CN203387680U - Self-adaptive wireless networking waveform recording system - Google Patents

Abstract

The utility model discloses a self-adaptive wireless networking waveform recording system, comprising a fault waveform recording system and a master control terminal. The fault waveform recording system employs a distributed structure and comprises multiple fault waveform recording devices. The fault waveform recording devices are disposed at acquisition points and each of the fault waveform recording devices is provided with an acquisition unit. Data transmission is conducted among the multiple fault waveform recording devices by employing a Wi-Fi wireless communication mode. The master control terminal is provided with a Wi-Fi wireless communication device. Data transmission is also conducted between the fault waveform recording devices and the master control terminal by employing the Wi-Fi wireless communication mode. Each of the fault waveform recording devices is internally provided with a power supply. The fault waveform recording devices employing the distributed structure are greatly improved in acquisition scope and flexibility thereof. The Wi-Fi wireless communication is employed during the communication among the fault waveform recording devices and the communication between the fault waveform recording devices and the master control terminal, so that the complexity of wiring among multiple devices is simplified and the convenience and reliability are realized.

Description

Adaptive wireless networking waveform recording system

Technical field

The utility model relates to a kind of adaptive wireless networking waveform recording system.

Background technology

In prior art, fault wave recording device is generally single device and independently records ripple, while in practical application, carrying out failure wave-recording, fault wave recording device often need to connect longer measurement circuitry to the measurement point of screen cabinet, even there will be and causes the problem that can't work because measurement circuitry is long.When host computer carries out failure wave-recording active configuration and recorded wave file analysis, the mode that netting twine commonly used connects is carried out communication, equally also can increase complexity and the limitation of operation.Aspect power supply, fault wave recording device often adopts the externally fed mode, convenient not.

The utility model content

The deficiency existed for solving prior art, the utility model discloses a kind of adaptive wireless networking waveform recording system, between fault wave recording device and fault wave recording device while communicating by letter with main control terminal, adopt the Wi-Fi wireless communication technology to simplify the complexity of line between multiple devices, convenient reliably

For achieving the above object, concrete scheme of the present utility model is as follows:

A kind of adaptive wireless networking waveform recording system, comprise fault recording system and main control terminal, described fault recording system adopts distributed frame, fault recording system comprises many fault wave recording devices, fault wave recording device is placed on collection point, and every fault wave recording device includes collecting unit;

Described fault wave recording device and main control terminal adopt Wi-Fi communication transfer of data.

The Wi-Fi communication transfer of data adopted between described many fault wave recording devices.

Described main control terminal is provided with the Wi-Fi radio communication device.

Described fault wave recording device inside is provided with power supply.

Fault wave recording device adopts distributed frame, many fault wave recording devices are by the collaborative work of Wi-Fi communication, the host computer main control terminal is by image data that in Wi-Fi radio communication device centralized processing system, every table apparatus gets analyzing and processing in addition, and the every table apparatus in system is controlled and parameter tuning.

The beneficial effects of the utility model:

1. distributed capture

Fault wave recording device adopts distributed frame, fault wave recording device can be placed on collection point nearby, namely shield cabinet near, every fault wave recording device sends to main control terminal (PC, possess the communication terminal of Wi-Fi communication function) by data after by the communication networking and focuses on and analyze data.The fault wave recording device of relatively independent operation, the fault wave recording device that gathers distributed frame has increased acquisition range and the flexibility of device greatly.

2. wireless transmission

Between fault wave recording device and fault wave recording device while communicating by letter with main control terminal, adopt the Wi-Fi radio communication to simplify the complexity of line between multiple devices, convenient reliably.

3. long-acting power supply

Fault wave recording device adopts in-line power, and not needing provides external power source near measured point, has further simplified the requirement to test environment.

The accompanying drawing explanation

Fig. 1, structural representation of the present utility model;

In figure, 1Wi-Fi radio communication device, 2 main control terminal, 3 fault recording systems, 4 fault wave recording devices.

Embodiment:

Below in conjunction with accompanying drawing, the utility model is elaborated:

As shown in Figure 1, a kind of adaptive wireless networking waveform recording system, comprise fault recording system 3 and main control terminal 2, described fault recording system 3 adopts distributed frame, fault recording system 3 comprises many fault wave recording devices 4, fault wave recording device 4 is placed on collection point, and every fault wave recording device 4 includes collecting unit.

The Wi-Fi communication transfer of data adopted between many fault wave recording devices 4.

Main control terminal 2 is provided with the Wi-Fi radio communication device.

Fault wave recording device 4 adopts Wi-Fi communication transfer of data with main control terminal 2.

Fault wave recording device 4 inside are provided with power supply.

Fault wave recording device 4 adopts distributed frame, many fault wave recording devices 4 are by the collaborative work of Wi-Fi communication, host computer main control terminal 2 focuses in fault recording system 3 image data that every fault wave recording device 4 gets analyzing and processing in addition by Wi-Fi radio communication device 1, and every the fault wave recording device 4 in fault recording system 3 is controlled and parameter tuning.

Main control terminal 2 comprises that PC, communication terminal etc. possess the equipment of Wi-Fi transfer function.

Many fault wave recording devices 4 are sent to main control terminal 2 by communication by the data of collection.The parameter that simultaneously main control terminal 2 can need to arrange it sends on wherein fault wave recording device 4 of fault recording system 3 by wireless transmission, simultaneous faults wave recording device 4 other collecting unit in parameter is distributed to system, realize the synchronism of fault wave recording device 4 work.

Collecting unit is selected and is supported that the PCI high speed acquisition board card of dma mode is gathered, and assurance can capture the temporal variations of various moments.

Claims (4)

1. an adaptive wireless networking waveform recording system, it is characterized in that, comprise fault recording system and main control terminal, described fault recording system adopts distributed frame, fault recording system comprises many fault wave recording devices, fault wave recording device is placed on collection point, and every fault wave recording device includes collecting unit;

Described fault wave recording device and main control terminal adopt Wi-Fi communication transfer of data.

2. a kind of adaptive wireless networking waveform recording system as claimed in claim 1, is characterized in that the Wi-Fi communication transfer of data adopted between described many fault wave recording devices.

3. a kind of adaptive wireless networking waveform recording system as claimed in claim 1, is characterized in that, described main control terminal is provided with the Wi-Fi radio communication device.

4. a kind of adaptive wireless networking waveform recording system as claimed in claim 1, is characterized in that, described fault wave recording device inside is provided with power supply.

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