JP2019152572A - Moisture percentage measurement device - Google Patents

Abstract

To provide a moisture percentage measurement device which allows for simplification of operation of a user.SOLUTION: A moisture meter 1 comprises a measuring unit 3, a heating unit 8, a control unit 14, and a storage unit 12. The control unit 14 includes a heating processing unit 141, a storage processing unit 142 and a moisture percentage calculation processing unit 144. The storage processing unit 142 causes a heating condition when heating a sample by the heating unit 8 to correspond to sample information 122, as setting information 121 and causes the heating condition to be stored in the storage unit 12. The heating processing unit 141 actuates the heating unit 8 and heats the sample on the basis of the setting information 121 stored in the storage unit 12. The moisture percentage calculation processing unit 144 measures the moisture percentage of a sample S on the basis of the weight of the sample before being heated that is weighed by the measuring unit 3 and the weight of the sample when heating is terminated. Therefore, the work of setting a heating condition in the water meter 1 can be eliminated. As a result, the operation of a user when using the water meter 1 can be simplified.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a moisture content measuring apparatus that calculates the moisture content of a sample based on the weight of the sample to be heated.

  2. Description of the Related Art Conventionally, a so-called heat-drying type moisture content measuring apparatus that measures the weight of a sample to be heated and measures the moisture content of the sample based on the measured value has been used. In the moisture content measuring device, the weight of the sample before heating and the weight of the sample after heating and drying are measured, and the weight change amount of the sample is calculated from these values. And the moisture content of a sample is measured based on the amount of weight changes (for example, refer to the following patent documents 1).

  In the moisture content measuring apparatus (moisture meter) described in Patent Document 1, various parameters relating to heating conditions such as a heating temperature when heating a sample, a heating time, and a heating pattern are set. In the moisture content measuring apparatus, the sample is heated based on the set parameters, and the moisture content of the sample is measured.

JP 2013-145141 A

  When measuring the moisture content of a sample with the above-described conventional moisture content measurement device, the user installs the sample in the moisture content measurement device and operates an operation unit provided on the body of the moisture content measurement device. To set various parameters. Then, after the setting input is completed, the user operates the operation unit to input measurement start.

Here, when the type of the sample for measuring the moisture content is different, the optimum heating condition is different. Therefore, when the moisture content measuring apparatus sequentially measures a plurality of types of samples, the user needs to perform a setting operation to change various parameters for each measurement. This complicates the user's work. In general, since the moisture content measuring device is a small device, the area of the operation unit is small, and the configuration of the operation unit is kept to a minimum. For this reason, the more operations performed on the operation unit of the moisture content measuring apparatus, the more complicated the user's work becomes.
This invention is made | formed in view of the said situation, and it aims at providing the moisture content measuring apparatus which can simplify a user's operation.

(1) The moisture content measuring apparatus according to the present invention includes a heating unit, a weighing unit, a moisture content calculation processing unit, and a storage processing unit. The heating unit heats the sample. The measuring unit measures the weight of the sample heated by the heating unit. The moisture content calculation processing unit calculates the moisture content of the sample based on a measurement value of the measurement unit that changes due to heating of the heating unit. The storage processing unit stores the heating temperature when the sample is heated by the heating unit in the storage unit in association with the sample as a set value.

According to such a configuration, the value of the heating temperature of the sample is associated with the sample as the set value by the storage processing unit and stored in the storage unit. The heating unit heats the sample at the temperature of the set value stored in the storage unit.
Therefore, the user can omit the work of setting the heating temperature in the main body of the moisture content measuring device.
As a result, the user's operation when using the moisture content measuring apparatus can be simplified.

(2) Further, the storage processing unit may store the heating time when the sample is heated by the heating unit in the storage unit in association with the sample as the set value.

According to such a configuration, the value of the heating time of the sample is stored in the storage unit in association with the sample as the set value. And a heating part heats a sample by the heating time of the setting value memorize | stored in the memory | storage part.
Therefore, the user can omit the work of setting the heating time in the main body of the moisture content measuring device.
As a result, the user's operation when using the moisture content measuring apparatus can be further simplified.

(3) Moreover, the said memory | storage process part may match | combine with the sample the heating completion conditions at the time of complete | finishing the heating of the sample by the said heating part, and memorize | store in the said memory | storage part.

According to such a configuration, the heating end condition at the end of heating is stored in the storage unit as a set value in association with the sample. And a heating part complete | finishes the heating of a sample, when it becomes the heating completion conditions memorize | stored in the memory | storage part.
Therefore, the user can omit the work of setting the heating end condition in the main body of the moisture content measuring apparatus.
As a result, the user's operation when using the moisture content measuring apparatus can be further simplified.

(4) Moreover, the said memory | storage process part may memorize | store the said heating temperature in the said memory | storage part so that it may change with time.

According to such a configuration, the sample can be heated in various heating patterns by the heating unit.
Therefore, the optimum heating condition can be set as the set value. And a sample can be heated based on the heating conditions.

(5) Moreover, the said moisture content measuring apparatus may further be provided with a data input part. The set value is input from the outside to the data input unit. The storage processing unit may store the set value input to the data input unit in the storage unit.

According to such a configuration, it is possible to create a set value in an external device and store the set value in the storage unit via the data input unit.
Therefore, even when the information amount of the set value is large, the set value can be stored in the storage unit.

(6) The moisture content measuring apparatus may further include a reading processing unit. The reading processing unit reads the set value from a holding medium in which the set value is held in association with a sample. The storage processing unit may store the set value read by the reading processing unit in the storage unit.

  According to such a configuration, the setting value can be stored in the storage unit via the holding medium in which the setting value is held.

  For example, if a holding medium is affixed to a container for storing a sample and the moisture content of the sample is measured, the reading processing unit reads the set value held by the holding medium. Can be managed together. Therefore, the moisture content of the sample can be measured with the optimum set value.

(7) Moreover, the said moisture content measuring apparatus may further be provided with a measurement process part. The measurement processing unit automatically starts measurement by the measurement unit after the set value is stored in the storage unit by the storage processing unit.

According to such a configuration, the user can omit the work of inputting the start of measurement in the main body of the moisture content measuring device.
As a result, the user's operation when using the moisture content measuring apparatus can be further simplified.

  According to the present invention, the value of the heating temperature of the sample is associated with the sample as the set value by the storage processing unit and stored in the storage unit. The heating unit heats the sample at a set value temperature stored in the storage unit. Therefore, the user can omit the work of setting the heating temperature in the main body of the moisture content measuring device. As a result, the user's operation when using the moisture content measuring apparatus can be simplified.

It is the perspective view which showed the structure of the moisture meter which concerns on 1st Embodiment of this invention. It is the block diagram which showed the electrical structure of the control part of a moisture meter, and its peripheral member. It is the graph which showed the heating pattern of the heating part in a moisture meter. It is the graph which showed the time-dependent change of the weight of the sample measured with a moisture meter. It is the block diagram which showed the electrical constitution of the moisture content measuring apparatus which concerns on 2nd Embodiment of this invention. It is the block diagram which showed the electric constitution of the moisture meter of the moisture content measuring apparatus which concerns on 3rd Embodiment of this invention. It is the block diagram which showed the electrical structure of the output terminal of the moisture content measuring apparatus which concerns on 3rd Embodiment of this invention.

1. Overall Configuration of Moisture Meter FIG. 1 is a perspective view showing the configuration of the moisture meter 1 according to the first embodiment of the present invention.
The moisture meter 1 is a heat drying type measuring device, and includes a main body case 2, a measuring unit 3, a display unit 4, an operation unit 5, a sample dish 6, a lid 7, and a heating unit 8. I have. In this embodiment, the moisture meter 1 is an example of a moisture content measuring device.

The main body case 2 is formed in a flat box shape.
The measuring unit 3 is an electromagnetic force balance type balance mechanism and is accommodated in the main body case 2.
The display unit 4 and the operation unit 5 are provided on the main body case 2. A display part consists of a liquid crystal display, for example.

The operation unit 5 is composed of, for example, a numeric keypad.
The sample dish 6 is provided on the upper part of the main body case 2. The measuring unit 3 measures the weight of the sample S placed on the sample pan 6.

The lid body 7 is formed in a cylindrical shape whose upper surface is closed, and an end portion of the lid body 7 is rotatably attached to the main body case 2. The lid 7 is movable between an open state in which the upper surface of the main body case 2 is opened (the state shown in FIG. 1) and a closed state in which the lid 7 is in close contact with the upper surface of the main body case 2 (covers the periphery of the sample dish 6). .
The heating unit 8 is an infrared lamp, a halogen lamp, or the like, and is disposed in the internal space 7 </ b> A of the lid body 7.

  When measuring the moisture content of a sample using the moisture meter 1, first, the user places the sample S as a measurement target on the sample dish 6. Thereafter, the user closes the lid 7. In this state, the sample S is heated by the heating unit 8. When the sample S is heated by the heating unit (by drying), the weight gradually decreases. The weighing unit 3 constantly measures the weight of the sample S placed on the sample pan 6 from the state before heating. In the moisture meter 1, the heating operation of the heating unit 8 is stopped when a predetermined end condition (described later) is satisfied. And in the moisture meter 1, the moisture content of the sample S is measured based on the weight of the sample S before the heating which the measurement part 3 measures, and the weight of the sample S after the heat drying. The measured moisture content is displayed on the display unit 4.

2. FIG. 2 is a block diagram showing the electrical configuration of the control unit of the moisture meter 1 and its peripheral members.
The moisture meter 1 includes a temperature detection unit 11, a storage unit 12, a data input unit 13, and a control unit 14 in addition to the measurement unit 3 and the heating unit 8 described above.

The temperature detector 11 detects the temperature of the internal space 7A (sample pan 6) when the lid 7 is in the closed state.
The storage unit 12 includes a ROM (Read Only Memory) and a RAM (Random Access Memory). A plurality of setting information 121 is stored in the storage unit 12. The setting information 121 is information on heating conditions when the sample S is heated by the heating unit 8. The setting information 121 includes sample information 122, temperature information 123, time information 124, and end condition information 125, which are associated with each other.

The sample information 122 is information indicating the type of the sample S to be measured.
The temperature information 123 is information on the heating temperature when the sample S is heated.
The time information 124 is information on the time for heating the sample S.

  The end condition information 125 is information indicating a condition (heating end condition) for ending the moisture content measurement in the moisture meter 1. Specifically, the end condition information 125 is information indicating a threshold value of a change rate of the weight of the sample (a change amount of the sample weight per unit time).

  The data input unit 13 receives input of external data. In this example, the moisture meter 1 is formed with a USB port (connection port) for connecting the USB memory 20 (not shown). The data input unit 13 is an input reception unit connected to the USB port. The data input unit 13 receives data input from the USB memory 20 connected to the USB port. The data input unit 13 may be configured to accept input of data from a portable recording medium other than the USB memory 20.

  For example, the control unit 14 includes a CPU (Central Processing Unit). The control unit 14 is connected to the weighing unit 3, the heating unit 8, the temperature detection unit 11, the storage unit 12, the data input unit 13, and the like. The control unit 14 functions as a heat processing unit 141, a storage processing unit 142, a weighing processing unit 143, a moisture content calculation processing unit 144, and the like when the CPU executes a program.

The heat processing unit 141 reads the setting information 121 stored in the storage unit 12 and controls the heating operation of the heating unit 8 based on the setting information 121.
The storage processing unit 142 causes the storage unit 12 to store setting value information (setting information 121) input to the data input unit 13.
The weighing processing unit 143 automatically starts the weighing operation of the weighing unit 3 in response to the setting information 121 being stored in the storage unit 12 by the storage processing unit 142.
The moisture content calculation processing unit 144 calculates the moisture content of the sample S based on the measurement value of the measurement unit 3.

3. Specific operation in the moisture meter In this example, initially, the setting information 121 is not stored in the storage unit 12 of the moisture meter 1, and these pieces of information are stored in the USB memory 20. Each setting information 121 is created for each sample whose moisture content is measured by the moisture meter 1. For example, the setting information 121 is generated in a PC terminal provided separately from the moisture meter 1 and stored in the USB memory 20.

  When using the moisture meter 1, the user places the sample S on the sample pan 6 to close the lid 7 and connects the USB memory 20 to the USB port (connection port) of the moisture meter 1. To do. Then, information (a plurality of setting information 121) in the USB memory 20 is input to the data input unit 13. In addition, the storage processing unit 142 causes the storage unit 12 to store a plurality of setting information 121 input to the data input unit 13.

In this example, the type of the sample information 122 of the setting information 121 stored in the storage processing unit 142 is displayed on the display unit 4. In addition, the user operates the numeric keypad of the operation unit 5 to select the sample S (the type of sample to be measured) from the displayed information on the plurality of samples.
The heat processing unit 141 reads the setting information 121 including the selected sample information 122 and heats the heating unit 8 based on the heating condition indicated by the setting information 121.

  Specifically, the heat processing unit 141 heats the heating unit 8 so that the temperature detected by the temperature detection unit 11 becomes the temperature of the temperature information 123. Further, the heat processing unit 141 heats the heating unit 8 for the time indicated by the temperature information 123. In addition, the heat processing unit 141 ends the heating of the heating unit 8 when the end condition indicated by the end condition information 125 is satisfied.

  FIG. 3 is a graph showing a heating pattern of the heating unit 8 in the moisture meter 1. In the graph of FIG. 3, the horizontal axis indicates time, and the vertical axis indicates temperature. The graph of FIG. 3 shows a heating pattern when the heating processing unit 141 heats the heating unit 8 based on the temperature information 123 and the time information 124 of the setting information 121 stored in the storage unit 12. In this example, a plurality of heating temperatures are set as the temperature information 123, and the heating time corresponding to each temperature is set as the time information 124.

  Note that the heat processing unit 141 may heat the heating unit 8 at a constant temperature. In this case, a graph showing a heating pattern when the heating unit 8 is heated (a graph corresponding to FIG. 3) is a straight line extending along the horizontal axis.

  FIG. 4 is a graph showing the change over time of the weight of the sample S weighed by the moisture meter 1. In the graph of FIG. 4, the horizontal axis indicates time, and the vertical axis indicates the weight of the sample. In this example, as the end condition information 125, a threshold value of a change rate of the sample weight (a change amount of the sample weight per unit time) is set. When the weight change rate of the sample S weighed by the measuring unit 3 (the amount of change in the sample weight per unit time) is less than the threshold value indicated by the end condition information 125, the heat processing unit 141 Finish heating. That is, the heat treatment unit 141 ends the heating by the heating unit 8 when the weight change of the sample S is reduced and the drying is sufficiently performed. Further, the moisture content calculation processing unit 144 measures the moisture content of the sample S based on the weight of the sample S before heating measured by the measuring unit 3 and the weight of the sample S at the end of heating.

Then, the user takes out the sample S for which the measurement has been completed with the lid 7 in the open state, and sets the next sample S on the sample tray 6. Then, the user selects the next sample S (the type of sample to be measured) from the information of the plurality of samples displayed on the display unit 4. As described above, the heat processing unit 141 reads the target setting information 121 and heats the heating unit 8 based on the setting information 121.
As described above, in the moisture meter 1, the heating operation by the heating unit 8 is repeated based on the setting information 121 stored in the storage unit 12.

  The weighing operation of the weighing unit 3 may be automatically started by the weighing processing unit 143. In this case, the storage processing unit 142 starts the measurement operation of the measurement unit 3 in response to the measurement processing unit 143 storing the setting information 121 in the storage unit 12. For example, in the case where one type of setting information 121 is stored in the USB memory 20, the measurement processing unit 143 is configured to store the setting information 121 in the storage unit 12 by the storage processing unit 142. The weighing operation of the weighing unit 3 is automatically started. Thereby, the operation by the user with the operation unit 5 can be further omitted.

4). Operational Effect (1) According to the present embodiment, as shown in FIG. 2, the moisture meter 1 includes the weighing unit 3, the heating unit 8, the control unit 14, and the storage unit 12. The control unit 14 includes a heat processing unit 141, a storage processing unit 142, and a moisture content calculation processing unit 144. The storage processing unit 142 stores the heating temperature when the sample S is heated by the heating unit 8 in the storage unit 12 as temperature information 123 in association with the sample information 122. The heat treatment unit 141 heats the sample S by operating the heating unit 8 based on the temperature information 123 (temperature information 123 associated with the sample information 122 indicating the sample S) stored in the storage unit 12. The moisture content calculation processing unit 144 measures the moisture content of the sample S based on the weight of the sample S before heating measured by the measuring unit 3 and the weight of the sample S at the end of heating.

Therefore, the operation of setting the heating temperature in the moisture meter 1 can be omitted.
As a result, the user's operation when using the moisture meter 1 can be simplified.

(2) Also, according to the present embodiment, as shown in FIG. 2, the storage processing unit 142 associates the heating time when the sample S is heated by the heating unit 8 with the sample information 122 as time information 124. The data is stored in the storage unit 12. Then, the heat processing unit 141 heats the sample S for the heating time indicated by the time information 124 (time information 124 associated with the sample information 122 indicating the sample S) stored in the storage unit 12.

Therefore, the operation of setting the heating time in the moisture meter 1 can be omitted.
As a result, the user's operation when using the moisture meter 1 can be further simplified.

(3) Also, according to the present embodiment, as shown in FIG. 2, the storage processing unit 142 uses the heating unit 8 to finish the heating of the sample S as the end condition information 125, and the sample information The information is stored in the storage unit 12 in association with 122.

Therefore, the work of setting the heating end condition in the moisture meter 1 can be omitted.
As a result, the user's operation when using the moisture meter 1 can be further simplified.

(4) Moreover, according to this embodiment, the memory | storage process part 142 memorize | stores the temperature information 123 in the memory | storage part 12 so that it may change with time.

Therefore, the sample S can be heated by the heating unit 8 in various heating patterns.
As a result, the optimum heating condition can be set as the set value. And the sample S can be heated based on the heating conditions.

(5) Moreover, according to this embodiment, as shown in FIG. 2, the moisture meter 1 further includes a data input unit 13. The setting information 121 stored in the USB memory 20 is input to the data input unit 13. The storage processing unit 142 causes the storage unit 12 to store the setting information 121 input to the data input unit 13.

  Therefore, the setting information 121 can be created in an external device, and the setting information 121 can be stored in the storage unit 12 via the data input unit 13. For example, setting information 121 is created in a PC terminal provided separately from the moisture meter 1, and the setting information 121 is stored in the USB memory 20. Then, the setting information 121 stored in the USB memory 20 is stored in the storage unit 12 by the storage processing unit 142.

  Therefore, even when the amount of setting information 121 is large, the setting information 121 can be stored in the storage unit 12 without the user operating the operation unit 5.

(6) Further, according to the present embodiment, as shown in FIG. 2, in the moisture meter 1, the control unit 14 includes a weighing processing unit 143. The weighing processing unit 143 automatically starts weighing by the weighing unit 3 after the setting information 121 is stored in the storage unit 12 by the storage processing unit 142.
Therefore, it is possible to omit the work of the user inputting the start of measurement in the moisture meter 1.
As a result, the user's operation when using the moisture meter 1 can be further simplified.

5. Second Embodiment Hereinafter, another embodiment of the present invention will be described with reference to FIGS. In addition, about the structure similar to 1st Embodiment, description is abbreviate | omitted by using the code | symbol similar to the above.
FIG. 5 is a block diagram showing an electrical configuration of the moisture content measuring apparatus 30 according to the second embodiment of the present invention.

In the first embodiment described above, the setting information 121 stored in the USB memory 20 is input to the data input unit 13 of the moisture meter 1.
On the other hand, in the second embodiment, the setting information 121 transmitted from the output terminal 40 is input to the data input unit 13 of the moisture meter 1.

Specifically, in the second embodiment, the moisture meter 1 is included in the moisture content measuring device 30. The moisture content measuring device 30 includes an output terminal 40.
In the second embodiment, the data input unit 13 of the moisture meter 1 functions as a receiving unit that receives data from the output terminal 40.

The output terminal 40 includes an operation unit 41, a storage unit 42, a control unit 43, and a data output unit 44.
The operation unit 41 includes, for example, a keyboard and a mouse.

  The storage unit 42 includes a ROM (Read Only Memory), a RAM (Random Access Memory), a hard disk, and the like. A plurality of setting information 121 is stored in the storage unit 42.

For example, the control unit 43 includes a CPU (Central Processing Unit). An operation unit 41, a storage unit 42, a data output unit 44, and the like are electrically connected to the control unit 43. The control unit 43 functions as a setting condition generation unit 431, a reading unit 432, and the like when the CPU executes a program.
The setting condition generation unit 431 generates (creates) setting information 121 according to the operation of the operation unit 41 by the user, and stores the generated setting information 121 in the storage unit 42.

The reading unit 432 reads the setting information 121 in the storage unit 42 according to the operation of the operation unit 41 by the user.
The data output unit 44 is a transmission unit that transmits data to the moisture meter 1.

  When the moisture content measuring apparatus 30 is used, the user operates the operation unit 41 to input heating conditions (heating temperature, heating time, and end condition) when heating the sample. The setting condition generation unit 431 stores the input heating condition as setting information 121 in the storage unit 42. At this time, for example, the storage unit 42 stores a plurality of setting information 121.

  Then, the user operates the operation unit 41 to make an input for transmitting the setting information 121 stored in the storage unit 42 to the moisture meter 1. At this time, for example, the user selects one setting information 121 from the plurality of setting information 121. The reading unit 432 reads the setting information 121 from the storage unit 42 in response to an input for transmitting the setting information 121. Further, the data output unit 44 transmits the setting information 121 read by the reading unit 432 toward the data input unit 13 of the moisture meter 1.

In the moisture meter 1, the data input unit 13 receives the setting information 121 transmitted from the data output unit 44. The storage processing unit 142 stores the setting information 121 received by the data input unit 13 in the storage unit 12.
Thereafter, the same operation as in the first embodiment described above is performed, and the moisture content of the sample S is measured by the moisture meter 1.

As described above, according to the second embodiment, in the moisture content measuring apparatus 30, first, the setting information 121 is generated by the output terminal 40. Then, the setting information 121 is transmitted from the data output unit 44, and the setting information 121 is received by the data input unit 13 of the moisture meter 1. The storage processing unit 142 stores the setting information 121 received by the data input unit 13 in the storage unit 12.
Therefore, the operation of setting the setting information 121 in the moisture meter 1 can be omitted.
As a result, the user's operation when using the moisture meter 1 can be simplified.

6). Third Embodiment FIG. 6 is a block diagram showing an electrical configuration of a moisture meter 1 of a moisture content measuring apparatus 50 according to a third embodiment of the present invention. FIG. 7 is a block diagram showing an electrical configuration of the output terminal 40 of the moisture content measuring apparatus 50 according to the third embodiment of the present invention.
In the second embodiment described above, the setting information 121 transmitted from the output terminal 40 is received by the moisture meter 1 and stored in the storage unit 12.

  On the other hand, in the third embodiment, the setting information 121 stored in the storage unit 42 of the output terminal 40 is printed and output as a barcode as a holding medium. The barcode is read by the moisture meter 1 and stored in the storage unit 12 of the moisture meter 1.

Specifically, in the third embodiment, the moisture meter 1 and the output terminal 40 are included in the moisture content measuring device 50. The moisture content measuring device 50 further includes a reading processing unit 61 and an output processing unit 71.
In the third embodiment, the moisture meter 1 does not include the data input unit 13 and is connected to the reading processing unit 61.

The reading processing unit 61 is for reading information held on a holding medium. In this example, the reading processing unit 61 reads a barcode.
In the third embodiment, the output terminal 40 does not include the data output unit 44 and is connected to the output processing unit 71.
The output processing unit 71 is for outputting a holding medium holding information. In this example, the output processing unit 71 prints a barcode.

  When the moisture content measuring device 50 is used, the user operates the operation unit 41 and stores the setting information 121 in the storage unit 42 as described above. Further, the user operates the operation unit 41 to perform input for outputting the setting information 121 stored in the storage unit 42. The reading unit 432 reads the setting information 121 from the storage unit 42 in response to a setting input for outputting the setting information 121. Then, the output processing unit 71 prints (prints) a barcode holding the setting information 121 read by the reading unit 432. The barcode may be a one-dimensional barcode or a two-dimensional barcode such as a QR code (registered trademark).

And a user sticks a barcode on the container which stores sample S, for example. Then, the sample S is stored together with the container with the barcode attached.
Further, when measuring the moisture content of the stored sample S, the user causes the reading processing unit 61 to read the barcode of the container. The storage processing unit 142 stores the setting information 121 read from the barcode by the reading processing unit 61 in the storage unit 12.
Thereafter, the same operation as in the first embodiment described above is performed, and the moisture content of the sample S is measured by the moisture meter 1.

  Thus, according to the third embodiment, the moisture content measuring device 50 includes the reading processing unit 61 and the output processing unit 71. The reading processing unit 61 reads the setting information 121 from a holding medium such as a barcode that holds the setting information 121. The storage processing unit 142 stores the setting information 121 read by the reading processing unit 61 in the storage unit 42.

  Therefore, a barcode is affixed to a container or the like for storing the sample S, and when the moisture content of the sample S is measured, the reading processing unit 61 reads the setting information 121 held by the barcode, The sample S and the setting information 121 can be managed together. Therefore, the moisture content of the sample S can be measured with the optimum setting information 121.

  Note that the output processing unit 71 may write the setting information 121 on a non-contact information holding medium such as an RFID. Further, the reading processing unit 61 may read the setting information 121 from the non-contact type information holding medium in a non-contact manner.

DESCRIPTION OF SYMBOLS 1 Moisture meter 3 Weighing part 8 Heating part 12 Storage part 13 Data input part 14 Control part 20 USB memory 30 Moisture content measuring device 40 Output terminal 42 Storage part 50 Moisture content measuring device 61 Reading processing part 121 Setting information 122 Sample information 123 Temperature Information 124 Time information 125 End condition information 142 Storage processing unit 143 Weighing processing unit 144 Moisture content calculation processing unit

Claims (7)

A heating unit for heating the sample;
A weighing unit for weighing the sample heated by the heating unit;
A moisture content calculation processing unit that calculates the moisture content of the sample based on the measurement value of the measurement unit that changes due to heating of the heating unit;
A moisture content measuring apparatus comprising: a storage processing unit that stores a heating temperature when the sample is heated by the heating unit as a set value in association with the sample and stored in the storage unit.   The moisture content measuring apparatus according to claim 1, wherein the storage processing unit causes the storage unit to store a heating time when the sample is heated by the heating unit as the set value in association with the sample.   The storage processing unit causes the storage unit to store a heating end condition when the heating of the sample by the heating unit is ended in association with the sample as the set value. Moisture content measuring device.   The said memory | storage process part makes the said memory | storage part memorize | store the said heating temperature with time, The moisture content measuring apparatus as described in any one of Claims 1-3 characterized by the above-mentioned. A data input unit for inputting the set value from the outside;
The moisture content measuring apparatus according to any one of claims 1 to 3, wherein the storage processing unit stores the set value input to the data input unit in the storage unit. A reading processing unit that reads the set value from a holding medium in which the set value is held in association with a sample;
The moisture content measuring device according to claim 1, wherein the storage processing unit stores the set value read by the reading processing unit in the storage unit.   7. The measurement processing unit according to claim 1, further comprising a measurement processing unit that automatically starts measurement by the measurement unit after the set value is stored in the storage unit by the storage processing unit. The moisture content measuring apparatus described in 1.

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