Shandong Fengtu IOT Technology Co., Ltd
Sales Manager:Ms. Emily Wang
Cel,Whatsapp,Wechat:+86 15898932201
Email:info@fengtutec.com
Add:No. 155 Optoelectronic Industry Accelerator, Gaoxin District, Weifang, Shandong, China
Sales Manager:Ms. Emily Wang
Cel,Whatsapp,Wechat:+86 15898932201
Email:info@fengtutec.com
Add:No. 155 Optoelectronic Industry Accelerator, Gaoxin District, Weifang, Shandong, China
Model:FT-GSZ9
Brand:fengtu
1.Online Turbidity Monitor Product Introduction
Online Turbidity Monitor can monitor turbidity, which is generally used in waterworks, sewage plants, channels, water conservancy facilities, flood control monitoring, pools and other places.
1.1 Overview
The GSZ9 water supply quality station is a comprehensive sensor collection, display and analysis system based on the Internet of Things technology. It is a water supply quality monitoring microsystem, consisting of a steady flow exhaust unit, an analysis and testing unit, a system control unit and a remote communication unit, and has complete power supply, lightning protection, network communication and other functions.
1.2 Product Positioning
GSZ9 This equipment is used in water supply terminal <0.3Mpa pipe pressure environment. It can be widely used in urban or rural water plants, water supply networks, secondary water supply, user terminals, indoor swimming pools, large water purification equipment and direct drinking water and other water quality online monitoring. It is an indispensable online analysis equipment in the fields of water plant production process control, water conservancy and water affairs management, health supervision, etc.
1.3 Functions and Features
GPRS network 4G
Support extended RJ45 networking
Support extended sensor remote transmission
Support LED screen display 7.0 inch touch control screen
Supports extended Android screen display and storage
Expanded Android screen supports 2G data storage and USB flash drive data export
Support one RS485 modbus-RTU protocol slave
Support multi-channel RS485 modbus-RTU sensor expansion
Supporting IoT data display, storage and analysis platform
The platform supports TCP short link, HTTP protocol and other protocol data forwarding
2. Online Turbidity Monitor Composition
2.1 Components
The water supply quality monitoring microsystem consists of a power supply unit, an analysis and testing unit, a display unit, a water pump unit, a remote communication unit and an integrated box main unit.
2.1.1 Power supply unit
Power adapter AC220 to DC12V/3A.
2.1.2 Analysis and testing unit
The analytical test unit mainly monitors turbidity and is fixed to the flow cell by threads or tight fittings. The main parameters of the sensor are as follows:
Technical Parameters
Serial number | Sensor Type | Measuring range | Measuring principle | Measurement accuracy |
1 | Turbidity | 0~40NTU | Scattered light method | ±1% |
Note: The sensor cannot be installed upside down or horizontally, but must be installed at an angle of at least 15 degrees.
The working environment of the above water quality sensors is 0-50℃, <0.3Mpa.
2.1.3 Display unit
The multi-parameter monitor is installed on the cabinet door to collect, analyze, display, communicate and save data.
Android version: 4.4.2 · CPU: Quad-core Cortex™-A7 · RAM/ROM: 512M/4G · Screen: 7-inch capacitive touch screen · Power supply: 12V/1A · Support U disk expansion, support memory card expansion
2.1.4 Remote Communication
RS485 interface MODBUS-RTU communication protocol Factory device address 6 decimal Support 03 function code to read data
parameter | Decimal address | Hexadecimal address | Data Types |
Parameter 1 | 40001 | 0x0000H | 16-bit integer |
Parameter 2 | 40002 | 0x0001H | 16-bit integer |
Parameter 3 | 40003 | 0x0002H | 16-bit integer |
Parameter 4 | 40004 | 0x0003H | 16-bit integer |
Parameter 5 | 40005 | 0x0004H | 16-bit integer |
Parameter 6 | 40006 | 0x0004H | 16-bit integer |
Sort by order
2.1.5 Equipment box main unit
Product Name | GZ |
Installation | The cabinet is installed on the ground, with a base. |
Dimensions | 600X500X250mm |
Shell material | 304 stainless steel. |
Protection level | IP54 |
powered by | AC220V; internal power adapter AC220 to DC12V/3A |
Water Inlet | 2-point water purifier PE pipe with an outer diameter of φ6.5, flow rate 500mL/min, pressure 0.1-0.2MPa |
Water outlet | 2-point water purifier PE pipe with an outer diameter of φ6.5, flow rate 400mL/min |
Sewage outlet | 2-point water purifier PE pipe with an outer diameter of φ6.5, flow rate 100mL/min (manual regular drainage is also possible) |
Supporting sensor (optional) |
PH: 0-14 Dissolved oxygen: 0-20mg/L Turbidity: 0-40NTU Conductivity: 0-5000us/cm Temperature: 0°C ~ 50°C |
3. Online Turbidity Monitor Product Dimensions
Online Turbidity Monitor front view
Online Turbidity Monitor side view
4. Online Turbidity Monitor Equipment Installation
Equipment overall picture
Schematic diagram of the internal measurement unit
5. Online Turbidity Monitor Maintenance
When using for the first time or after a long period of disuse,
The pH sensitive bulb and reference junction should be immersed in 3.3 mol/L KCl solution for more than 2 hours.
When using, it should be washed with deionized water (or distilled water) and wiped dry to prevent impurities from entering the measured liquid. 1/3 of the sensor should be inserted into the measured liquid. The terminal part should be kept clean and dry. The sensor should be cleaned when not in use, and inserted into a protective cover with 3.3mol/L KCI solution, or the sensor should be inserted into a container with 3.3mol/L KCI solution. Check whether the terminal is dry. If there are stains, please wipe it with anhydrous alcohol and continue to use it after drying. The sensor should avoid being immersed in deionized water, protein solution, strong acid and alkali solution, and acid fluoride solution for a long time, and prevent contact with silicone grease. The glass membrane of the sensor that has been used for a long time may become translucent or have sediment. At this time, it can be washed with dilute hydrochloric acid and rinsed with water. When the sensor has been used for a long time and measurement errors occur, it can be calibrated and corrected by cooperating with the instrument. When the sensor cannot be calibrated and measured after the above methods are maintained and maintained, it means that the sensor has failed. Please replace the sensor.
Conventional conductivity electrodes need to be cleaned and calibrated periodically. The maintenance cycle is determined by the customer based on their working conditions. Conventional electrode cleaning method: Use a soft brush to remove attachments (be careful to avoid scratching the electrode surface), then clean with distilled water, and then perform calibration operations.
The ORP sensitive bulb and reference junction should be immersed in 3.3 mol/L KCl solution for more than 2 hours.
When using, it should be washed with deionized water (or distilled water) and wiped dry to prevent impurities from entering the measured liquid. 1/3 of the sensor should be inserted into the measured liquid. The terminal part should be kept clean and dry. The sensor should be cleaned when not in use, and inserted into a protective cover with 3.3mol/L KCI solution, or the sensor should be inserted into a container with 3.3mol/L KCI solution. Check whether the terminal is dry. If there are stains, please wipe it with anhydrous alcohol and continue to use it after drying. The sensor should avoid being immersed in deionized water, protein solution, strong acid and alkali solution, and acid fluoride solution for a long time, and prevent contact with organic silicone grease. If the platinum sheet of the electrode is stained with grease, it can be gently wiped clean with absorbent cotton dipped in acetone or alcohol. If the contamination is an insoluble inorganic substance, it can be scrubbed with 30-50% hydrochloric acid. It can also be wiped once a day with clean high-grade toilet paper. When the sensor has been used for a long time and measurement errors occur, it can be calibrated and corrected by using the instrument. If the sensor cannot be calibrated and measured after the above maintenance and care, it means that the sensor has failed. Please replace the sensor.
Dissolved oxygen sensor outer surface: Rinse the outer surface of the sensor with clean water. If there is still dirt remaining,
Please wipe with a damp soft cloth. For some stubborn dirt, you can add some household detergent to the water to clean it. Fluorescent membrane head surface: If there is dirt on the surface of the fluorescent membrane head, please rinse it with clean water or wipe it gently with a soft cloth. Pay attention to the strength when cleaning to avoid scratching the measuring area and affecting the measurement accuracy. Avoid the inner surface of the fluorescent membrane from being exposed to sunlight or strong light. Do not touch the fluorescent membrane with your hands or sharp objects. Avoid bubbles on the surface of the fluorescent membrane when using it.
Turbidity sensor maintenance: If the sensor needs to be cleaned, it can be cleaned with warm water and an appropriate amount of detergent.
Note: Avoid strong vibrations that damage the front transparent glass, and do not scratch it with hard objects.
Windway Technology is a manufacturer of river flow monitoring systems and has rich practical experience in this field. Currently, we are mainly engaged in the design, development and sales of river flow monitoring systems, and are committed to providing professional solutions to our customers, and a...
The five elements micro meteorological instrument is a practical meteorological observation tool, which has the ability to simultaneously monitor the five core meteorological parameters: wind speed, wind direction, temperature, humidity and atmospheric pressure. The device provides real-time informa...
In the practice of agricultural IoT, soil moisture monitoring has become a core application. Through this technology, we are able to accurately obtain the growth reality of crops, providing key data support for subsequent intelligent decision-making. Based on the real-time monitoring of soil moistur...
The construction of the Internet of Things meteorological monitoring system needs to be based on modern information technology. The new model based on the combination of Internet of Things technology with computer technology and communication network technology is a meteorological observation method...