KR102190487B1 - system for manage measured measurements by meter for salinity and disinfection - Google Patents

Abstract

The present invention relates to a system managing a measurement value measured through a disinfection salinometer. The system includes: a disinfection salinometer measuring salinity or disinfectant concentration by measuring the concentration of chlorine through electric conductivity and then transmitting the measured value to a server; and the server receiving the measured value from the disinfection salinometer and reflecting the received measured value to each designated category. According to the present invention, provided is a system managing a measurement value measured through a disinfection salinometer, capable of enabling the center to measure an accurate concentration of disinfectant, manufacture the disinfectant and manage a proper length of immersion time during a pretreatment procedure on a cooking procedure by measuring the concentration and salinity of the disinfectant.

Description

System for manage measured measurements by meter for salinity and disinfection}

The present invention relates to a system for managing a measured value measured through a disinfectant saline meter, and more particularly, a disinfection in which the concentration of chlorine is measured through electrical conductivity to measure the salinity or the concentration of disinfectant water, and the measured value is transmitted to a server. Salinity meter; It relates to a system for managing the measured values measured through the disinfectant salt meter, including; a server that receives the measured values from the disinfectant salt meter and reflects the received measured values to each designated category.

The present invention relates to a system for managing food cooking through a disinfectant saline meter.

The World Health Organization (WHO) defines food poisoning as "infectious or toxin-like disease caused or thought to be caused by ingestion of food or water."

A total of more than 250 kinds of food poisoning are known worldwide, most of which are pathogens (bacteria, viruses, parasites, etc.), and some toxins and chemicals such as mushroom poison are the causes.

Such food poisoning occurs due to various causes, but food poisoning is mainly caused by microorganisms, and personal cleaning, sterilization of dishes and food materials are performed to prevent this, but the number of occurrences of food poisoning has not decreased.

Disinfection aims to promote food safety by killing microorganisms such as bacteria, viruses, protozoa, and parasites that can cause various diseases that may be included in food materials and tableware.

In order to kill microorganisms, a chemical sterilization process is performed.The chlorine solution used in the chemical sterilization process is prepared by diluting the stock solution by the cook on site, but the correct chlorine solution is used for disinfection due to the change in the concentration of the stock solution and the prepared chlorine solution. It is not working.

In addition, since the disinfectant needs a sufficient reaction time to inactivate the food poisoning bacteria, a immersion time of 5 minutes is required, but the immersion time is not accurately observed, so the effect of disinfection may be lower than the target level. This means that it is not sufficiently inactivated.

Therefore, there is an urgent need for accurate concentration measurement and production of sterilized and sterilized water and management of appropriate immersion time.

The background technology of the present invention is disclosed in Korean Patent Publication No. 10-1942022, etc., but a fundamental solution to the above-described problem has not been suggested.

The object of the present invention, conceived to solve the above-described problems, is to measure the concentration and salinity of the disinfectant water to measure the concentration and the salinity of the sterilized water in the pre-treatment process in the cooking process, to accurately measure and manufacture the sterilized water and to manage the proper immersion time. It is to provide a system that manages the measured values measured through a disinfectant saline meter.

In addition, another object of the present invention is whether food materials and tableware are sufficiently sterilized so that food poisoning does not occur, and the sodium concentration of food is centrally managed to accurately prevent food poisoning and measure measured through a disinfecting saline meter that enables sodium reduction. It is to provide a system for managing values.

According to a feature of the present invention for achieving the above object, the present invention is a server in which a category for storing diet-specific data, diet-specific data, CCP4 disinfection concentration data, CP2 disinfection concentration data, photo data, and image data is set. ;
A control unit including a first button for performing zero calibration, a second button for driving a measurement unit and a temperature calculation unit, a third button for designating a category to be stored in the server, and measuring salt or disinfectant concentration through electrical conductivity A temperature calculation unit that includes a measurement unit that calculates a value, a temperature sensor that measures a temperature, and calculates a temperature value through the temperature sensor, and the measured value or temperature value calculated by the measurement unit or the temperature calculation unit to the server. Including a transmitting unit for transmitting, an output unit for outputting the measured value or temperature value calculated by the measurement unit or the temperature calculating unit, and a notification unit for outputting a notification when a notification signal is received from the server,
When the first button is pressed, the electrical conductivity is determined to be zero, and when the second button is pressed thereafter, the zero point correction value is calculated by subtracting the measured value that is subtracted when the electrical conductivity measured from the point when the second button is pressed is corrected to zero. , Disinfectant salt meter for transmitting the calculated value to the server;
When the server receives the measured value from the disinfectant salt meter, it photographs a measurement object measured by the disinfectant salt meter for a preset time range and generates photo data,
Upon receiving the measured value, the object to be measured is photographed from a preset time before the measured value is received to a preset time after the measured value is received, and image data is generated, and the image data is stored in the server. Including a camera that transmits to,
The server,
Generates a notification signal when the measured value measured by the disinfectant salt meter, including the measured value range, the temperature value range, and the immersion time range, exceeds any one or more of the preset measurement value range, the temperature value range, and the immersion time. And transfer to the disinfectant saline meter.

In addition, the disinfecting saline meter corrects the electrical conductivity measured during the first time to zero when the electrical conductivity is not measured for a second preset time after the electrical conductivity is measured for a preset first time, It is characterized by calculating a zero-corrected measurement value by subtracting the conductivity.

In addition, when the first button is clicked, the disinfecting saline meter corrects the measured value measured for a preset time to zero, and when the second button is clicked, the measured value is zero-corrected by subtracting the electrical conductivity measured after the click. It characterized in that it calculates.

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According to the present invention as described above, by measuring the concentration and salinity of the disinfectant water, through a disinfecting saline meter that enables centralized management of the precise concentration measurement and manufacture of the sterilized and sterilized water during the pretreatment during the cooking process, and the appropriate immersion time. It is possible to provide a system for managing the measured measured values. In addition, according to the present invention, a system that manages measured values measured through a disinfectant salt meter capable of accurately preventing food poisoning by centrally managing whether food materials and tableware are sufficiently sterilized or cooked sufficiently to prevent food poisoning from occurring. Can provide.

1 is a block diagram showing a system for managing measured values measured through a disinfectant saline meter according to an embodiment of the present invention
2 is an exemplary view showing the shape of a disinfection saline meter of a system for managing measured values measured by a disinfectant saline meter according to an embodiment of the present invention
3 is an exemplary view showing a process of measuring immersion time through a system for managing measured values measured by a disinfectant saline meter according to an embodiment of the present invention
4 is an exemplary view showing a process of measuring salinity through a system that manages measured values measured through a disinfectant saline meter according to an embodiment of the present invention.
5 is an exemplary view showing a process of performing immersion after measuring the concentration of disinfectant water through a system for managing a measured value measured through a disinfectant saline meter according to an embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a system for managing a measured value measured through a disinfectant saline meter according to embodiments of the present invention.

1 is a block diagram showing a system for managing measured values measured through a disinfectant saline meter 100 according to an embodiment of the present invention.

Referring to FIG. 1, a system for managing measured values measured through a disinfectant saline meter 100 of the present invention includes a disinfectant saline meter 100, a server 200 and a camera 300.

2 is an exemplary view showing the shape of the disinfecting saline meter 100 of the system for managing measured values measured by the disinfecting saline meter 100 according to an embodiment of the present invention, and FIG. 3 is a disinfection according to an embodiment of the present invention. It is an exemplary diagram showing the measurement process of the immersion time through a system that manages the measured values measured through the salinity meter 100, and FIG. 4 is a management of the measured values measured through the disinfectant salinity meter 100 according to an embodiment of the present invention. It is an exemplary diagram showing the process of measuring the salinity through the system.

Referring to FIGS. 1 to 4, the disinfectant salinity meter 100 measures the concentration of chlorine through electrical conductivity, measures the salinity or the concentration of disinfectant water, and transmits the measured value to the server 200.

It is preferable to measure the dilution concentration of chlorine by applying a current to a liquid flowing between the positive electrode and the negative electrode through the positive electrode and the negative electrode, and considering the chlorine diluted in the liquid as a resistance. In other words, it is preferable to allow a relatively small current to flow when the resistance with a low dilution concentration of chlorine is high, and allow a relatively large current to flow when the resistance with a high dilution concentration of chlorine is low, and measure the dilution concentration of chlorine. . Here, the disinfecting saline meter 100 according to the first embodiment is the electrical conductivity measured for the first time when the electrical conductivity is not measured for the second preset time after the electrical conductivity is measured for a preset first time. It is characterized in that the zero-point corrected measured value is calculated by correcting the zero point and subtracting the electrical conductivity measured thereafter. For example, if the electrical conductivity is not measured for more than 60 seconds, the disinfectant salt meter 100 treats it as a zero point correction action and starts zero point correction, determines that the measured value measured for 7 seconds is the zero point, and determines the measured electrical conductivity for 7 seconds. By subtracting the measured measured value, the zero-corrected measured value is calculated.

The disinfecting saline meter 100 according to the second embodiment corrects the measured value measured during the clicked time to zero when a specific button is clicked for a preset time, and then, when the specific button is clicked again, the electrical conductivity measured after the click is performed. It is characterized in that by subtracting and calculating a zero-corrected measured value. For example, when the first button 112 of the operation unit 110 of the disinfectant salt meter 100 is clicked to determine the measured electrical conductivity as zero, and then when the second button 114 is pressed, it is measured from the point at which it is pressed. When the electrical conductivity is corrected to zero, the measured value that has been subtracted is subtracted to calculate the zero-corrected measured value.

The disinfection salinity meter includes an operation unit 110, a measurement unit 120, a temperature calculation unit 130, a transmission unit 140, an output unit 150, and a notification unit 160. Here, the operation unit 110 is a second button that drives the measurement unit 120 or the temperature calculation unit 130 according to the measurement method selected through the first button 112 and the third button 116 for correcting the zero point. 114, and a third button 116 for designating a category to be stored in the server 200.

The measurement unit 120 is installed on the front side of the disinfectant salt meter 100, and calculates a measured value by measuring the salinity or the concentration of disinfectant water through electrical conductivity. The temperature calculation unit 130 is installed in the measurement unit 120 to measure the salinity or the concentration of disinfectant water and simultaneously measure the temperature with a temperature sensor to calculate a temperature value.

The transmission unit 140 transmits the measured value or temperature value calculated by the measurement unit 120 or the temperature calculation unit 130 to the server 200.

The output unit 150 outputs a measured value or a temperature value calculated by the measurement unit 120 or the temperature calculation unit 130.

The notification unit 160 outputs a notification upon receiving a notification signal from the server 200.

The server 200 receives a measurement value from the disinfectant salt meter 100 and reflects the received measurement value to each designated category. Here, the category in which the measured value is reflected is preferably designated through a disinfectant salt meter, and the measured value and photographic data or image data taken through the camera 300 are preferably stored according to the category selection. In addition, the category in which the measured value is reflected is preferably created based on information already input from the user, and if the category is stored for each diet and food type, and the measured value is reflected in the category, the reflected time and the size of the measured value, Photo data, image data, etc. are stored, allowing the user to check the stored value by selecting a time at any time and at a desired time. And, it is preferable that the category is designated through the third button 116, and in general, it is possible to use the disinfection tank as a first, second, third, etc. without distinction. Here, the server 200 transmits a notification signal to the disinfectant salt meter 100 when any one or more of a measurement value range, a temperature value range, and an immersion time range set in advance for each category is exceeded. For example, if the measurement value range specified in a specific category is 90ppm to 110ppm, and the immersion time range is 5 minutes, when the measured value is lower than 90ppm or higher than 110ppm, a notification signal is sent and 5 minutes have not been exceeded after the start of immersion. When the immersion is finished in the state or the immersion time is ended, it is desirable to transmit a notification signal so that the user can easily recognize it. In addition, when the server 200 receives photo data and image data from the camera 300, the photo data or image data received from the camera 300 is stored in a category in which the measured value is reflected.

That is, it is possible to receive photo data or image data from the camera 300 and store them for each category, and when food poisoning or the like occurs, the photo data or image data may be checked for each category to detect the correct cause. When the server 200 receives the measured value from the disinfectant salt meter 100, the camera 300 generates photographic data by taking a photograph and transmits the photographic data to the server 200.

Here, it is preferable that the camera 300 performs photographing toward a measurement object measured by the disinfectant saline meter 100. In addition, when the server 200 receives the measured value from the disinfectant salt meter 100, the camera 300 generates image data by photographing for a preset time range, and transmits the image data to the server 200. That is, it is preferable that the camera 300 is driven at the time when the disinfectant saline meter 100 transmits the measured value to the server 200 to check whether the correct measurement has been made.

In addition, when the server 200 receives the measured value from the disinfectant salt meter 100, the image data is generated by photographing from a preset time before the measured value is received to a preset time after the measured value is received, and the image data It is also possible to transmit to the server 200. That is, the camera 300 stores the process before the measurement value is received as image data, so that when a problem such as food poisoning occurs in the future, it is possible to check whether the measurement through the disinfectant saline meter 100 is properly performed.

5 is an exemplary view showing a process of performing immersion after measuring the concentration of disinfectant water through a system that manages the measured values measured by the disinfectant saline meter 100 according to an embodiment of the present invention.

Referring to FIG. 5, the system for managing the measured values measured through the disinfectant saline meter 100 according to the present invention first sets a category through the operation unit 110 to measure the concentration of disinfectant water (s110).

Then, by clicking the first button 112 through the operation unit 110, the zero point correction proceeds (s120).

Then, the concentration of the disinfectant water is measured for a preset time (s130).

Then, when the concentration measurement of the disinfectant water is completed, a category is set to proceed with immersion (s140).

Then, by clicking the measurement button, immersion is performed for a preset time (s150).

Then, when the immersion is completed, the result is transmitted to the server (s160).

Then, the result is output through the output unit 150 (s170).

At this time, if the measured value of the sterilized water concentration is smaller or larger than the preset concentration range of the sterilized water, a notification is output, and when the immersion is terminated earlier than the preset time range or immersion is completed, a notification is output.

Those of ordinary skill in the art to which the present invention pertains will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting. The scope of the present invention is indicated by the scope of the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. Must be interpreted.

100: disinfectant saline meter 110: control unit
112: first button 114: second button
116: third button 120: measuring unit
130: temperature calculation unit 140: transmission unit
150: output unit 160: notification unit
200: server 300: camera

Claims (8)

A server 200 in which a category for storing dietary data, CCP4 disinfection concentration data, CP2 disinfection concentration data, photo data and image data is set;
A first button 112 for performing zero calibration, a second button 114 for driving the measurement unit 120 and the temperature calculation unit 130, and a third button for designating a category to be stored in the server 200 ( A control unit 110 including 116), a measurement unit 120 for calculating a measured value by measuring salinity or concentration of disinfectant water through electrical conductivity, a temperature sensor for measuring temperature, and calculating a temperature value through the temperature sensor The temperature calculation unit 130, the measurement unit 120, or the transmission unit 140 for transmitting the measured value or the temperature value calculated by the temperature calculation unit 130 to the server 200, the measurement unit 120 Or an output unit 150 for outputting a measured value or a temperature value calculated by the temperature calculation unit 130 and a notification unit 160 for outputting a notification when a notification signal is received from the server 200,
When the first button 112 is pressed, the electrical conductivity is determined as zero, and when the second button 114 is pressed thereafter, the electrical conductivity measured from the point when the second button 114 is pressed is subtracted from the measured value when it is corrected to zero A disinfectant salt meter 100 for calculating a zero point correction value and transmitting the calculated value to the server 200;
When the server 200 receives the measured value from the disinfectant saline meter 100, it photographs a measurement object measured by the disinfectant saline meter 100 for a preset time range and generates photo data,
Upon receiving the measured value, the object to be measured is photographed from a preset time before the measured value is received to a preset time after the measured value is received, and image data is generated, and the image data is stored in the server. Sent with Including; camera 300;
The server 200,
Generates a notification signal when the measured value measured by the disinfectant salt meter, including the measured value range, the temperature value range, and the immersion time range, exceeds any one or more of the preset measurement value range, the temperature value range, and the immersion time. The system for managing the measured values measured through the disinfectant saline meter and transmitted to the disinfectant saline meter. The method of claim 1,
The disinfecting saline meter 100,
If the electrical conductivity is not measured for the second preset time after the electrical conductivity is measured for the first time set in advance, the electrical conductivity measured for the first time is corrected to zero, and then the measured electrical conductivity is subtracted and calculated to zero. A system for managing a measured value measured through a disinfectant saline meter, characterized in that calculating a corrected measured value. The method of claim 1,
The disinfectant salinity meter 100
When the first button is clicked, the measured value measured for a preset time is corrected to zero, and when the second button is clicked, the electrical conductivity measured after the click is subtracted and calculated to calculate the zero-corrected measured value. , A system that manages the measured values measured through a disinfectant saline meter.
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