TR202100792A2 - Wireless IoT pH Meter System - Google Patents

Abstract

Invention, chemistry, biology, medicine, food, environment etc. It is related to the pH meter system that detects the pH levels of liquids that are used in large working areas such as such and whose pH level is desired to be determined and enables the data obtained to be shared wirelessly with Bluetooth, WiFi and RF (<1 GHz) communication protocols.

Description

DESCRIPTION Wireless IoT pH Meter System Technical Area The invention may be related to chemistry, biology, medicine, food, environment, etc. pH used in wide working areas such as It is related to the pH sensor systems that make the measurement.

In particular, the invention is concerned with detecting pH levels of liquids for which pH level determination is desired. and data obtained with Bluetooth, WiFi and RF (<1 GHz) communication protocols. It is related to the Wireless IoT pH Meter System, which allows it to be shared wirelessly.

State of the Art In the present art, chemistry, biology, medicine, food, environment etc. in large fields such as Wireless in pH meter systems used to determine the pH level of liquids Only Bluetooth is used as a feature. Besides that, external memory help data can be transferred to the recording medium. Therefore, it requires instant measurement and recording. In the circumstances, the data cannot be accessed by the users directly to the internet environment. There is a loss of time in the transmission. For example; measurement sending the result to the computer environment via Bluetooth and In addition, an operator intervention and/or computer programs are needed. In addition, the cost of these products is quite high. are products.

As an example of the known state of the technique in the research done in the literature, The document numbered U87719427 can be displayed. In the aforementioned document, a portable A sensor system consisting of a sender and a receiving end is mentioned. Sender The part is filtering and amplifying the analog voltages obtained from the pH electrode. analog/digital conversion via a microprocessor applies. The resulting digital data in this way is used for wireless transmission. It is transmitted via Bluetooth. The receiving end of the system is from the Bluetooth broadcast. It is the part that analyzes, stores and displays the data it has obtained. document can be displayed. In the aforementioned document, from the wireless pH sensor is mentioned. The sensor in question has 1 wireless feature called Zigbee. A communication protocol that communicates at a frequency below GHz is used. sensor, detection digitally converts the measurement data from the terminal to an analog/digital conversion layer. and shares it wirelessly with the Zigbee module. can be displayed. In the aforementioned document, WiFi-based multi-parameter water quality analyzer is mentioned. Measuring a number of different parameters along with pH the aforementioned system; transmits the measurement results via WiFi.

As a result, the existence of the above problems and the inadequacy of the existing solutions made it necessary to make a development in the technical field.

Purpose of the Invention The present invention eliminates the above-mentioned disadvantages and It is about the Wireless IoT pH Meter System, which brings new advantages.

The main purpose of the invention is to determine the pH levels of the liquids whose pH level is desired to be determined. and the obtained data can be communicated via Bluetooth, WiFi and RF (<1 GHz). It is to provide wireless sharing with protocols.

The purpose of the invention is a Wireless IoT pH Meter with Bluetooth, WiFi, RF (<1 GHz) To get the system.

Another object of the invention is WiFi in addition to wireless connection via Bluetooth. communication, instant data transfer to the internet and remote system It allows the design of autonomous structures such as monitoring, system automation. is to provide.

Another aim of the invention is measurement without internet connection with RF (<1 GHz) feature. indirectly using RF waves with a control board in is to provide the way.

Another aim of the invention is to determine the analog voltage given by the pH electrodes as output. informing the user of the need for calibration arising from time-varying and is to provide the user with the option of automatic calibration.

Another object of the invention is to avoid wasting time for unnecessary calibrations and eliminating the need for an expert to decide on the calibration process. is to provide.

Another aim of the invention is to determine the temperature of the liquid, which is an important parameter of pH measurement. to enable it to be measured.

To be able to fulfill all the above-mentioned purposes that may arise from the detailed explanation. the invention; chemistry, biology, medicine, food, environment etc. in large fields such as It detects the pH levels of the liquids used and for which the pH level is desired to be determined, and the data obtained with Bluetooth, WiFi and RF (<1 GHz) communication protocols. It is related to the Wireless IoT pH Meter System, which allows it to be shared wirelessly.

The feature of the invention; - According to the hydrogen ion activity when immersed in the liquid whose pH value will be measured pH, which generates analog voltages and measures its temperature via a temperature transducer sensor, - pH value with temperature and voltage parameters measured with pH sensor calculating the pH sensor, indicating the need for calibration and at the same time capable of wireless data transfer to smart devices via Bluetooth or WiFi Communication for Bluetooth, WiFi and RF communication at frequencies below 1GHz wireless junction box with modules, - by connecting to at least one wireless junction box via RF (<1GHz) communication showing the measurement and calibration commands on the touch screen and data in the wireless junction box via Bluetooth or WiFi. Bluetooth, WiFi and RF at frequencies below 1GHz control panel with communication modules for communication contains the board.

The structural and characteristic features of the invention and all its advantages are given below. and it is clearer thanks to the detailed explanation written by making references to these figures. will be understood as For this reason, these forms and detailed explanations are also included in the evaluation. should be taken into account.

Figures to Help Understand the Invention Figure 1: The subject of the invention is the general view of the pH meter system.

Figure 2: The view of the pH sensor of the pH meter system, which is the subject of the invention.

Figure 3: The wireless connection box of the pH meter system, which is the subject of the invention. is the view.

Figure 4: The subject of the invention is the view of the control panel of the pH meter system.

Explaining Part References . pH sensor 11. Storage container 12. Temperature transducer 13. BNC connector . wireless junction box 21. Primary signal processing section 22. Secondary signal processing section 23. Microprocessor 24. Communication module . Junction box BNC connector 26. Charging light 27. Bluetooth light 28. On/Off button . Control Panel 31. Control board microprocessor 32. Control board communication module 33. Touchscreen 34. Control panel on/off button Detailed Description of the Invention In this detailed description, preferred alternatives of the inventive pH meter system, only for better understanding of the subject and no limiting effect described in a way that does not constitute.

In Figure 1, the general view of the Wireless IoT pH Meter System, which is the subject of the invention, is given.

Accordingly, the pH meter system in its most basic form; The liquid whose pH value will be measured When immersed, it produces analog voltages according to the hydrogen ion activity and maintains its temperature. with the temperature and voltage parameters measured by the pH sensor (10), the pH sensor (10) Calculates the pH value, notifies the need for calibration of the pH sensor (10) and It can also transfer data wirelessly to smart devices via Bluetooth or WiFi. wireless junction box (20), RF (<1GHz) to wireless junction box (20) It shows the measurement and calibration commands by connecting with the same At the same time, the data in the wireless junction box (20) can be transferred via Bluetooth or WiFi. It includes a control panel (30) that enables the transmission of

The pH sensor (10), which constitutes the main structure of the inventive pH meter system, is basically When immersed in the liquid whose pH value is to be measured, it will generate analog voltage at its outputs. It is the structure that carries out the electrochemical process. The pH sensor (10) is immersed in hydrogen It generates analog voltages according to ion activity and measures the temperature of the liquid.

The pH sensor (10) in Figure 2 is on the pH sensor (10) when not measuring. prevent the growth of bacteria and allow the pH sensor (10) to give accurate results. a storage vessel (11) containing KCl solution to ensure Wireless connection of the temperature transducer (12) and the pH sensor (10) that measure the temperature It contains a BNC connector (13) that allows it to be connected to the box (20). Connect the pH sensor (10) to the wireless junction box (20) for pH measurement. It is carried out by connecting to the desired liquid by immersing it in the desired liquid.

The wireless junction box (20) shown in Figure 3 is the BNC of the pH sensor (10). The junction box is connected to the connector (13) via the BNC connector (25).

In the wireless junction box (20), the primary signal processing section (21) and the secondary signal There is a processing section (22).

The primary signal processing section (21) controls the analog voltages of the pH sensor (10) for noise and By filtering and amplifying unwanted frequencies, then analog/digital converts it and obtains the digital pH signal as a result of numerical operations. is doing. Then this signal, SPI, IZC, USART etc. data transmission protocols such as to the microprocessor (23) via a communication interface with any is being transmitted. The primary signal processing section (21) is also the temperature measurement process. The resistance value of electronic components whose resistance properties change with temperature for It measures with analog/digital conversion and numerical calculations. Then this signal SPL, IZC, USART etc. A communication with any of the data transmission protocols such as It is transferred to the microprocessor (23) via its interface. Consequently temperature and voltage obtained by the microprocessor (23) and the primary signal processing section (21). It calculates the pH value with its parameters.

Secondary signal processing section 22 for automatic calibration detection of pH sensor 10 By measuring the current and voltage values at each pH measurement of the pH sensor (10). with SP It transmits it to the microprocessor (23) via its face. Microprocessor (23) secondary signal obtained by dividing the voltage value determined in the processing section (22) by the current value. memorizes the resistance value. This resistance value was made in the last calibration. It seeks the resistance-pH curve and determines the pH value measured by the corresponding pH value. It reports whether the pH sensor (10) needs calibration by comparing it. Three different pH buffers for the calibration of the pH sensor (10) By measuring the pH of the solutions, three resistance-pH values determined accordingly resistance-pH curve with mathematical curve fitting methods is created.

Wireless junction box (20), Bluetooth, WiFi and RF at frequencies below 1GH2 It has communication modules (24) for communication. The communication in question between the wireless junction box (20) and the smart Devices via the modules (24) Wireless data transfer is possible via Bluetooth or WiFi. Like this Data obtained with the wireless junction box (20) (pH value, charge status, calibration need alert etc.) on smart devices via communication modules (24) can be viewed. With wireless junction box (20) for data transfer 1GHz in case there is no WiFi network in the location but in the far range Connection with control board (30) via RF communication at six frequencies is being established.

The wireless junction box (20) works with battery power. wireless junction box The charge light (26) on (20) showing the battery charge status, smart devices and Bluetooth Bluetooth light (27) and on/off button (28) indicating that the connection is made are available.

The control panel (30), shown in Figure 4, has multiple wireless junction boxes (20), RF at frequencies below 1GHz via the control board communication module (32) can be connected via wireless communication. At the same time, the control board (30), the control board communication module of the data in the wireless junction box (20) (32) via Bluetooth and WiFi.

Data transfer and control from the wireless junction box (20) to the control panel (30) the coordination of the control panel (30), the control panel within the control panel (30). provided by the microprocessor 31. Achieved with wireless junction box (20) data obtained (pH value, charge status, warning of need for calibration, etc.), control panel (30) is displayed on the touch screen (33) on it. The touchscreen while the screen (33) shows the data obtained with the wireless junction box (20) can receive commands. Touchscreen (33) RF to wireless junction box (20) Entering password for (<1GHz) communication and multiple wireless junction boxes (20) selection or removal of the pH sensor and also the calibration operation commands of the pH sensor (10). doing. Control panel (30), control panel on/off button (34) It opens and closes via.

Determined by the wireless junction box (20); The calibration process of the pH sensor (10), from the touch screen (33) of the control panel (30) or via Bluetooth communication. It is carried out with the incoming instructions and the commands entered.

The working principle of the pH meter system, which is the subject of the invention, is as follows; The pH sensor (10) is connected to the wireless junction box (20). pH sensor (10) measurement When immersed in the liquid to be made, it is determined according to the hydrogen ion activity of the liquid it is immersed in. generates analog voltages and also via the temperature transducer (12) It measures the temperature of the liquid in which it is immersed.

pH via the primary signal processing section (21) in the wireless junction box (20) signal and temperature signal are obtained and transmitted to the microprocessor (23). Microprocessor (23) pH with temperature and voltage parameters obtained with primary signal processing section (21) calculates the value.

Current in pH measurement of the pH sensor (10) via the secondary signal processing section (22) and voltage values are measured and transmitted to the microprocessor (23). Microprocessor (23) secondary It is obtained by dividing the voltage value determined in the signal processing section (22) by the current value. It memorizes the output resistance value and determines whether the pH sensor (10) needs calibration. Notifies the user that it is not.

Data in the wireless junction box (20) is sent to the wireless junction box (20), below 1GHz. control panel (30) connected wirelessly via RF communication at frequencies can be displayed on the touch screen (33).

pH value obtained with wireless junction box (20) and wireless connection charging status of the box (20) and the need for calibration of the pH sensor (1D), etc. other data in the wireless junction box (20) box (20) via the communication module (24) via Bluetooth connection. to smart devices at a distance via Bluetooth or via the wireless junction box. (20) is transmitted via WiFi connection if there is a WiFi network in its location.

In case there is a WiFi network in the far range to the wireless junction box (20) via RF communication of the wireless junction box (20) at frequencies below 1GHz By connecting with the control panel (30), the data in the wireless junction box (20) It is ensured that the control panel communication module (32) is transferred via the WiFi network to which it is connected.

Claims (1)

REQUIREMENTS Chemistry, biology, typ. food, environment etc. It is a Wireless IoT pH Meter System that detects the pH levels of liquids used in wide working areas such as pH level determination and enables the data obtained to be shared wirelessly with Bluetooth, WiFi and RF (<1 GHz) communication protocols. - pH sensor (10) that produces analog voltages according to hydrogen ion activity when immersed in the liquid whose pH value is to be measured and measures its temperature by means of the temperature transducer (12), - Calculates the pH value with the temperature and voltage parameters measured by the pH sensor (10), calibration of the pH sensor (10) Wireless connection with communication modules (24) for Bluetooth, WiFi and RF communication at frequencies below 1GHz, which notifies its need and can also transmit wireless data to smart devices via Bluetooth or WiFi - with RF (<1GHz) communication to at least one wireless junction box (20) The control panel (30) with control panel communication modules (32) for Bluetooth, WiFi and RF communication at sub-tGHz frequencies, which shows the measurement and calibration commands on the touch screen (33) by connecting the cable, and also enables the data in the wireless connection box (20) to be transferred via Bluetooth or WiFi. ) is included. It is a pH meter system in accordance with Claim 1, and its feature is; it contains a storage container (11) containing KCl solution in order to prevent bacterial growth when no measurement is made in the said pH sensor (10) and to ensure that the pH sensor (10) gives accurate results. It is a pH meter system according to claim 1, its feature is; it contains a BNC connector (13) that enables said pH sensor (10) to be connected to the junction box BNC connector (25) in the wireless junction box (20). It is a pH meter system according to claim 1, its feature is; a communication interface that makes analog/digital conversion by filtering and amplifying the analog voltages of the said wireless junction box (20), pH sensor (10) from noise and unwanted frequencies, and obtaining the digital pH signal as a result of digital operations, having any of the SPI, IZC or USART data transmission protocols It includes a primary signal processing section (21) that transfers it to the microprocessor (23) via the microprocessor. It is a pH meter system according to claim 1, and its feature is; For the temperature measurement process of the said wireless junction box (20), it measures the resistance value of the electronic components whose resistance properties change with temperature with analog/digital conversion and numerical calculations and transfers them to the microprocessor (23) via a communication interface with any of the SPI, I2C or USART data transmission protocols. it contains a primary signal processing section (21). It is a pH meter system according to claim 1, and its feature is; by measuring the current and voltage values at each pH measurement of the pH sensor (10) for automatic calibration detection of said wireless junction box (20), pH sensor (10). The SP1 includes a secondary signal processing section (22) that transmits it to the microprocessor (23) via its interface. It is a pH meter system according to claim 1, its feature is; calculating the pH value of the said wireless junction box (20) with the temperature and voltage parameters obtained by the primary signal processing section (21) and dividing the voltage value determined in the secondary signal processing section (22) by the current value, memorizing the resistance value, the resistance value was determined in the last calibration. The reason is that the pH sensor (10) contains a microprocessor (23) that searches for the resistance-pH curve and compares the measured pH value with the corresponding pH value, which indicates whether the pH sensor (10) needs calibration. It is a pH meter system according to claim 1, and its feature is; said wireless junction box (20) includes a charging light (26) on the wireless junction box (20) that indicates the battery charge status. It is a pH meter system according to claim 1, and its feature is; said wireless junction box (20) contains a Bluetooth light (27), which indicates that a Bluetooth connection is made with smart devices. It is a pH meter system according to claim 1, its feature is; Entering a password for said control panel (30) to communicate RF (<1GHz) to the wireless junction box (20), showing the data obtained with the wireless junction box (20) and at the same time selecting or removing more than one wireless junction box (20) and pH The sensor (10) includes a touch screen (33) that enables the calibration process commands to be made. It is a pH meter system according to claim 1, and its feature is; control panel that provides data transfer of said control panel (30) from wireless junction box (20) to control panel (30) and coordination of control panel (30)