user such as a mobile phone number and an identity card number of the user. The corresponding user is a related person who can carry out transfer work on the dangerous waste, such as a worker of a recovery company, for example, a driver of a tank truck which can recover the dangerous waste, and the like.

And step 206, when the position of the first transfer terminal is matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information.

The container is also provided with an electronic unlocking module and has an electronic unlocking function, wherein the electronic unlocking function can be that whether the container is unlocked or not is determined by unlocking identification of the container, or the electronic unlocking function can be that the container is unlocked by remote control of a server.

The electronic unlocking function of the container can be controlled by the server to be opened or closed, the server can control the electronic unlocking function of the container to be in a closed state under a general condition, and the closed state can not unlock the container in an electronic unlocking mode. The transfer terminal can report the position information of the transfer terminal to the server in real time or according to a certain frequency, and when the server detects that the position of the transfer terminal is matched with the position of the container in the order dispatching information, the electronic unlocking function of the container in the order dispatching information can be activated. The position matched with the container may be a position within a predetermined range from the position of the container, for example, a position within a range of 100 meters or within a range of 500 meters, which is any suitable distance range.

The server can compare whether the distance between the real-time position of the transfer terminal and the position of the container is within a preset distance threshold value, and if yes, the position of the transfer terminal is judged to be matched with the position of the container.

When the user of the transfer terminal arrives at the position of the container, the hazardous waste in the container in the order information can be transferred by the hazardous waste transfer equipment. Wherein, the hazardous waste transfer equipment can be equipment such as a tank truck. In one embodiment, the location of the transfer terminal may be the location of the transfer terminal itself, or may be the location of the hazardous waste transfer equipment matched with the transfer terminal, for example, the location of the hazardous waste transfer equipment may be used as the location of the transfer terminal.

And step 208, receiving a first transfer completion message generated after the containers in the order information are electronically unlocked and the hazardous waste transfer is completed.

In this embodiment, after having activated the electronic unlocking function, the user can carry out mode such as password or fingerprint or sweep the sign indicating number to the container and unblank. After the container is successfully unlocked, the user can transfer the hazardous waste therein, such as to the hazardous waste transfer equipment described above.

After the container is unlocked, the unlocking information can be reported to the server to inform that the container is unlocked, or the unlocking request is sent to the server by the transfer terminal, and the server controls the container to be unlocked based on the unlocking request, so that the container is in an open state.

Similarly, after the hazardous waste in the container is completely or partially transferred, the container may actively report a transfer completion message to the server, or the transfer terminal or the hazardous waste transfer device may report the transfer completion message.

The electronic device may receive the unlocking completion message and the transfer completion message, i.e., the first transfer completion message, as described above.

And step 210, closing the electronic unlocking function of the corresponding container in the order information based on the first transfer completion message.

In this embodiment, after the server receives the transfer completion message, or after confirming that the hazardous waste in the corresponding container has completed the transfer, the electronic unlocking function of the container can be closed, so that the non-relevant person can be prevented from unlocking the container and damaging the container in an electronic unlocking manner.

The application provides a dangerous waste transfer processing method, through setting up electron unblock function to the container that is used for saving dangerous waste, and control opening and closing of the electron unblock function of container by the server that is used for carrying out management supervision to dangerous waste, like this, when having arranged relevant personnel to come to shift the dangerous waste that stores in the container, can activate electron unblock function, make the user of dangerous waste transfer equipment can carry out electron unblock to it, need not to use the key to unblank, the convenience of unblanking has been improved, and after the dangerous waste in the container shifts and finishes, then can close the electron unblock function of container, prevent that non-relevant personnel from adopting the mode of electron unblock to break the password of unblanking of container, the security of container storage dangerous waste has been improved, and then convenience and security to dangerous waste transfer in-process have been improved in the whole flow.

In one embodiment, as shown in fig. 3, another hazardous waste transfer treatment method is provided, which comprises:

step 302, dangerous waste article dispatching information is broadcasted.

In this embodiment, the container identifier in the order information includes a plurality of container identifiers, the order information further includes total amount information of the articles to be transferred, and the total amount of the articles to be transferred is the sum of the article capacities in the containers in the order information. That is, the server can pack the hazardous waste in the containers into a dispatch information for broadcasting, wherein the containers in the dispatch information can be containers in the same place or the same production and waste unit. It can be understood that the hazardous waste substance that the unit of producing waste may produce is great in capacity, and the container that needs to be stored also has a plurality ofly, and the article capacity that hazardous waste substance transfer equipment can hold is also greater than the article capacity of container simultaneously, and like this, hazardous waste substance transfer equipment can transfer the hazardous waste substance in a plurality of containers simultaneously.

For convenience of management, the server can contain container identifications of a plurality of containers in one order dispatching information, so that hazardous waste in the containers can be transferred by one order dispatching.

Step 304, receiving first order receiving information generated aiming at the order dispatching information.

In this embodiment, the first order receiving information includes a first identity identifier of the corresponding first transfer terminal and a total transferable article amount, and the total transferable article amount corresponding to the first transfer terminal is referred to as the first total transferable article amount, and the total transferable article amount corresponding to the second transfer terminal is referred to as the second total transferable article amount.

The total transferable article quantity is the sum of the article capacities in the containers which the corresponding transfer terminal expects to prepare for transfer from the order receiving information. The total amount of transferable articles can be the total amount of articles themselves, or can be embodied by the container identification or number of containers of the container to be transferred. Since the order information includes the article capacity of each container, when the selected specific containers or the number of containers is determined in the order receiving information, the total transferable article amount corresponding to the order receiving information can be determined.

In one embodiment, the order receiving information may include a container identifier for specifying a specific container to be transferred, so that when the transfer end user arrives at the site, the transfer end user can only transfer the hazardous waste in the container specified by the transfer end user, thereby improving the normative of transferring the hazardous waste. The container identifier may be a code of the container, or the like, which may uniquely identify the container.

The order receiving information does not need to specify a specific container, so that when a transfer terminal user arrives at the site, hazardous waste in any one or more containers in the order sending information can be transferred, and the flexibility of transferring hazardous waste is improved.

And step 306, when the position of the first transfer terminal is detected to be matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information.

And 308, receiving a first transfer completion message generated after the containers in the order information are electronically unlocked and the hazardous waste transfer is completed.

In this embodiment, if the corresponding container is specified in the order receiving information, the server activates the electronic unlocking function only for the corresponding container in the order receiving information, and keeps the electronic unlocking function in a closed state for the container which does not belong to the specified container in the order receiving information in the order sending information, so as to prevent the relevant order receiving personnel from unlocking the unspecified container and transferring dangerous waste articles. If the order receiving information does not specify the container, the electronic unlocking function of the container in the matching position in the order sending information can be directly activated.

And step 310, closing the electronic unlocking function of the corresponding container in the order information based on the first transfer completion message.

Step 312, when the total amount of the first transferable articles contained in the first order receiving information is smaller than the total amount of the articles to be transferred in the order dispatching information, receiving second order receiving information generated aiming at the order dispatching information.

In this embodiment, because the dangerous waste articles to be transferred in the order dispatching information are not completely received in the first order receiving information, other personnel are required to continue order receiving for the dangerous waste articles which are not received in the order dispatching information. The second order receiving information is similar to the first order receiving information, and the second order receiving information comprises a second identity mark of a corresponding second transfer terminal and a second transferable article total amount.

The step of receiving the second order receiving information generated according to the order dispatching information is similar to the step 204, except that the terminal for transferring the initiated second order receiving information and the terminal for transferring the initiated first order receiving information are not the same terminal, and detailed description thereof is omitted.

And step 314, when the position of the second transfer terminal is detected to be matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information.

In this embodiment, similar to step 306, if the corresponding container is specified in the second order receiving information, the server activates the electronic unlocking function only for the corresponding container in the second order receiving information, and for the container not specified in the second order receiving information in the order dispatching information, the electronic unlocking function is kept in a closed state, so that the second order receiving person is prevented from unlocking the container not specified in the second order receiving person and transferring hazardous waste articles. If the container is not specified in the order receiving information, the electronic unlocking function of the container in the matching position in the order sending information can be directly activated.

And step 316, receiving a second transfer completion message sent after the electronic unlocking is carried out on the container in the dispatching information and the transfer of the hazardous waste is completed.

It can be understood that, if no corresponding container is specified in the second order receiving information and the first order receiving information, the first order receiving personnel and the second order receiving personnel have unlocking authority for the same container in the order dispatching information and transfer authority for hazardous and waste articles in the same container. The first order receiving personnel and the second order receiving personnel can coordinate with each other to determine dangerous and waste articles in containers transferred by the first order receiving personnel and the second order receiving personnel, wherein the first order receiving personnel are personnel corresponding to first order receiving information, the second order receiving personnel and personnel corresponding to second order receiving information, the first identity identification can be an identity card number or a mobile phone number of the first order receiving personnel, and the second identity identification can be an identity card number or a mobile phone number of the second order receiving personnel.

And step 318, closing the electronic unlocking function of the corresponding container in the order information based on the second transfer completion message.

Similar to step 210 or step 310, after the server receives the transfer completion message or confirms that the hazardous waste in the corresponding container has been transferred, the electronic unlocking function of the container can be closed, so that the non-relevant person can be prevented from unlocking the container and damaging the container in an electronic unlocking manner.

In one embodiment, it may be understood that the order receiving information corresponding to the same order receiving information may be not limited to two, for example, when the two order receiving information still cannot completely receive the total amount of the articles to be transferred in the order receiving information, the server may further receive third order receiving information or even fourth order receiving information, and so on until the received multiple order receiving information can completely transfer the total amount of the articles to be transferred, that is, the sum of the total amounts of transferable articles in the multiple order receiving information is greater than or equal to the total amount of the articles to be transferred.

The application provides a danger waste article transfer processing method, through the container packing that carries out danger waste article recovery with a plurality of needs and generate a group's order information, and when once connect the order and can't accept the article total amount of waiting to shift in this group's order information, can be in this group's order task by a plurality of orders of connecing to both can improve the standardization of group's order management, can compromise the flexibility of the processing of connecing the order again.

In one embodiment, the first order taking information further comprises container identifiers of a first part of containers selected from the order item, the second order taking information further comprises container identifiers of a second part of containers selected from the order item, and the first part of containers and the second part of containers do not intersect.

In this embodiment, the first order taking information and the second order taking information further need to specify containers for respectively transferring hazardous waste materials in the order dispatching information, each order taking information may specify one or more containers, and the containers specified in each order taking information may be repeated. The container selected by the first order receiving information is a first partial container, and the container selected by the second order receiving information is a second partial container.

For example, there are M containers in the order information, and the container identifiers of N containers in the first order receiving information are selected, the second order receiving information may be selected from M-N containers that are not selected by the first order receiving information, and may select the container identifiers of all the remaining M-N containers, or may select the container identifiers of some containers in the M-N containers.

In this embodiment, by specifying the corresponding container identifier in each order receiving information, the operation of each order receiving person can be further standardized, so that operation conflicts among a plurality of order receiving persons are prevented, and the management of the server on the order receiving of the order receiving persons is also improved.

In one embodiment, before step 202 and/or step 302, the method further includes: acquiring the article capacity in a plurality of containers for storing the dangerous waste articles to be transferred; when the article capacity reaches the corresponding first capacity threshold value, generating corresponding hazardous waste article dispatch information; and/or when the sum of the article capacities of a plurality of containers belonging to the same production and waste unit and/or the same position range is detected to reach the corresponding second capacity threshold value, generating corresponding dangerous waste article dispatching information.

In this embodiment, a detection module for monitoring the capacity of the hazardous waste articles in the container is arranged in the container, and the detected article capacity can be reported to the server periodically. The capacity of the articles can be any one or more parameters such as the liquid level, the weight, the volume and the like of the articles in the container, which can reflect the amount of the hazardous waste articles in the container. The volume threshold is a critical value for identifying whether the hazardous waste contained in the container is nearly saturated or is saturated, the parameter type of the volume threshold is the same as the parameter type of the article volume, for example, when the article volume is a liquid level, the volume type is a liquid level threshold, when the article volume is a volume, the volume type is a volume threshold, and when the article volume is a weight, the volume type is a weight threshold. The volume threshold may be any suitable value that is empirically set, for example, the first volume threshold may be any suitable value such as 80%, 85%, 90%, 95%, or even 100% of the total volume that the container can hold; the second capacity threshold may be any suitable value such as 80%, 85%, 90%, 95%, or even 100% of the sum of the contents of the plurality of containers.

In one embodiment, different containers may have corresponding different first capacity thresholds, which may be determined according to actual situations, and the server may establish a correspondence table between each container identifier and the first capacity threshold, based on which the first capacity threshold corresponding to each container may be queried. Similarly, the server may also establish a correspondence table between the enterprise identifier and/or the position coordinate of each production and waste unit, the second capacity threshold value, and the container identifier, with the production and waste unit and/or the same position range as a unit, and the server may calculate, according to the volume of the items reported by each container, the sum of the volumes of the items reported by the containers belonging to the same production and waste unit and/or the same position range, and calculate whether the sum of the volumes reaches the corresponding second capacity threshold value.

Further, the server may include the containers with the capacity exceeding the first capacity threshold, belonging to the same waste unit and/or located in the same position range into the statistics of the sum of the capacities of the articles, so as to count whether the sum of the capacities of the articles corresponding to the containers exceeds the second capacity threshold. Therefore, when the dangerous waste is transferred in the follow-up process, the dangerous waste in the container which is saturated or close to the saturated container is transferred as much as possible, the number or frequency of the containers which need to be operated is reduced, and the work efficiency of the follow-up transfer is improved.

When the corresponding threshold is reached, the server can generate the order dispatching information according to the goods capacity reported by the corresponding container, so that the transfer terminal can check and select whether to receive the order.

In one embodiment, the hazardous waste article comprises a hazardous waste liquid, the article capacity comprises first level information of the hazardous waste liquid, and the capacity threshold comprises a volume threshold; acquiring the capacity of articles in a container for storing hazardous waste articles to be transferred, comprising: receiving first liquid level information of hazardous waste liquid in a container at a plurality of positions reported by the container; first volume information of the hazardous waste liquid is determined based on the first level information at the plurality of locations.

In this embodiment, the hazardous waste is taken as an example of a hazardous waste liquid, for example, the hazardous waste can be the industrial waste oil, and the corresponding container can be an oil tank for storing the industrial waste oil. Can set up the liquid level detection module who is used for measuring the danger waste liquid height in it in the oil tank, can detect out the height of liquid level in it through this liquid level detection module, and according to the size information of height and container, then can calculate corresponding article volume.

Generally speaking, under normal condition, the oil tank is normally put and does not have the slope, only need to know the liquid level height in a position can learn the volume of danger waste liquid. However, when there is a tilting of the tank, the volume obtained from the level height information of a location in the non-tilted situation may not be accurate, and it may exist above the true volume or below the true volume. In order to accurately know the volume of hazardous waste liquid in the container, the liquid level information at a plurality of positions in the container can be measured, for example, the liquid level information at three different positions, whether the visit of the oil tank is inclined or not and the inclination angle and other information can be judged based on the liquid level information at the plurality of positions, and the volume of the liquid in the tank can be accurately calculated.

When the volume is calculated by using the liquid level height at only one position due to the inclination of the oil tank, the volume is inaccurate, the counted total amount of hazardous waste liquid generated by the production and waste unit may be inaccurate, and the management of the hazardous waste liquid of the production and waste unit is deviated.

In one embodiment, the liquid level detection module in the container can be provided with a plurality of modules, and each liquid level detection module detects liquid level information at one position so as to calculate whether the container is inclined and the volume of hazardous waste liquid in the container. Or the liquid level detection module in the container can only be one, but the module can detect the liquid level information at a plurality of different positions, so that whether the container is inclined or not and the volume of hazardous waste liquid in the container can be calculated.

In one embodiment, after step 206, further comprising: receiving an unlocking request sent by a transfer terminal, wherein the unlocking request comprises an identity; and checking the unlocking request, and unlocking the container when the identity identifier in the unlocking request is checked to be consistent with the first identity identifier.

In this embodiment, the transfer terminal may send an unlocking request to the server, where the unlocking request includes an identity of the transfer terminal user and a corresponding container identifier. The transfer terminal can automatically generate an unlocking request by scanning the identification code on the container, or can select the container to be unlocked after logging in the user information on the relevant operation interface, and generate the unlocking request by relevant clicking operation. The identification code can be a one-dimensional code or a two-dimensional code, etc.

The server can receive the unlocking request and check according to the container identifier and the identity identifier carried in the unlocking request to check whether the corresponding transfer terminal user has the authority to open the corresponding container, and when the identity identifier in the unlocking request is checked to be consistent with the identity identifier in the order receiving information and the container identifier in the unlocking request is also consistent with the identity identifier in the order receiving information, the verification is passed and the container can be unlocked.

In this embodiment, the server checks based on the unlocking request sent by the transfer terminal, and unlocks the container after the check is passed, so that the normative of container management can be improved, and the unlocking of the container is prevented from being triggered by mistake by irrelevant personnel.

In one embodiment, activating an electronic unlock function of a container includes: activating the function of unlocking the container through a fixed password, wherein the fixed password is matched with the first user identification; after activating the electronic unlocking function of the container, the method further comprises the following steps: and receiving unlocking state information reported by the container after the unlocking password and the identity verification of the mobile terminal are completed. An electronic unlock function for closing the container based on the transfer complete message, comprising: an electronic unlocking function of fixed password unlocking that closes the container based on the transfer completion message.

In this embodiment, the container may further have a fixed password for unlocking, and the fixed password may be set via the server. Specifically, for the current container, the server may set a corresponding unlock password for a different user identification. The server may establish a correspondence table of the unlocking passwords between each container and each user, for example, the first user identifier sets a corresponding unlocking password a, and the second user identifier sets a corresponding unlocking password B. In this way, when the order is received by being allocated to the first transfer terminal, the unlocking password capable of activating the corresponding container is the unlocking password a, and when the order is received by being allocated to the second transfer terminal, the unlocking password capable of activating the corresponding container is the unlocking password B.

When the server detects that the first transfer terminal is located in the corresponding position range, the automatic activator fixes the password without sending the password to the first transfer terminal to be activated or informing the first transfer terminal of the unlocking password, so that a user of the first transfer terminal can unlock the order receiving container by using the same password all the time without sensing the change of the password of the container, and does not know that the password of the container is activated only when the related order receiving user carries out the transfer process, and the unlocking passwords corresponding to different order receiving users improve the security of the container password and the unlocking experience of the user.

In one embodiment, as shown in fig. 4, generating corresponding hazardous waste item dispatch information includes:

at step 402, a transfer deadline matching the item capacity is determined.

In this embodiment, the transfer periods corresponding to different article capacities are not necessarily the same, and the article capacity and the transfer period are in a negative correlation, that is, the transfer period is smaller as the article capacity is larger. For example, the transfer period is smaller as the product volume approaches the saturation value of the container. For example, when the capacity of the article reaches 80% of the saturation value, the transfer period can be set to be within 5 days; when the capacity of the goods reaches 85% of the saturation value, the transfer period can be set within 3 days; when the capacity of the goods reaches 90% of the saturation value, the transfer period may be set to be within 2 days.

In one embodiment, the first volume threshold and/or the second volume threshold may have one or more levels, for example, the level of the first volume threshold is a plurality of levels such as 80% to 85%, 85% to 90%, 90% to 95%, and 95% or more of the total volume that the container can accommodate, and the level of the second volume threshold is a plurality of levels such as 80% to 85%, 85% to 90%, 90% to 95%, and 95% or more of the total volume of the articles of the plurality of containers.

The server may set different levels for different transfer periods, determine the level of the capacity threshold at which the item is located based on its capacity, and determine a matching transfer period based on the level.

And 404, selecting at least one transfer terminal matched with the transfer deadline from the transfer terminal set matched with the container as a first transfer terminal.

In this embodiment, the transfer terminal matched with the container may be a terminal of the recycling company which has signed a recycling agreement with the production and waste unit to which the container belongs, or a terminal of another user who has a transfer right for the hazardous waste in the corresponding container. The server can pre-establish transferring terminal sets which correspond to different containers and can transfer hazardous waste articles in the containers, and after the containers needing to transfer the hazardous waste articles are determined, one or more terminals can be selected from the corresponding transferring terminal sets to receive orders. The selected terminal may be the first transfer terminal, and when there are multiple terminals, the terminals may be the first transfer terminal and the second transfer terminal, respectively.

Preferably, the server may query, in the dispatch platform, transfer deadline information acceptable for each transfer terminal, and select, as the first transfer terminal, at least one transfer terminal matching the transfer deadline of the container from the corresponding set of transfer terminals based on the transfer deadline information. The server may choose to dispatch the transfer terminal corresponding to the container's most recent recycling company within a matching time frame.

And 406, generating hazardous waste item dispatching information based on the transfer deadline and the first transfer terminal.

After the container, the transfer deadline and the first transfer terminal which need to be transferred are determined, hazardous waste article dispatching information can be generated based on the information, and the hazardous waste article dispatching information is sent to the corresponding first transfer terminal.

In this embodiment, the order may be directly served by the server, and after the first transfer terminal receives the order information, the fed back first order receiving information may be information indicating that the order is accepted. Through appointing the terminal that shifts by the server to connect the order, can realize the overall management of shifting to all dangerous useless article in the container.

In one embodiment, acquiring the capacity of the items in a plurality of containers for storing hazardous waste items to be transferred comprises: monitoring the goods capacity information reported by each container in the container set based on the message middleware; generating corresponding hazardous waste item dispatching information, comprising: caching the article capacity information according to the receiving time sequence when the number of the received article capacity information messages in the current time period exceeds a preset number threshold; and when the number of the received messages of the article capacity information is lower than the time period of the preset number threshold, generating corresponding hazardous waste article dispatching information according to the receiving time sequence.

In this embodiment, because the number of containers that the server needs to manage is large, each container reports the volume of the articles in the container according to a certain frequency, in order to further improve efficiency and ensure the rapidness of starting the dispatching flow, the server may set a message middleware, and the message middleware is used to automatically generate the dispatching information. For example, mq message middleware such as rockmq message middleware may be used, and when the message middleware detects that the capacity of the generated item reaches the corresponding capacity threshold, it is considered that a message is generated, the server foreground may monitor the message queue in real time, and if a message is generated, generate corresponding dispatch information based on the message, and execute a dispatch flow. And the mq is used for realizing the consistency of the whole process, so that the message repetition and the manpower waste are avoided.

In addition, the container may not be normally connected to the server due to various factors, and once a similar situation occurs, the volume of the article in the container is changed and cannot be immediately synchronized to the server when the network of the container is not connected, so that the volume of the article in the container is inconsistent with the volume of the article recorded in the database. Therefore, when the container network is abnormal, the changed data are sequentially stored in the container system, and when the network is recovered, the changed data are sequentially uploaded to the server, so that the data are ensured not to be lost.

During peak periods, the database may receive a large amount of container reported data of the item capacity in a moment, which may cause the database to run slowly or even down. Therefore, the server does not directly send the received messages to the database in the peak period, but sequentially stores the messages into one or more storage media, and the database sequentially processes the data in the storage media, so that the functions of peak clipping and valley filling are achieved, and the stability of the system is ensured. The storage medium may be a memory or a cache, or may be a device having a storage function, such as a database itself.

In one embodiment, the hazardous waste material includes hazardous waste liquid, and the method further includes a process of checking the hazardous waste liquid, which may be performed after step 210, as shown in fig. 5, the process including:

and 502, determining the weight information of the hazardous waste liquid in the container according to the volume information of the hazardous waste liquid in the container.

In this embodiment, a certain relationship exists between the volume and the weight of the hazardous waste liquid, and the server can convert the weight information of the hazardous waste liquid based on the relationship. Further, the weight of hazardous waste liquid is also temperature dependent, in addition to volume dependent. The server determines weight information based on the volume information and the temperature.

Specifically, the server can query the temperature corresponding to the position according to the position information of the hazardous waste liquid, and further calculate the weight corresponding to the volume of the hazardous waste liquid at the current recovery time according to the relationship between the weight, the volume and the temperature.

And step 504, overlapping the weight information transferred by all containers corresponding to the same production and waste unit in a preset time period to obtain the recovered weight of the hazardous waste liquid corresponding to the production and waste unit.

In this embodiment, the server may calculate the weight information of the recovered hazardous waste liquid in each recovered container, and superimpose the weights of all the containers belonging to the same production and waste unit in a preset time period to obtain the recovered weight of the hazardous waste liquid in the corresponding production and waste unit in the preset time period.

The preset time period may be any suitable time period in the unit of month or week. For example, the weight of the hazardous waste liquid recovered by each production and waste unit per month can be counted according to the month unit.

For example, the unit of production waste has M containers, container i is recovered n within a preset time period _i Next, the volume of the dangerous waste liquid recovered from the jth container in the jth month is recorded as V _ij Corresponding to a weight of hazardous waste liquid of G _ij The recovered weight per unit in the preset time period is the sum of the weight recovered each time for each container.

Step 506, the weight to be recovered of the hazardous waste liquid in the preset time period reported by the production and waste unit is obtained.

The weight of the hazardous waste liquid to be recovered can be the weight actively reported by a production and waste unit, and can also be the weight calculated by the server based on the operation data of the production and waste unit.

And step 508, checking the hazardous waste liquid produced by the production and waste unit based on the recovered weight and the weight to be recovered of the hazardous waste liquid.

The server can compare whether the recovered weight and the weight to be recovered of the same unit in the same time period are matched, if the recovered weight and the weight to be recovered of the same unit are matched, the fact that the unit for production and waste is operated according to the specification is indicated, and if the recovered weight and the weight are not matched, the fact that the unit for production and waste is abnormal in operation or not in operation is indicated, at the moment, the server can report the checking result to a related manager terminal, and related managers check the checking result.

Specifically, the server may compare whether a difference between the recovered weight and the weight to be recovered is within a preset difference range, and if so, it indicates that the recovered weight and the weight to be recovered are matched, otherwise, it indicates that the recovered weight and the weight to be recovered are not matched. Wherein the difference may be a fixed difference, or a difference determined according to the recovered weight and/or the weight to be recovered, for example, the difference may be 10% of the weight to be recovered or 5% of the weight to be recovered, or any other suitable difference.

In this embodiment, the weight of the production waste liquid in each container is calculated, the recovered weight of the corresponding unit is determined based on the weight, and the recovered weight is compared with the to-be-recovered weight of the unit for checking, so that supervision and management of the production waste unit on the discharged hazardous waste liquid can be realized.

In one embodiment, a computer storage medium is provided having stored thereon computer executable instructions that, when executed by a processor, cause the processor to perform the steps of the method of any of the above embodiments, including the steps of performing the hazardous waste transfer treatment method of any of the above embodiments.

In one embodiment, there is provided a server, comprising a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to execute the steps of the method for transferring hazardous waste in any of the above embodiments.

As shown in fig. 6, the server 600 includes a Central Processing Unit (CPU) 601 that can perform various appropriate actions and processes according to a program stored in a Read Only Memory (ROM) 602 or a program loaded from a storage section 608 into a Random Access Memory (RAM) 603. In the RAM 603, various programs and data necessary for the operation of the server 600 are also stored. The CPU 601, ROM 602, and RAM 603 are connected to each other via a bus 604. An input/output (I/O) interface 605 is also connected to bus 604.

The following components are connected to the I/O interface 605: an input portion 606 including a keyboard, a mouse, and the like; an output portion 607 including a display such as a Cathode Ray Tube (CRT), a Liquid Crystal Display (LCD), and the like, and a speaker; a storage section 608 including a hard disk and the like; and a communication section 609 including a network interface card such as a LAN card, a modem, or the like. The communication section 609 performs communication processing via a network such as the internet. The driver 610 is also connected to the I/O interface 605 as needed. A removable medium 611 such as a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is mounted on the drive 610 as necessary, so that the computer program read out therefrom is mounted in the storage section 608 as necessary.

In particular, according to embodiments of the application, the processes described above with reference to the flow diagrams may be implemented as computer software programs. For example, embodiments of the present application include a computer program product comprising a computer-readable medium carrying instructions that, in such embodiments, may be downloaded and installed from a network via the communication portion 609, and/or installed from the removable media 611. The various method steps described in the present invention are performed when the instructions are executed by a Central Processing Unit (CPU) 601.

The integrated unit implemented in the form of a software functional unit may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute some steps of the methods according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a portable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other media capable of storing program codes.

Although example embodiments have been described, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the inventive concept. Accordingly, it should be understood that the above-described exemplary embodiments are not limiting, but illustrative.

Claims

1. A method for transferring and treating hazardous waste is characterized by comprising the following steps:

broadcasting hazardous waste article dispatch information which comprises a container identifier of at least one container for storing hazardous waste articles to be transferred and a position of the container;

when the position of the first transfer terminal is detected to be matched with the position of the container, activating an electronic unlocking function of the container in the dispatching information;

receiving a first transfer completion message generated after electronic unlocking is carried out on the container in the order information and the transfer of the hazardous waste is completed;

and closing an electronic unlocking function of the corresponding container in the order information based on the first transfer completion message.

2. The method of claim 1, wherein the container identifier in the billing information comprises a plurality; when the total amount of transferable articles contained in the first order receiving information is less than the total amount of articles to be transferred in the order dispatching information, the method further comprises the following steps:

when the position of the second transfer terminal is matched with the position of the container, activating an electronic unlocking function of the container in the dispatch information;

and closing the electronic unlocking function of the corresponding container in the order information based on the second transfer completion message.

3. The method of claim 2, wherein the first order taking information further comprises container identifiers of a first portion of containers selected from the order item, and the second order taking information further comprises container identifiers of a second portion of containers selected from the order item, and the first portion of containers and the second portion of containers do not intersect.

4. The method of claim 1, further comprising, prior to broadcasting the hazardous waste item dispatch information:

5. The method of claim 4, wherein the hazardous waste comprises hazardous waste liquid, the item capacity comprises first level information of the hazardous waste liquid, and the capacity threshold comprises a volume threshold;

the method for acquiring the capacity of the articles in the container for storing the dangerous waste articles to be transferred comprises the following steps:

determining first volume information of the hazardous waste liquid based on first level information at the plurality of locations.

6. The method of claim 1, further comprising, after said activating an electronic unlocking function of a container in said billing information:

receiving an unlocking request generated by the first transfer terminal through scanning the identification code on the container, wherein the unlocking request comprises an identification mark;

7. The method of claim 4, wherein the generating corresponding hazardous waste item dispatch information comprises:

determining a transfer deadline matching the item capacity;

generating the hazardous waste item dispatch information based on the transfer deadline and the first transfer terminal.

8. The method according to any one of claims 4 to 5 or 7, wherein the obtaining of the contents of the plurality of containers for storing the hazardous waste material to be transferred comprises: monitoring the goods capacity information reported by each container in the container set based on the message middleware;

9. A server for managing hazardous waste, comprising:

one or more processors;

a memory for storing one or more programs,

wherein the one or more programs, when executed by the one or more processors, cause the one or more processors to perform the method of any of claims 1-8.

10. A computer storage medium having stored thereon executable instructions that, when executed by a processor, cause the processor to perform the method of any one of claims 1 to 8.