CN210893235U - Multifunctional interactive environment detection analyzer - Google Patents

Multifunctional interactive environment detection analyzer Download PDF

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Publication number
CN210893235U
CN210893235U CN201922043774.3U CN201922043774U CN210893235U CN 210893235 U CN210893235 U CN 210893235U CN 201922043774 U CN201922043774 U CN 201922043774U CN 210893235 U CN210893235 U CN 210893235U
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China
Prior art keywords
arduino mega2560
board
arduino
lcd12864b
gnd
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Expired - Fee Related
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CN201922043774.3U
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Chinese (zh)
Inventor
孟祉含
王悦宁
绳熠辰
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Beijing Economic And Technological Development Zone School
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Beijing Economic And Technological Development Zone School
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Abstract

The utility model belongs to the environment detects the field, concretely relates to multi-functional interactive environment detection analysis appearance, a serial communication port, include: the temperature and humidity sensor is connected with the controller; a controller, wherein the controller is an Arduino Mega2560 board; the dust sensor is GP2Y1014AU0F, the V-LED end of GP2Y1014AU0F is respectively connected with one end of a sixth resistor and one end of a first capacitor, the other end of the sixth resistor is connected with the 5V end of an Arduino Mega2560 plate, the LED-GND end of GP2Y1014AU0F is respectively connected with the other end of the first capacitor and the GND end of the Arduino Mega2560 plate, and other parts are connected; the utility model discloses the device is interactive, can continuously detect, pass and survey reliably, the circuit is simple.

Description

Multifunctional interactive environment detection analyzer
Technical Field
The utility model belongs to the environment detects the field, concretely relates to multi-functional interactive environment detection analysis appearance.
Background
Along with the progress of science and technology, people's standard of living can improve, also leads to people to promote by a wide margin the demand of the energy simultaneously, and the large amount of consumptions of the energy will certainly lead to the fact the pollution to the air, and the harmful substance in the real-time supervision air is favorable to preventing that air pollution from causing the harm to the human body. The existing environment monitor has a single function, detects a certain parameter, such as temperature and humidity in the environment, and is mostly simple and has temperature change and moisture absorption, such as a hygrometer or a mercury thermometer; the environment parameters are diversified, only single parameters of the environment are monitored, the monitoring result is not accurate, the environment condition cannot be comprehensively known, and the harm to the human body caused by air pollution is avoided. Environmental monitoring is an important basis for environmental protection and management work, and with rapid development of economy, more and more people begin to concern about the quality of the environment. Therefore, a set of multifunctional interactive environment detection analyzer is designed to monitor the working and living environment continuously and effectively for a long time. In addition, the temperature and the humidity of the environment are collected and transmitted to the hands of the user through the communication module through data, so that the user can know the environmental parameters conveniently and wear the clothes conveniently.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides an interactive, continuously detect, pass and survey reliable, the simple multi-functional interactive environment detection analysis appearance of circuit.
The technical scheme of the utility model is that:
a multi-functional interactive environmental detection analyzer, comprising:
the temperature and humidity sensor is connected with the controller;
a controller, wherein the controller is an Arduino Mega2560 board;
the dust sensor is GP2Y1014AU0F, the V-LED end of GP2Y1014AU0F is respectively connected with one end of a sixth resistor and one end of a first capacitor, the other end of the sixth resistor is connected with the 5V end of an Arduino Mega2560 board, the LED-GND end of GP2Y1014AU0F is respectively connected with the other end of the first capacitor and the GND end of the Arduino Mega2560 board, the LED end of GP2Y1014AU0F is connected with the 19 end of the Arduino Mega2560 board, the S-GND end of GP2Y AU 1014 0F is connected with the GND end of the Arduino Mega2560 board, the Vo end of GP2Y1014AU0F is connected with the A10 end of the Arduino Mega 60 board, and the VCC end of GP2Y1014AU0F is connected with the 5V end of the Arduino Mega2560 board;
the display screen is an LCD12864B, a DB7 end of the LCD12864B is connected with an 11 end of an Arduino Mega2560 board, a DB6 end of the LCD 128B is connected with a10 end of the Arduino Mega2560 board, a DB5 end of the LCD12864B is connected with a 9 end of the Arduino Mega2560 board, a DB4 end of the LCD12864B is connected with an 8 end of the Arduino Mega2560 board, a DB3 end of the LCD12864B is connected with a 7 end of the Arduino Mega2560 board, a DB2 end of the LCD12864 2 is connected with a 6 end of the Arduino Mega2560 board, a DB2 end of the LCD12864 2 is connected with a 5 end of the Arduino Mega2560 board, a DB2 end of the LCD 1283672 is connected with a4 end of the Arduino Mega2560 board, a DB 12872 end of the LCD 12872 is connected with a CS 12872 end of the Arduino Mega2560 board, a end of the LCD 12872 is connected with a LCD 12872A end of the Arduino Mega2560 board, and the LCD 12872A end of the Arduino Mega2560 board.
Further, the VDD terminal of the LCD12864B is connected with the LEDA terminal of the LCD12864B and the 5V terminal of the Arduino Mega2560 board; the VSS terminal of the LCD12864B is connected to the LEDK terminal of the LCD12864B and then connected to one terminal of the first sliding resistor, and the VSS terminal of the LCD12864B is connected to the GND terminal of the Arduino Mega2560 board; the VO terminal of the LCD12864B is connected to the Vout terminal of the LCD12864B and then to the first sliding varistor slider; the RST terminal of the LCD12864B is connected to the other end of the first sliding varistor.
Furthermore, the temperature and humidity sensor is DHT11, a VDD end of the DHT11 and one end of the second resistor are respectively connected with a 5V end of the Arduino Mega2560 plate, a DATA end of the DHT11 and the other end of the second resistor are respectively connected with a 12 end of the Arduino Mega2560 plate, and a GND end of the DHT11 is connected with the ground.
Furthermore, the decibel sensor is connected with the controller, the sensors are respectively RT-ZS-BZ-485, the VCC end of RT-ZS-BZ-485 is connected with the 5V end of the Arduino Mega2560 plate, the TDX end of RT-ZS-BZ-485 is connected with the 15 end of the Arduino Mega2560 plate, the RXD end of RT-ZS-BZ-485 is connected with the 16 end of the Arduino Mega2560 plate, the A0 end of RT-ZS-BZ-485 is connected with the A8 end of the Arduino Mega2560 plate, and the GND end of RT-ZS-BZ-485 is connected with the GND end of the Arduino Mega2560 plate.
Further, communication module links to each other with the controller, communication module is MAX485, MAX 485's R0 end links to each other with arduinoo Mega2560 board 17 end, MAX 485's DI end links to each other with Arduino Mega2560 board 18 end, Arduino Mega2560 board 2 end links to each other with third resistance one end, the third resistance other end links to each other with the base of first triode, the projecting pole of first triode respectively with fourth resistance one end, MAX 485's RE end, MAX 485's DE end links to each other, fourth resistance other end ground connection, MAX's VCC end, the collecting electrode of first triode links to each other with Arduino Mega2560 board 5V end respectively, MAX's GND end ground, MAX 485's A end links to each other with the corresponding one end of host computer, MAX 485's B end links to each other with the corresponding one end of host computer.
The utility model has the advantages that:
the utility model provides a circuit and multi-functional interactive environment detection analysis appearance adopt interactive, multi-parameter to last detection transmission circuit structure, and the person of facilitating the use is directly perceived to environmental parameter's grasp, and also the person of facilitating the use is to dressing the adaptation of waiting adjustment in order to the environment. The device provided by the utility model can use places such as school, hospital, and the range of application is extensive.
Drawings
Fig. 1 is a controller of the present invention;
FIG. 2 is a display screen of the present invention;
fig. 3 is a temperature and humidity sensor of the present invention;
fig. 4 is a communication module of the present invention;
fig. 5 is a dust sensor of the present invention;
fig. 6 is a decibel sensor according to the present invention.
Detailed Description
The invention will be further described with reference to the accompanying figures 1-6.
As shown in FIG. 1, the controller is an Arduino Mega2560 board. The Arduino Mega2560 board adopts a core circuit board of a USB interface, the core of the processor is ATmega2560, 54 paths of digital input and output, 16 paths of PWM output, 16 paths of analog input, 4 paths of UART interfaces, a 16MHz crystal oscillator, a USB port, a power socket and a RESET button RESET.
As shown in fig. 2, the display screen is LCD12864B, DB7 of LCD12864B is connected to the 11 end of the Arduino Mega2560 board, DB6 of LCD12864B is connected to the 10 end of the Arduino Mega2560 board, DB5 of LCD12864B is connected to the 9 end of the Arduino Mega2560 board, DB5 of LCD12864 5 is connected to the 8 end of the Arduino Mega2560 board, DB5 of LCD12864 5 is connected to the 7 end of the Arduino Mega2560 board, DB5 of LCD 1283672 is connected to the 6 end of the Arduino Mega2560 board, DB5 of LCD12864 5 is connected to the 5 end of the Arduino Mega2560 board, DB5 of LCD 1283672 is connected to the 128a end of the Arduino Mega2560 board, DB5 of LCD 1283672 is connected to the 12860 a end of the Arduino Mega2560 board, LCD 12872 is connected to the rduino 12860 a/12872 of the Arduino 2560 board, LCD 12872 is connected to the Arduino 12860 a/12860 a end of the Arduino 2560 board, LCD 12872 is connected to the Arduino 12860 board 12860, RS end of the Arduino 2560 board 12860, the Arduino 5 is connected to the Arduino 5, the Arduino 5 of the Arduino 12860 board 12860, the Arduino 12860 board 12860 is connected to the Arduino 12860 end of the Arduino 12860, the Arduino 5 is connected to the Arduino terminal of; the VSS end of the LCD12864B is connected with the LEDK end of the LCD12864B and then connected with one end of the first slide rheostat, and the VSS end of the LCD12864B is connected with the GND end of the ArduinoMega2560 board; the VO terminal of the LCD12864B is connected to the Vout terminal of the LCD12864B and then to the first sliding varistor slider; the RST terminal of the LCD12864B is connected to the other end of the first sliding varistor.
As shown in fig. 3, the temperature and humidity sensor is DHT11, the VDD terminal of DHT11 and one end of the second resistor are respectively connected to the 5V terminal of the Arduino Mega2560 board, the DATA terminal of DHT11 and the other end of the second resistor are respectively connected to the 12 terminal of the Arduino Mega2560 board, and the GND terminal of DHT11 is connected to ground.
As shown in fig. 4, the communication module is connected with the controller, the communication module is MAX485, the R0 end of MAX485 is connected with the 17 end of Arduino Mega2560 plate, the DI end of MAX485 is connected with the 18 end of Arduino Mega2560 plate, the 2 end of Arduino Mega2560 plate is connected with one end of a third resistor, the other end of the third resistor is connected with the base of a first triode, the emitter of the first triode is respectively connected with one end of a fourth resistor, the RE end of MAX485, the DE end of MAX485 is connected, the other end of the fourth resistor is grounded, the VCC end of MAX, the collector of the first triode is respectively connected with the 5V end of Arduino Mega2560 plate, the GND end of MAX is grounded, the a end of MAX485 is connected with one end corresponding to the upper computer, the B end of MAX485 is connected with one end corresponding to the upper computer.
As shown in fig. 5, the dust sensor is GP2Y1014AU0F, a V-LED terminal of GP2Y1014AU0F is connected to one terminal of a sixth resistor and one terminal of a first capacitor, respectively, the other terminal of the sixth resistor is connected to a 5V terminal of the Arduino Mega2560 board, an LED-GND terminal of GP2Y1014AU0F is connected to the other terminal of the first capacitor and a GND terminal of the Arduino Mega2560 board, an LED terminal of GP2Y1014AU0F is connected to a 19 terminal of the Arduino Mega2560 board, an S-GND terminal of GP2Y1014AU0F is connected to a GND terminal of the Arduino Mega2560 board, a Vo terminal of GP2Y AU0F is connected to a10 terminal of the Arduino Mega2560 board, and a VCC terminal of GP2Y1014AU0F is connected to a 5V terminal of the Arduino Mega2560 board.
As shown in FIG. 6, the decibel sensors are connected to the controller, the sensors are RT-ZS-BZ-485, the VCC end of RT-ZS-BZ-485 is connected to the 5V end of the Arduino Mega2560 board, the TDX end of RT-ZS-BZ-485 is connected to the 15 end of the Arduino Mega2560 board, the RXD end of RT-ZS-BZ-485 is connected to the 16 end of the Arduino Mega2560 board, the A0 end of RT-ZS-BZ-485 is connected to the A8 end of the Arduino Mega2560 board, and the GND end of RT-ZS-BZ-485 is connected to the GND end of the Arduino Mega2560 board.
The utility model discloses the Arduino Mega2560 board of chooseing for use, LCD12864B, DHT11, MAX485, RT-ZS-BZ-485, GP2Y1014AU0F are the commercial product. The utility model provides a circuit transmission signal is stable, and multi-functional interactive environment detection analysis appearance adopts interactive, multi-parameter to last detection transmission circuit structure, and the person of facilitating the use is directly perceived to environmental parameter's grasp, and also the person of facilitating the use is to wearing adjustment such as dress in order to suit to the environment.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. A multi-functional interactive environmental detection analyzer, comprising:
the temperature and humidity sensor is connected with the controller;
a controller, wherein the controller is an Arduino Mega2560 board;
the dust sensor is GP2Y1014AU0F, the V-LED end of GP2Y1014AU0F is respectively connected with one end of a sixth resistor and one end of a first capacitor, the other end of the sixth resistor is connected with the 5V end of an Arduino Mega2560 board, the LED-GND end of GP2Y1014AU0F is respectively connected with the other end of the first capacitor and the GND end of the Arduino Mega2560 board, the LED end of GP2Y1014AU0F is connected with the 19 end of the Arduino Mega2560 board, the S-GND end of GP2Y AU 1014 0F is connected with the GND end of the Arduino Mega2560 board, the Vo end of GP2Y1014AU0F is connected with the A10 end of the Arduino Mega 60 board, and the VCC end of GP2Y1014AU0F is connected with the 5V end of the Arduino Mega2560 board;
the display screen is an LCD12864B, a DB7 end of the LCD12864B is connected with an 11 end of an Arduino Mega2560 board, a DB6 end of the LCD 128B is connected with a10 end of the Arduino Mega2560 board, a DB5 end of the LCD12864B is connected with a 9 end of the Arduino Mega2560 board, a DB4 end of the LCD12864B is connected with an 8 end of the Arduino Mega2560 board, a DB3 end of the LCD12864B is connected with a 7 end of the Arduino Mega2560 board, a DB2 end of the LCD12864 2 is connected with a 6 end of the Arduino Mega2560 board, a DB2 end of the LCD12864 2 is connected with a 5 end of the Arduino Mega2560 board, a DB2 end of the LCD12864 2 is connected with a4 end of the Arduino Mega2560 board, a DB 12872 end of the LCD 12872 is connected with a CS 12872 end of the Arduino Mega2560 board, a end of the LCD 12872 is connected with a LCD 12872A end of the Arduino Mega2560 board, and the LCD 12872A end of the Arduino Mega2560 board.
2. A multi-functional interactive environmental test analyzer, according to claim 1, wherein: the VDD terminal of the LCD12864B is connected with the LEDA terminal of the LCD12864B and the 5V terminal of the Arduino Mega2560 board; the VSS end of the LCD12864B is connected with the LEDK end of the LCD12864B and then connected with one end of the first slide rheostat, and the VSS end of the LCD12864B is connected with the GND end of the ArduinoMega2560 board; the VO terminal of the LCD12864B is connected to the Vout terminal of the LCD12864B and then to the first sliding varistor slider; the RST terminal of the LCD12864B is connected to the other end of the first sliding varistor.
3. A multi-functional interactive environmental test analyzer, according to claim 1, wherein: the temperature and humidity sensor is DHT11, a VDD end of the DHT11 and one end of the second resistor are respectively connected with a 5V end of the Arduino Mega2560 board, a DATA end of the DHT11 and the other end of the second resistor are respectively connected with a 12 end of the Arduino Mega2560 board, and a GND end of the DHT11 is connected with the ground.
4. A multi-functional interactive environmental test analyzer, according to claim 1, wherein: the decibel sensor is connected with the controller, the sensors are respectively RT-ZS-BZ-485, the VCC end of RT-ZS-BZ-485 is connected with the 5V end of an Arduino Mega2560 plate, the TDX end of RT-ZS-BZ-485 is connected with the 15 end of the Arduino Mega2560 plate, the RXD end of RT-ZS-BZ-485 is connected with the 16 end of the Arduino Mega2560 plate, the A0 end of RT-ZS-BZ-485 is connected with the A8 end of the Arduino Mega2560 plate, and the GND end of RT-ZS-BZ-485 is connected with the GND end of the Arduino Mega2560 plate.
5. A multi-functional interactive environmental test analyzer, according to claim 1, wherein: communication module links to each other with the controller, communication module is MAX485, MAX 485's R0 end links to each other with Arduino Mega2560 board 17 end, MAX 485's DI end links to each other with Arduino Mega2560 board 18 end, Arduino Mega2560 board 2 end links to each other with third resistance one end, the third resistance other end links to each other with the base of first triode, the projecting pole of first triode respectively with fourth resistance one end, MAX 485's RE end, MAX 485's DE end links to each other, fourth resistance other end ground connection, MAX's VCC end, the collecting electrode of first triode links to each other with Arduino Mega2560 board 5V end respectively, MAX's GND end ground, 485 MAX's A end corresponds one end with the host computer and links to each other, MAX 485's B end corresponds one end and links to each other with the host computer.
CN201922043774.3U 2019-11-25 2019-11-25 Multifunctional interactive environment detection analyzer Expired - Fee Related CN210893235U (en)

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Application Number Priority Date Filing Date Title
CN201922043774.3U CN210893235U (en) 2019-11-25 2019-11-25 Multifunctional interactive environment detection analyzer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922043774.3U CN210893235U (en) 2019-11-25 2019-11-25 Multifunctional interactive environment detection analyzer

Publications (1)

Publication Number Publication Date
CN210893235U true CN210893235U (en) 2020-06-30

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ID=71322856

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Application Number Title Priority Date Filing Date
CN201922043774.3U Expired - Fee Related CN210893235U (en) 2019-11-25 2019-11-25 Multifunctional interactive environment detection analyzer

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