CN213637740U - Equipment debugging device based on bluetooth communication - Google Patents

Abstract

The utility model belongs to the technical field of bluetooth communication, a equipment debugging device based on bluetooth communication is disclosed. The utility model comprises an operation end Bluetooth communication module, an equipment end Bluetooth communication module and a power supply module; the operation end Bluetooth communication module comprises a dial switch, a USB serial port module, a first Bluetooth module, a first standby Bluetooth module and a first selection switch; the equipment end Bluetooth communication module comprises a data selector, a second selection switch, a controller, a second Bluetooth module and a second standby Bluetooth module; the power supply module comprises a power supply module and a low-pass filter. But connect a plurality of equipment of waiting to debug simultaneously through the data selector to according to debugging operation ware through dial-up switch's dial-up state switch-on data selector corresponding switch, carry out many equipment debugging in proper order, improved debugging efficiency, and the reserve bluetooth module that sets up can solve when the debugging bluetooth module out of work can lead to the problem that equipment can't be debugged.

Description

Equipment debugging device based on bluetooth communication

Technical Field

The utility model belongs to the technical field of bluetooth communication, concretely relates to is an equipment debugging device based on bluetooth communication.

Background

Bluetooth is a radio technology that supports short-range communication (typically within 10 m) of devices, enabling wireless information exchange between many devices, including mobile phones, PDAs, wireless headsets, laptops, related peripherals, etc. By using the bluetooth technology, the communication between mobile communication terminal devices can be effectively simplified, and the communication between the devices and the Internet can also be successfully simplified, so that the data transmission becomes faster and more efficient, and the way is widened for wireless communication.

Therefore, applications of bluetooth communication are becoming wider and wider. However, in the internet of things application system which is developed rapidly, when the device is abnormal or fails, an engineer is often required to be connected to a computer for device debugging through a debugging line on site, and the existing debugging device based on bluetooth communication can only debug another device after one device is debugged, so that the debugging efficiency is low, and the problem that the debugging cannot be performed if a bluetooth module does not work during the debugging process is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an equipment debugging device based on bluetooth communication can solve among the prior art debugging inefficiency, and the out of work problem that can lead to the unable debugging of equipment of bluetooth module during the debugging.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a device debugging device based on Bluetooth communication comprises an operation end Bluetooth communication module, a device end Bluetooth communication module and a power supply module;

the operating end Bluetooth communication module comprises a USB serial port module, a Bluetooth module I, a standby Bluetooth module I and a first selection switch, one end of the USB serial port module is connected with a debugging operator, the other end of the USB serial port module is connected with one end of the first selection switch, the debugging operator is connected with a dial switch, the Bluetooth module I and the standby Bluetooth module I are respectively connected with the other end of the first selection switch, the first selection switch is in control connection with the debugging operator, and signals transmitted by the Bluetooth module I and the standby Bluetooth module I are transmitted to the equipment end Bluetooth communication module through a signal transceiver;

the device end Bluetooth communication module comprises a data selector, a second selector switch, a 485 serial port module, a controller, a second Bluetooth module and a second standby Bluetooth module, wherein one end of the data selector is connected with one or more devices to be debugged, the other end of the data selector is connected with one end of the 485 serial port module, the other end of the 485 serial port module is connected with one end of the second selector switch, the other end of the second selector switch is connected with the second Bluetooth module and the second standby Bluetooth module, the second selector switch and the data selector are in control connection with the controller, and signals transmitted by the second Bluetooth module and the second standby Bluetooth module are transmitted to the device end Bluetooth communication module through a signal transceiver;

the power supply module comprises a power supply module and a low-pass filter, and the power supply module is connected with the controller through the low-pass filter.

Preferably, the debug operator is connected to the controller.

Preferably, the controller is an STM32 series single chip microcomputer.

Preferably, the dial switch has an M-bit dial, and the data selector is an N-out-of-1 data selector.

Preferably, the first bluetooth module, the second bluetooth module, the first standby bluetooth module, and the second standby bluetooth module are all FSC-BT630 BLE 5.0 modules.

Preferably, the signal transceiver is a signal transceiving antenna.

Preferably, the first selection switch and the second selection switch are dual-input single-output switches.

The utility model has the advantages that:

the utility model discloses a plurality of debugging equipment of treating can be connected simultaneously to the debugging operation ware corresponds the switch according to dial-up switch's dial-up state switch-on data selector, carries out many equipment debugging in proper order, has improved debugging efficiency. Simultaneously, before carrying out the equipment debugging, debugging operation ware and controller debug bluetooth module in proper order, if detect that bluetooth module is out of work then control change over switch and launch reserve bluetooth module and carry out the equipment debugging, can the unable problem of carrying out the equipment debugging of effectual prevention.

Drawings

Fig. 1 is a structural diagram of a device debugging apparatus based on bluetooth communication.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

As shown in fig. 1, an apparatus debugging device based on bluetooth communication includes an operation end bluetooth communication module, an apparatus end bluetooth communication module, and a power supply module.

The operation end Bluetooth communication module comprises a USB serial port module, a first Bluetooth module, a first standby Bluetooth module and a first selection switch, one end of the USB serial port module is connected with the debugging operator, the other end of the USB serial port module is connected with one end of the selection switch, the debugging operator is connected with a dial switch, the first Bluetooth module and the first standby Bluetooth module are respectively connected with the other end of the selection switch, the first selection switch is in control connection with the debugging operator, and signals transmitted by the first Bluetooth module and the first standby Bluetooth module are transmitted to the equipment end Bluetooth communication module through the signal transceiver.

The device end bluetooth communication module comprises a data selector, selector two, 485 serial port module, a controller, bluetooth module two and reserve bluetooth module two, data selector one end is connected with one or more equipment of waiting to debug, the other end is connected with 485 serial port module one end, the 485 serial port module other end is connected with two one ends of selector switch, two other ends of selector switch are connected with bluetooth module two and reserve bluetooth module two, selector two and data selector all are connected with controller control, the signal of bluetooth module two and the transmission of reserve bluetooth module two is transmitted to device end bluetooth communication module through signal transceiver.

The power supply module comprises a power supply module and a low-pass filter, and the power supply module is connected with the controller through the low-pass filter.

Preferably, the debugging operator is connected with the controller, and the debugging operator can be a computer, a mobile phone and the like.

Preferably, the controller is an STM32 series single chip microcomputer.

Preferably, the dip switch has an M-bit dip and the data selector is an N-out-of-1 data selector.

Preferably, the first bluetooth module, the second bluetooth module, the first standby bluetooth module and the second standby bluetooth module are all FSC-BT630 BLE 5.0 modules.

Preferably, the signal transceiver is a signal transceiving antenna.

Preferably, the first selection switch and the second selection switch are dual-input single-output switches.

Example 1

Before the device debugging work is carried out, a first debugging operator controls a first selection switch to be communicated with a first Bluetooth module for debugging, a second Bluetooth module is debugged by a second controller control selection switch, if the first Bluetooth module and the second Bluetooth module work normally, the device debugging is carried out, if the first Bluetooth module does not work or the second Bluetooth module does not work or the first Bluetooth module and the second Bluetooth module do not work, the first debugging operator controls the first selection switch or the second control module control selection switch to switch the first Bluetooth module which does not work or the second Bluetooth module which does not work to a first standby Bluetooth module or a second standby Bluetooth module for debugging.

Example 2

On the basis of embodiment 1, when the device debugs equipment, the equipment to be debugged is connected to the device through a data selector, and the dial state of the dial switch is 2^MIf 4 devices exist, corresponding to 2-bit dialing, the dialing states are 00, 01, 10 and 11, each dialing state corresponds to a device to be debugged, for example, when the device 1 is debugged, the dialing state is 00, the debugging operator sends an instruction to the controller according to the dialing state to debug the device 1 and the 485 serial port module through the 4-to-1 data selector, and the debugging process is as follows:

(1) the debugging operator sends a parameter extraction signal to the device 1, the signal is input into a first Bluetooth module or a first standby Bluetooth module through a USB serial port module, the signal is processed by the first Bluetooth module or the first standby Bluetooth module, the signal is received by a signal transceiver and sent to a second Bluetooth module or a second standby Bluetooth module, and the signal is processed by the second Bluetooth module or the second standby Bluetooth module and then input into the device 1 through a 485 serial port module;

(2) the device 1 sends a parameter signal to the debugging operator after receiving a parameter extraction signal, the signal is input into a second Bluetooth module or a second standby Bluetooth module through a 485 serial port module, the signal is output to a first Bluetooth module or a first standby Bluetooth module after being processed by the second Bluetooth module or the second standby Bluetooth module and received by a signal transceiver, and the signal is input into the debugging operator through a USB serial port module after being processed by the first Bluetooth module or the first standby Bluetooth module;

(3) the debugging operator receives the parameter signal and then carries out analysis processing, and the operations of the operations (1) and (2) can be repeated to the equipment 1 to check the debugging result.

Example 3

If a plurality of devices are debugged, on the basis of embodiment 2, the debugging operator controls the data selector to switch on the devices according to the dial-up state, and debugs the plurality of devices in sequence.

Example 4

On the basis of the embodiment 1-3, the device further comprises a power supply module, wherein the power supply module comprises a power supply module and a low-pass filter, the power supply module is connected with the control module through the low-pass filter, and the low-pass filter can reduce the interference of high-frequency signals in the power supply module on the Bluetooth module.

The device can be simultaneously connected with a plurality of devices to be debugged through the data selector, and the debugging operator sequentially debugs the devices through the dial-up state of the dial-up switch, so that the debugging efficiency is improved.

And before carrying out the equipment debugging, debugging operation ware and controller debug bluetooth module in proper order, if detect that bluetooth module is out of work then control change over switch and launch reserve bluetooth module and carry out the equipment debugging, can effectual prevention can't carry out the problem of equipment debugging.

Claims (7)

1. A device debugging device based on Bluetooth communication is characterized by comprising an operation end Bluetooth communication module, a device end Bluetooth communication module and a power supply module;

the operating end Bluetooth communication module comprises a dial switch, a USB serial port module, a Bluetooth module I, a standby Bluetooth module I and a first selection switch, one end of the USB serial port module is connected with a debugging operator, the other end of the USB serial port module is connected with one end of the first selection switch, the debugging operator is connected with the dial switch, the Bluetooth module I and the standby Bluetooth module I are respectively connected with the other end of the first selection switch, the first selection switch is in control connection with the debugging operator, and signals transmitted by the Bluetooth module I and the standby Bluetooth module I are transmitted to the equipment end Bluetooth communication module through a signal transceiver;

the device end Bluetooth communication module comprises a data selector, a second selector switch, a 485 serial port module, a controller, a second Bluetooth module and a second standby Bluetooth module, wherein one end of the data selector is connected with one or more devices to be debugged, the other end of the data selector is connected with one end of the 485 serial port module, the other end of the 485 serial port module is connected with one end of the second selector switch, the other end of the second selector switch is connected with the second Bluetooth module and the second standby Bluetooth module, the second selector switch and the data selector are in control connection with the controller, and signals transmitted by the second Bluetooth module and the second standby Bluetooth module are transmitted to the device end Bluetooth communication module through a signal transceiver;

the power supply module comprises a power supply module and a low-pass filter, and the power supply module is connected with the controller through the low-pass filter.

2. The device commissioning apparatus according to claim 1, wherein the commissioning operator is connected to a controller.

3. The device debugging apparatus based on Bluetooth communication of claim 2, wherein the controller is an STM32 series single chip microcomputer.

4. The device debugging apparatus according to claim 1, wherein the dial switch has an M-bit dial, and the data selector is an N-to-1 data selector.

5. The device commissioning apparatus according to claim 1, wherein said first bluetooth module, said second bluetooth module, said first standby bluetooth module, and said second standby bluetooth module are all FSC-BT630 BLE 5.0 modules.

6. The device commissioning apparatus according to claim 1, wherein the signal transceiver is a signal transceiver antenna.

7. The device debugging device according to claim 1, wherein the first selection switch and the second selection switch are dual-input single-output switches.

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