CN212341900U - Debugging system - Google Patents

Abstract

The utility model discloses a debugging system. The debugging system comprises: debugging terminals, equipment and a cloud control center; the debugging terminal is connected with a communication module of the equipment and used for unlocking the equipment and automatically debugging the equipment item by item according to a preset debugging sequence, wherein the next debugging is carried out after the current debugging is qualified; the cloud control center is communicated with the debugging terminal and the communication module of the equipment through a network; the cloud control center comprises a storage module used for storing debugging personnel information and debugging information of the equipment uploaded by the debugging terminal. The utility model discloses the debugging is convenient, can avoid the debugging personnel to skip the debugging project at will, has guaranteed the debugging quality of equipment, has greatly reduced the follow-up condition that leads to easily taking place the trouble because of the debugging is not in place. The cloud control center stores the debugging information, so that the participation and supervision of a third party to the debugging process are realized, the transparence of the debugging process is ensured, and the debugging quality is further ensured.

Description

Debugging system

Technical Field

The utility model relates to a debugging technical field particularly, relates to a debug system.

Background

Under the background of development of big data, the Internet of things and artificial intelligence, the intelligent mode of the household appliance is infinite by combining the modern Internet technology.

Some household appliances need to be debugged before the users use the household appliances normally, and taking an air conditioner as an example, the debugging mode is as follows: the installer installs the air conditioner pipeline and the circuit; the unit is powered on, debugging software and a debugger are connected into the unit, the debugging is started by clicking, and the unit automatically configures parameters; after debugging of the debugging software is finished, the unit can not always reach the optimal state, and an installer needs to check parameters again; sometimes, problems occur in the debugging process, and the unit needs to be repaired.

Based on the debugging mode, the conditions that the debugging is not good, the unit does not reach the optimal state, and an installer runs are existed, the debugging quality is not controlled, and the follow-up unit is easy to report faults. Even the situation that debugging software can choose to skip debugging but does not carry out debugging can occur, and people are dispatched to maintain the unit subsequently.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a debugging system to debug the uncontrolled problem of quality among the prior art.

In order to solve the above technical problem, an embodiment of the present invention provides a debugging system, including: debugging terminals, equipment and a cloud control center;

the debugging terminal is connected with a communication module of the equipment and used for unlocking the equipment and automatically debugging the equipment item by item according to a preset debugging sequence, wherein the next debugging is carried out after the current debugging is qualified;

the cloud control center is communicated with the debugging terminal and the communication module of the equipment through a network; the cloud control center comprises a storage module used for storing debugging personnel information and the debugging information of the equipment uploaded by the debugging terminal.

Optionally, the communication module of the device is a wireless communication module.

Optionally, the debugging terminal includes: and the scanning module is used for scanning the identification information on the equipment so as to establish connection with the communication module of the equipment.

Optionally, the debugging terminal includes: the first communication module is in communication connection with the cloud control center and is used for uploading currently logged debugging personnel information, debugging information and problems occurring in the debugging process to the cloud control center and receiving unlocking verification passing information sent by the cloud control center, reasons of the problems and/or a processing mode.

Optionally, the debugging terminal includes: and the second communication module is in communication connection with the communication module of the equipment and is used for sending the unlocking code to the communication module of the equipment.

Optionally, the debugging terminal includes: and the display module is connected with the first communication module and used for displaying the debugging information in real time and displaying the reason and/or the processing mode of the problems occurring in the debugging process.

Optionally, the cloud control center further includes: and the third communication module is in communication connection with the debugging terminal and is used for receiving the debugging personnel information, the debugging information and the problems in the debugging process which are uploaded by the debugging terminal and currently logged in, and issuing an unlocking verification passing message, the reasons of the problems and/or a processing mode to the debugging terminal.

Optionally, the cloud control center further includes: and the fourth communication module is in communication connection with the communication module of the equipment and is used for receiving the equipment information sent by the communication module of the equipment.

Use the technical scheme of the utility model, the debugging is convenient, can avoid the debugging personnel to skip the debugging project at will, has guaranteed the debugging quality of equipment, has greatly reduced follow-up because of the debugging does not in place leads to the condition of easily taking place the trouble. The cloud control center stores the debugging information, so that the participation and supervision of a third party to the debugging process are realized, the transparence of the debugging process is ensured, and the debugging quality is further ensured.

Drawings

Fig. 1 is a schematic structural diagram of a debugging system provided by an embodiment of the present invention;

fig. 2 is a flowchart of a debugging method provided by an embodiment of the present invention;

fig. 3 is a specific schematic diagram of a debugging system provided by an embodiment of the present invention;

fig. 4 is a schematic diagram of a debugging method provided by the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The embodiment of the utility model provides a debugging system, referring to fig. 1, this debugging system includes: the debugging terminal 10, the device 20 and the cloud control center 30. The debugging terminal can be a handheld intelligent terminal such as a mobile phone and a tablet personal computer which are provided with a debugging application program (also called as a debugging APP or debugging software), or a terminal specially used for debugging. The cloud control center may be a server.

The debugging terminal is connected with the communication module 21 of the equipment and used for unlocking the equipment and automatically debugging the equipment item by item according to a preset debugging sequence, wherein the next debugging is carried out after the current debugging is qualified;

the cloud control center is communicated with the debugging terminal and the communication module of the equipment through a network; the cloud control center comprises a storage module used for storing debugging personnel information and the debugging information of the equipment uploaded by the debugging terminal.

Debug information refers to records of the debugging process, including: debugging parameters, debugging progress, debugging results, problems and the like of each debugging project.

By adopting the debugging system, the debugging is convenient and fast, debugging personnel can be prevented from skipping debugging items at will, the debugging quality of the equipment is ensured, and the condition that faults are easy to occur due to the fact that the debugging is not in place in the follow-up process is greatly reduced. The cloud control center stores the debugging information, so that the participation and supervision of a third party to the debugging process are realized, the transparence of the debugging process is ensured, and the debugging quality is further ensured.

The communication module of the equipment is a wireless communication module. The wireless communication module can adopt near field communication, such as Bluetooth, WiFi, Bluetooth, ZigBee, NFC and the like. In addition, the communication between the device and the cloud control center may also use a wireless communication module, for example, a long-distance wireless communication component (such as a cellular network) is arranged in the wireless communication module. The wireless debugging is carried out based on the wireless communication module, and the wireless debugging is flexible and free from space limitation.

In an optional embodiment, the debug terminal includes: and the scanning module is used for scanning the identification information on the equipment so as to establish connection with the communication module of the equipment. The embodiment can quickly establish connection between the debugging terminal and the equipment through scanning.

In an optional embodiment, the debug terminal includes: the first communication module is in communication connection with the cloud control center and is used for uploading currently logged debugging personnel information, debugging information and problems occurring in the debugging process to the cloud control center and receiving unlocking verification passing information sent by the cloud control center, reasons of the problems and/or a processing mode.

In an optional embodiment, the debug terminal includes: and the second communication module is in communication connection with the communication module of the equipment and is used for sending the unlocking code to the communication module of the equipment.

In an optional embodiment, the debug terminal includes: and the display module is connected with the first communication module and used for displaying the debugging information in real time and displaying the reason and/or the processing mode of the problems occurring in the debugging process. And the debugging information is displayed in real time, so that the debugging process is transparent, and the debugging condition can be known and supervised conveniently in time.

In an optional embodiment, the cloud control center further includes: and the third communication module is in communication connection with the debugging terminal and is used for receiving the debugging personnel information, the debugging information and the problems in the debugging process which are uploaded by the debugging terminal and currently logged in, and issuing an unlocking verification passing message, the reasons of the problems and/or a processing mode to the debugging terminal.

In an optional embodiment, the cloud control center further includes: and the fourth communication module is in communication connection with the communication module of the equipment and is used for receiving the equipment information sent by the communication module of the equipment.

Through the interaction of the first communication module, the second communication module, the third communication module and the fourth communication module, the unlocking relation between the equipment and debugging personnel can be established and automatically unlocked, the problem in the debugging process can be solved, the debugging is guaranteed to be completed smoothly, and the unit can reach the optimal state. The principle of which will be described in detail later.

The embodiment of the utility model provides a still provide a debugging method, applicable in the debugging of equipment, this method can be carried out by debugging terminal. Fig. 2 is a flowchart of a debugging method provided by an embodiment of the present invention, and as shown in fig. 2, the method includes the following steps:

s201, responding to a debugging instruction, automatically debugging the equipment item by item according to a preset debugging sequence, wherein the next item is debugged after the current item is debugged qualified.

S202, displaying the debugging information in real time.

The debugging instruction may be an instruction for starting debugging, which is input by a debugging person through the debugging terminal, for example, clicking a debugging button on a touch screen of the debugging terminal, or pressing a physical key on the debugging terminal to "start debugging". The equipment is debugged, the debugging device comprises a plurality of debugging items, the debugging sequence of each debugging item can be set in advance so as to carry out automatic debugging according to the sequence, and the debugging sequence can be set according to the association relation of each debugging item. For example, the preset debugging sequence of the air conditioning equipment is as follows: judging the setting of a master control machine; allocating addresses; confirming the number of the outdoor units; confirming the number of the indoor units; detecting the internal communication and capacity ratio of the outdoor unit; detecting an external machine component; checking an internal machine component; determining and judging preheating of the compressor; judging a refrigerant before starting; refrigerating, debugging and running; heating debugging operation; and judging whether the oF (standby state) mark is effective or not, and if the oF mark is effective, finishing debugging. In the debugging process, debugging information is displayed in real time, so that relevant progress, debugging results and problems can be checked for each debugging item, and debugging personnel can know the debugging condition in time.

The utility model discloses debugging method is responded to the debugging instruction, carries out automatic debugging to equipment according to presetting debugging order item by item, and gets into next debugging after the current item debugging is qualified, and the debugging is convenient, can avoid the debugging personnel to skip the debugging project at will, has guaranteed the debugging quality of equipment, has greatly reduced follow-up because of the debugging condition that leads to easily taking place the trouble not in place. And the debugging information is displayed in real time, so that the debugging process is transparent, and the debugging condition can be known and supervised conveniently in time.

In an optional embodiment, the method further comprises: in the process of automatically debugging items by items according to a preset debugging sequence, the debugging information of each debugging item is uploaded to a cloud control center in real time for storage. Specifically, the cloud control center can store debugging information of the equipment and corresponding relations of corresponding debugging personnel. According to the embodiment, the debugging information of the equipment is uploaded to the cloud control center for storage and backup, participation and supervision of a third party on the debugging process are realized, the transparence of the debugging process is ensured, and the debugging quality is further ensured. And the debugging mode and the debugging process can be optimized according to the stored debugging information.

If a fault occurs in the debugging process, the fault reason can be analyzed and solved by using the debugging information stored in the cloud control center, and specifically, the method further comprises the following steps: if a problem occurs in the debugging process, reporting the problem to a cloud control center; receiving a reason and/or a processing mode sent by the cloud control center, wherein the reason and/or the processing mode are determined by the cloud control center according to the stored debugging information of the equipment and the problem; and displaying the reason and/or the treatment mode. The embodiment can timely determine the reason of the problem in the debugging process by using the debugging information stored in the cloud control center, gives a processing mode, prompts debugging personnel through the debugging terminal, and ensures that the debugging is smoothly completed, so that the unit reaches the optimal state.

Before commissioning is formally started, the commissioning terminal needs to establish a connection with the device and unlock the device. The following describes a procedure of establishing connection and unlocking.

Before automatically debugging the device item by item according to a preset debugging sequence in response to a debugging instruction, the method further comprises the following steps: scanning identification information on the equipment to obtain connection verification information; and establishing connection with a communication module of the equipment based on the connection verification information. The identification information on the device may be a two-dimensional code, for example, the identification information is pasted on a line controller of the device, and the identification information includes information that can establish a connection with a communication module of the device, that is, connection verification information. The embodiment can quickly establish connection between the debugging terminal and the equipment through scanning.

Prior to scanning the identification information on the device, the method further comprises: receiving login information of a debugging person; and after the login is successful, starting a scanning function, and uploading the information of the currently logged-in debugging personnel to the cloud control center. The login information can be information such as an account number and a password which are registered in advance by debugging personnel, the cloud control center can carry out identity authentication on the debugging personnel through the login information uploaded by the debugging terminal, and the login is successful if the authentication is passed. The currently logged-in debugger person information may include: personnel identification information (such as name, job number, affiliated branch), personnel jurisdiction, and current location information of commissioning personnel.

In the embodiment, after the debugging personnel successfully logs in the debugging terminal, the scanning function is started to establish the connection with the equipment, so that the problem that unauthorized illegal personnel randomly scan identification information on the equipment to cause information leakage and generate potential safety hazards is avoided. After login is successful, information of the currently logged-in debugging personnel is uploaded to the cloud control center, so that an association relation can be established between the debugging personnel and the equipment to be unlocked based on the information, and smooth unlocking of the equipment is further achieved.

In addition, the login information may further include: the only sign of the debugging terminal of using at present to contrast with the debugging terminal only sign that uses when debugging personnel register, if the sign is unanimous, just think login success, can guarantee that legitimate debugging personnel uses the terminal and the account number of oneself to debug from this, prevent unauthorized illegal personnel from participating in the debugging, thereby further guarantee the debugging quality.

After establishing a connection with a communication module of the device based on the connection verification information, the method further comprises: sending an unlocking code to the equipment so that the equipment uploads the unlocking code to a cloud control center for verification; receiving a verification passing message issued by the cloud control center, and determining that the equipment is successfully unlocked; the cloud control center carries out relationship matching according to the jurisdiction area of debugging personnel, the current position information of the debugging personnel and the current position information of the equipment, and issues the verification passing message under the condition that the position relationship matching is passed and the unlocking code verification is passed, wherein the current position information of the equipment is uploaded to the cloud control center when a communication module of the equipment is powered on for the first time. In fact, when the communication module of the device is powered on for the first time, the device information may be uploaded to the cloud control center, the cloud control center marks the device as a device to be unlocked, and the device information may include: unique device identification, current location information, etc.

In the embodiment, the cloud control center matches the unlocking relationship between the debugging personnel and the equipment based on the position information and verifies based on the activation code, so that verification and unlocking of the equipment are realized, specifically, if the position information of the debugging personnel is consistent with the position information of the equipment and belongs to the jurisdiction of the debugging personnel, the unlocking relationship is successfully matched, the debugging personnel is legal and qualified to unlock the equipment, and the debugging personnel can only unlock the equipment in the jurisdiction; furthermore, if the unlocking code forwarded by the debugging terminal through the equipment is consistent with the unlocking code locally stored in the cloud control center, the equipment can be successfully unlocked. Therefore, the safe unlocking of the equipment is realized, and the unlocking debugging by unauthorized illegal personnel is avoided.

After the connection is established and the equipment is unlocked, the debugging personnel can check the information of each equipment which is connected and unlocked through the debugging terminal. Preferably, the debugging terminal can revise the name of each equipment that has passed through according to the information of debugging personnel input, for example, revise the outer machine of roof east according to the mounted position, the debugging personnel of being more convenient for look over, information and the actual equipment in the accurate corresponding debugging terminal prevent outer machine dislocation.

Preferably, the communication module of the device is a wireless communication module. The wireless communication module can adopt near field communication, such as Bluetooth, WiFi, Bluetooth, ZigBee, NFC and the like. In addition, the communication between the device and the cloud control center may also use a wireless communication module, for example, a long-distance wireless communication component (such as a cellular network) is arranged in the wireless communication module. The wireless debugging is carried out based on the wireless communication module, and the wireless debugging is flexible and free from space limitation.

The above debugging scheme is described with reference to fig. 3 and fig. 4, however, it should be noted that this specific embodiment is only for better describing the present application, and should not be construed as a limitation to the present application. Referring to fig. 3 and 4, an air conditioner is taken as an example, a bluetooth DTU 21 is taken as an example of a communication module of the air conditioner, and a mobile phone 10 (specifically, a mobile phone is connected, unlocked and debugged by using debugging software installed on the mobile phone) is taken as an example of a debugging terminal.

And starting to enter a debugging stage after the air conditioning unit is installed.

Debugging personnel download debugging software on the mobile phone and register, and information binding is realized in the registration process. Specifically, the information of the debuggers and the information of the mobile phone used for registration are bound.

A unit matching stage: the outer machine of unit installs the DTU module, and the DTU module has bluetooth function, opens debugging software and carries out unit and cell-phone APP with the two-dimensional code of scanning line controller and match, and the backstage carries out the internal network layer after the matching and tests the true and false, specifically is: the Bluetooth DTU is electrified for the first time to upload the unit information to the cloud control center, and the cloud control center automatically unlocks based on the unlocking code after establishing a relation according to the uploaded unit information to be unlocked and debugging personnel information. The air conditioner must be debugged before use and unlocked in the debugging process.

And the debugging stage is step-by-step debugging, the debugging software is automatically debugged, all debugging operations are carried out in the debugging software, and the next debugging operation can be carried out only if the debugging is qualified in each step of debugging.

When the debugging personnel opens the mobile phone software, the debugging personnel can wait for the debugging result by one click, and no matter what condition occurs in the debugging process, the debugging result can be embodied in detail on the software. The specific debugging logic is as follows: judging the setting of a master control machine; allocating addresses; confirming the number of the outdoor units; confirming the number of the indoor units; detecting the internal communication and capacity ratio of the outdoor unit; detecting an external machine component; checking an internal machine component; determining and judging preheating of the compressor; judging a refrigerant before starting; refrigerating, debugging and running; heating debugging operation; and judging whether the oF mark is effective or not, and if the oF mark is effective, finishing debugging.

And each step of debugging can be realized by checking the progress on the debugging software and the problems in the debugging process. And the cloud control center records and collects the details of the debugging information of the current unit and completes the whole debugging information by combining the information of the debugging personnel during verification of the internal network layer. When a problem occurs in the debugging process, the cloud control center can analyze the fault problem according to the uploaded data, causes and processing modes are prompted to field debugging personnel through debugging software, a unit installation and debugging mode of wireless debugging and wireless maintenance is created, starting from the unit installation and debugging stage of the root cause, the problem that the fault is easy to occur due to the fact that the debugging of the unit is not in place is greatly reduced, the debugging quality is guaranteed, and the problems that the existing debugging process is complex, time-consuming and the debugging process is not transparent are solved.

The debugging scheme realizes a cloud debugging mechanism, perfects unit debugging information through DTU and APP double-source collection, and controls the unit by using the information.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. A debugging system, comprising: debugging terminals, equipment and a cloud control center;

the debugging terminal is connected with a communication module of the equipment and used for unlocking the equipment and automatically debugging the equipment item by item according to a preset debugging sequence, wherein the next debugging is carried out after the current debugging is qualified;

the cloud control center is communicated with the debugging terminal and the communication module of the equipment through a network; the cloud control center comprises a storage module used for storing debugging personnel information and the debugging information of the equipment uploaded by the debugging terminal.

2. The debugging system of claim 1, wherein the communication module of the device is a wireless communication module.

3. The debugging system according to claim 1, wherein the debugging terminal comprises:

and the scanning module is used for scanning the identification information on the equipment so as to establish connection with the communication module of the equipment.

4. The debugging system according to claim 1, wherein the debugging terminal comprises:

the first communication module is in communication connection with the cloud control center and is used for uploading currently logged debugging personnel information, debugging information and problems occurring in the debugging process to the cloud control center and receiving unlocking verification passing information sent by the cloud control center, reasons of the problems and/or a processing mode.

5. The debugging system according to claim 1, wherein the debugging terminal comprises:

and the second communication module is in communication connection with the communication module of the equipment and is used for sending the unlocking code to the communication module of the equipment.

6. The debugging system according to claim 4, wherein the debugging terminal comprises:

and the display module is connected with the first communication module and used for displaying the debugging information in real time and displaying the reason and/or the processing mode of the problems occurring in the debugging process.

7. The commissioning system of claim 1, wherein the cloud control center further comprises:

and the third communication module is in communication connection with the debugging terminal and is used for receiving the debugging personnel information, the debugging information and the problems in the debugging process which are uploaded by the debugging terminal and currently logged in, and issuing an unlocking verification passing message, the reasons of the problems and/or a processing mode to the debugging terminal.

8. The commissioning system of claim 1, wherein the cloud control center further comprises:

and the fourth communication module is in communication connection with the communication module of the equipment and is used for receiving the equipment information sent by the communication module of the equipment.

Images