CN117221850A - Data acquisition method, electronic device and storage medium - Google Patents

Abstract

The application provides a data acquisition method, electronic equipment and a storage medium, wherein the data acquisition method applied to a server comprises the following steps: inquiring a data updating record of mining area equipment, and determining target mining area equipment which does not update data within a first preset time period; generating an offline data list for target mining area equipment; transmitting the offline data list to at least one movable mining area device, so that the movable mining area device forwards the offline data list to target mining area devices in the moving process; and storing and updating the data updating record when receiving a target data packet forwarded by target mining area equipment through at least one movable mining area equipment. According to the application, through the short-range communication interconnection between mining area equipment, the characteristics of shuttling of movable mining area equipment between mining areas are utilized, the timely and complete acquisition work of mining machinery data is realized at a low cost, cloud instruction streams can be transmitted downwards in a vehicle group, and compared with the single data forwarding of the vehicle group, the vehicle group is more comprehensive in functionality.

Description

Data acquisition method, electronic device and storage medium

Technical Field

The application relates to the technical field of internet of vehicles, in particular to a data acquisition method, electronic equipment and a storage medium.

Background

The passenger car and the commercial car industry all have own car machine network service, the user is allowed to carry out networking through the car machine by means of the car networking technology and use related communication service, the operation mode is a master-slave mode, namely, a provider of the car machine network provides network service for a master station, a vehicle is sold to access the network for service for a slave station, and data interaction and information transmission are not generated between the vehicles.

In the process of designing and forming the research of the application, the applicant at least finds the following problems, and compared with the common vehicles, the mining machinery has the biggest difference in that the equipment is quite harsh in use environment, most mining areas are remote in geographic position, and basic network service is not available; some devices bear the underground operation content and cannot be connected with a network, so that the original master-slave communication mode cannot be used normally. Under the influence of the factors, the traditional metering cannot be normally performed on mining area equipment working data and fault information, so that equipment management and control are difficult, and the operation risk of enterprises is increased.

Disclosure of Invention

In order to alleviate the above problems, the present application provides a data acquisition method, applied to a server, the data acquisition method comprising:

inquiring a data updating record of mining area equipment, and determining target mining area equipment which does not update data within a first preset time period, wherein the mining area equipment can be connected with each other through short-range communication, and the mining area equipment comprises movable mining area equipment;

generating an offline data list for the target mining area equipment;

transmitting the offline data list to at least one movable mining area device, so that the movable mining area device forwards the offline data list to the target mining area device in the moving process;

and storing and updating the data updating record when receiving a target data packet forwarded by the target mining area equipment through at least one movable mining area equipment.

Optionally, the step of querying the data update record of the mining area equipment and determining the target mining area equipment with no updated data within the first preset time period includes:

and acquiring the data updating record once a day, and counting target mining area equipment without updating data in three continuous days.

Optionally, in the process of generating the offline data list for the target mining area equipment, the current day offline equipment feature code and the offline time of each target mining area equipment are generated.

Optionally, the data acquisition method further includes:

inquiring a data updating record of mining area equipment, and determining long-term offline equipment without updating data within a second preset time length, wherein the second preset time length is longer than the first preset time length;

generating a long-term offline device list aiming at the long-term offline device, wherein the long-term offline device list comprises a device feature code and an authorization code;

the long-term offline equipment list is sent to a service terminal, so that when the service terminal is connected with the long-term offline equipment, working data of the long-term offline equipment are collected through verification of the equipment feature code and the authorization code;

and receiving the working data of the long-term offline equipment collected by the service terminal.

The application also provides a data acquisition method which is applied to the mining area equipment, wherein the mining area equipment can be connected with each other through short-range communication, and the mining area equipment comprises movable mining area equipment; the data acquisition method comprises the following steps:

in response to receiving an offline data list, determining whether the equipment is target mining area equipment according to the offline data list;

when the equipment is the target mining area equipment, the working data of the equipment are packed and sent to other mining area equipment so as to be sent to a server through at least one movable mining area equipment;

and when the equipment is not the target mining area equipment, forwarding the offline data list to other mining area equipment so as to send the offline data list to the target mining area equipment through the other mining area equipment.

Optionally, the offline data manifest includes a device feature code; the step of determining whether the equipment is the target mining area equipment according to the offline data list comprises the following steps of:

and comparing whether the self feature code of the equipment is in the offline data list or not according to the equipment feature code.

Optionally, the offline data list includes an offline time for each target mine equipment; the step of packaging the working data of the device and sending the working data to other mining area devices when the device is the target mining area device, so as to send the working data to a server through at least one movable mining area device comprises the following steps:

and according to the offline time corresponding to the equipment in the offline data list, packaging the working data in the time period according to a preset data format and forwarding the working data to other mining area equipment connected with short-range communication.

The application also provides a data acquisition method which is applied to the service terminal; the data acquisition method comprises the following steps:

responding to a long-term offline equipment list which is sent by a server and aims at long-term offline equipment, connecting the long-term offline equipment, wherein the long-term offline equipment list comprises equipment feature codes and authorization codes;

collecting working data of the long-term offline equipment through verification of the equipment feature code and the authorization code when the equipment is connected to mining area equipment;

and when the server is connected, sending the working data of the long-term offline equipment to the server.

The application also provides an electronic device comprising an interconnected processor and storage medium, wherein:

the storage medium is used for storing a computer program;

the processor is configured to read the computer program and execute the computer program to implement the data acquisition method as described above.

The present application also provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the data acquisition method as described above.

According to the data acquisition method, the electronic equipment and the storage medium, through the fact that the mine area equipment can be connected with each other through short-range communication, an offline data list is generated for the target mine area equipment, the characteristics that the movable mine area equipment shuttles between the mine areas are utilized, data acquisition work is achieved for the target mine area equipment offline in a period of time, timely and complete acquisition work of mining machinery data is achieved with low cost, short-range communication in a vehicle group can not only transmit equipment data flow upwards, but also transmit cloud instruction flow downwards, and compared with single data forwarding of the data, the data acquisition work is more comprehensive in functionality.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a flowchart of a data acquisition method according to an embodiment of the application.

Fig. 2 is a flowchart of a data acquisition method according to an embodiment of the application.

Fig. 3 is a flowchart of a data acquisition method according to an embodiment of the application.

FIG. 4 is a block diagram of a data acquisition system according to an embodiment of the present application.

FIG. 5 is a flow chart of local server policy according to an embodiment of the application.

Fig. 6 is a flow chart of a communication strategy within a mining area cluster tool according to an embodiment of the present application.

Fig. 7 is a flowchart of a service terminal communication policy according to an embodiment of the application.

The achievement of the objects, functional features and advantages of the present application will be further described with reference to the accompanying drawings, in conjunction with the embodiments. Specific embodiments of the present application have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the application. Rather, they are merely examples of apparatus and methods consistent with aspects of the application as detailed in the accompanying claims.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the element defined by the phrase "comprising one … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element, and furthermore, elements having the same name in different embodiments of the application may have the same meaning or may have different meanings, the particular meaning of which is to be determined by its interpretation in this particular embodiment or by further combining the context of this particular embodiment.

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

First embodiment

In one aspect, the present application provides a data collection method, which is applied to a server, and fig. 1 is a flowchart of a data collection method according to an embodiment of the present application.

As shown in fig. 1, in an embodiment, the data acquisition method includes:

s10: and inquiring the data updating record of the mining area equipment, and determining the target mining area equipment with data not updated in the first preset time. Wherein the mine equipment is capable of being interconnected by short range communication, the mine equipment comprising mobile mine equipment.

Compared with the traditional engineering machinery, the mining machinery has the biggest difference that the equipment is quite harsh in use environment, most mining areas are remote in geographic position, and no basic network service of operators exists; some devices bear the underground operation content and cannot be connected with an external network. The mining vehicles can upload a transmission model of attack information by short-range data communication among the vehicle clusters, and after a single mining area device is attacked, the information about attack content and the like can be sent or forwarded to other mining area devices, and the information is transmitted to a cloud platform by other vehicle-mounted mining area devices for recording and tracing. The target mine equipment may be a mine equipment that determines from the data update record that data has not been updated for a first preset period of time. The first preset duration may be set according to a time limit requirement of data acquisition, which is not limited by the present application. Illustratively, the local server policy is only up to a level of connectivity to the server short-range communications. And the server acquires cloud platform data once a day, and determines mining area equipment which is not updated with the data in three continuous days as target mining area equipment.

S20: an offline data inventory is generated for the target mine equipment.

Optionally, the step of querying the data update record of the mining area equipment and determining the target mining area equipment with no updated data within the first preset time period includes: and acquiring the data updating record once a day, and counting target mining area equipment without updating data in three continuous days. The server obtains cloud platform data once a day, and counts target mining area equipment without updated data in three consecutive days to generate equipment feature codes and an offline data list.

S30: and sending the offline data list to at least one movable mining area device, so that the movable mining area device forwards the offline data list to the target mining area device in the moving process.

By way of example, since the mine equipments can be interconnected by short-range communication, the offline data list can be forwarded to other mine equipments by means of the mobility of the mobile mine equipment through short-range communication connection between the mobile mine equipment and the other mine equipments.

S40: and storing and updating the data updating record when receiving a target data packet forwarded by the target mining area equipment through at least one movable mining area equipment.

The target mine equipment typically packages and transmits the corresponding working data to the server according to the offline data list. Alternatively, since the mine equipments can be connected to each other by short-range communication, the packed working data can be forwarded to the server by the mobility of the movable mine equipment through the short-range communication connection between the movable mine equipment and other mine equipments.

Optionally, in the process of generating the offline data list for the target mining area equipment, the current day offline equipment feature code and the offline time of each target mining area equipment are generated.

Illustratively, upon receiving the offline data list via the short-range communication network, the mine site device may check its device signature against the offline device signature to determine if it is the target mine site device. Optionally, the target mining area equipment packages and sends the working data in the marked time period to the server according to the corresponding offline time in the offline data list.

Optionally, the data acquisition method further includes:

s50: inquiring a data updating record of mining area equipment, and determining long-term offline equipment without updating data within a second preset time period, wherein the second preset time period is longer than the first preset time period.

S60: and generating a long-term offline device list aiming at the long-term offline device, wherein the long-term offline device list comprises a device feature code and an authorization code.

S70: and sending the long-term offline equipment list to a service terminal, so that when the service terminal is connected with the long-term offline equipment, the working data of the long-term offline equipment are collected through the verification of the equipment feature code and the authorization code.

S80: and receiving the working data of the long-term offline equipment collected by the service terminal.

For example, the local server may sort a long-term offline device list daily, and if such devices are found in the mining area, the local server may calculate the current authorization code according to a defined cryptographic algorithm, and after the calculation, transmit the device feature code and the authorization code to the service terminal to complete authorization.

For long-term disconnection equipment (for example, the communication with the cloud is interrupted for 9 days or more, short-range communication data of a vehicle group is not returned), service personnel are required to use an authorized service terminal to connect with a hardware communication interface of the equipment to transmit data after the equipment is in an actual position.

After the service personnel are connected with the disconnection device and the service terminal in a hard line, the local controller checks whether the device feature code and the authorization code are correct, if the two codes are combined, the authorization is effective, and the controller uploads the working data which is stored in the controller and is about 9 days to the service terminal.

After the uploading is finished, the service personnel returns the service terminal to the signal service area of the local server, and the service terminal automatically uploads the acquired data packet and returns the data packet to the cloud by the server.

Second embodiment

The application also provides a data acquisition method which is applied to the mining area equipment, wherein the mining area equipment can be connected with each other through short-range communication, and the mining area equipment comprises movable mining area equipment. Fig. 2 is a flowchart of a data acquisition method according to an embodiment of the application.

As shown in fig. 2, in an embodiment, the data acquisition method includes:

s100: and in response to receiving the offline data list, determining whether the equipment is target mining area equipment according to the offline data list.

S210: and when the equipment is the target mining area equipment, packaging the working data of the equipment and sending the working data to other mining area equipment so as to send the working data to a server through at least one movable mining area equipment.

S220: and when the equipment is not the target mining area equipment, forwarding the offline data list to other mining area equipment so as to send the offline data list to the target mining area equipment through the other mining area equipment.

The data communication in the vehicle group is divided into two types, namely data request and data forwarding, and each terminal can synchronously execute two types of actions in a short-range communication network connected with the terminal:

(1) and judging whether the data request is local or not, if so, the local is target mining area equipment, and packaging self-related data information according to a required list and sending the packaged self-related data information to a short-range data network, and optionally, the target mining area equipment packages and sends working data in a marked time period to a server according to the corresponding offline time in an offline data list. If not, the request list is forwarded to the short-range data network.

(2) And forwarding the data packet to be forwarded in the short-range data network, and uploading the data packet fed back from the target mining area equipment step by step until the data packet is transmitted to the local server to complete data acquisition.

Optionally, the offline data manifest includes a device feature code; the step of determining whether the equipment is the target mining area equipment according to the offline data list comprises the following steps of:

and comparing whether the self feature code of the equipment is in the offline data list or not according to the equipment feature code.

Illustratively, upon receiving the offline data list via the short-range communication network, the mine site device may check its device signature against the offline device signature to determine if it is the target mine site device. Optionally, the target mining area equipment packages and sends the working data in the marked time period to the server according to the corresponding offline time in the offline data list.

Optionally, the offline data list includes an offline time for each target mine equipment; the step of packaging the working data of the device and sending the working data to other mining area devices when the device is the target mining area device, so as to send the working data to a server through at least one movable mining area device comprises the following steps:

and according to the offline time corresponding to the equipment in the offline data list, packaging the working data in the time period according to a preset data format and forwarding the working data to other mining area equipment connected with short-range communication.

The data communication in the vehicle group is divided into two types, namely data request and data forwarding, and each terminal can forward the data packet needing to be forwarded in the short-range data network in the short-range communication network connected with the terminal, and the data packet fed back from the target mining area equipment is uploaded step by step until the data packet is transmitted to the local server to complete data acquisition.

Third embodiment

The application also provides a data acquisition method which is applied to the service terminal; fig. 3 is a flowchart of a data acquisition method according to an embodiment of the application.

Referring to fig. 3, in an embodiment, the data acquisition method includes:

s1: and responding to receiving a long-term offline equipment list which is sent by a server and aims at the long-term offline equipment, connecting the long-term offline equipment, wherein the long-term offline equipment list comprises equipment feature codes and authorization codes.

S2: and when the device is connected to mining area equipment, acquiring working data of the long-term offline equipment through verification of the equipment characteristic code and the authorization code.

S3: and when the server is connected, sending the working data of the long-term offline equipment to the server.

For example, the local server may sort a long-term offline device list daily, and if such devices are found in the mining area, the local server may calculate the current authorization code according to a defined cryptographic algorithm, and after the calculation, transmit the device feature code and the authorization code to the service terminal to complete authorization.

For long-term disconnection equipment (for example, the communication with the cloud is interrupted for 9 days or more, short-range communication data of a vehicle group is not returned), service personnel are required to use an authorized service terminal to connect with a hardware communication interface of the equipment to transmit data after the equipment is in an actual position.

After the service personnel are connected with the disconnection device and the service terminal in a hard line, the local controller checks whether the device feature code and the authorization code are correct, if the two codes are combined, the authorization is effective, and the controller uploads the working data which is stored in the controller and is about 9 days to the service terminal.

After the uploading is finished, the service personnel returns the service terminal to the signal service area of the local server, and the service terminal automatically uploads the acquired data packet and returns the data packet to the cloud by the server.

Fourth embodiment

The application also provides an electronic device comprising an interconnected processor and storage medium, wherein:

the storage medium is used for storing a computer program; the processor is configured to read the computer program and execute the computer program to implement the data acquisition method as described above.

In an embodiment, the electronic device includes at least one of a cloud data platform, a local server, a service device, and a mining area device. The mining area equipment can be used as transfer equipment through movable mining area equipment, and equipment needing to upload data in the mining area equipment is target mining area equipment. FIG. 4 is a block diagram of a data acquisition system according to an embodiment of the present application.

Referring to fig. 4, in an embodiment, a local server is responsible for wired communication with a cloud, for wireless communication with a vehicle group device, and for authorization and data reception of a service terminal; the position of the device needs to be close to the working section of the device, so that short-range communication can be conveniently established with the device. The service terminal is responsible for wired communication data interaction with the local server and the mining area equipment. Mining area equipment: the GPS or the T-BOX is carried out to be in charge of wireless communication with the cloud and the local server, the local controller is carried out to realize wired communication with the service terminal and working condition information storage, and the short-range communication module is carried out to be in charge of data communication between devices.

FIG. 5 is a flow chart of local server policy according to an embodiment of the application.

As shown in fig. 5, the local server policy goes to the level of the connection with the server short-range communication; the server acquires cloud platform data once a day, counts the equipment which does not update the data in three continuous days, and generates an equipment feature code and an offline data list.

And after generating the list, sending the daily list to the equipment in the vehicle group through short-range communication, packaging and returning the required data after the daily list is submitted to the equipment in the vehicle group for short-range communication, updating the offline list of the equipment according to the returned data by the server, and returning the offline equipment data to the cloud platform.

Fig. 6 is a flow chart of a communication strategy within a mining area cluster tool according to an embodiment of the present application.

As shown in fig. 6, taking a vehicle-mounted mining area device as an example, data communication in a vehicle group is divided into two types, namely data request and data forwarding, and each terminal needs to synchronously execute two types of actions in a short-range communication network connected with the terminal:

(1) and judging whether the data request is local or not, if so, packaging self-related data information according to the requirement list, and sending the data request to a short-range data network, and if not, continuing to forward the requirement list to the short-range data network.

(2) And forwarding the data packet to be forwarded in the short-range data network, and uploading the data packet fed back from the target equipment step by step until the data packet is transmitted to the local server to complete data acquisition.

Fig. 7 is a flowchart of a service terminal communication policy according to an embodiment of the application.

As shown in fig. 7, the local server may sort the long-term offline device list daily, and if such devices are found in the mining area, the local server calculates the current authorization code according to the defined cryptographic algorithm, and after the calculation, transmits the device feature code and the authorization code to the service terminal to complete the authorization.

Aiming at long-term disconnection equipment (communication with a cloud is interrupted for 9 days or more, short-range communication data of a vehicle group is not returned), service personnel can use an authorized service terminal to connect with a hardware communication interface of the equipment to transmit data after the equipment is in an actual position.

After the service personnel are connected with the disconnection device in a hard line, the local controller checks whether the device feature code and the authorization code are correct, if the two codes are combined, the authorization is valid, and the controller uploads the internally stored working data of about 9 days to the service terminal.

After the uploading is finished, the service personnel returns the terminal to the signal service area of the local server, and the terminal automatically uploads the acquired data packet and returns the data packet to the cloud by the server.

The application does not need to construct communication infrastructures such as signal towers in large quantities in the early stage, only needs to ensure that a local server is arranged in a single mining area, and each device is provided with a short-range communication module, so that the cost is greatly reduced, and the device maintenance is more convenient. In the scheme, the short-range communication in the vehicle group not only can transmit the equipment data stream upwards, but also can transmit the cloud instruction stream downwards, and compared with the single data forwarding, the method is more comprehensive in functionality.

Fifth embodiment

Optionally, on the basis of the above embodiment, the short-range communication capability level of the local server considered in the scheme is that only a large signal with enough power can be actually covered to the whole open-air mining area, so that the equipment can be connected to enter a local area network to realize a master-slave communication mode, and in addition, a plurality of signal receiving and transmitting devices can be installed under the condition of ensuring constant power to realize full coverage.

Optionally, the standardization and device universality of functions inside the device group are considered in the scheme, so that the device is not purposely developed. In principle, the functionality of the local server may be integrated within a single device: the device cancels the conventional short-range communication module, and needs to be additionally provided with a satellite communication terminal and a high-power signal receiving and transmitting module. The method ensures that a single device is always in a networking state, and all the rest data in the device group are summarized to the device and forwarded by the device.

The present application also provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the data acquisition method as described above.

According to the data acquisition method, the electronic equipment and the storage medium, through the fact that the mine area equipment can be connected with each other through short-range communication, an offline data list is generated for the target mine area equipment, the characteristics that the movable mine area equipment shuttles between the mine areas are utilized, data acquisition work is achieved for the target mine area equipment offline in a period of time, timely and complete acquisition work of mining machinery data is achieved with low cost, short-range communication in a vehicle group can not only transmit equipment data flow upwards, but also transmit cloud instruction flow downwards, and compared with single data forwarding of the data, the data acquisition work is more comprehensive in functionality.

In the present application, step numbers such as S10 and S20 are used for the purpose of more clearly and briefly describing the corresponding contents, and are not to constitute a substantial limitation on the sequence, and those skilled in the art may execute S20 first and then S10 in the specific implementation, which are all within the scope of the present application.

The embodiments of the system and the storage medium provided by the application may include all technical features of any one of the embodiments of the method, and the expansion and explanation contents of the description are basically the same as those of each embodiment of the method, and are not repeated herein.

Embodiments of the present application also provide a computer program product comprising computer program code which, when run on a computer, causes the computer to perform the method as in the various possible embodiments described above.

The embodiment of the application also provides a chip, which comprises a memory and a processor, wherein the memory is used for storing a computer program, and the processor is used for calling and running the computer program from the memory, so that the device provided with the chip executes the method in the various possible implementation manners.

It can be understood that the above scenario is merely an example, and does not constitute a limitation on the application scenario of the technical solution provided by the embodiment of the present application, and the technical solution of the present application may also be applied to other scenarios. For example, as one of ordinary skill in the art can know, with the evolution of the system architecture and the appearance of new service scenarios, the technical solution provided by the embodiment of the present application is also applicable to similar technical problems.

The foregoing embodiment numbers of the present application are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

The steps in the method of the embodiment of the application can be sequentially adjusted, combined and deleted according to actual needs.

The units in the device of the embodiment of the application can be combined, divided and deleted according to actual needs.

In the present application, the same or similar term concept, technical solution and/or application scenario description will be generally described in detail only when first appearing and then repeatedly appearing, and for brevity, the description will not be repeated generally, and in understanding the present application technical solution and the like, reference may be made to the previous related detailed description thereof for the same or similar term concept, technical solution and/or application scenario description and the like which are not described in detail later.

In the present application, the descriptions of the embodiments are emphasized, and the details or descriptions of the other embodiments may be referred to.

The technical features of the technical scheme of the application can be arbitrarily combined, and all possible combinations of the technical features in the above embodiment are not described for the sake of brevity, however, as long as there is no contradiction between the combinations of the technical features, the application shall be considered as the scope of the description of the application.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the application, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (10)

1. A data acquisition method, characterized in that it is applied to a server, the data acquisition method comprising:

inquiring a data updating record of mining area equipment, and determining target mining area equipment which does not update data within a first preset time period, wherein the mining area equipment can be connected with each other through short-range communication, and the mining area equipment comprises movable mining area equipment;

generating an offline data list for the target mining area equipment;

transmitting the offline data list to at least one movable mining area device, so that the movable mining area device forwards the offline data list to the target mining area device in the moving process;

and storing and updating the data updating record when receiving a target data packet forwarded by the target mining area equipment through at least one movable mining area equipment.

2. The data collection method of claim 1, wherein the step of querying the data update record of the mine equipment to determine the target mine equipment for which data has not been updated for the first predetermined period of time comprises:

and acquiring the data updating record once a day, and counting target mining area equipment without updating data in three continuous days.

3. The data collection method of claim 2, wherein the current day offline device feature code and the offline time of each target mining area device are generated during the generating of the offline data list for the target mining area device.

4. A data acquisition method according to any one of claims 1 to 3, wherein the data acquisition method further comprises:

inquiring a data updating record of mining area equipment, and determining long-term offline equipment without updating data within a second preset time length, wherein the second preset time length is longer than the first preset time length;

generating a long-term offline device list aiming at the long-term offline device, wherein the long-term offline device list comprises a device feature code and an authorization code;

the long-term offline equipment list is sent to a service terminal, so that when the service terminal is connected with the long-term offline equipment, working data of the long-term offline equipment are collected through verification of the equipment feature code and the authorization code;

and receiving the working data of the long-term offline equipment collected by the service terminal.

5. A data acquisition method, characterized by being applied to mine equipment, wherein the mine equipment can be connected with each other through short-range communication, and the mine equipment comprises movable mine equipment; the data acquisition method comprises the following steps:

in response to receiving an offline data list, determining whether the equipment is target mining area equipment according to the offline data list;

when the equipment is the target mining area equipment, the working data of the equipment are packed and sent to other mining area equipment so as to be sent to a server through at least one movable mining area equipment;

and when the equipment is not the target mining area equipment, forwarding the offline data list to other mining area equipment so as to send the offline data list to the target mining area equipment through the other mining area equipment.

6. The data acquisition method of claim 5 wherein the offline data manifest includes a device feature code; the step of determining whether the equipment is the target mining area equipment according to the offline data list comprises the following steps of:

and comparing whether the self feature code of the equipment is in the offline data list or not according to the equipment feature code.

7. The data acquisition method of claim 5 or 6, wherein the offline data inventory includes an offline time for each target mine site device; the step of packaging the working data of the device and sending the working data to other mining area devices when the device is the target mining area device, so as to send the working data to a server through at least one movable mining area device comprises the following steps:

and according to the offline time corresponding to the equipment in the offline data list, packaging the working data in the time period according to a preset data format and forwarding the working data to other mining area equipment connected with short-range communication.

8. The data acquisition method is characterized by being applied to a service terminal; the data acquisition method comprises the following steps:

responding to a long-term offline equipment list which is sent by a server and aims at long-term offline equipment, connecting the long-term offline equipment, wherein the long-term offline equipment list comprises equipment feature codes and authorization codes;

collecting working data of the long-term offline equipment through verification of the equipment feature code and the authorization code when the equipment is connected to mining area equipment;

and when the server is connected, sending the working data of the long-term offline equipment to the server.

9. An electronic device comprising a processor and a storage medium coupled to each other, wherein:

the storage medium is used for storing a computer program;

the processor is configured to read the computer program and to run to implement the data acquisition method according to any one of claims 1-8.

10. A storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the data acquisition method according to any one of claims 1-11.