KR20060056016A - Method for measuring microorganism in the mobile terminal - Google Patents

Abstract

The present invention relates to a portable terminal, and more particularly, to a method for measuring microorganisms in a portable terminal, which allows the presence of various microorganisms through a portable terminal capable of measuring microorganisms. To this end, the present invention provides a method for measuring microorganisms using a portable terminal capable of measuring microorganisms, comprising: contacting food with a microbial measurement test paper, and combining the microbial measurement test paper with a battery pack; Determining whether the microbial measurement mode is in the microbial measurement mode and culturing the food in contact with the microbial measurement test paper; After the incubation, photographing the microbial measurement test paper through a camera, and obtaining the microbial measurement value through the image of the photographed measurement test paper; And comparing the obtained microbial measurement value with a predetermined microbial reference value and displaying a guide message according to the comparison result.

Description

METHOD FOR MEASURING MICROORGANISM IN THE MOBILE TERMINAL}

1 is a flow chart showing a microorganism measuring method of a portable terminal according to an embodiment of the present invention.

The present invention relates to a portable terminal, and more particularly, to a method for measuring microorganisms in a portable terminal, which allows the presence of various microorganisms through a portable terminal capable of measuring microorganisms.

The pathogenic bacteria present in the living environment have been significantly overcome in recent years by the advancement of medical care, the advancement of treatment, especially the discovery and development of antimicrobial agents and antibiotics, and the improvement of hygiene. However, these bacteria, once they occur, can cause major damage or fatal problems, and remain a major problem.

The pathogenic bacteria of concern when present around us are bacteria that cause food poisoning or bacteria that are particularly resistant to antibiotics, such as Methicillin-resistant Staphylococcus aureus (MRSA). Can cause a large number of infected people at once or cause problems of infection in hospitals and the like.

Since food intake is essential for animals including humans, despite recent advances in science and advances in technology, it is still difficult to completely prevent food poisoning due to food intake. On the other hand, the prevention of such food poisoning is becoming more important with the recent implementation of the Product Liability Act (PL Act).

Food poisoning is food poisoning caused by natural poisoning (blowfish poison, mushroom poison, etc.) based on the cause; Food poisoning due to food decay (decomposition of food, etc.); And food poisoning by incorporation or propagation of bacteria (Staphylococcus aureus, Salmonella, Vibrio parahaemolyticus, E. coli O157, etc.) in food. Among these food poisonings, food poisoning caused by natural poisoning can be easily avoided by not eating food containing the causative poison. In addition, when the change in the appearance, smell, etc. of the food is examined, food corruption is generally easily detected, and it is relatively easy to avoid food poisoning due to food corruption.

In contrast to these two types of food poisoning, incorporation or reproduction of bacteria into food is generally not observed with food poisoning by bacteria (that is, bacterial food poisoning). Because of the difficulty, this bacterial food poisoning is the most difficult food poisoning to avoid.

Food poisoning affects a large number of people in facilities that supply large quantities of food, such as restaurants, lunch-deliverers, and food service centers, and also causes severe vomiting, diarrhea, abdominal pain, and high fever.                         

Therefore, it is urgently needed to periodically check bacteria, find the causative bacteria early, and take appropriate preventive measures such as disinfection. In addition, people who eat food need to give credibility to the food.

However, until now, the prevention means of food poisoning has been in accordance with general preventive measures (for example, to keep cooking utensils such as a knife and cutting board clean, to keep the hands of people involved in cooking, etc.).

Therefore, there is a need to be able to measure the safety of food by embedding a module capable of measuring microorganisms in the portable terminal so as to check the safety of food in a portable terminal that is always carried.

Accordingly, the present invention has been made in view of the necessity as described above, and an object of the present invention is to provide a method for measuring microorganisms in a portable terminal, which allows the presence of various microorganisms through a portable terminal capable of measuring microorganisms.

The present invention for achieving the above object, in the method for measuring the microorganism using a portable terminal capable of measuring the microorganism,

Contacting the food with the microbial test paper, and then combining the microbial test paper with the battery pack;

Determining whether the microbial measurement mode is in the microbial measurement mode and culturing the food in contact with the microbial measurement test paper;                     

After the incubation, photographing the microbial measurement test paper through a camera, and obtaining the microbial measurement value through the image of the photographed measurement test paper;

Comprising a process of displaying the guide message according to the comparison result by comparing the obtained microbial measurement value and the predetermined microbial reference value.

In addition, the process of culturing the food in contact with the microbial measurement test paper,

It comprises the step of executing a culture mode to raise the temperature of the battery pack to a constant temperature suitable for microbial culture.

The obtaining of the microbial measurement may include converting color information of the photographed image into microbial concentration information;

And reading the microbial measurement value mapped to the converted microbial concentration information from a previously stored microbial measurement table.

The converting of the microbial concentration information may further include reading the corresponding microbial concentration information corresponding to the image color information from a previously stored table.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

It should be noted that in the following description, only parts necessary for understanding the operation and operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

In the following description, specific details according to the microbial measurement method of the portable terminal of the present invention are shown to provide a more general understanding of the present invention. It will be apparent to one of ordinary skill in the art that the present invention may be readily practiced without these specific details and also by their modifications.

1 is a flow chart showing a microbial measurement method of a portable terminal according to an embodiment of the present invention.

Referring to FIG. 1, first, in step 101, a measurer contacts food to be measured on a microbial test paper, and then proceeds to step 103 to combine (insert) a microbial test paper in a battery pack. In this case, in order to combine the microbial measurement test paper with the battery pack, a space for coupling must be secured, and the microbial measurement test paper must be coupled to the battery pack in detail below.

Thereafter, in step 105, the portable terminal determines whether to execute the microbial measurement mode. If the portable terminal requests the execution of the microbial measurement mode, the portable terminal proceeds to step 107 and performs culture of the food contacted with the microbial measurement test paper. At this time, the portable terminal enters the culture mode to increase the temperature of the battery pack to a predetermined temperature suitable for microbial culture in order to culture the food in contact with the microbial measurement test paper to perform the culture. For example, the portable terminal raises the temperature of the battery pack so that the temperature is more than 40 degrees suitable for microbial propagation.

In step 109, the portable terminal determines whether the culture is terminated according to the passage of the culture end time.

When the culture is completed, in step 111, the measurer separates the microbial test paper from the battery pack and photographs the microbial test paper through the camera.

In step 113, the portable terminal converts color information according to the image of the microbial measurement test paper photographed into microbial concentration information. Here, the microbial concentration information is obtained by reading the corresponding microbial concentration information corresponding to the values of R (red), G (green), and B (blue), which are color information, from a previously stored table.

In step 115, the portable terminal reads the microbial measurement value mapped to the microbial concentration information from the previously stored microbial measurement table and proceeds to step 117.

In step 117, the portable terminal compares the size of the read microbial measurement value and the predetermined microbial reference value. Here, the reference value of the microorganism may be set by the user.

As a result of the comparison, if the microbial measurement value is less than the microbial reference value, the portable terminal proceeds to step 119 and displays a guide message indicating that the microbial measurement value is less than the microbial reference value on the display window. In addition, the display window may display a guide message that is safe from microorganisms.

However, if the result of the comparison, the microbial measurement value is greater than the microbial reference value, the portable terminal proceeds to step 121 displays a guide message indicating that the microbial measurement value is greater than the microbial reference value on the display window. In addition, the display window may display a message indicating that the danger from microorganisms.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described in detail above, in order to measure the degree of microorganism retention, the present invention maintains the microbial measurement test paper in contact with food and the like at a predetermined temperature suitable for cultivation, and then obtains image color information by imaging the microbial measurement test paper. By measuring the microorganism retention information through the acquired image color information, the user can not only easily inspect the microorganism for food at any time, but also have an effect of obtaining reliability of the food.

In addition, there is an effect that can provide the convenience of self-diagnosis for food business owners.

Claims (4)

In the method for measuring the microorganism using a portable terminal capable of measuring the microorganism, Contacting the food with the microbial test paper, and then combining the microbial test paper with the battery pack; Determining whether the microbial measurement mode is in the microbial measurement mode and culturing the food in contact with the microbial measurement test paper; After the incubation, photographing the microbial measurement test paper through a camera, and obtaining the microbial measurement value through the image of the photographed measurement test paper; Comparing the obtained microbial measurement value and the predetermined microbial reference value and the microbial measurement method of the portable terminal, characterized in that the process consisting of displaying a guide message according to the comparison result. According to claim 1, wherein the process of culturing food in contact with the microbial measurement test paper, Microbial measurement method of a portable terminal comprising the step of executing a culture mode for raising the temperature of the battery pack to a predetermined temperature suitable for microbial culture. The method of claim 1, wherein the obtaining of the microbial measurement is performed by: Converting color information (R, G, B) of the captured image into microbial concentration information; And reading the microbial measurement value mapped to the converted microbial concentration information from a previously stored microbial measurement table. The method of claim 3, wherein converting the microorganism concentration information into And reading out the corresponding microorganism concentration information corresponding to the image color information (R, G, B) from a previously stored table.

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