KR20220153752A - Sugar content meter - Google Patents

Abstract

The present invention relates to a sugar content meter. More specifically, the present invention relates to a sugar content meter which has a temperature sensor formed in the center of an inner side of a cover unit to directly measure a temperature of a sample and obtain precise sugar content data through temperature compensation conducted by more precise temperature measurement. As such, according to the present invention, the sugar content meter comprises: a main body; a measuring unit formed on an upper part of the main body and having an optical sensor on a center part to measure a refractive index of a sample; a cover unit rotatably coupled to an upper side of the measuring unit and the main body, and formed to cover a front side of the measuring unit; a temperature sensor formed in the center of the inner side of the cover unit and measuring a temperature of the sample; an operation unit formed on a lower part of the main body with a plurality of buttons; a calculation unit formed in the main body, receiving the refractive index and the temperature measured respectively by the measuring unit and the temperature sensor, and calculating a sugar content; and a display unit formed on a central part of the main body and on a lower side of the measuring unit, and displaying the value calculated by the calculation unit.

Description

Sugar content meter

The present invention relates to a sugar content meter, and more particularly, to a sugar content meter in which a temperature sensor is formed in the inner center of a lid portion to directly measure the temperature of a sample and obtain accurate sugar content through temperature compensation made by more accurate temperature measurement. It is a technology about

BACKGROUND OF THE INVENTION In recent years, as a lot of attention has been paid to health problems caused by food intake, accurate measurements of components included in food have been made.

As a method for measuring the sugar content in the measurement of components of such foods, an optical method using a refractive index is mainly used. The optical method using the refractive index can measure the sugar content by measuring the difference in refractive index according to the sugar content.

In order to reduce the measurement error according to the temperature of the sample in such a sugar meter, a temperature sensor is installed inside the main body to measure the temperature of the sample and perform temperature compensation.

However, in the case of a general sugar meter as described above, since the temperature meter is installed inside the body, the temperature of the sample is measured indirectly rather than directly, so that an accurate temperature value cannot be obtained, resulting in more accurate temperature compensation. There was a problem that it was difficult to obtain an accurate sugar content measurement value.

Therefore, it is necessary to develop a sugar content meter capable of obtaining a more accurate temperature measurement value when measuring temperature in sugar content measurement.

Republic of Korea Patent Registration No. 10-1348563 (Announcement date 2014.01.17)

In the present invention, a temperature sensor is formed in the inner center of the cover part, so that the temperature sensor directly measures the temperature of the sample and obtains a more accurate temperature measurement value by covering the cover part after the sample is applied to the measuring part. Since it is installed inside the sample, the temperature of the sample is measured indirectly rather than directly, so it is difficult to obtain an accurate temperature value and more accurate temperature compensation is difficult to obtain. .

The problem to be solved by the present invention is not limited to the problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The sugar meter of the present invention for achieving the above object to be solved,

A body, a measuring unit formed on an upper portion of the body and having an optical sensor at the center thereof to measure the refractive index of a sample, a cover portion formed on the upper side of the measuring unit and rotatably coupled to the body to cover the front of the measuring unit, A temperature sensor formed in the inner center of the cover part to measure the temperature of the sample, a control part formed of a plurality of buttons on the lower part of the main body, a refractive index formed inside the main body and measured from the measuring part and the temperature sensor, respectively It is characterized in that it includes a calculation unit for receiving the temperature and calculating the sugar content, and a display unit formed at the center of the main body and below the measurement unit to show the value calculated by the calculation unit.

In addition, the temperature sensor is characterized in that a laser sensor is applied.

In addition, the calculation unit is characterized in that it further comprises a sugar content calculation module for calculating the sugar content of the sample from the refractive index measured by the measuring unit.

In addition, the calculation unit is characterized in that it further comprises a temperature compensation module for temperature compensation for the sugar content calculated by the sugar content calculation unit through the temperature measured by the temperature sensor.

In the present invention, a temperature sensor is formed in the inner center of the cover part, and after the sample is applied to the measuring part, the cover part is covered so that the temperature sensor can directly measure the temperature of the sample to obtain a more accurate temperature measurement value.

1 is a perspective view showing a sugar meter according to an embodiment of the present invention.
2 is a front view showing a state in which the lid of the sugar meter of FIG. 1 is closed, viewed from the front.

Prior to describing the embodiments of the present invention in detail, it should be noted that the embodiments of the present invention are provided to completely explain the present invention to those skilled in the art.

Therefore, the claims of the present invention are not limited by the following examples and drawings.

In addition, the drawings in this specification are intended to clearly understand the description by reference to the drawings, so there are some exaggerated parts. Therefore, there may be differences between the drawing shown in the present invention and the actual product.

Hereinafter, the present invention will be described with reference to the drawings. However, after the sugar meter is generally described with reference to FIG. 1 so that the description of the present invention can be concise and clear, the components of the sugar meter will be described in detail with reference to FIGS. 1 and 2.

1 is a perspective view of a sugar meter according to an example of the present invention.

In the sugar meter 1 according to an example of the present invention, the temperature sensor 40 is formed at the inner center of the cover part 30 to drop the sample on the measuring part 20, and then cover the cover part 30 to cover the temperature sensor ( 40) can directly measure the temperature of the sample to obtain a more accurate temperature measurement.

In addition, in one example of the present invention, the sugar content meter can measure the sugar content more accurately by performing temperature compensation through the temperature value measured by the temperature sensor 40 to the refractive index measured by the measuring unit 20.

As such, the sugar meter 1 includes a body 10, a measurement unit 20, a cover unit 30, a temperature sensor 40, a control unit 50, a calculation unit (not shown), and a display unit 60. include

Hereinafter, with reference to FIGS. 1 and 2, the components of the sugar meter and the effect of each component will be described in detail.

The main body 10 is a configuration of a frame in which components of a sugar level meter to be described later are installed. A measurement unit 20, a cover unit 30, a control unit 50, and a display unit 60 may be formed on the front surface of the main body 10.

A measuring unit 20 may be formed on the upper portion of the main body 10 . An optical sensor may be provided in the central portion of the measurement unit 20 . The optical sensor may measure the refractive index of a sample to measure the sugar content.

A prism may be used as an optical sensor provided in the measuring unit 20 .

The cover part 30 may be rotatably coupled to the upper side of the measuring part 20 . That is, the cover part 30 is rotatably coupled to the upper side of the measuring part 20 and the upper end of the main body 10 so as to cover or open the measuring part 20 .

A temperature sensor 40 may be formed at the inner center of the cover part 30 .

After the sample is applied to the measuring unit 20, the temperature sensor 40 directly measures the temperature of the sample when the measuring unit 20 is rotated and covers the entire surface of the measuring unit 20, and the measured temperature value of the sample described later can be sent to the calculator.

As the temperature sensor 40, a laser sensor that can generally be used for temperature measurement may be applied.

A manipulation unit 50 may be formed on the lower portion of the main body 10 . The control unit 50 may include a zero point control button, a power button, and a measurement button.

The control unit 50 can turn on/off the sugar content meter of the present invention through the power button, drop tap water into the measurement unit 20 described above, and then operate the zero point control button to set the zero point for sugar measurement. , After the zero point is set, the sample can be dropped on the measurement unit 20, covered with the lid 30, and the measurement button operated to measure the sugar content of the sample.

A calculation unit may be formed inside the main body 10 . The calculation unit may receive the measured refractive index and temperature from the measuring unit 20 and the temperature sensor 40, respectively, and calculate the sugar content.

The calculation unit may further include a sugar content calculation module and a temperature compensation module.

The sugar content calculation module may calculate the sugar content of the sample from the refractive index measured by the measuring unit 20 . That is, the measurement unit 20 transmits the light emitted from the light source through the sample, measures the refractive index by the refracted value, and transmits the measured value of the refractive index to the sugar content calculation module of the calculation unit. By this, the sugar content of the sample can be calculated.

The temperature compensation module may perform temperature compensation on the sugar content calculated by the sugar content calculation module through the temperature measured by the temperature sensor 40 .

Therefore, by performing temperature compensation by the temperature compensation module, it is possible to more accurately measure the sugar content of a sample to be measured.

A display unit 60 may be formed in the central portion of the main body 10 . The display unit 60 may show the sugar content calculated through the sugar content calculation module and the temperature compensation module of the calculation unit, the refractive index measured through the measurement unit 20, and the temperature measurement value measured through the temperature sensor 40. Therefore, a user using the sugar content meter can easily check the measured value with the naked eye through the display unit 60.

Hereinafter, with reference to FIGS. 1 and 2, the sugar content measurement method using the sugar content meter of the present invention described above will be described in detail.

The measurement method using the sugar content meter of the present invention includes the first step of setting the zero point, the second step of measuring the temperature of the sample, the third step of measuring the refractive index of the sample, and the first step of calculating the sugar content through the measured refractive index of the sample. Step 4, a fifth step of performing temperature compensation on the calculated sugar content may be included.

The first step is to set the zero point. That is, in this step, before measuring the sugar content, tap water is dropped on the measurement unit 20, the cover unit 30 is rotated to cover the front of the measurement unit 20, and then the zero point control button is operated to set the zero point. can be set. Therefore, it is possible to more accurately measure the sugar content through this step.

The second step is to measure the temperature of the sample.

In this step, after dropping the sample on the measuring part 20, the cover part 30 is rotated and positioned so as to cover the front of the measuring part 20 so that the laser of the temperature sensor 40 is transmitted through the sample, so that the temperature of the sample is reached. can be measured directly.

In this step, the temperature sensor 40 formed in the inner center of the cover part 30 directly measures the temperature of the sample, so that a temperature measuring device is installed inside the body 10 in the conventional sugar meter to indirectly measure the temperature of the sample. The sugar content meter of the present invention can obtain a more accurate sugar content measurement by solving the problem of not obtaining a more accurate temperature value by measuring and thus not performing precise temperature compensation.

The third step is to measure the refractive index of the sample.

This step is a step of measuring the refractive index by a value that is refracted by transmitting light emitted from a light source to a sample dropped on the measuring unit 20 .

In this step, the measured refractive index value may be transmitted to the sugar content calculation module of the calculator so that the sugar content calculation module can calculate the sugar content in the fourth step described later.

The fourth step is a step of calculating the sugar content through the refractive index of the sample measured by the measuring unit 20 through the above-described third step.

That is, this step is a step of measuring the sugar content by receiving the refractive index value measured through the above-described third step from the sugar content calculation module and performing a comparison operation from a preset value.

In this step, the calculated sugar content value may be transmitted to the temperature compensation module so that temperature compensation can be performed by the temperature compensation module in a fifth step to be described later.

The fifth step is a step of performing temperature compensation on the sugar content calculated from the sugar content calculation module through the above-described fourth step.

That is, in this step, the temperature compensation module of the calculation unit measures and receives the accurate temperature value from the temperature sensor 40 in order to reduce the measurement error of the sugar content due to the difference in the sugar content value according to the temperature, and receives the sugar content through the fourth step. Temperature compensation can be performed on the sugar content calculated from the calculation module.

Therefore, a more accurate sugar content value can be obtained by performing temperature compensation through this step.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

1: Sugar meter
10: body
20: measuring part
30: cover part
40: temperature sensor
50: control panel
51: zero control button 53: power button
55: measurement button
60: display unit

Claims (4)

body 10;
a measurement unit 20 formed on an upper portion of the main body 10 and having an optical sensor in the center to measure the refractive index of the sample;
a cover portion 30 that is rotatably coupled to the main body 10 and is formed to cover the front of the measurement portion 20 while being an upper side of the measurement portion 20;
a temperature sensor 40 formed at the inner center of the cover part 30 to measure the temperature of the sample;
A manipulation unit 50 formed of a plurality of buttons on the lower portion of the main body 10;
a calculator formed inside the main body 10 and receiving the measured refractive index and temperature from the measurement unit 20 and the temperature sensor 40 to calculate sugar content;
A sugar meter characterized in that it comprises a; display unit 60 formed on the lower side of the measurement unit 20 as a central portion of the main body 10 and showing the value calculated by the calculation unit. The method of claim 1,
The temperature sensor 40 is a sugar meter, characterized in that a laser sensor is used. The method of claim 1,
The calculator further comprises a sugar content calculation module for calculating the sugar content of the sample from the refractive index measured by the measuring unit 20. The method of claim 3,
The calculation unit further comprises a temperature compensation module for temperature compensation for the sugar content calculated by the sugar content calculation unit through the temperature measured by the temperature sensor 40.

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