CN111371822A - Industrial Internet of things system and data processing device thereof - Google Patents

Abstract

The data processing device is suitable for collecting operation information of spare and accessory parts contained in mechanical equipment, corresponds to a network name, and comprises a communication module, a storage module and a processing module, wherein the storage module is used for storing identification data and an operation rule set corresponding to the spare and accessory parts, and the identification data comprises device identification data corresponding to the spare and accessory parts and state data indicating the operation state of the spare and accessory parts. The processing module is used for generating the state data according to the operation rule set and writing the generated state data into the identification data stored in the storage module, setting the network name corresponding to the data processing device as the identification data and broadcasting the network name through the communication module. Therefore, the user terminal presents the operation state of the spare and accessory parts according to the received network name.

Description

Industrial Internet of things system and data processing device thereof

Technical Field

The invention relates to a data collection method, in particular to an industrial Internet of things system for collecting operation information of parts in mechanical equipment and a data processing device thereof.

Background

An existing mechanical device can obtain specific information of the mechanical device during operation through a Controller (Machine Controller) of the mechanical device; however, the controller cannot obtain detailed information of the parts and components of the machine, such as the vibration value of the main shaft, the screw back clearance, the refrigerant pressure of the cooling machine, etc., during actual operation. Therefore, when the controller determines that the mechanical equipment is abnormally operated, only the abnormal operation of the whole mechanical equipment can be known, and the abnormal part and the actual operation information of the abnormal part cannot be known.

Moreover, for industrial 4.0 and industrial internet of things (IIoT) applications, the first task is to collect correct and reference information and data, and if the detailed information of the parts and components installed in the mechanical equipment during actual operation can be obtained, the fault prediction and elimination in the machining process can be facilitated, and the information and data can be further applied to an automation line or an unmanned intelligent factory.

Disclosure of Invention

The invention aims to provide an industrial Internet of things system for collecting operation information of parts in mechanical equipment, which can overcome the defects of the prior art.

The invention provides an industrial Internet of things system which is suitable for collecting operation information of parts contained in mechanical equipment.

The data processing device is in communication connection with the using end through a wireless communication protocol, corresponds to a network name, is related to the wireless communication protocol, and is used for storing identification data and an operation rule set corresponding to the spare and accessory parts, wherein the identification data comprises device identification data corresponding to the spare and accessory parts and state data indicating the operation state of the spare and accessory parts.

The data processing device is used for generating state data indicating the operation state of the spare and accessory parts according to the operation rule set, writing the generated state data into the identification data stored by the data processing device, setting the corresponding network name as the identification data stored by the data processing device, broadcasting the network name by the data processing device, and presenting the operation state of the spare and accessory parts according to the received network name after the user receives the network name from the data processing device.

The mechanical equipment of the industrial internet of things system further comprises at least one sensor arranged on the spare part, the at least one sensor is used for sensing the operation attribute of the spare part, the data processing device is further used for receiving at least one sensing signal sensed by the at least one sensor, and the data processing device is further used for generating the state data indicating the operation state of the spare part according to the operation rule set and the at least one sensing signal.

The data processing device of the industrial Internet of things system also generates an operation result according to the operation rule set and the at least one sensing signal.

The industrial Internet of things system also comprises a server which is in communication connection with the user end, after the user end and the data processing device establish one-to-one connection, the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the user end, and after the user end receives the data set from the data processing device, the user end transmits the data set to the server.

The industrial Internet of things system also comprises a server which is in communication connection with the data processing device, and the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the server.

The data processing device further comprises at least one sensor for sensing the operation attribute of the component, and the data processing device further generates the state data indicating the operation state of the component according to the operation rule set and at least one sensing signal sensed by the at least one sensor.

The data processing device of the industrial Internet of things system also generates an operation result according to the operation rule set and the at least one sensing signal.

The industrial Internet of things system also comprises a server which is in communication connection with the user end, after the user end and the data processing device establish one-to-one connection, the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the user end, and after the user end receives the data set from the data processing device, the user end also transmits the data set to the server.

The industrial Internet of things system also comprises a server which is in communication connection with the data processing device, and the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the server.

The industrial Internet of things system further comprises a server in communication connection with the data processing device, wherein a plurality of default operation rules are stored in the server, the data processing device transmits a data request containing the device identification data corresponding to the spare part to the server, after the server receives the data request, the server determines a target operation rule set from the default operation rules according to the device identification data in the data request and transmits the target operation rule set to the data processing device, and after the data processing device receives the target operation rule set from the server, the data processing device stores the target operation rule set as the operation rule set.

In the industrial internet of things system, the wireless communication protocol supported by the data processing device is a wireless fidelity protocol, and the network name corresponding to the data processing device is a Service Set Identifier (SSID).

In the industrial internet of things system, the wireless communication protocol supported by the data processing device is a bluetooth transmission protocol, and the network name corresponding to the data processing device is a device name (device name).

Another object of the present invention is to provide a data processing apparatus for collecting operation information of parts in a mechanical device, which can overcome the disadvantages of the prior art.

The invention provides a data processing device which is suitable for collecting running information of parts contained in mechanical equipment, is arranged on the parts and corresponds to a network name, and comprises a communication module, a storage module and a processing module electrically connected with the communication module and the storage module.

The communication module supports a wireless communication protocol, wherein the network name corresponding to the data processing device is related to the wireless communication protocol.

The storage module is used for storing identification data and an operation rule set corresponding to the spare and accessory parts, wherein the identification data comprises device identification data corresponding to the spare and accessory parts and state data indicating the operation state of the spare and accessory parts.

The processing module is used for generating the state data indicating the operation state of the spare and accessory parts according to the operation rule set stored in the storage module and writing the generated state data into the identification data stored in the storage module, the processing module is also used for setting the network name corresponding to the data processing device as the identification data stored in the storage module, and the processing module is also used for broadcasting the network name through the communication module.

The processing module is further configured to receive at least one sensing signal sensed by the at least one sensor, and generate the status data indicating the operating status of the component according to the set of operation rules and the at least one sensing signal.

In the data processing apparatus of the present invention, the processing module further generates an operation result according to the operation rule set and the at least one sensing signal.

The data processing device is also in communication connection with a server, and the processing module also transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server through the communication module.

The processing module further generates the status data indicating the operating status of the component according to the set of operation rules and at least one sensing signal sensed by the at least one sensor.

In the data processing apparatus of the present invention, the processing module further generates an operation result according to the operation rule set and the at least one sensing signal.

The data processing device is also in communication connection with a server, and the processing module also transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server through the communication module.

The data processing device of the present invention is also connected to a server in a communication manner, wherein the server stores a plurality of default operation rules:

the processing module also stores a target operation rule set selected from the default operation rules in the storage module as the operation rule set after receiving the target operation rule set from the server through the communication module, wherein the target operation rule set is selected according to the device identification data corresponding to the spare and accessory parts.

In the data processing apparatus of the present invention, the wireless communication protocol supported by the communication module is a wireless fidelity protocol, and a network name corresponding to the data processing apparatus is a Service Set Identifier (SSID).

In the data processing apparatus of the present invention, the wireless communication protocol supported by the communication module is a bluetooth transmission protocol, and a network name corresponding to the data processing apparatus is a device name (device name).

The invention has the beneficial effects that: the data processing device writes the status data indicating the operation status of the spare part into the identification data after generating the status data, and sets the identification data as the network name for broadcasting; therefore, the user terminal presents the operation state of the spare and accessory parts according to the received network name.

Drawings

Other features and effects of the present invention will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which:

FIG. 1 is a block diagram illustrating an embodiment of an industrial Internet of things system and a plurality of mechanical devices in accordance with the present invention;

FIG. 2 is a flowchart illustrating how the embodiment collects information on the operation of the parts provided to the data processing apparatus by a data processing apparatus included therein; and

fig. 3 is a schematic diagram illustrating an operation interface of a user terminal after executing an application program in the embodiment.

Detailed Description

Referring to fig. 1, an embodiment of the industrial internet of things system 1 of the present invention is adapted to collect operation information of each component 22 of each of a plurality of mechanical devices 2, wherein the number of the mechanical devices 2 may be a plurality as shown in fig. 1, or may be only 1; since each machine 2 operates similarly, only a single machine 2 will be described in the following description.

For each machine 2, the machine 2 includes a controller 21 and a plurality of components 22 electrically connected to the controller 21. In the present embodiment, the machine 2 is a machine tool, the controller 21 has a network communication capability, and the parts 22 can be a spindle, a fifth shaft, a cooler, a hydraulic press, a tool magazine, a pump, a row cutter, but not limited thereto. It should be noted that in other embodiments, the mechanical device 2 may also include only one component 22, and is not limited to the disclosure of the embodiment.

The industrial Internet of things system 1 comprises a server 11, a user end 12 connected with the server 11 in a communication way, and a plurality of data processing devices 13 respectively arranged on the parts 22 of each mechanical device 2; wherein the server 11 stores a plurality of default operation rules in advance; the use end 12 is a mobile device.

Each data processing apparatus 13 corresponds to a network name and includes a communication module 131, a processing module 132 electrically connected to the communication module 131, and a storage module 133 electrically connected to the processing module 132, in this embodiment, the data processing apparatus 13 is integrated into a single chip, but not limited thereto. The communication module 131 supports a wireless communication protocol (e.g., a wireless fidelity (Wi-Fi) protocol or a bluetooth (bluetooth) protocol), and communicatively connects the server 11 and the user 12 via the wireless communication protocol, wherein the network name corresponding to each data processing device 13 is related to the wireless communication protocol supported by the network name; for example, if the wireless communication protocol supported by the communication module 131 is the wifi protocol, the network name corresponding to the data processing device 13 is a Service Set Identifier (SSID), and if the wireless communication protocol supported by the communication module 131 is the bluetooth transmission protocol, the network name corresponding to the data processing device 13 is a device name (devicename).

The storage module 133 is configured to store an identification data and an operation rule set corresponding to the component 22 configured by the data processing apparatus 13, where the identification data includes a device identification data corresponding to the component 22 configured by the data processing apparatus 13 and a status data indicating an operation status of the component 22 configured by the data processing apparatus 13.

More specifically, when the data processing apparatus 13 is first installed on the corresponding component 22, the initial identification data and the set of operation rules are first written into the storage module 133; thereafter, only when the operation rule set in the storage module 133 needs to be updated, the processing module 132 will transmit a data request containing the device identification data corresponding to the component 22 to the server 11 via the communication module 131; then, after the server 11 receives the data request, the server 11 selects a target operation rule set from the default operation rules according to the device identification data in the data request, and transmits the target operation rule set to the data processing device 13; finally, the data processing device 13 receives the target set of operation rules and stores the target set of operation rules in the storage module 133 as the updated set of operation rules. In the present embodiment, the device identification data includes, for example, manufacturer identification information (e.g., manufacturer name, manufacturer basic information, language family supported by manufacturer, etc.) of the component 22 disposed in the data processing device 13, product identification information (e.g., product name, product classification, product basic information, product version, etc.), and a production serial number, but not limited thereto.

It should be noted that the data processing device 13 may further include at least one built-in sensor 134, or the mechanical apparatus 2 may also include at least one sensor 134 disposed on the component 22; the sensor 134 is used for sensing the operation attributes of the component 22, each of which includes, for example, a temperature associated with the component 22, a pressure associated with the component 22, a vibration associated with the component 22, or a current value associated with the component 22.

For example, the server 11 is pre-established with a database (not shown) containing a plurality of device identification data and a plurality of default operation rules related to the device identification data, and the server 11 can select the target operation rule set corresponding to each device identification data from the database of the server 11 by interpreting the device identification data of each data request received by the server 11. Assuming that the component 22 installed in the data processing device 13 is a spindle (not shown), a device identification data corresponding to the spindle includes a manufacturer identification information of the spindle, a product identification information of the spindle, and a production serial number of the spindle; wherein the manufacturer identification information, the product identification information, and the production serial number of the spindle indicate: various sensors (e.g., vibration sensor, temperature sensor, current sensor, not shown) required for sensing the operation properties of the spindle, and a target operation rule set required for operating the operation state of the spindle. When the server 11 receives the data request, it first obtains the manufacturer identification information, the product identification information, and the production serial number of the spindle by interpreting the device identification data in the data request; then, the server 11 can select the target operation rule set required for operating the operation state of the spindle from the database of the server 11 according to the manufacturer identification information, the product identification information, and the production serial number, and store the target operation rule set in the storage module 133 as the updated operation rule set.

Hereinafter, how the industrial internet of things system 1 collects the operation information of the parts 22 set therein through any one of the data processing devices 13 will be described in detail with reference to fig. 1, 2 and 3.

In step S31, the processing module 132 of the data processing apparatus 13 generates a status data indicating the operation status of the component 22 configured by the data processing apparatus 13 according to the operation rule set in the storage module 133; more specifically, the processing module 132 receives the sensing signal sensed by the at least one sensor 134 and generates the status data according to the sensing signal and the set of operation rules in the storage module 133; the processing module 132 can also generate an operation result according to the sensing signal and the operation rule set in the storage module 133, and further generate the status data according to the operation result and the operation rule set in the storage module 133.

Continuing with the above example, assuming the component 22 is the spindle (not shown), the set of algorithm rules in the memory module 133 can include, for example, "if a spindle temperature sensed by the temperature sensor (not shown) is greater than a temperature threshold, generating a status data indicative of the spindle temperature anomaly; otherwise, generating the status data indicating that the spindle temperature is normal, and performing Fast Fourier Transform (FFT) on a time domain data outputted from the vibration sensor (not shown) to obtain an operation result; judging whether the operation result falls within a preset range; if so, the status data indicating that the vibration detection of the spindle is normal is generated, otherwise, the status data indicating that the vibration detection of the spindle is abnormal is generated, and the like, but not limited thereto.

It should be noted that the processing module 132 can also generate the status data only according to the operation rule set stored in the storage module 133, for example, some specific components 22 need to be maintained after using for a preset time, and the data processing device 13 installed on a specific component 22 will start to accumulate an operation time of the specific component 22 after the specific component 22 leaves the factory, where the operation rule set includes the following conditional expressions: if the operation time > the predetermined time, the status data indicating that the specific component 22 needs to be serviced is generated.

In step S32, the processing module 132 of the data processing apparatus 13 writes the status data generated in step S31 into the identification data stored in the storage module 133 to update the identification data.

In step S33, the processing module 132 of the data processing apparatus 13 sets the network name corresponding to the data processing apparatus 13 as the updated identification data described in step S32. More specifically, if the wireless communication protocol supported by the communication module 131 is the wifi protocol, the processing module 132 sets the service configuration identifier corresponding to the data processing apparatus 13 as the updated identification data; if the wireless communication protocol supported by the communication module 131 is the bluetooth transmission protocol, the processing module 132 sets the device name corresponding to the data processing device 13 as the updated identification data.

In step S34, the processing module 132 of the data processing apparatus 13 broadcasts (broadcast) the network name set in step S33 via the communication module 131.

In step S35, the user terminal 12 located in the same communication range as the data processing apparatus 13 can receive the network name broadcast by the data processing apparatus 13 in the scanning (scan) stage.

In step S36, the ue 12 interprets the network name received by the ue to obtain the device identification data and the status data.

In step S37, the user terminal 12 displays the operation status of the accessories 22 installed in the data processing device 13 according to the device identification data and the status data interpreted in step S36.

In the present embodiment, the user end 12 is installed with an application program, and when the application program is executed, the steps S35 to S37 are performed and an operation interface 4 shown in fig. 3 is presented. For example, the user 12 receives 4 network names in the scanning stage, and the application program interprets 4 device identification data and 4 status data from the network names, which correspond to the following 4 operating states of the component 22: "tool magazine type a001 of company a, operating state: normal "," high pressure pump model B01 from company B, operating state: normal "," main shaft C001 type by company C, operating state: warning ", and" model D01 vice by company D, operating status: disabled "; the application program can present different operation states in different color blocks 41-43, for example, a first color block 41 is used to indicate the operation state is normal, a second color block 42 is used to indicate the operation state as warning, and a third color block 43 is used to indicate the operation state as disabled.

It should be noted that, although the embodiment is described with a single user 12, in practical applications, the industrial internet of things system 1 often includes a plurality of users 12, and any user 12 located in the same communication range does not need to establish a one-to-one connection relationship with each data processing device 13, so as to obtain the operating state of the accessories 22 disposed in the data processing device 13; instead, the network name corresponding to each data processing device 13 can be obtained in the scanning stage, and the operation state of the component 22 set in each data processing device 13 can be obtained accordingly; in other words, the user end 12 can obtain the operation status of all the components 22 in the same communication range at the same time, so as to achieve many-to-many transmission, thereby greatly improving the efficiency and convenience of data acquisition.

After a user knows the operating status of the components 22 through the operation interface 4 of the user end 12, the user can further know detailed operation information of one of the components 22 through the operation interface 4. For example, as shown in fig. 3, after the user finds that the operating status of the type D01 vise of company D is "disabled", to further understand the detailed operating information of the type D01 vise, the user can select a corresponding text 44 on the operation interface 4 to establish a one-to-one connection between the data processing apparatus 13 disposed on the type D01 vise and the user 12, and then the processing module 132 of the data processing apparatus 13 transmits a data set related to the detailed operating information of the type D01 vise to the user 12 through the communication module 131, so that the user 12 presents the data set, and the user can further know the reason why the type D01 vise is "disabled"; wherein the data set includes the at least one sensing signal associated with the model of vise D01, the status data, and the result of the operation. In this embodiment, the data set includes the at least one sensing signal, the status data, and the operation result, however, in other embodiments, the data set may include at least one of the at least one sensing signal, the status data, and the operation result, which is not limited thereto.

It should be noted that, after receiving the data set related to the component 22 set in any data processing apparatus 13, the user 12 can also transmit it to the server 11; in addition, each data processing device 13 can also directly transmit the data set to the server 11; alternatively, each data processing device 13 can transmit the data set to the controller 21, and then the controller 21 transmits the received data set to the server 11. Therefore, the server 11 can collect the operation information of each component 22, which is not only helpful for predicting and eliminating faults in the processing process, but also can analyze the collected operation information in big data in the future and be applied to an automation production line or an unmanned intelligent factory.

In summary, the industrial internet of things system 1 of the present invention is suitable for collecting operation information of each component 22 of each mechanical device 2, and has the following functions: first, any user end 12 located in the same communication range can obtain the network name corresponding to each data processing device 13 in the scanning stage, and accordingly obtain the operating state of the component 22 set therein, so as to achieve many-to-many transmission in the same time, thereby greatly improving the efficiency and convenience of data acquisition; secondly, the user can check the operation status of the parts 22 installed in each data processing device 13 in real time from the user end 12, so that when any mechanical device 2 is abnormal, which part 22 in the mechanical device 2 has a problem can be known definitely, thereby avoiding the time cost misplacement and the waste of human resources; thirdly, the server 11 can collect the operation information of the parts 22 installed therein through each data processing device 13 to analyze and process the subsequent data, so as to achieve the object of the present invention.

The above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and the invention is still within the scope of the present invention by simple equivalent changes and modifications made according to the claims and the contents of the specification.

Claims (22)

1. An industrial Internet of things system is suitable for collecting operation information of spare and accessory parts contained in mechanical equipment, and is characterized in that: this industry thing networking system contains:

a use end; and

the data processing device is arranged on the spare and accessory part, is in communication connection with the using end through a wireless communication protocol, corresponds to a network name, and is related to the wireless communication protocol, and is used for storing identification data and an operation rule set corresponding to the spare and accessory part, wherein the identification data comprises device identification data corresponding to the spare and accessory part and state data indicating the operation state of the spare and accessory part;

the data processing device is used for generating the state data indicating the operation state of the accessories according to the operation rule set, writing the generated state data into the identification data stored by the data processing device, setting the network name corresponding to the data processing device as the identification data stored by the data processing device, broadcasting the network name by the data processing device, and presenting the operation state of the accessories according to the received network name after the user receives the network name from the data processing device.

2. The industrial internet of things system of claim 1, wherein: the mechanical equipment further comprises at least one sensor arranged on the spare part, the at least one sensor is used for sensing the operation attribute of the spare part, the data processing device is further used for receiving at least one sensing signal sensed by the at least one sensor, and the data processing device is further used for generating the state data indicating the operation state of the spare part according to the operation rule set and the at least one sensing signal.

3. The industrial internet of things system of claim 2, wherein: the data processing device also generates an operation result according to the operation rule set and the at least one sensing signal.

4. The industrial internet of things system of claim 3, wherein: the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the user end after the user end and the data processing device establish one-to-one connection, and the user end transmits the data set to the server after receiving the data set from the data processing device.

5. The industrial internet of things system of claim 3, wherein: the data processing device also transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server.

6. The industrial internet of things system of claim 1, wherein: the data processing device also comprises at least one sensor for sensing the operation attribute of the spare and accessory parts, and the data processing device also generates the state data indicating the operation state of the spare and accessory parts according to the operation rule set and at least one sensing signal sensed by the at least one sensor.

7. The industrial internet of things system of claim 6, wherein: the data processing device also generates an operation result according to the operation rule set and the at least one sensing signal.

8. The industrial internet of things system of claim 7, wherein: the data processing device also transmits a data set comprising at least one of the sensing signal, the state data and the operation result to the user end after the user end and the data processing device establish one-to-one connection, and the user end also transmits the data set to the server after receiving the data set from the data processing device.

9. The industrial internet of things system of claim 7, wherein: the data processing device also transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server.

10. The industrial internet of things system of claim 1, wherein: the data processing device is connected with the data processing device in a communication mode, the server stores a plurality of default operation rules, the data processing device transmits a data request containing the device identification data corresponding to the spare part to the server, after the server receives the data request, the server determines a target operation rule set from the default operation rules according to the device identification data in the data request and transmits the target operation rule set to the data processing device, and after the data processing device receives the target operation rule set from the server, the data processing device stores the target operation rule set to serve as the operation rule set.

11. The industrial internet of things system of claim 1, wherein: the wireless communication protocol supported by the data processing device is a wireless fidelity protocol, and a network name corresponding to the data processing device is a service setting identifier.

12. The industrial internet of things system of claim 1, wherein: the wireless communication protocol supported by the data processing device is a bluetooth transmission protocol, and a network name corresponding to the data processing device is a device name.

13. A data processing device is suitable for collecting operation information of spare and accessory parts contained in mechanical equipment, and is arranged on the spare and accessory parts, and is characterized in that: the data processing device corresponds to a network name and includes:

the communication module supports a wireless communication protocol, wherein the network name corresponding to the data processing device is related to the wireless communication protocol;

a storage module for storing identification data and an operation rule set corresponding to the spare part, the identification data including device identification data corresponding to the spare part, and status data indicating an operation status of the spare part, and

the processing module is electrically connected with the communication module and the storage module;

the processing module is used for generating the state data indicating the operation state of the spare and accessory parts according to the operation rule set stored in the storage module and writing the generated state data into the identification data stored in the storage module, the processing module is also used for setting the network name corresponding to the data processing device as the identification data stored in the storage module, and the processing module is also used for broadcasting the network name through the communication module.

14. The data processing apparatus of claim 13, wherein: the mechanical equipment also comprises at least one sensor which is arranged on the spare part and is used for sensing the operation attribute of the spare part, wherein the processing module is also used for receiving at least one sensing signal sensed by the at least one sensor, and the processing module also generates the state data which indicates the operation state of the spare part according to the operation rule set and the at least one sensing signal.

15. The data processing apparatus of claim 14, wherein: the processing module further generates an operation result according to the operation rule set and the at least one sensing signal.

16. The data processing apparatus of claim 15, wherein: the processing module is also in communication connection with a server, and transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server through the communication module.

17. The data processing apparatus of claim 13, wherein: the data processing device also comprises at least one sensor for sensing the operation attribute of the spare and accessory parts, and the processing module also generates the state data indicating the operation state of the spare and accessory parts according to the operation rule set and at least one sensing signal sensed by the at least one sensor.

18. The data processing apparatus of claim 17, wherein: the processing module further generates an operation result according to the operation rule set and the at least one sensing signal.

19. The data processing apparatus of claim 18, wherein: the processing module is also in communication connection with a server, and transmits a data set comprising at least one of the at least one sensing signal, the state data and the operation result to the server through the communication module.

20. The data processing apparatus of claim 13, wherein: still communication connection is in server, and this server storage has a plurality of acquiescence operation rules, wherein:

the processing module is further used for storing a target operation rule set selected from the default operation rules in the storage module as the operation rule set after receiving the target operation rule set from the server through the communication module, wherein the target operation rule set is selected according to the device identification data corresponding to the spare and accessory parts.

21. The data processing apparatus of claim 13, wherein: the wireless communication protocol supported by the communication module is a wireless fidelity protocol, and a network name corresponding to the data processing device is a service setting identifier.

22. The data processing apparatus of claim 13, wherein: the wireless communication protocol supported by the communication module is a Bluetooth transmission protocol, and the network name corresponding to the data processing device is a device name.

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