Branch of Science Associated with the Invention

Relevant engineering technology for sensor plate structure for analyzing mixture of contacted materials.

Background of related art or science

Refer to patent registration request number: US 4545382 A , this is a disclosure of sensor for analyzing component of liquid mixture which characterizes as electrode sensor for inspecting and analyzing one component or more in liquid mixture and has structure as electrical conducting material whose surface area shall consist of enzyme catalyst at least in order to react with required component and medium which shall transfer electrons from the enzyme to electrode when accelerated reaction happens. The silver electrode coated with Glucose Oxidase and Polyviologen acts as medium or carbon electrode coated with Glucose Oxidase and Chloranil or Fluoranil acts as medium. The other system shall use Bacterial Glucose Dehydrogenase or Glucose Oxidase as enzyme and/or Ferrocene which develops from medium substance in order to make better electrode sensitivity and less sensitivity to Oxygen. But its weakness for this liquid mixture analyzer is its contact surface area of rod electrode which shall make mixture analyzing discrepancies when contacts with high volume liquid mixture and medium coated substance for sensitivity analyzing must be efficiency- qualified and inspected by specialist in order to measure and analyze liquid mixture correctly. Furthermore, this sensor structure cannot apply to different shape containers and cannot apply to general commercial, agricultural, medical and nutritional uses, for example, which needs simple and high accuracy analyzer for the mixture of contacted materials.

According to this invention, sensor plate structure for analyzing mixture of contacted materials characterizes as thin conducting plate fabricating with particular current flowing pattern in order to increase surface contacting areas resulted in special pattern which shall electrically react with contacted materials. The sensor plate structure characterizes as surface plate coated with thin material film for short circuit current prevention. The sensor plate structure acts for inspecting and analyzing one component or more in contacted material whose surface contacting area plays the most significant part in order to contact and analyze material mixture such as formed material or liquid mixture accurately. The sensor plate structure is able to bend to attach with the shape of containers such as glass or plate or bowl which contains mixture of material that needs to be analyzed and shall be easy and accurate for general commercial, agricultural, medical and nutritional mixture analyzing uses, for example.

Invention Characteristics and Objectives

The sensor plate structure for analyzing mixture of contacted materials characterizes as thin conducting plate fabricating with particular current flowing pattern in order to increase surface contacting areas resulted in special pattern which shall electrically respond with contacted materials. The sensor plate structure characterizes as surface plate coated with thin material film for short circuit current prevention. The sensor plate structure acts for inspecting and analyzing one component or more in contacted material whose surface contacting area plays the most significant part in order to contact and analyze material mixture such as formed material, viscous material or liquid mixture accurately.

The sensor plate structure is able to bend to attach with the shape of containers such as glass or plate or bowl which contains mixture of material that needs to be analyzed.

The surface contacting area of sensor plate structure shall be calculated to suit the contacted material and provide high accuracy. The suitable surface area of plate compared with container area should not less than 70% of container area or less than 70% of container area.

The sensor plate structure can be geometrical pattern or non-geometrical pattern, for example, sensor plate structure can be 2 rectangular plates lay perpendicularly or make an angle to each other or more than 2 rectangular plates lay perpendicularly or make an angle to each other or formed as bee hive shape or cylindrical shape or circular shape. The significant part is the surface area which contacts to the analyzed material must has enough area to provide the accurate mixture analyzing. On specific position of the sensor plate structure, there is an installed temperature sensor for contacting with material which needs to be analyzed for compositions by Frequency and Amplitude of electromagnetic signal that is resulted from electrical responsive reaction between electrical conducting sensor plate structure and the analyzed material for accurate mixture analysis.

The sensor plate structure consists of couple of electrodes connecting with electronics circuits which acts as one plate of sensor plate structure or the sensor plate structure consists of a least 2 electrodes connecting with electronics circuits which acts as one plate of sensor plate structure or at least a couple of electrodes connecting as one group of the sensor plate and groups of sensor plate combine together in network to act as one plate of sensor plate structure or number of sensor electrode plates place separately in different location in order to cooperate in material composition analyzing which is connected together by electronics circuits to form the sensor plate structure and generate accurately responsive electrical signal which is varied proportionally by contacted material characteristics and sensor surface area and show results in accurate manner.

The sensor plate structure shall be connected with electronics circuits and has the current flow responding to the contacted material which the response are formed as Frequency and Amplitude of electromagnetic signal resulted from at least one plate of sensor plate structure connecting to at least one electronics circuits in order to inspect and analyze the different material mixture or the same material, one of each or both in combination. On specific position of the sensor plate structure, there is an installed temperature sensor for contacting with material which help analyzing material compositions in accurate manner.

The data of response shall be in the form of Frequency and Amplitude of electromagnetic signal and temperature which are transferred to the central processer via wireless system or wired system to be evaluated by specific program which works with sensor plate structure for material mixture analyzing.

The purpose of this invention is to invent the sensor plate structure for analyzing mixture of contacted materials in order to use by industrial officer agriculture officer, medical and nutrition personnel, for instance, for material mixture analyzing simplification with convenience and high accuracy such as nutrient mixture analyze in beverage, Glucose urinary test for diabetic or waste disposal contaminated level of industry for example.

Full Disclosure of the Invention

Figure 1 illustrates the compositions of sensor plate structure for analyzing mixture of contacted materials characterizes as thin conducting plate fabricating with particular current flowing pattern in order to increase surface contacting areas resulted in special pattern which shall electrically respond with contacted materials. The sensor plate structure (10) characterizes as surface plate coated with thin material film for short circuit current prevention. The sensor plate structure (10) acts for inspecting and analyzing one component or more in contacted material whose surface contacting area plays the most significant part in order to contact and analyze material mixture such as formed material, viscous material or liquid mixture accurately.

The sensor plate structure (10) is able to bend to attach with the shape of containers such as glass or plate and bowl which contains mixture of material that needs to be analyzed.

The surface contacting area of sensor plate structure (10) shall be calculated to suit the contacted material and provide high accuracy. The suitable surface area of plate compared with container area should not less than 70% of container area or less than 70% of container area.

The sensor plate structure (10) can be geometrical pattern or non-geometrical pattern, for example, sensor plate structure (10) can be 2 rectangular plates lay perpendicularly or make an angle to each other or more than 2 rectangular plates lay perpendicularly or make an angle to each other or formed as bee hive shape or cylindrical shape or circular shape. The significant part is the surface area which contacts to the analyzed material must has enough area to provide the accurate mixture analyzing.

On specific position of the sensor plate structure (10), there is an installed temperature sensor (1 1) for contacting with material which needs to be analyzed for compositions by Frequency and Amplitude of electromagnetic signal that is resulted from electrical responsive reaction between electrical conducting sensor plate structure (10) and the analyzed material for accurate mixture analysis.

The sensor plate structure (10) consists of couple of electrodes connecting with electronics circuits which acts as one plate of sensor plate structure (10) or the sensor plate structure (10) consists of at least 2 electrodes connecting with electronics circuits which acts as one plate of sensor plate structure (10) or at least a couple of electrodes connecting as one group of the sensor plate and groups of sensor plate combine together in network to act as one plate of sensor plate structure (10) or number of sensor electrode plates place separately in different location in order to cooperate in material composition analyzing which is connected together by electronics circuits to form the sensor plate structure (10) and generate accurately responsive electrical signal which is varied proportionally by contacted material characteristics and sensor surface area and show results in accurate manner.

The sensor plate structure (10) shall be connected with electronics circuits and has the current flow responding to the contacted material which the response are formed as Frequency and Amplitude of electromagnetic signal resulted from at least one plate of sensor plate structure (10) connecting to at least one electronics circuits in order to inspect and analyze the different material mixture or the same material, one of each or both in combination. On specific position of the sensor plate structure (10), there is an installed temperature sensor (11) for contacting with material which help analyzing material compositions in accurate manner.

The data of response shall be in the form of Frequency and Amplitude of electromagnetic signal and temperature which are transferred to the central processer (40) via wireless system or wired system to be evaluated by specific new program which works with sensor plate structure (10) for material mixture analyzing such as new program that shows results in graph, color and symbol on graphical human body to indicate nutrient intake amount or heath trend in the future if continues consuming this nutrient mixture on specific period of time stated from the new program or instruction for what you should eat and what you should eat less, for example, or any form of program which demonstrates suitable display for industry.

Figure 2 illustrates the sensor plate structure for analyzing mixture of contacted materials when uses with glass (20) which is conveniently portable as smart glass. Furthermore, it is successful for implementing sensor plate structure (10) for analyzing mixture of contacted materials which has bending ability to work with various shape of containers, not specified only on glass (20) The various containers containing both solid and liquid are as following.

The case (21) is made from the metal or plastic, one of each or both in combination, in the shape of cylinder which has 1st diameter with the 1 st compartment to form the case and then inserts the container (23) in to the 1 st compartment. On specific area of the case (21), there is an opened socket at the same position of the installed display monitor of the 1st processor unit (22) in order to show the display monitor when installs for use. The case (21) has its diameter larger than the container (23) diameter for assembly together.

The 1 st processor unit (22) characterizes as new designed electronics circuits which is installed in the case (21) and consists of battery which supports wireless charging system and display monitor for 1 st processor unit (22) data display.

The container (23) is made from the metal or plastic, one of each or both in combination, which has 2nd diameter with the 2nd compartment to form the containment and then inserts the sensor plate structure (10) in to the 2nd compartment in order to contain the contacted material. The container (23) has its diameter larger than the sensor plate structure (10) diameter for assembly together.

The sensor plate structure (10) characterizes as thin conducting plate fabricating with particular current flowing pattern in order to increase surface contacting areas resulted in special pattern which shall electrically respond with contacted materials. The sensor plate structure (10) characterizes as surface plate coated with thin material film for short circuit current prevention. The sensor plate structure (10) acts for inspecting and analyzing one component or more in contacted material whose surface contacting area plays the most significant part in order to contact and analyze material mixture such as formed material or liquid mixture accurately. The sensor plate structure (10) is able to bend to install in the containers (23) in order to contain the contacted material such as syrup for material mixture analyzing which shall be fabricated in cylinder shape with the 3rd diameter that is smaller than the container (23) diameter.

On specific position of the sensor plate structure (10), there is an installed temperature sensor (1 1) for contacting with material which needs to be analyzed for compositions by Frequency and Amplitude of electromagnetic signal that is resulted from electrical responsive reaction between electrical conducting sensor plate structure (10) and the analyzed material for accurate mixture analysis.

The cover (24) is made from metal or plastic, one of each or both in combination, in cylinder shape. The 4th diameter acts as a seal that covers all assembly parts which hold assembly part together by screw cap or other tight lock methods. On specific position of cover (24), there is a pull top entry which consists of cover plate for open/close in order to insert straw or insert analyzed liquid.

The assembly steps shall be in the following orders as case (21), the 1st processor unit (22), container (23), sensor plate structure (10) and cover (24) respectively.

The 1st processor unit (22) can be installed successfully and compatibly with Biometric Key Storage in order to authenticate before operation or any authentication devices such as infrared reader, NFC, Barcode, Magnet tab card or IC, RFID and scanner, one of each or multiple in combination, for example, for authentication before use of the container (23) for material mixture analysis which can be in the form of smart glass as described example or other containers. The authentication before operation is significantly important because it can show the dietary behavior of authenticator and can use this data for heath report and medical treatment and dietary behavior improvement.

The 1 st processor unit (22) can be installed successfully and interfaced with Smart phone or Smart watch (30) which is an intermediate agent before authenticating by Biometry key storage for using container (23) that can be in the form of smart glass as described example or other containers. The authentication before operation is significantly important because it can show the dietary behavior of authenticator and can use this data for heath report and medical treatment and dietary behavior improvement. Smart phone or Smart watch (30) with processor unit will acknowledge the authentication and grant permission for using container (23). Figure 3 illustrates the sensor plate structure function for contacted material mixture analyzing.

The contacted material may be liquid or viscous material which some parts can coagulate and some parts can melt in to liquid such as water, syrup, fruit juice, urine, blood, oil, food, snack, soil or other materials for instance.

Pour or insert material in to the sensor plate structure (10) by the following mixture analyzing steps.

On specific position of the sensor plate structure (10), there is an installed temperature sensor (1 1) for contacting with material. It will measure temperature of material in order to analyze and categorize material mixture by temperature. The temperature sensor (1 1) is connected with processor unit (22) and transfers temperature data to processor unit (22) and then processor unit (22) will receive and categorize the material categories by temperature data as 1 st step analyzing.

The sensor plate structure (10) characterizes as thin conducting plate fabricating with particular current flowing pattern which shall electrically respond with contacted materials and needs at least one position or more of sensor plate structure (10) with separated electrodes to contact with material. The sensor plate structure (10) will respond with the contacted material in different manners and reflect the result as electromagnetic frequency and amplitude. The frequency and amplitude may result from a group of sensor plate structure (10) which cooperate in transmitting frequency and amplitude of contacted material in order to measure and categorize material in accurate manner by different surface positions. The group of sensor plate structure are connected to the 1st processor unit (22) and transmit contacted material responsive frequency and amplitude signal to the 1st processor unit (22). Then the 1st processor unit (22) will categorize material categories by frequency and amplitude signal as 2nd step analyzing.

The received Frequency and Amplitude signal are very delicate and sophisticate with amount of Frequency and Amplitude signals. The frequency and amplitude analysis will reflect what material is by compared to the amount of test data that has prepared beforehand and been recorded in the central server (40). The frequency and amplitude shows in the pattern of initial frequency interval and end frequency interval which the gap between initial frequency and end frequency should not be over 2 GHZ or over 2 GHZ for instance.

For example, the 1 st frequency and 1 st amplitude at the 1 st temperature may be categorized as the 1 st material group.

For example, the 2nd frequency and 2nd amplitude at the 2nd temperature may be categorized as the 2nd material group.

For example, the 3rd frequency and 3rd amplitude at the 3rd temperature may be categorized as the 3rd material group.

For example, the 4th frequency and 4th amplitude at the 4th temperature may be categorized as the 4th material group.

The 1 st processor unit (22) will transmit the frequency and amplitude signal and temperature of material through wireless network or wired network to central server (40). The central server (40) will categorize and analyze material mixture as the 3rd analyzing step by referred to frequency, amplitude and temperature data and matched with material categories in order to categorize and analyze the contacted material mixture including the material prediction by the amount of test data that has prepared beforehand for specifying the category and type of contacted material such as orange juice, urine, blood, oil, clay or fried rice, for instance. When the central server (40) receives temperature, frequency and amplitude data. It will analyze and categorize the contacted material mixture and return the analyzed data back through the same wireless or wired network channel to the 1 st processor unit (22). The 1st processor unit (22) will display data on the monitor for contacted material mixtures.

Figure 4 illustrates the sensor plate structure function for contacted material mixture analyzing integrated with Smart phone and smart watch (30) application which is compatible with new designed program and user access authentication protocol.

The 1st processor unit (22) can be installed successfully and interfaced with Smart phone or Smart watch (30) which is an intermediate agent before authenticating by Biometry key storage for using container (23) (See Figure 2). The authentication before operation is significantly important because it can show the dietary behavior of authenticator and can use this data for heath report and medical treatment and dietary behavior improvement. Smart phone or Smart watch (30) with processor unit will acknowledge the authentication and grant permission for using container (23).

The 1st processor unit (22) will transmit the frequency and amplitude signal and temperature of material to electronics devices such as smartphone or smart watch (30). The smartphone or smart watch (30) will transmit data through wireless network or wired network to the central server (40). The central server (40) will categorize and analyze material mixture by referred to frequency, amplitude and temperature data and matched with material categories in order to categorize and analyze the contacted material mixture including the material prediction by the amount of test data that has prepared beforehand for specifying the category and type of contacted material such as orange juice, urine, blood, oil, clay or fried rice, for instance. When the central server (40) receives data. It will analyze and categorize the contacted material mixture and return the analyzed data back through the same wireless or wired network channel to smartphone or smart watch (30). The smartphone or smart watch (30) will show the data on display monitor in order to inform the user for mixture of the contacted material and, simultaneously, smartphone or smart watch (30) which is connected with the 1st processor unit (22) will transmit mixture of the contacted material data to the 1st processor unit (22). Then data will display on the monitor of the container (23) also.

The smartphone or smart watch (30) shall be compatible with the new designed program in order to manage data and analyze the contacted material mixture including analyzing date, analyzing times and the analyzed data shall be managed by new designed program to illustrate graph, color and symbol on human body graphic to indicate the nutrient intake amount or heath trend in the future if continues consuming this nutrient mixture on specific period of time stated from the new program or instruction for what you should eat and what you should eat less, for example, or any form of program which demonstrates suitable display for industry.

The measured data and analyzed data of the contacted material mixture will be managed by the new designed program to illustrate graph, color and symbol on human body graphic to indicate the nutrient intake amount or heath trend in the future including the analyzing date and frequency of analyzing recorded in to the central server (40). User and third party such as physician, hospital and government, can access this data by authentication by granted password for the medical use, industrial use and commercial use, for instance.

The Sensor plate structure (10) for analyzing mixture of contacted materials shall be used by various industries such as nutrient mixture analyze in beverage, Glucose urinary test for diabetic or waste disposal contaminated level of industry for example.

Brief Description of Drawing

Figure 1 illustrates the compositions of sensor plate structure for analyzing mixture of contacted materials

Figure 2 illustrates the sensor plate structure for analyzing mixture of contacted materials when uses with glass (20) which is conveniently portable as smart glass.

Figure 3 illustrates the sensor plate structure function for contacted material mixture analyzing.

Figure 4 illustrates the sensor plate structure function for contacted material mixture analyzing integrated with Smart phone and smart watch (30) application which is compatible with new designed program and user access authentication protocol.

Best Invention Method

As mentioned in the total disclosure of the invention