JP2021124417A - Concentration and radiation dose measuring instrument - Google Patents

Abstract

To provide a concentration and radiation dose measuring instrument capable of measuring a concentration and a radiation dose easily.SOLUTION: A concentration and radiation dose measuring device 1 has a detection surface 3, a concentration sensor 11 that measures the concentration of a predetermined component of a sample placed on the detection surface 3, and a radiation sensor 12 that measures the radiation dose of the sample placed on the detection surface 3. The radiation sensor 12 measures the radiation dose in a non-contact manner through a radiation detection surface 4 that rises with the detection surface 3 as a bottom surface. The concentration and radiation dose measuring device 1 has an operation unit 5 that switches a concentration measurement, a radiation dose measurement and a measurement type composed of the concentration measurement and the radiation dose measurement, and when the measurement type of the concentration measurement and the radiation dose measurement is selected, measures the concentration and the radiation dose at the same time.SELECTED DRAWING: Figure 1

Description

The present invention relates to a concentration and radiation dose measuring device.

Due to the growing awareness of food safety in recent years, various simple radiation measuring instruments have been proposed that allow even ordinary people to easily measure the radiation dose contained in food (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2013-152121

However, for example, when selling fruits and vegetables at a store or when measuring radiation at home, there are cases where it is desired to measure the concentration such as sugar content and salt concentration in addition to the radiation dose, and the concentration and radiation dose can be measured. A vessel was sought.

The present invention has been made in consideration of such circumstances, and an object of the present invention is to provide a concentration / radiation dose measuring device capable of easily measuring a concentration and a radiation dose.

In order to solve the above-mentioned problems, the concentration / radiation dose measuring device according to the present invention has a detection surface, a concentration sensor for measuring the concentration of a predetermined component of a sample mounted on the detection surface, and a concentration sensor mounted on the detection surface. It has a radiation sensor that measures the radiation dose of the sample.

The concentration and radiation dose measuring device according to the present invention can easily measure the concentration and the radiation dose.

Explanatory drawing which shows the appearance of the concentration | radiation dose measuring apparatus which concerns on embodiment of this invention. The functional block diagram of the concentration and radiation dose measuring apparatus which concerns on embodiment of this invention.

An embodiment of the concentration / radiation dose measuring device according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an explanatory view showing the appearance of the concentration / radiation dose measuring device 1 according to the embodiment of the present invention. FIG. 2 is a functional block diagram of the concentration / radiation dose measuring device 1 according to the embodiment of the present invention. The concentration / radiation dose measuring device 1 according to the present embodiment includes a detection surface 3, a sugar content sensor 11, a radiation sensor 12, and an operation unit 5.

The detection surface 3 is a member constituting the sugar content sensor 11, and a sample for measuring the sugar content is placed on the detection surface 3. A prism is used as the detection surface 3. The state of the sample in this embodiment is not particularly limited, and may be a solid or a liquid. Further, in the present embodiment, the measurement can be performed regardless of whether the destructive method or the non-destructive method is adopted. When the non-destructive method is adopted, the radiation dose can be measured by bringing the radiation detection surface 4 described later close to the sample without shredding (breaking) the sample.

The sugar content sensor 11 is arranged inside the main body 2. In the present embodiment, the sugar content sensor 11 measures the concentration of a predetermined component of the sample by irradiating light from an internal light source toward the detection surface 3 on which the sample is placed and measuring the refractive index of the light. A general refractometer can be used.

The radiation sensor 12 is arranged inside the main body 2. The radiation sensor 12 measures the radiation dose of the sample placed on the detection surface 3 in a non-contact manner via the radiation detection surface 4 that rises with the detection surface 3 as the bottom surface. In the present embodiment, as the radiation sensor 12, a GM counter tube type survey meter, a NaI (TI) scintillation type survey meter, a Si (Li) semiconductor detector, a Ge semiconductor detector, or the like can be used.

When the radiation sensor 12 is arranged inside the main body 2, an intake port may be provided on the radiation detection surface 4 in order to easily guide the radiation contained in the sample to the inside of the main body 2. In this case, in consideration of the measurement of the liquid sample, a waterproof fiber sheet (which allows radiation and air to pass through and blocks the liquid) or the like is attached to the radiation detection surface 4 to prevent the sample from entering the main body 2. It is preferable to prevent it.

Further, the radiation sensor 12 may be configured to be arranged on the radiation detection surface 4. In this case, the radiation detection surface 4 is formed of a member that detects radiation. Then, an electronic circuit for measuring the radiation detected by the radiation detecting surface 4 is provided inside the main body 2.

In the present embodiment, a radiation detector external device 7 may be further provided as a means for measuring the radiation dose. As a result, the radiation dose can be measured by bringing the radiation detector external device 7 closer to the sample.

The operation unit 5 receives an input for switching a measurement type consisting of a concentration measurement, a radiation dose measurement, and a concentration measurement and a radiation dose measurement. The measurement types are sugar content measurement, radiation dose measurement, and total measurement (sugar content and radiation dose measurement). In FIG. 1, the operation unit 5 is a switch provided on the surface of the main body. When the switch is set to the measurement type written on the surface of the main body, the input to switch the measurement type is accepted. The form of the operation unit 5 is not particularly limited, and may be, for example, a button. When the measurement type is set to all measurements by the operation unit 5, the sugar content and the radiation dose are measured at the same time.

The display unit 6 displays the measured sugar content or radiation dose. The switching unit 13 controls switching of the measurement type, and operates the sugar content sensor 11 or the radiation sensor 12 according to the measurement type selected by the operation unit 5.

Hereinafter, the operation of the concentration / radiation dose measuring device will be described.

The sample is placed on the detection surface 3 and the operation unit 5 is adjusted to the desired measurement type. When the measurement of the sugar content is selected, the sugar content sensor 11 operates under the control of the switching unit 13. The sugar content sensor 11 measures the sugar content of a predetermined component of the sample, and the measured value is displayed on the display unit 6. When the measurement of the radiation dose is selected, it is controlled by the switching unit 13, the radiation dose of the sample is measured by the radiation sensor 12, and the measured value is displayed on the display unit 6. When all the measurements are selected, the sugar content sensor 11 and the radiation sensor 12 perform the measurements at the same time, and the measured values are displayed on the display unit 6.

Such a concentration / radiation dose measuring device according to the present invention can easily measure the sugar content and the radiation dose, and can also measure the sugar content and the radiation dose at the same time.

The concentration / radiation dose measuring device of the present invention is not limited to the above embodiment, and various improvements and changes can be made without departing from the gist of the present invention. For example, other than sugar content, various component concentrations such as salinity and acidity may be measured. Further, it may be configured so that the concentration of two or more components and the radiation dose can be measured.

1 Concentration and radiation dose measuring device 2 Main body 3 Detection surface 4 Radiation detection surface 5 Operation unit 6 Display unit 7 Radiation detector external unit 11 Sugar content sensor 12 Radiation sensor 13 Switching unit

Claims (4)

The detection surface and
A concentration sensor that measures the concentration of a predetermined component of a sample placed on the detection surface, and a concentration sensor.
A concentration and radiation dose measuring device comprising a radiation sensor for measuring the radiation dose of a sample placed on the detection surface. The concentration and radiation dose measuring device according to claim 1, wherein the radiation sensor measures the radiation dose in a non-contact manner through a radiation detection surface that rises with the detection surface as a bottom surface. The measuring instrument has an operation unit for switching a measurement type including the measurement of the concentration, the measurement of the radiation dose, and the measurement of the concentration and the measurement of the radiation dose.
The concentration and radiation dose measuring device according to claim 1 or 2, wherein when the measurement type of the concentration measurement and the radiation dose measurement is selected, the concentration and the radiation dose are measured at the same time. The concentration and radiation dose measuring device according to any one of claims 1 to 3, wherein the concentration is sugar content, salinity concentration or acidity.

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