Description:Title of The Invention
A TANK SAFE MONITOR SYSTEM
Field of the Invention
This invention relates to a Tank Safe Monitor System.
Background of the Invention
CN107422089A says that the present invention relates to a kind of water quality detection method and system, the water quality detection method includes: The temperature of water body is adjusted by preset temperature value in the range of pre-set space below water body liquid level to be detected; Gather the Water quality parameter in the range of pre-set space below air quality parameters and the liquid level in the range of water body allege pre-set space to be detected; The composition and concentration of contained substance in the composition of contained substance and concentration in the water body to be detected and/or the Water quality parameter to be detected exceed corresponding standard value in urban water supply water standard table, alarm is sent, and generate the quality report of the water body to be detected. The present invention is by detecting air quality parameters and Water quality parameter in the range of water body ullage to be detected and lower section pre-set space, and then obtain every water quality parameter of water body to be detected, it is quick, accurate to provide the user warning and water quality report when water quality goes wrong. water body to be detected are obtained by the air quality parameters.
CN105115911B says that the invention discloses a kind of water quality detection method and its micro-fluidic chip special. The micro-fluidic chip, it includes being sequentially overlapped and sealing the upper strata cover plate (1) coordinated, intermediate layer (2) and underlying shims (3);Upper strata cover plate (1) is provided with a sample holes (4);Intermediate layer includes sample inlet pool (5), reaction chamber (6) and raffinate chamber (7);Sample inlet pool (5) connects with sample holes (1), and position correspondence; Connected between sample inlet pool (5) and raffinate chamber (7) by a main fluid channel (8);Main fluid channel (8) extends outward some to branch fluid channel (10), the end connection reaction chamber (6) of each branch fluid channel; Underlying shims (3) are made by transparent material. Micro-fluidic chip of the present invention facilitates public use, is easy to " internet+" popularization; Chromogenic chip and detection device isolation, are easily integrated with mobile device and Internet of Things; Multiple determination can be achieved.
DIFFERENCE
The Bacteria Detection Alarm System is a revolutionary new product designed to detect harmful bacteria in the water tank and alert the user when the tank needs to be cleaned. The system uses technology to monitor the water quality in the tank and to identify and calculate the level of any potentially harmful bacteria that may be present in the tank. This system consists of a series of sensors placed inside the tank to measure the levels of different types of bacteria. These sensors are connected to a central processing unit, which analyzes the data and determines if the bacteria levels are safe.
None of the prior art indicate above either alone or in combination with one another disclose what the present invention has disclosed.
SUMMARY OF THE INVENTION
This summary is provided to introduce a selection of concepts, in a simplified format, that are further described in the detailed description of the invention.
This summary is neither intended to identify key or essential inventive concepts of the invention and nor is it intended for determining the scope of the invention.
This innovation can lead to decrement in health issues which relates with the quality of water used by the human beings for daily needs. Let’s suppose if the water quality of the water used by user is monitored by such type of systems and get the signification that the water quality level of the water tank is not that much suitable for use how much productive this innovation can be so below are some mentioned reasons why testing of water is necessary.
Testing for bacteria in water is important for the following reasons:
Public health: Some bacteria can cause diseases such as typhoid, cholera and dysentery and can be spread through contaminated water. By detecting and identifying these bacteria, public health officials can take appropriate action to prevent the spread of disease and protect the public.
Water Quality: Bacteria can also indicate overall water quality. High levels of bacteria can indicate that the water has been contaminated with other harmful substances, such as chemicals or sewage, which can pose risks to human health and the environment.
Regulatory Compliance: Many countries have regulations and guidelines that limit the amount of bacteria that can be present in drinking water. Regular bacterial testing is necessary to ensure these limits are met and to avoid penalties and legal action.
Environmental Monitoring: Bacterial detection can also be used to monitor ecosystem health, as some bacteria are indicators of pollution and other environmental stressors.
In general, detecting bacteria in water is essential to protect public health, ensure water quality, comply with regulations and monitor environmental health.
To further clarify advantages and features of the present invention, a more particular description of the invention will be rendered by reference to specific embodiments thereof, which is illustrated in the appended drawings. It is appreciated that these drawings depict only typical embodiments of the invention and are therefore not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail with the accompanying drawings.
Discloses here in a tank Safe Monitor System comprises Control Unit (104), pH Sensor (101), Bacteria Sensor (102), Power Supply with Batteries (103), Data Processing Software (105) and Mobile Application (106);
pH sensor- The pH sensor is designed to measure the acidity or alkalinity of the tank's contents by detecting the concentration of hydrogen ions (H+), It typically consists of a pH electrode and a reference electrode that work together to provide an accurate pH reading, The pH sensor continuously monitors the pH level within the tank, It can be submerged in the liquid or connected to a flow-through system that allows the tank's contents to pass through the sensor;
Bacteria sensor- The bacteria sensor is designed to specifically detect and measure the presence of bacteria in the tank, It may use various detection methods, such as optical, electrochemical, or molecular techniques, depending on its design, The sensor continuously monitors the tank environment, including the water or fluid within it, If the concentration of bacteria exceeds a certain threshold or if there is a sudden increase in bacterial growth, the sensor will detect it, The bacteria sensor in a tank cleaning alarm system provides real-time monitoring of bacterial contamination levels, allowing for prompt actions to maintain the tank's cleanliness and prevent potential risks associated with bacterial growth, such as contamination of water supplies or degradation of stored substances;
Power Supply with Batteries - A power supply with batteries is a device that uses one or more batteries to provide electrical power to a circuit or device, Battery-powered power supplies are commonly used in portable electronics and remote devices that require a reliable source of power.;
Control Unit - A control unit is an electronic device that manages and regulates the operations of a system or machine, The control unit may receive input signals from sensors or other devices, process that information, and then issue commands or control signals to various components of the system;
Data Processing Software- The software collects data from different sensors, such as bacteria sensors, pH sensors, and other relevant monitoring devices within the tank cleaning system, It gathers real-time data on parameters such as bacterial concentration, pH levels, temperature, pressure, and flow rates, The software integrates data from multiple sensors and sources into a centralized system, It combines data from different sensors and components to provide a comprehensive view of the tank's condition and the cleaning process, The software performs data analysis to identify trends, patterns, and correlations in the collected data, It can generate reports and insights on the tank's cleanliness, bacterial growth patterns, pH variations, or other relevant parameters, These insights can help operators make informed decisions regarding tank maintenance, cleaning schedules, or process optimizations;
Mobile Application- A mobile application, also known as a mobile app, is a software program designed to run on mobile devices, such as smartphones, tablets, or smartwatches, Mobile apps are designed to provide users with a wide range of functionality, including communication, entertainment, productivity, and social networking.
In another embodiment, a Tank Safe Monitor System is a technical system designed to monitor and detect the presence of bacteria in a tank; The system typically consists of several key components, including sensors, a control unit, data processing software, and an alert system.
In another embodiment, the sensors used in the system are typically designed to detect changes in the water quality parameter(pH) that are indicative of bacterial growth; By combining these two sensors, we can build a system that detects changes in pH levels and the presence of specific types of bacteria.
In another embodiment, if the pH level of the tank water drops, it could indicate the presence of acid-producing bacteria; By using a bacteria sensor that detects the specific enzymes produced by these bacteria, you could confirm their presence in the tank.
In another embodiment, the output from both sensors can be processed using a control unit [104]; A control unit is necessary for a bacteria detection system that sends notifications to the user; The control unit processes the data from the sensors and determines whether the bacteria levels in the tank are safe or if they pose a risk.
In another embodiment, if the bacteria levels exceed a certain threshold, the control unit triggers a notification to alert the user; a control unit is a critical component of a bacteria detection system that sends notifications to the user via Mobile Application [106]; It enables the system to respond to changes in bacteria levels in real-time and alert the user when necessary to help prevent the spread of harmful bacteria.
In another embodiment, the alert system may include audible alarms, visual indicators, and notifications to system operators or maintenance personnel; The alert system may also be configured to automatically take certain actions, such as increasing the flow rate of disinfectant or shutting down the tank.
In another embodiment, a Tank Safe Monitor System is a critical tool for ensuring the safety and reliability of water storage systems; By continuously monitoring water quality parameters and providing real-time alerts, these systems help prevent bacterial contamination and minimize the risk of waterborne illness.
BRIEF DESCRIPTION OF THE DRAWINGS
The illustrated embodiments of the subject matter will be understood by reference to the drawings, wherein like parts are designated by like numerals throughout. The following description is intended only by way of example, and simply illustrates certain selected embodiments of devices, systems, and methods that are consistent with the subject matter as claimed herein, wherein:
Figure 1:
The figures depict embodiments of the present subject matter for the purposes of illustration only. A person skilled in the art will easily recognize from the following description that alternative embodiments of the structures and methods illustrated herein may be employed without departing from the principles of the disclosure described herein.
DETAILED DESCRIPTION OF THE INVENTION
The detailed description of various exemplary embodiments of the disclosure is described herein with reference to the accompanying drawings. It should be noted that the embodiments are described herein in such details as to clearly communicate the disclosure. However, the amount of details provided herein is not intended to limit the anticipated variations of embodiments; on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the scope of the present disclosure as defined by the appended claims.
It is also to be understood that various arrangements may be devised that, although not explicitly described or shown herein, embody the principles of the present disclosure. Moreover, all statements herein reciting principles, aspects, and embodiments of the present disclosure, as well as specific examples, are intended to encompass equivalents thereof.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms “a",” “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises,” “comprising,” “includes” and/or “including,” when used herein, specify the presence of stated features, integers, steps, operations, elements and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components and/or groups thereof.
It should also be noted that in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed concurrently or may sometimes be executed in the reverse order, depending upon the functionality/acts involved.
In addition, the descriptions of "first", "second", “third”, and the like in the present invention are used for the purpose of description only, and are not to be construed as indicating or implying their relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may include at least one of the features, either explicitly or implicitly.
Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which example embodiments belong. It will be further understood that terms, e.g., those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
The Tank Safe Monitor System is a revolutionary new product designed to detect harmful bacteria in water tanks and alert users when it's time to clean the tank. This system uses advanced technology to monitor the water quality in the tank and identify and calculate the level of any potentially dangerous bacteria that may be present in the water tank.
The system consists of a series of sensors that are placed inside the water tank to measure the levels of different types of bacteria. These sensors are connected to a central processing unit, collected data is then processed and analyzed in real-time using sophisticated algorithms and data processing techniques.
If the system detects that the bacteria levels are too high, it will send an alert to the user's smartphone or other connected device, letting them know that it's time to clean the tank. The alert will also include information on the type of bacteria that has been detected, as well as instructions on how to properly clean the tank to remove the bacteria.
Best method of working
A Tank Safe Monitor System is a technical system designed to monitor and detect the presence of bacteria in a tank. The system typically consists of several key components, including sensors, a control unit, data processing software, and an alert system.
The sensors used in the system are typically designed to detect changes in the water quality parameter(pH) that are indicative of bacterial growth.
Sensors used in system are:-
? pH Sensor[101]: A pH sensor can detect changes in the acidity or alkalinity of the tank water. Certain types of bacteria thrive in specific pH ranges, so monitoring the pH levels can give an indication of the presence of certain types of bacteria.
? Bacteria Sensor[102]: There are various types of bacteria sensors available that can detect different types of bacteria. Some sensors detect specific strains of bacteria, while others detect a broader range of bacteria. These sensors typically work by detecting specific molecules or enzymes that are associated with bacterial metabolism.
By combining these two sensors, we can build a system that detects changes in pH levels and the presence of specific types of bacteria. For example, if the pH level of the tank water drops, it could indicate the presence of acid-producing bacteria. By using a bacteria sensor that detects the specific enzymes produced by these bacteria, you could confirm their presence in the tank.
The output from both sensors can be processed using a control unit [104]. A control unit is necessary for a bacteria detection system that sends notifications to the user. The control unit processes the data from the sensors and determines whether the bacteria levels in the tank are safe or if they pose a risk. If the bacteria levels exceed a certain threshold, the control unit triggers a notification to alert the user. a control unit is a critical component of a bacteria detection system that sends notifications to the user via Mobile Application [106]. It enables the system to respond to changes in bacteria levels in real-time and alert the user when necessary to help prevent the spread of harmful bacteria.
The alert system may include audible alarms, visual indicators, and notifications to system operators or maintenance personnel. The alert system may also be configured to automatically take certain actions, such as increasing the flow rate of disinfectant or shutting down the tank.
Overall, a Tank Safe Monitor System is a critical tool for ensuring the safety and reliability of water storage systems. By continuously monitoring water quality parameters and providing real-time alerts, these systems help prevent bacterial contamination and minimize the risk of waterborne illness.
Fig.3 illustrate the various components required to build Tank Safe Monitor System which are as follows:-
? pH sensor- The pH sensor is designed to measure the acidity or alkalinity of the tank's contents by detecting the concentration of hydrogen ions (H+). It typically consists of a pH electrode and a reference electrode that work together to provide an accurate pH reading. The pH sensor continuously monitors the pH level within the tank. It can be submerged in the liquid or connected to a flow-through system that allows the tank's contents to pass through the sensor.
? Bacteria sensor- The bacteria sensor is designed to specifically detect and measure the presence of bacteria in the tank. It may use various detection methods, such as optical, electrochemical, or molecular techniques, depending on its design. The sensor continuously monitors the tank environment, including the water or fluid within it. If the concentration of bacteria exceeds a certain threshold or if there is a sudden increase in bacterial growth, the sensor will detect it. The bacteria sensor in a tank cleaning alarm system provides real-time monitoring of bacterial contamination levels, allowing for prompt actions to maintain the tank's cleanliness and prevent potential risks associated with bacterial growth, such as contamination of water supplies or degradation of stored substances.
? Power Supply with Batteries - A power supply with batteries is a device that uses one or more batteries to provide electrical power to a circuit or device. Battery-powered power supplies are commonly used in portable electronics and remote devices that require a reliable source of power.
? Control Unit - A control unit is an electronic device that manages and regulates the operations of a system or machine. The control unit may receive input signals from sensors or other devices, process that information, and then issue commands or control signals to various components of the system.
? Data Processing Software- The software collects data from different sensors, such as bacteria sensors, pH sensors, and other relevant monitoring devices within the tank cleaning system. It gathers real-time data on parameters such as bacterial concentration, pH levels, temperature, pressure, and flow rates. The software integrates data from multiple sensors and sources into a centralized system. It combines data from different sensors and components to provide a comprehensive view of the tank's condition and the cleaning process. The software performs data analysis to identify trends, patterns, and correlations in the collected data. It can generate reports and insights on the tank's cleanliness, bacterial growth patterns, pH variations, or other relevant parameters. These insights can help operators make informed decisions regarding tank maintenance, cleaning schedules, or process optimizations
Mobile Application A mobile application, also known as a mobile app, is a software program designed to run on mobile devices, such as smartphones, tablets, or smartwatches. Mobile apps are designed to provide users with a wide range of functionality, including communication, entertainment, productivity, and social networking.
ADVANTAGES OF THE INVENTION
1. Real-time monitoring: The system provides real-time monitoring of the water quality in the tank, so users can be confident that they are always aware of any potential problems.
2. Easy installation: The sensors are easy to install and can be set up in just a few minutes, making it easy for users to start using the system right away.
3. Accurate detection: The system uses advanced algorithms to accurately detect harmful bacteria, ensuring that users are alerted only when there is a genuine problem.
4. Low maintenance: The sensors are designed to be low-maintenance, so users don't have to worry about constantly replacing or cleaning them.
5. Overall, the Tank Bacteria Detection Alarm System is an innovative and effective solution for anyone who wants to ensure that their water tank is always clean and free from harmful bacteria. With its advanced features and easy installation, it's the perfect choice for homeowners, businesses, and anyone else who wants to ensure that their water is safe and healthy.
6. The claim of a Tank Safe Monitor System is to provide early and accurate detection of bacterial contamination within a tank. The system aims to alert users or operators when the concentration of bacteria exceeds a certain threshold or when there is a sudden increase in bacterial growth. By doing so, it enables prompt action to be taken to prevent potential risks associated with bacterial contamination, such as water contamination, degradation of stored substances, or compromised product quality. The system's claim is to enhance safety, maintain cleanliness, and support efficient tank cleaning and maintenance processes.
, Claims:
1. A Tank Safe Monitor System comprises Control Unit (104), pH Sensor (101), Bacteria Sensor (102), Power Supply with Batteries (103), Data Processing Software (105) and Mobile Application (106);
wherein the pH sensor is designed to measure the acidity or alkalinity of the tank's contents by detecting the concentration of hydrogen ions (H+), It typically consists of a pH electrode and a reference electrode that work together to provide an accurate pH reading, the pH sensor continuously monitors the pH level within the tank, It can be submerged in the liquid or connected to a flow-through system that allows the tank's contents to pass through the sensor;
wherein bacteria sensor is designed to specifically detect and measure the presence of bacteria in the tank, the sensor continuously monitors the tank environment, including the water or fluid within it, If the concentration of bacteria exceeds a certain threshold or if there is a sudden increase in bacterial growth, the sensor will detect it, the bacteria sensor in a tank cleaning alarm system provides real-time monitoring of bacterial contamination levels, allowing for prompt actions to maintain the tank's cleanliness and prevent potential risks associated with bacterial growth, such as contamination of water supplies or degradation of stored substances;
wherein a power supply with batteries is a device that uses one or more batteries to provide electrical power to a circuit or device, Battery-powered power supplies are commonly used in portable electronics and remote devices that require a reliable source of power.;
wherein the control unit is an electronic device that manages and regulates the operations of a system or machine, The control unit may receive input signals from sensors or other devices, process that information, and then issue commands or control signals to various components of the system;
wherein the Data Processing Software collects data from different sensors, such as bacteria sensors, pH sensors, and other relevant monitoring devices within the tank cleaning system, It gathers real-time data on parameters such as bacterial concentration, pH levels, temperature, pressure, and flow rates, The software integrates data from multiple sensors and sources into a centralized system, It combines data from different sensors and components to provide a comprehensive view of the tank's condition and the cleaning process, The software performs data analysis to identify trends, patterns, and correlations in the collected data, It generates reports and insights on the tank's cleanliness, bacterial growth patterns, pH variations, or other relevant parameters, These insights can help operators make informed decisions regarding tank maintenance, cleaning schedules, or process optimizations;
wherein a mobile application, also known as a mobile app, is a software program designed to run on mobile devices, such as smartphones, tablets, or smartwatches, Mobile apps are designed to provide users with a wide range of functionality, including communication, entertainment, productivity, and social networking.
2. The system as claimed in claim 1, wherein a Tank Safe Monitor System is a technical system designed to monitor and detect the presence of bacteria in a tank; The system typically consists of several key components, including sensors, a control unit, data processing software, and an alert system.
3. The system as claimed in claim 1, wherein the sensors used in the system are typically designed to detect changes in the water quality parameter(pH) that are indicative of bacterial growth; By combining these two sensors, we can build a system that detects changes in pH levels and the presence of specific types of bacteria.
4. The system as claimed in claim 1, wherein if the pH level of the tank water drops, it could indicate the presence of acid-producing bacteria; By using a bacteria sensor that detects the specific enzymes produced by these bacteria, you could confirm their presence in the tank.
5. The system as claimed in claim 1, wherein the output from both sensors can be processed using a control unit [104]; A control unit is necessary for a bacteria detection system that sends notifications to the user; The control unit processes the data from the sensors and determines whether the bacteria levels in the tank are safe or if they pose a risk.
6. The system as claimed in claim 1, wherein if the bacteria levels exceed a certain threshold, the control unit triggers a notification to alert the user; a control unit is a critical component of a bacteria detection system that sends notifications to the user via Mobile Application [106]; It enables the system to respond to changes in bacteria levels in real-time and alert the user when necessary to help prevent the spread of harmful bacteria.
7. The system as claimed in claim 1, wherein the alert system includes audible alarms, visual indicators, and notifications to system operators or maintenance personnel; and is configured to automatically take certain actions, such as increasing the flow rate of disinfectant or shutting down the tank.
8. The system as claimed in claim 1, wherein a Tank Safe Monitor System is a critical tool for ensuring the safety and reliability of water storage systems; By continuously monitoring water quality parameters and providing real-time alerts, these systems help prevent bacterial contamination and minimize the risk of waterborne illness.