CN212064376U - Portable debugging equipment - Google Patents

Abstract

The utility model relates to a photovoltaic tracking system debugs the apparatus field, disclose a portable debugging apparatus, the said debugging apparatus is based on the control box of a host board debugging photovoltaic tracking system, including gateway, customer end, camera and touch-sensitive screen; the camera is used for scanning the two-dimensional code information on the control box; the client is used for acquiring the ID information of the control box according to the two-dimension code information and sending the ID information to the gateway, and the client is used for configuring parameters of the control box; the gateway is used for realizing point-to-point communication connection with the control box according to the ID information of the control box; the touch screen is used for displaying the state information of the client and inputting a control instruction to the client. The utility model discloses a two-dimensional code information on the scanning control case alright realize the point-to-point connection between debugging equipment and the control box, can effectively avoid debugging equipment to receive the signal interference of other control boxes in the debugging connection process.

Description

Portable debugging equipment

Technical Field

The utility model relates to a photovoltaic tracking system debugging equipment field indicates a portable debugging equipment especially.

Background

After the photovoltaic support installation is completed, the tracking system is required to be debugged, so that the equipment can meet the use requirements in different regions, when the current photovoltaic tracking system debugging equipment is debugged, because the box cannot be opened, a handheld debugging communication module must be connected to a computer for debugging, then special upper computer monitoring software is opened, parameters of the communication module are firstly configured in a wireless mode, then a control box of the photovoltaic tracking system is connected in a wireless mode, parameters of the control box are configured, in the process, power supplies of other control boxes nearby must be closed, so that one-to-one transmission signals between the computer for debugging and the control box are realized, otherwise, interference can be generated, the parameters are configured to other control boxes, the condition of configuration errors can be generated, and time and labor are consumed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a portable debugging equipment realizes the one-to-one communication between debugging equipment and the control box, makes things convenient for the staff to carry out the field debugging to photovoltaic tracking system.

The utility model provides a technical scheme as follows:

a portable debugging device is a control box for debugging a photovoltaic tracking system based on a mainboard and comprises a gateway, a client, a camera and a touch screen;

the camera is used for scanning the two-dimensional code information on the control box;

the client is used for acquiring the ID information of the control box according to the two-dimension code information and sending the ID information to the gateway, and the client is used for configuring parameters of the control box;

the gateway is used for realizing point-to-point communication connection with the control box according to the ID information of the control box;

the touch screen is used for displaying the state information of the client and inputting a control instruction to the client.

In this scheme, through the ID information of camera scanning two-dimensional code information on the control box in order to obtain communication module in the control box, and then realize the one-to-one transmission signal between debugging equipment and the control box through this ID information to the interference of control box has around been avoided.

Further preferably, the gateway comprises a lora communication module, and the gateway is in communication connection with the controller through the lora communication module.

In the scheme, the gateway of the debugging equipment is in communication connection with the control box through the lora communication module, and low power consumption and long-distance signal transmission are achieved by utilizing the lora communication module.

Further preferably, the system further comprises a USB interface, and the USB interface is used for being connected with the control box through a serial debugging line.

In this scheme, still provide the USB interface and supply debugging personnel to use, debugging personnel can be connected with the control box through on-the-spot connection serial ports debugging line equally to debug the control box.

Further preferably, the intelligent control system further comprises a Bluetooth module, wherein the Bluetooth module is used for establishing Bluetooth connection with the control box.

In this scheme, the debugging personnel can also carry out communication connection through the bluetooth module and the control box of debugging equipment.

Further preferably, the debugging device further comprises a positioning module, and the positioning module is used for acquiring the position information of the debugging device in use.

In the scheme, the positioning module can acquire the position information of the debugging equipment so as to facilitate the debugging personnel to input the position information in the field debugging process.

Further preferably, the debugging device further comprises a power module and a charging interface, wherein the power module is used for supplying power to the debugging device, and the charging interface is used for charging the power module.

In this scheme, power module is the debugging equipment power supply to guarantee the duration of a journey ability of debugging equipment, thereby satisfy debugging personnel's open-air debugging demand, can also charge for debugging equipment through the interface that charges.

Further preferably, the touch screen adopts a 10-inch liquid crystal display screen.

In this scheme, for the complete interface that shows host computer monitoring software on the touch-sensitive screen, adopt 10 cun liquid crystal display to be convenient for the debugging personnel to operate.

Further preferably, the debugging device further comprises a voice call module, and the voice call module is used for realizing the call function of the debugging device.

In the scheme, a debugging person can communicate with a research and development engineer through the voice communication module so as to solve the technical problems on site.

Further preferably, the client is upper computer monitoring software dedicated for debugging the photovoltaic tracking system.

The technical effects of the utility model reside in that:

the utility model discloses with current communication module setting on the computer of debugging through the peripheral hardware on debugging on the debugging equipment, can combine debugging equipment to sweep a yard function and establish one-to-one signal transmission between debugging equipment and control box, through the two-dimensional code information on the camera scanning control box, and then acquire the ID information of control box through the customer end, thereby establish communication connection between gateway and the control box, not only can improve debugging equipment's debugging speed and reliability, avoid receiving the signal interference of other control boxes, can also write in the control box with network number and the channel and the GPS positional information of debugging equipment place LAN through the remote connection mode.

Drawings

The invention will be described in further detail with reference to the following drawings and embodiments:

fig. 1 is a schematic diagram of a system structure of a portable debugging device of the present invention;

fig. 2 is a schematic structural diagram of the connection between the portable debugging device and the control box of the present invention.

The reference numbers illustrate:

1. the system comprises a gateway, 2, a client, 3, a camera, 4, a touch screen, 5, a control box, 6, a USB interface, 7, a Bluetooth module, 8, a positioning module, 9, a power module, 10, a charging interface and 11, a voice call module.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

As a specific embodiment, as shown in fig. 1 to 2, a portable debugging device is a control box 5 for debugging a photovoltaic tracking system based on a motherboard, and includes a gateway 1, a client 2, a camera 3, and a touch screen 4; the camera 3 is used for scanning the two-dimensional code information on the control box 5; the client 2 is used for acquiring the ID information of the control box 5 according to the two-dimensional code information and sending the ID information to the gateway 1, and the client 2 is upper computer monitoring software special for debugging the photovoltaic tracking system and used for configuring parameters of the control box 5; the gateway 1 is used for realizing point-to-point communication connection with the control box 5 according to the ID information of the control box 5; the touch screen 4 is used for displaying status information of the client 2 and for inputting a control instruction to the client 2.

When debugging personnel carry out field debugging, carry with oneself debugging equipment and carry out point-to-point debugging to control box 5, at this in-process, need realize the point-to-point connection between debugging equipment and the control box 5, this embodiment adopts and sweeps a yard mode and obtains the communication module's in the control box 5 parameter of dispatching from the factory, and learn the communication module's of control box 5 ID information according to this parameter of dispatching from the factory, and then establish gateway 1 on the debugging equipment and control box 5's communication connection through this ID information, thereby avoided debugging equipment when establishing wireless connection with control box 5, received other control box 5's signal interference.

In order to realize communication connection between debugging equipment and a control box 5 in a code scanning mode, before the control box 5 of the photovoltaic tracking system leaves a factory, a unique ID number is configured for a communication module in each control box 5 in advance, ID number information is generated into a two-dimensional code, the two-dimensional code is arranged on the control box 5, when debugging personnel carry out debugging, the ID information of the communication module in the control box 5 can be acquired only by scanning the two-dimensional code through a camera 3 on the debugging equipment, and according to the acquired ID information, the debugging personnel can establish wireless connection with the specific control box 5 through a gateway 1.

The gateway 1 comprises a lora communication module, the communication module in the control box 5 also adopts a lora communication mode, and the characteristics of low power consumption and long-distance transmission of the lora communication technology are combined, so that the power consumption of debugging equipment is reduced, and remote configuration parameters can be realized.

When realizing the lora wireless connection between the debugging equipment and the control box 5 on site, the debugging equipment and the control box 5 need to be added into the same local area network, in the process, the debugging equipment needs to be correspondingly configured with communication parameters, the parameters comprise the network number and the channel of the local area network where the gateway 1 is located, the client 2 sends the ID information to the gateway 1 after obtaining the unique ID information of the control box 5, the gateway 1 sends the communication configuration parameters to the control box 5 after receiving the ID information, and configures the parameters of the communication module in the control box 5, so that the communication module in the control box 5 is added into the local area network where the gateway 1 is located, thereby realizing the one-to-one signal transmission between the communication module in the control box 5 and the debugging equipment, and facilitating debugging personnel to carry out point-to-point debugging.

After the connection between the debugging equipment and the control box 5 is established in the lora communication mode, debugging personnel can see a displayed upper computer monitoring software interface through the touch screen 4 of the debugging equipment, view the operating parameters and the control parameters of the photovoltaic tracking system displayed on the interface, know the operating state of the photovoltaic tracking system through the operating parameters, and input instructions for modifying the control parameters to the upper computer monitoring software through the touch screen 4.

The operating system that the mainboard used in the debugging equipment can adopt android operating system, has wiFi connection function, can download corresponding client software through wiFi, including necessary host computer monitoring software and some take a picture software (can take a picture and video recording the scene actual conditions), voice call software etc. that play the auxiliary action to client program on the debugging equipment carries out online update and upgrade, in order to adapt to the debugging of the control box 5 of different grade type.

Debugging personnel download and install the client 2 through wiFi in advance, open 2 interfaces of client through the touch-sensitive screen 4, the ID information of control box 5 is obtained according to the two-dimensional code information that scans to client 2, and send this information to gateway 1, can appear the control box 5 of treating the connection on the 2 interfaces of client that the touch-sensitive screen 4 shows, click the connection option and can carry out communication connection with control box 5. For example, the ID information number of the control box 5 to be debugged is configured as a when it leaves the factory, the camera 3 scans the two-dimensional code on the control box 5, the control box 5 with the ID information number of a appears on the interface of the client 2, and the communication connection between the gateway 1 and the control box 5 with the ID information number of a can be realized by clicking the connection option.

The debugging personnel can check the displayed connection state of the client 2 through the display interface of the touch screen 4 so as to know whether the connection interruption occurs in the debugging process at any time, and if the connection interruption occurs, the connection instruction can be input to the client 2 again through the touch screen 4.

In addition, in order to prevent the connection between the gateway 1 and the control box 5 from being interrupted, the gateway 1 periodically sends a heartbeat packet to the communication module of the control box 5 to check whether the communication module of the gateway 1 and the communication module of the control box 5 are still in a connected state, so as to avoid the situation that the transmission between the gateway 1 and the control box 5 is interrupted.

In order to avoid that other personnel use the debugging equipment to modify the control parameters of the control box 5 by mistake due to misoperation, the upper computer monitoring software on the debugging equipment is also provided with management authority, when the debugging personnel starts the upper computer monitoring software, a login interface appears, the interface is provided with a user login option, the user login access account interface is clicked, the debugging personnel inputs a preset login account and a preset login password and enters the monitoring interface of the upper computer monitoring software, the operation parameters of the photovoltaic tracking system can be further known by clicking the operation parameter option through the touch screen 4 so as to check the operation state of the photovoltaic tracking system, the control parameters can be modified by clicking the parameter modification option through the touch screen 4, the login interface and the account interface are necessary processes for a manager to enter the upper computer monitoring software, so that illegal login users can be shielded, and the debugging personnel can also modify the login password regularly, for use in the next debug.

In this embodiment, the debugging device is further provided with a USB interface 6, and a serial port debugging line can be connected to the USB interface 6, so that a wired connection between the debugging device and the control box 5 is realized through the serial port debugging line, thereby preventing a situation that field debugging cannot be performed due to a wireless connection failure.

In this embodiment, the debugging equipment still is provided with bluetooth module 7, can with establish the bluetooth between the control box 5 and be connected, the debugging personnel can realize the wireless connection between debugging equipment and the control box 5 in the short distance through the bluetooth connected mode, and then look over the operating parameter of control box 5 and modify control parameter through touch-sensitive screen 4.

In this embodiment, the positioning module 8 is disposed in the debugging device, and the position information of the debugging device during use can be automatically acquired through positioning methods such as a GPS, and the position information is embodied as longitude and latitude information, so that the debugging personnel can write the position information into the control box 5 conveniently.

In this embodiment, the debugging device further includes a power module 9 and a charging interface 10, the power module 9 adopts a high-capacity lithium battery, the cruising ability of the debugging device can be ensured to meet the field debugging requirements of debugging personnel, the charging interface 10 adopts a type-C interface for charging the debugging device, and data transmission can be performed through connection of a data line and a computer.

In order to adapt to the use of the upper computer monitoring software for debugging, the debugging device in this embodiment adopts a 10-inch liquid crystal display screen, so that the debugging device has a sufficient display area to display the interface of the upper computer monitoring software.

In this embodiment, the debugging device is further provided with a voice call module 11, and correspondingly, the debugging device is further provided with a built-in speaker and a built-in microphone, so that a debugging worker can conveniently communicate with a research and development engineer in a remote site to solve the problem of site debugging.

As a concrete implementation scheme of this embodiment, this debugging equipment adopts a dedicated panel computer design to form, the main leveling flat plate processor of mature at present market and memory more than 6G and the external memory more than 32G have been configured, and carry on tall and erect operating system of ann, in order to adapt to field debugging's adverse circumstances, dedicated shell has been set up for this debugging equipment, and the lora communication module and the antenna of debugging usefulness have been transplanted in the panel computer, large-scale photovoltaic tracking system's field debugging's demand has been satisfied, the debugging progress has been accelerated through sweeping a yard connected mode, and the rate of accuracy of debugging has been improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a portable debugging equipment, is based on the control box of a mainboard debugging photovoltaic tracking system which characterized in that: the system comprises a gateway, a client, a camera and a touch screen;

the camera is used for scanning the two-dimensional code information on the control box;

the client is used for acquiring the ID information of the control box according to the two-dimension code information and sending the ID information to the gateway, and the client is used for configuring parameters of the control box;

the gateway is used for realizing point-to-point communication connection with the control box according to the ID information of the control box;

the touch screen is used for displaying the state information of the client and inputting a control instruction to the client.

2. A portable commissioning device according to claim 1, wherein:

the gateway comprises a lora communication module, and the gateway is in communication connection with the controller through the lora communication module.

3. A portable commissioning device according to claim 2, wherein:

the USB interface is used for being connected with the control box through a serial port debugging line.

4. A portable commissioning device according to claim 3, wherein:

still include bluetooth module, bluetooth module be used for with control box establishes the bluetooth and connects.

5. A portable commissioning device according to claim 1, wherein:

the debugging device further comprises a positioning module, and the positioning module is used for acquiring the position information of the debugging device during use.

6. A portable commissioning device according to claim 1, wherein:

the debugging equipment comprises a debugging equipment, and is characterized by further comprising a power module and a charging interface, wherein the power module is used for supplying power to the debugging equipment, and the charging interface is used for charging the power module.

7. A portable commissioning device according to claim 1, wherein:

the touch screen adopts a 10-inch liquid crystal display screen.

8. A portable commissioning device according to claim 1, wherein:

the device further comprises a voice call module, and the voice call module is used for achieving the call function of the debugging equipment.

9. A portable commissioning device according to claim 1, wherein:

the client is special upper computer monitoring software for debugging the photovoltaic tracking system.

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