TR2021022158A2 - A TYPE OF ANALYSIS FOLLOW-UP AND EVALUATION SYSTEM - Google Patents

Abstract

This invention relates to a kind of analysis tracking and evaluation system developed to be used in the regular monitoring of various values in liquid raw materials, semi-finished products or final products with instant measurement.

Description

DESCRIPTION A KIND OF ANALYSIS, FOLLOW-UP AND EVALUATION SYSTEM TECHNICAL FIELD This invention enables the determination of various values in liquid raw materials, semi-finished products or final products. It is a type of analysis tracking and analysis developed to be used in regular monitoring with instant measurement. It's about the evaluation system.

BACKGROUND OF THE INVENTION The invention is based on the determination of various values in the liquid raw material, semi-finished product or final product. It will be used for regular monitoring with instant measurement. For the controls of these products The processes carried out within the framework of the methods used today It also causes high operating and maintenance costs. This It occurs as a result of these processes not being operated effectively enough for various reasons.

Our invention is used in tanks/lines where liquid raw materials or semi-products are processed. can be integrated to measure various values at the same time and get instant results. and digitalize the measurement results through a process management software. It will make the process open to the supervision of people who follow it. In this respect, production In which liquid raw materials are mostly used in the processes: Alcohol production lines, liquid detergent production lines, milk and dairy products production lines, liquid chocolate production facilities, pharmaceutical production, dye and by-products production, cosmetics production lines, chemical product lines, fruit juice and acidic beverage factories, liquid It can be used in processes such as food production, oil and its derivatives. These processes will make it more efficient.

Our invention; liquid substance or semi-finished product in the production lines mentioned above. based on refractrometry or spectroscopy, which are widely used in As an economical and real-time solution to analysis; chemical sensors and It incorporates image processing technology. Accordingly chemical samples that change color through sensors, image processing techniques The attribute to be analyzed using (alcohol percentage, pH/pOH) It will give information about the value, ...). Particularly high operating and maintenance costs Traditional methods make it difficult to analyze at high frequencies.

Measurements made at high frequency or in real time with the developed product It will be more economical.

It is widely used in industrial analysis of liquid raw materials and semi-finished products. methods used; Spectroscopic and non-spectroscopic methods is divided into two. In spectroscopic methods; sent in certain energy ranges molecules by examining the absorption of rays or the emission of absorbed rays. analysis of their structures can be provided. However, the methods used are relatively expensive. It is very sensitive because it is very sensitive and works on some harmful rays (X ray, Gamma ray, etc.). These are methods that do not have frequent measurement possibilities.

Among the non-spectroscopic methods, refractrometry and diffractrometer; More economical and safer than spectroscopic methods It is more widely used due to its availability [1]. refractrometric methods, the light is transferred to different wavelengths and energy levels within the sample. While it is used as a method based on fracture; In diffractrometric methods is the collision energy of a particle or wave model such as X ray or electron Analyzes can be made based on (diffraction) [2]. However, diffractrometric Due to the relatively expensive methods and the use of harmful Refractometers are widely used in the characterization of liquid raw materials and semi-finished products. It is used as [3]. However, in the current situation, studies carried out in laboratory environments This is because the operating and maintenance costs of traditional measurements are expensive. The measurement frequency of the methods remains at very low levels.

Modification of existing tanks for field use of refractometer technology Its construction is the first technical problem. In order for these devices to be connected to tanks opening additional holes in the tanks and entry and exit channels for the refractometer needs to be created. Due to this necessity, multiple tanks can be operated at the same time. It is not possible to connect it to a refractometer or it is very costly.

A second technical problem is that refractometers cannot measure a single value. are to be optimized. A separate refractometer for each value to be monitored It needs to be connected. Exceptionally, it can measure a maximum of 2 different values. Although it has been learned that refractometers can be made, their costs have increased exponentially. increasing. In addition, there are similar products among the products using this technology in the market. A product that measures pH and acidity with a single unit using technology has not been found.

With our invention, more measurements can be taken from the current situation in a more economical way. A method can be provided. The product's image processing and chemical sensors based analysis, speed and cost reduction compared to traditional methods It will make you win. Additionally, using the product obtained from the exit of the tanks Because of this, unlike refractrometric measurements, there is no measurement on the tanks. There will be no physical changes.

Optical Spectrometry. -ppt download (slideplayercom) DESCRIPTION OF THE INVENTION In traditional methods, equivalent products are single products due to their technologies. They are products produced based on the measurement of a parameter. More than one product There is a need for development in parameter measurement, which It increases the costs by 2-3 times. Moreover, such improvements are only available to manufacturers. It can be done by. Another important point is; based on refractrometry production of liquid raw materials in order to perform product analyzes on products. It is necessary to make certain modifications to the tanks. Our invention is primarily Since it will be connected to the tanks through their existing valves, there will be no There will be no need for modification.

The basis of our invention is; 5-10 mL sample at defined time intervals The color changes that will occur in the samples are recorded with cameras. recording, transferring the results to digital media and saving them in RGB or HSV space. It is a sensor kit that will enable all analyzes to be performed automatically.

A certain amount of sample taken from the tank is transferred to 4 different chambers in the kit to be produced. It is the same as a single kit, since it will be dispensed and a different value will be measured in each chamber. 4 different analyzes will be possible at the same time and a single measurement technique will be used for all variables. will be used (except for chemical sensors which are consumables). Therefore the kit Taking more than 4 measurements at the same time with upgrades scenario is also possible. Traditional methods based on refractrometry In comparison, 4 attributes (pH, amount of alcohol, amount of acid and amount of sugar) simultaneously Being measurable, it facilitates the analysis of liquid raw materials and semi-finished products. It will save money and allow the frequency of measurement to be increased.

REFERANCE LIST P1. Water and Liquid Raw Material Inlet-Solenoid Valve P2. Mechanical filter with a maximum thickness of 8 pm P.S. Camera and Microcomputer P4. Waste Water and Liquid Raw Material Discharge Line and Solenoid Valve P.S. Square profile examination tubes with 10 mL volume P.B. Liquid Raw Material and Cleaning Water Input Line and Solenoid Valve PT. Chemical Sensor Chamber and Solenoid Valve Moon. Lighting system BRIEF DESCRIPTION OF THE DRAWINGS Figure 1: Representative view of the general working principle of the invention in question Figure 2: Representative view of the assembly parts of the invention in question Figure 3: General representation of the analysis system working principle of the invention in question view Figure 4: Representation of the mechanical filter (P2) with a maximum thickness of 8 pm in the invention in question general view Figure 5: Representation of square profile examination tubes (PS) with a volume of 10 mL in the invention in question general view DESCRIPTION OF THE INVENTION This invention is a type of analysis, tracking and evaluation system and includes the following elements: Contains.

Solenoid valve of liquid raw material, semi-product or cleaning water Water and liquid raw material inlet-solenoid that allows entry into the tubes with control Up to 8 um, which allows filtering of fragments larger than 8 um thickness mechanical filter (P2), For image processing based analyzes of samples with color changes Camera and Microcomputer (PB) to be used, Discharge of waste liquid raw material, semi-finished product or cleaning water Waste Water and Liquid Raw Material Discharge Line to be used for Solenoid Valve (P4), It will be used to analyze liquid products. They are examination tubes, 1.4 cm xl.4, away from light refraction. Square profile examination with a volume of 10 mL, which will be cm x 6 cm in size. tubes (PS) Tubes for liquid raw materials, semi-finished products or cleaning water which will be used for cleaning through and provides input control. Liquid Raw Material and Cleaning Water Input Line and Solenoid Valve (Pö), It will be used for the examination of liquid raw materials and semi-products. which will hold the chemical sensors and the amount of sensors will be controlled Chemical Sensor Chamber and Solenoid Valve (PT).

The method steps in the invention in question are as follows; A. Separation of the sample with a mechanical filter (P2) of maximum 8 um thickness B. Adding chemical sensors to the product C. The product's cameras and image processing (Camera and Microcomputer (P3)) analysis with methods With the newly developed test mechanism, industrial liquid raw materials, by-products manufactured goods and cosmetics; through chemical sensors and image processing can be detected. Refractrometer, which is widely used in the market, Unlike diffractrometers or other spectroscopic measurement-based devices; Our device, which is the subject of the invention, detects the effects observed on the products via chemical sensors. It will work with the logic of observing color changes. Also, above In the traditional methods mentioned, separate measurements are made for each measurement attribute. makes the process more laborious and reduces operating costs. It increases. With our invention, we can analyze cheaper, more and more efficiently. opportunity will be provided.

Accordingly, liquid raw materials prevent clogging of the channels to be used for analysis. In order to prevent will be passed over. In this way, particles that will prevent the analysis of the image are eliminated. will be filtered. mechanical filter (P2) with a maximum thickness of 8 um at the end of the process In order to ensure that it can be cleaned, at an inclination angle of approximately 10°. It is recommended to place it as in 3. It can change. In this way Cleaning will be easier using gravity.

Image processing technologies will be used to analyze the filtered product.

Based on the color changes of the chemical sensors used In analysis, color is used in HSV space in order to better capture the image. transformations will be examined. In the system used, the light is used in the most efficient way. To be used, preferably on a white background with dimensions of 40 cm x 40 cm x 40 cm. box will be used. Light intensity meter to detect the light intensity in the box sensors will be used, thus white light balance will be maintained.

Square profile examination tubes (P5) with 10 mL volume analyzed approximately 10 mL volume and square prism profile to prevent light scattering. It will happen. Solenoid valves that will ensure the flow of the product and cleaning water; One above and one below the mL volume square profile examination tube (P5). (Waste Water and Liquid Raw Material Discharge Line and Solenoid Valve (P4), Liquid raw materials, semi-finished products or cleaning water through tubes Liquid Raw Materials and Equipment that will be used for cleaning and providing input control Cleaning Water Input Line and Solenoid Valve (P6)) will be positioned. 10mL 10 mm diameter for inlet and outlet channels of the voluminous square profile examination tube (P5) The channels will be located at the top and bottom in the same way.

The input channel to be used for the chemical sensor will be 5 mm in diameter and It will be controlled so that it can be dropped in large amounts (Chemical Sensor Chamber and Solenoid Valve (P7)). Ability to replace or renew the sensors used For the purpose of each sensor chamber (Chemical Sensor Chamber and Solenoid Valve (P7)) will have a maximum volume of 10 mL.

After the analysis is completed, square profile examination is performed for cleaning purposes. Water will be entered into the tubes (P5). The water to be used must be of drinking water quality. and will not undergo any pre-processing process. Then at most Square profile inspection with 8 µm mechanical filter (P2) and sample evacuation completed The cleaning process will be completed by washing the tubes (P5) with this water. Waste Water and Liquid The raw material will be discharged through the Discharge Line and Solenoid Valve (P4), and The entire process will be completed.

The obtained images are transferred to the computer environment and necessary data are collected for analysis. software will be developed. Our invention; due to operating and maintenance costs Unlike traditional methods where frequent data acquisition is difficult, image Development of a process-based, efficient and sustainable analysis system It will provide.

Claims (2)

CLAIMS . This invention is a type of analysis, tracking and evaluation system, and its feature is; Water and liquid raw material inlet-solenoid, which allows liquid raw material, semi-product or cleaning water to enter the tubes with solenoid valve control. Mechanical filter (P2) with a maximum thickness of 8 um, which allows filtering of pieces larger than 8 um. Image processing-based analysis of samples with color changes Camera and Microcomputer (PS) to be used for the purpose of the waste liquid raw material, semi-product or cleaning water, Waste Water and Liquid Raw Material Discharge Line and Solenoid Valve (P4), Examination tubes to be used to analyze the liquid products and light to prevent errors caused by breakage Square profile examination tubes (PS) with a volume of 10 mL and dimensions of 1.4 cm x 1.4 cm Valve (PB) is the formation of the Chemical Sensor Reservoir and Solenoid Valve (P7), which will hold the chemical sensors to be used for the examination of liquid raw materials and semi-products and the amount of sensors will be controlled. 2. It is a type of analysis, tracking and evaluation system mentioned in claim 1, and its feature is; It consists of the process steps: A. Separating the particles with a mechanical filter (P2) with a maximum thickness of 8 pm. B. Adding chemical sensors to the product. C. Analysis of the product with cameras and image processing (Camera and Microcomputer (P3)) methods.