CN205354468U - Sensor network teaching experiment board - Google Patents

Abstract

The utility model provides a sensor network teaching experiment board, the brassboard contains: processing module, sensor module and storage module, sensor module with storage module respectively with processing module links to each other, wherein, sensor module contains the motion and trails unit, atmospheric pressure sensing unit and air temperature and humidity sensing unit for gather environmental data and through saving to storage module, atmospheric pressure sensor is arranged in gathering the atmospheric pressure data of environment, the motion is trailed the module and is used for gathering motion information, the air temperature and humidity sensor is arranged in gathering the temperature and the humidity data of environment, processing module is used for handling environmental data. Through the effectual quality that improves the sensor network teaching of this brassboard.

Description

Sensor network teaching experiment board

Technical field

This utility model relates to teaching and experiment equipment equipment design and development, refers in particular to a kind of sensor network teaching experiment board for sensor network experimental teaching.

Background technology

Sensor network is one of most important content of courses of technology of Internet of things course, relate to sensor technology, computer technology (embedded system), the network communications technology etc., it is the highly integrated of multiple technologies, is emphasis and the difficult point of technology of Internet of things course learning.Lecture and when learning these contents, it is desirable to teaching method be that theory study combines with operating practice.Teacher explains and sets forth correlation theory by lecture experiment, and student is further appreciated by relevant knowledge by experiment and technical ability is put into practice in grasp.Therefore, in education activities, have the teaching instrument and equipment that framework is clear, systemic by force, be easy and fast to left-hand seat and use, most important to improving the quality of teaching.

Sensor network teaching equipment that is available for purchase in the market and that use, or function singleness, it is impossible to support to cover the experiment of sensor network whole instruction；Or the function of design is large and complete, and study and grasp to equipment itself are accomplished by spending substantial amounts of time and efforts.

Utility model content

For the problems referred to above, this utility model purpose is in that to propose a kind of sensor network teaching experiment board, for the sensor network experimental teaching of technology of Internet of things course.This brassboard according to sensor network perception, transmission, Information application architecture design, the experiments such as embedded systemic software development related experiment, sensor senses experiment, On-off signal output experiment, wired networking and wireless networking communication can be completed, be provided simultaneously with being prone to the feature that left-hand seat uses.

For reaching above-mentioned purpose, sensor network teaching experiment board provided by the utility model specifically comprises: processing module, sensor assembly and memory module；Described sensor assembly is connected with described processing module respectively with described memory module；Wherein, described sensor assembly comprises motion tracking unit, atmospheric pressure sensing unit and aerial temperature and humidity sensing unit, is used for gathering environmental data and by storing to memory module；Described barometric pressure sensor is for gathering the barometric pressure data in environment；Described motion tracking module is used for gathering movable information；Described aerial temperature and humidity sensor is used for the temperature and the humidity data that gather in environment；Described processing module is used for processing described environmental data.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises real-time clock (RTC) module, and described real-time clock (RTC) module is connected with described processing module, for providing benchmark real-time clock for described brassboard.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises digital driver plate, and described digital driver plate is connected with described processing module, for selecting to arrange the mode of operation of described brassboard.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises supply module, and described supply module is connected with described processing module, for powering for described brassboard.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises switching input module, and described switching input module is connected with described processing module, for providing the input channel of the on-off model of described brassboard.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises switching value output module, and described switching value output module is connected with described processing module, for providing the output channel of the on-off model of described brassboard.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises LED light, and described LED light is connected with described processing module, it is used for showing described brassboard duty.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises communication interface, and described communication interface is connected with described processing module, for providing the communication connection of described brassboard and external equipment.

In the sensor Web-based instruction brassboard, it is preferred that described communication interface comprises RS485 interface, Ethernet interface, USB interface and wireless communication module.

In the sensor Web-based instruction brassboard, it is preferred that described brassboard also comprises program debugging interface, and described program debugging interface is connected with described processing module.

Advantageous Effects of the present utility model is in that: by the enforcement of a kind of sensor network teaching experiment board of this utility model, provide, for sensor network experimental teaching, the teaching instrument and equipment that a kind of framework is clear, systemic by force, be easy and fast to left-hand seat and use.This brassboard according to perception, transmission, Information application architecture design, the experiments such as the experiment of embedded systemic software development related experiment, sensor senses, On-off signal output experiment, wired networking and wireless networking communication can be supported, it is provided simultaneously with being prone to the feature that left-hand seat uses, provides teaching means to improving sensor network quality of instruction.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by of the present utility model, constitutes the part of the application, is not intended that restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the composition structural representation of the sensor network teaching experiment board of this utility model one embodiment.

Fig. 2 is the pcb board schematic layout pattern of the sensor network teaching experiment board of this utility model one embodiment.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearly understand, below in conjunction with embodiment and accompanying drawing, this utility model is described in further details.At this, schematic description and description of the present utility model is used for explaining this utility model, but is not intended as restriction of the present utility model.

Refer to shown in Fig. 1, sensor network teaching experiment board provided by the utility model specifically comprises: processing module, sensor assembly and memory module；Described sensor assembly is connected with described processing module respectively with described memory module；Wherein, described sensor assembly comprises motion tracking unit, atmospheric pressure sensing unit and aerial temperature and humidity sensing unit, is used for gathering environmental data and by storing to memory module；Described barometric pressure sensor is for gathering the barometric pressure data in environment；Described motion tracking module is used for gathering movable information；Described aerial temperature and humidity sensor is used for the temperature and the humidity data that gather in environment；Described processing module is used for processing described environmental data.

Certainly what deserves to be explained is, described sensor assembly is not restricted to above-mentioned motion tracking unit, atmospheric pressure sensing unit and aerial temperature and humidity sensing unit, in real work, can increasing or reduce corresponding sensing unit as required to coordinate field research needs, this utility model is not any limitation as at this.

In this utility model one preferred embodiment, described brassboard also can comprise real-time clock (RTC) module, digital driver plate, supply module, and described real-time clock (RTC) module is connected with described processing module, for providing benchmark real-time clock for described brassboard；Described digital driver plate is connected with described processing module, for selecting to arrange the mode of operation of described brassboard；Described supply module is connected with described processing module, for powering for described brassboard.

In the above-described embodiments, described brassboard also can comprise switching input module and switching value output module, and described switching input module is connected with described processing module, for providing the input channel of the on-off model of described brassboard；Described switching value output module is connected with described processing module, for providing the output channel of the on-off model of described brassboard.

In the above-described embodiments, described brassboard also can comprise LED light, and described LED light is connected with described processing module, is used for showing described brassboard duty.The different indication signals that described LED light is exported by described processing module, send different instruction optical signal, point out the relevant operating conditions of this brassboard of user with this.

In this utility model one preferred embodiment, described brassboard also can comprise communication interface, and described communication interface is connected with described processing module, for providing the communication connection of described brassboard and external equipment；Wherein, described communication interface can comprise RS485 interface, Ethernet interface, USB interface and wireless communication module.

In the above-described embodiments, described brassboard also comprises program debugging interface, and described program debugging interface is connected with described processing module, is used for making external equipment pass through processing module described in this program debugging interface debugging.

For clearer explanation described sensor network teaching experiment board provided by the utility model, for Fig. 1, the sensor network teaching experiment board that the utility model proposes is described further below, in real work, described brassboard comprises the steps that processing module 11, FLASH memory 12, real-time clock (RTC) module 13,8 Digital sum driver plate 14,5V supply module 15, sensor assembly 16, switching input module 17, switching value output module 18, LED light 19, RS485 interface 20, Ethernet interface 21 and USB interface 22 and wireless communication module 23.Wherein FLASH memory 12, real-time clock (RTC) module 13,8 Digital sum driver plate 14,5V supply module 15, sensor assembly 16, switching input module 17, switching value output module 18, LED light 19, RS485 interface 20, Ethernet interface 21 and USB interface 22 and wireless communication module 23 electrically connect with processing module 11.

Sensor assembly 16 can include motion tracking module 161, barometric pressure sensor 162 and aerial temperature and humidity sensor 163, wherein: motion tracking module 161 is used for gathering advanced motion information, stores to FLASH memory 12；Barometric pressure sensor 162, for gathering the atmospheric pressure in environment, generates pressure information, stores to FLASH memory 12；Aerial temperature and humidity sensor 163, is used for the temperature and the humidity that gather in environment, generates temperature and humidity information, store to FLASH memory 12；Processing module 11 is the core of brassboard, controls for information gathering, process, storage, communication and LED light 19 display etc..

Described brassboard is additionally provided with real-time clock (RTC) module 13,8 Digital sum driver plate 14,5V supply module 15, switching input module 17, switching value output module 18, LED light 19, jtag interface 10, RS485 interface 20, Ethernet interface 21, USB interface 22 and wireless communication module 23, and above-mentioned module is all connected to described processing module 11；Described real-time clock (RTC) module 13, for providing benchmark real-time clock for brassboard；Described 8 Digital sum driver plates 14 are for selecting to arrange for brassboard mode of operation；Described 5V supply module 15 is for powering for described brassboard；Described switching input module 17 and described switching value output module 18 are for providing the I/O channel of the on-off model of described brassboard；Described LED light 19 is used for indicating brassboard duty；Described jtag interface 10 is used for providing brassboard program debugging interface；Thereafter described RS485 interface 20, Ethernet interface 21, USB interface 22 and wireless communication module 23 then carry out the connected network communication interface of wired or wireless mode for brassboard and other smart machine.

The pcb board schematic layout pattern of sensor network teaching experiment board as shown in Figure 2, in conjunction with Fig. 1, designating the pcb board plane figure of each element of brassboard, wherein brassboard is additionally provided with on and off switch 25 and radio communication switch 24, and described wireless switching 24 is used for opening or closing wireless communication module.

By the enforcement of a kind of sensor network teaching experiment board of this utility model, provide, for sensor network experimental teaching, the teaching instrument and equipment that a kind of framework is clear, systemic by force, be easy and fast to left-hand seat and use.This brassboard according to perception, transmission, Information application architecture design, the experiments such as the experiment of embedded systemic software development related experiment, sensor senses, On-off signal output experiment, wired networking and wireless networking communication can be supported, it is provided simultaneously with being prone to the feature that left-hand seat uses, provides teaching means to improving sensor network quality of instruction.

Particular embodiments described above; the purpose of this utility model, technical scheme and beneficial effect have been further described; it is it should be understood that; the foregoing is only specific embodiment of the utility model; it is not used to limit protection domain of the present utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (10)

1. a sensor network teaching experiment board, it is characterised in that described brassboard comprises: processing module, sensor assembly and memory module；

Described sensor assembly is connected with described processing module respectively with described memory module；

Wherein, described sensor assembly comprises motion tracking unit, atmospheric pressure sensing unit and aerial temperature and humidity sensing unit, is used for gathering environmental data and by storing to memory module；

Described barometric pressure sensor is for gathering the barometric pressure data in environment；

Described motion tracking module is used for gathering movable information；

Described aerial temperature and humidity sensor is used for the temperature and the humidity data that gather in environment；

Described processing module is used for processing described environmental data.

2. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises real-time clock (RTC) module, and described real-time clock (RTC) module is connected with described processing module, for providing benchmark real-time clock for described brassboard.

3. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises digital driver plate, and described digital driver plate is connected with described processing module, for selecting to arrange the mode of operation of described brassboard.

4. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises supply module, and described supply module is connected with described processing module, for powering for described brassboard.

5. sensor network teaching experiment board according to claim 1, it is characterized in that, described brassboard also comprises switching input module, and described switching input module is connected with described processing module, for providing the input channel of the on-off model of described brassboard.

6. sensor network teaching experiment board according to claim 1, it is characterized in that, described brassboard also comprises switching value output module, and described switching value output module is connected with described processing module, for providing the output channel of the on-off model of described brassboard.

7. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises LED light, and described LED light is connected with described processing module, is used for showing described brassboard duty.

8. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises communication interface, and described communication interface is connected with described processing module, for providing the communication connection of described brassboard and external equipment.

9. sensor network teaching experiment board according to claim 8, it is characterised in that described communication interface comprises RS485 interface, Ethernet interface, USB interface and wireless communication module.

10. sensor network teaching experiment board according to claim 1, it is characterised in that described brassboard also comprises program debugging interface, and described program debugging interface is connected with described processing module.