JP2017207327A - Measured data processing device, measurement system, and program for processing measured data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide measurement result data with which it is possible to easily grasp the results of multiple kinds of measurement processes.SOLUTION: When at least one of a first condition that a plurality of measurement devices exist and a second condition that a plurality of processing conditions exist is satisfied in a data generation process for generating measurement result data D2 on the basis of data consisting of a plurality of measured value information that are recorded in association with measurement device information (model, instrument), processing condition information (function, mode, status, filter) and measurement time information, the measured value information that satisfies a third condition that the associated measurement devices are the same and the associated processing conditions are the same is classified into groups to define measured value information groups (info. 1-3), as well as each of the measured value information is sorted for each measured value information group in order of measurement time and measurement result data D2 is generated in association with the corresponding measurement time information, measurement device information and processing condition information.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a measurement data processing apparatus capable of executing data processing for processing measurement result data in which a plurality of pieces of measurement value information are recorded, a measurement system configured with such a measurement data processing apparatus, and measurement The present invention relates to a measurement data processing program that causes a processing unit of a data processing device to execute data processing.

  The applicant is provided with a measurement device and a smartphone, and the following patent document describes the invention of a measurement system that can transmit measurement result data indicating the result of measurement processing from the measurement device to the smartphone and store (save) the same in the smartphone. Is disclosed.

  When performing measurement processing by a measurement device (for example, a clamp-type current measurement device) and accumulation of measurement result data in a smartphone by this measurement system, first, the measurement device and the smartphone are in a state where they can communicate with each other. At the same time, the measurement process is started in a state where the measurement object is clamped by the measurement device. Next, the measurement system program is started by operating the smartphone, and as an example, the automatic saving processing of the measurement result data is invalidated (in the usage mode in which the measurement result data is saved only when the data saving switch of the smartphone is operated) Set). Thereby, the preparation work is completed.

  Further, when the setting operation for invalidating the automatic saving process is completed, a transmission request signal for requesting transmission of the measurement result data is transmitted from the smartphone to the measurement apparatus. Accordingly, the measurement result data is sequentially transmitted from the measurement device to the smartphone, and the measurement values in the measurement processing screen displayed on the display unit of the smartphone are sequentially updated according to the transmitted measurement result data. . Further, when it is desired to store the measurement result data, the data storage switch of the smartphone is operated. Thereby, measurement result data corresponding to the measurement value displayed on the measurement processing screen at the time of operation of the data storage switch is recorded in the main body memory (or storage memory) of the smartphone.

  Although not explicitly stated in the following patent document, in the measurement system disclosed by the applicant, the measurement process by the measurement device and the transmission of the measurement result data to the smartphone are continued as described above. Every time the data storage switch of the smartphone is operated, measurement result data corresponding to the measurement value displayed on the measurement processing screen at that time is added to the main body memory (or storage memory) of the smartphone. Thus, for example, when the data storage switch is operated ten times, ten measurement values are associated with the measurement time and accumulated in the smartphone.

  In addition, the measurement system disclosed by the applicant is different from the above-mentioned usage mode, but instead of the process of adding the measurement result data at an arbitrary timing by the operation of the smartphone, the measurement satisfying the predefined condition It is also possible to execute processing for automatically saving the result. Even in such a usage pattern, one or more measurement values are associated with the measurement time and accumulated in the smartphone.

JP-A-2006-32142 (page 5-13, Fig. 1-2)

  However, the measurement system disclosed by the applicant in the above patent document has the following problems to be improved. In other words, the measurement system disclosed by the applicant employs a configuration capable of transmitting and storing measurement result data from the measurement device to the smartphone.

  In this case, as a usage form of this type of measurement system, not only the measurement result data is stored by executing one type of measurement process using one measurement apparatus, but also a plurality of measurement processes are used. Execute multiple measurement processes in parallel and save the measurement result data, or change the process conditions (measurement conditions) in the middle and execute multiple types of measurement processes in succession to save the measurement result data There are things to do. In such a usage pattern, the measurement result data in which a plurality of types of measurement values from different measurement apparatuses performing measurement processing and a plurality of types of measurement values having different measurement processing conditions are mixed is stored in the smartphone. Become.

  When such measurement result data is displayed or printed, the measurement device that has performed the measurement process and a plurality of types of measurement values with different processing conditions are mixed. It is not possible to easily grasp changes in measured values for each apparatus or for each processing condition. Therefore, it is preferable to improve this point.

  The present invention has been made in view of such a problem to be improved, and is capable of easily grasping measurement results of a plurality of measurement processes using a plurality of measurement apparatuses and a plurality of types of measurement processes having different processing conditions. The main object is to provide a measurement data processing device, a measurement system, and a measurement data processing program that can be processed.

  In order to achieve the above object, the measurement data processing device according to claim 1, wherein a plurality of pieces of measurement value information indicating measurement values acquired by the measurement processing can measure the measurement device that has performed the measurement processing, Based on the processing condition information that can specify the processing conditions of the measurement process and the first measurement result data recorded in association with a plurality of pieces of measurement time information that can specify the measurement times of the measurement values. A processing unit that executes a data generation process for generating the measurement result data, wherein the processing unit includes a first condition that there are a plurality of the measuring devices specified based on the measuring device information, and the processing condition The data generation process is performed on the first measurement result data that satisfies at least one of the second conditions that there are a plurality of the processing conditions specified based on the information. A plurality of measurement value information groups by grouping the measurement value information that satisfies a third condition that the associated measurement devices are the same and the associated processing conditions are the same The measurement value information is rearranged for each measurement value information group in the order of the associated measurement times, and the corresponding measurement time information, the measurement device information, and the processing condition information are sorted. The second measurement result data is generated by associating and recording.

  The measurement data processing device according to claim 2 is the measurement data processing device according to claim 1, wherein the processing unit sets the type of the measurement value information group in either the vertical direction or the horizontal direction in the data generation process. The second measurement result data is generated in a data format in which each measurement value can be displayed in a matrix format by making the measurement time correspond to the other one of the vertical direction and the horizontal direction.

  The measurement data processing device according to claim 3 is the measurement data processing device according to claim 1 or 2, wherein the measurement device information, the processing condition information, the measurement value information, and the measurement time information transmitted from the measurement device. The processing unit is capable of receiving the processing unit, and the processing unit is based on the measurement device information, the processing condition information, the measurement value information, and the measurement time information received by the processing device side communication unit. The first measurement result data is generated, and the data generation process is started when a predetermined start condition is satisfied.

  The measurement system according to claim 4 is capable of transmitting the measurement device information, the processing condition information, the measurement value information, and the measurement time information to the measurement data processing device according to claim 3 and the measurement data processing device. The measuring device has a measuring device-side communication unit.

  The measurement data processing program according to claim 5, wherein a plurality of pieces of measurement value information indicating measurement values acquired by the measurement process include measurement device information that can identify the measurement device that has performed the measurement process, and the process of the measurement process The second measurement result data based on the processing condition information capable of specifying the condition and the first measurement result data recorded in association with a plurality of measurement time information capable of specifying the respective measurement times of the measurement values. A first condition that there are a plurality of the measurement devices specified based on the measurement device information, with respect to the processing unit in the measurement data processing device including a processing unit that executes a data generation process to be generated; and The first measurement result data satisfying at least one of the second conditions that there are a plurality of the processing conditions specified based on the processing condition information is set as a processing target. When the data generation process is executed, a plurality of pieces of the measurement value information satisfying a third condition that the associated measurement devices are the same and the associated process conditions are the same are grouped. The measurement value information groups of the measurement values, and the measurement value information is rearranged for each measurement value information group in the order of the associated measurement times, and the corresponding measurement time information, the measurement device information, and A process of generating the second measurement result data by recording in association with the processing condition information is executed.

  The measurement data processing program according to claim 6 is the measurement data processing program according to claim 5, wherein in the data generation process, the type of the measurement value information group is defined in advance in either the vertical direction or the horizontal direction. A process for generating the second measurement result data in a data format that can be displayed in a matrix format with the measurement time corresponding to one of the other in the vertical direction and the horizontal direction. To run.

  In the measurement data processing device according to claim 1, the processing unit has a first condition that there are a plurality of measurement devices specified based on the measurement device information, and a plurality of processing conditions specified based on the processing condition information. When the data generation process is executed on the first measurement result data that satisfies at least one of the second conditions that exist, the associated measurement devices are the same and the associated process conditions are the same. The measurement value information that satisfies the third condition to be grouped is defined to define a plurality of measurement value information groups, and the measurement value information is arranged for each measurement value information group in the order of the associated measurement time And recording it to generate second measurement result data. In the measurement data processing program according to claim 5, the processing unit of the measurement data processing apparatus is caused to execute the above-described processing.

  Therefore, according to the measurement data processing device according to claim 1, the measurement system configured to include such a measurement data processing device, and the measurement data processing program according to claim 5, the first condition and the second A measurement process that satisfies at least one of the above conditions is executed, and a plurality of types of measurement value information output from a plurality of measurement apparatuses and a plurality of types of measurement value information with different measurement process conditions are mixed. Measurement data for each measurement process can be obtained without performing the work of classifying each measurement value information by type or arranging the classified measurement value information in time series. The second measurement result data that can be easily grasped can be provided. As a result, even users who are unfamiliar with measurement processing and measurement result analysis using this type of device / system can easily grasp and provide measurement results for each measurement processing. By processing the second measurement result data, the contents can be grasped in more detail.

  3. The measurement data processing apparatus according to claim 2, wherein the processing unit associates the type of the measurement value information group with one of the vertical direction and the horizontal direction in the data generation process, and sets the measurement time in the vertical direction. Second measurement result data is generated in a data format in which each measurement value can be displayed in a matrix format corresponding to the other in the horizontal direction. In the measurement data processing program according to the sixth aspect, the processing section of the measurement data processing apparatus is caused to execute the above processing.

  Therefore, according to the measurement data processing device according to claim 2, the measurement system configured to include such a measurement data processing device, and the measurement data processing program according to claim 6, a highly versatile “matrix format” By generating the second measurement result data in the “data format that can be displayed with”, the second measurement result data can be easily displayed or printed by reading the second measurement result data into a spreadsheet application. However, it is possible to easily perform operations such as sorting in an arbitrary order or extracting only measurement values that satisfy an arbitrary condition. Thereby, the measurement result for each measurement process can be grasped more easily.

  The measurement data processing device according to claim 3, wherein the processing unit generates first measurement result data based on the measurement device information, the processing condition information, the measurement value information, and the measurement time information received by the processing device side communication unit. In addition, the data generation process is started when a predetermined start condition is satisfied. In the measurement system according to claim 4, the measurement device side communication unit capable of transmitting measurement device information, processing condition information, measurement value information, and measurement time information to the measurement data processing device and the measurement data processing device. It comprises the measuring device which has.

  Therefore, according to the measurement data processing device according to claim 3 and the measurement system according to claim 4, only the measurement device is installed in the vicinity of the measurement target, and the measurement is performed from the measurement device at a location away from the measurement target. The measurement value information, the measurement device information, the processing condition information, and the measurement time information are transmitted to the data processing device to generate the first measurement result data, and then the second measurement result data is generated at an arbitrary timing. be able to. Thereby, for example, when performing measurement processing and measurement result acquisition for a measurement object existing in a high place or a narrow place, the second measurement result data can be obtained without operating the measurement data processing device in a place where the operation is difficult. Can be obtained.

1 is a configuration diagram showing a configuration of a measurement system 100. FIG. It is a block diagram which shows the structure of measuring device 1A, 1B. It is explanatory drawing for demonstrating an example of measurement result data D2.

  Embodiments of a measurement data processing device, a measurement system, and a measurement data processing program according to the present invention will be described below with reference to the accompanying drawings.

  A measurement system 100 shown in FIG. 1 is an example of a “measurement system”, and includes measurement devices 1A and 1B and a portable information terminal 2.

  Measuring devices 1A and 1B (hereinafter also referred to as “measuring device 1” when not distinguished) are examples of “measuring device”, and as shown in FIG. 2, measuring unit 11, communication unit 12, operating unit 13, Each of the display unit 14, the processing unit 15, and the storage unit 16 is provided, and is configured to be able to measure various electrical parameters such as a voltage value, a current value, and a resistance value for a measurement target. In order to facilitate understanding of the “measurement data processing device”, “measurement system”, and “measurement data processing program”, a measurement system 100 including two measurement devices 1A and 1B as an example is shown. Although described as an example, a “measurement system” may be configured by including one “measurement device” or three or more “measurement devices”.

  The measurement unit 11 measures one set in advance from various measurement values such as a DC voltage value, an AC voltage value, a DC current value, an AC current value, and a resistance value in accordance with the control of the processing unit 15. The measured value D0 is output. The communication unit 12 corresponds to a “measuring device side communication unit”, and includes, as an example, a communication adapter capable of wireless communication in accordance with a short-range wireless communication standard such as a Bluetooth (registered trademark) standard. The communication unit 12 transmits / receives various data such as measurement result data D <b> 1 described later to / from various wireless communication devices such as the portable information terminal 2 under the control of the processing unit 15. The operation unit 13 includes an operation switch capable of inputting operation conditions (processing conditions for measurement processing), and outputs an operation signal corresponding to the switch operation to the processing unit 15. The display unit 14 displays various display screens (not shown) such as an operation condition setting screen and a measurement result display screen under the control of the processing unit 15.

  The processing unit 15 controls the measuring apparatus 1 overall. Specifically, the processing unit 15 controls the measurement unit 11 according to preset processing conditions to execute the measurement process. Further, the processing unit 15 generates measurement result data D1 based on the measurement value D0 output from the measurement unit 11, and stores the generated measurement result data D1 in the storage unit 16. Furthermore, the processing unit 15 displays the measurement value D0 on the display unit 14 (measurement result display screen). Further, the processing unit 15 reads out the measurement result data D1 from the storage unit 16 and controls the communication unit 12 to transmit the measurement result data D1 to an external device such as the portable information terminal 2 when a predetermined condition is satisfied. To send. The content of the measurement result data D1 will be described in detail later with a specific example. The storage unit 16 stores the calculation result of the processing unit 15, the measurement result data D1, and the like.

  On the other hand, the portable information terminal 2 corresponds to a “measurement data processing device”, and as an example, is configured by an existing smartphone, tablet terminal, or personal computer in which the measurement data processing program Dp is installed. In a broad sense, “smart phone” means “a mobile phone having a PDA (personal digital assistant) function”, and “tablet terminal” means “a PDA (mobile phone) having a pointing device such as a touch panel and a display device. "Information terminal)" in this specification, but in this specification, the "Smartphone" in the broad sense and the "tablet terminal" in the broad sense can be added with any function by installing various programs, and the terminal operating environment and display “Smartphones” and “tablet terminals” are those that can customize the environment.

  In this case, in this example, as shown in FIG. 1, the portable information terminal 2 is configured by a smartphone including communication units 21 and 22, an operation unit 23, a display unit 24, a processing unit 25, and a storage unit 26. And The actual portable information terminal 2 (smart phone) includes various components for realizing the function as a “smart phone” in addition to the above-described components 21 to 26. In order to facilitate understanding, illustration and description of those components are omitted.

  The communication unit 21 is an example of a “processing device side communication unit”, and is configured by a communication adapter capable of wireless communication in accordance with a short-range wireless communication standard such as Bluetooth as with the communication unit 12 of the measurement apparatus 1 described above. Has been. As will be described later, the communication unit 21 performs reception processing of measurement result data D1 and the like transmitted from the measurement device 1 and transmission processing of various control signals to the measurement device 1 according to the control of the processing unit 25.

  For example, the communication unit 22 includes a wireless LAN communication adapter or a public line communication adapter, and is configured to be connectable to an external device such as the data server 3 connected to the communication network N (LAN, WAN, etc.). As will be described later, in accordance with the control of the processing unit 25, the data server 3 is connected via the communication network N, and various data such as the measurement result data D2 are transmitted and received. In this case, as an example, the data server 3 is a server managed by the user of the measurement system 100, stores the measurement result data D2 transmitted from the portable information terminal 2, etc. The measurement result data D <b> 2 can be provided to another electronic terminal (not shown) that can be connected to the data server 3.

  For example, the operation unit 23 includes a touch panel disposed on the front side of the display unit 24 and various operation switches for causing the portable information terminal 2 to function as a “smartphone”. The data is output to the processing unit 25. The display unit 24 includes a liquid crystal display panel as an example, and displays various display screens such as a measurement result display screen (not shown) under the control of the processing unit 25.

  The processing unit 25 generally controls the portable information terminal 2. Specifically, the processing unit 25 corresponds to a “processing unit”, acquires the measurement result data D1 from the measuring device 1 via the communication unit 21 according to the description of the measurement data processing program Dp, and acquires the acquired measurement. The result data D1 is sequentially stored in the storage unit 26 to generate the measurement result data D1a (the contents of the newly acquired measurement result data D1 are added to the already stored measurement result data D1a).

  Further, the processing unit 25 generates the measurement result data D2 by executing the data generation process for the measurement result data D1a stored in the storage unit 26 as described above in accordance with the description of the measurement data processing program Dp. Then, the generated measurement result data D2 is stored in the storage unit 26. Further, the processing unit 25 transmits the measurement result data D2 to the data server 3 via the communication unit 22 and the communication network N. The processing executed by the processing unit 25 when acquiring the measurement result data D1 from the measurement apparatus 1 and generating the measurement result data D1a, generating the measurement result data D2, and transmitting the data to the data server 3 will be described later. A detailed example will be described.

  The storage unit 26 stores the measurement data processing program Dp and the measurement result data D1, D1a, D2, and the like. In this case, in the measurement system 100 of this example, the measurement data processing program Dp installed in the portable information terminal 2 corresponds to a “measurement data processing program”. The “storage unit” for storing the measurement data processing program Dp, the measurement result data D1, D1a, D2, and the like is not limited to the storage unit 26 configured by the built-in memory of the portable information terminal 2, and the portable information Various types of removable memory (not shown) mounted on the terminal 2 can also be used.

  Next, an example of measurement processing using the measurement system 100 and subsequent data processing will be described with reference to the accompanying drawings. Note that Bluetooth pairing between the communication unit 12 of the measurement apparatus 1 and the communication unit 21 of the portable information terminal 2 and installation of the measurement data processing program Dp on the portable information terminal 2 have already been completed. Shall.

  First, the processing conditions of the measurement process are set by operating the operation unit 13 of the measurement apparatus 1 used for the measurement process. In this case, in this example, as an example, the measuring apparatus 1A with “ABC01” as the “model (Model)” and “H5091234” as the “individual information (as an example, instrument number: Instrument)” and “Model (Model) ) ”Is“ DEF02 ”, and“ Individual information (Instrument) ”is“ H5188147 ”.

  Specifically, as an example, by operating the operation unit 13 of the measurement apparatus 1A, “processing condition 1 (Function)” is “direct current (DC) / voltage value (V)”, and “processing condition 2 (Mode ) ”Is“ upper limit (MAX) ”,“ processing condition 3 (Status) ”is“ none ”, and“ processing condition 4 (Filter) ”is“ present (ON) ”. Similarly, by operating the operation unit 13 of the measuring apparatus 1B, the “processing condition 1 (Function)” is “direct current (DC) / current value (A)” and the “processing condition 2 (Mode)” is “ In the upper limit value (MAX), a processing condition is set such that “processing condition 3 (Status)” is “none” and “processing condition 4 (Filter)” is “present” (ON).

  In this case, in the above measuring apparatus 1, not only “direct current (DC) / voltage value (V)” and “direct current (DC) / voltage value (A)” but also “processing condition 1 (function)” Conditions such as “AC (AC) / Voltage (V)”, “AC (AC) / Current (A)”, and “Resistance (Ω)” can be set. In the above measuring apparatus 1, not only “upper limit value (MAX)” but also “lower limit value (MIN)” and “average value (AVG)” are set as “processing condition 2 (Mode)”. can do. Further, in the measurement apparatus 1 described above, for example, when measuring the inrush current value, the condition “INRUSH” is designated as “processing condition 3 (Status)”.

  In the measurement apparatus 1 described above, when the low-pass filter is enabled in order to reduce the influence of noise, the processing condition “ON” is set as “processing condition 4 (Filter)” as described above. When it is set and the low-pass filter is invalidated, a condition of “none” (OFF) is designated. Further, although detailed explanation is omitted, when a “measuring device” other than the above measuring device 1 is used, “processing condition 1 (Function)”, “processing condition 2 (Mode)”, “processing condition 3 (Status) ) ”And“ Processing condition 4 (Filter) ”, various conditions other than the above-described examples are designated.

  Next, both measurement apparatuses 1A and 1B for which the processing conditions have been set are installed at the measurement location to start the measurement process, and the operation unit 23 of the portable information terminal 2 is operated to start the measurement data processing program Dp. . At this time, a portable information terminal displays a measurement result display screen (not shown) in which a display area where measurement results from the measurement apparatus 1A are displayed and a display area where measurement results from the measurement apparatus 1B are displayed are arranged side by side. 2 on the display unit 24.

  Moreover, in the measurement system 100 of this example, as an example, when the connection between the communication unit 12 of the measurement device 1 and the communication unit 21 of the portable information terminal 2 is established (when communication with each other is possible). ), The information “ABC01” or “DEF02” indicating “Model”, and the information “H5091234” or “H5188147” indicating “Instrument” are received from the measuring device 1 as portable information. It is transmitted to the terminal 2. In this example, the information indicating the “model” and the information indicating the “individual information (Instrument)” together correspond to “measurement device information”.

  On the other hand, in the measuring apparatus 1, the processing unit 15 controls the measuring unit 11 to execute measurement processing according to the set processing conditions. At this time, in the measuring apparatus 1A, the measuring unit 11 outputs the measured value D0 indicating the measured DC voltage value to the processing unit 15, the processing unit 15 displays the measured value D0 on the display unit 14, and The data is stored in the storage unit 16. In addition, the processing unit 15 generates measurement result data D1 in which the maximum value of the measurement value D0 since the start of the measurement process is instructed, and the generated measurement result data D1 is transmitted from the communication unit 12 to the portable information terminal 2. Sequential transmission is performed at regular time intervals (for example, at intervals of 1 second).

  Further, in the measuring apparatus 1B, the measuring unit 11 outputs the measured value D0 indicating the measured DC current value to the processing unit 15, the processing unit 15 displays the measured value D0 on the display unit 14, and the storage unit 16 to memorize. In addition, the processing unit 15 generates measurement result data D1 in which the maximum value of the measurement value D0 since the start of the measurement process is instructed, and the generated measurement result data D1 is transmitted from the communication unit 12 to the portable information terminal 2. Sequential transmission is performed at regular time intervals (for example, at intervals of 1 second).

  In this case, the measurement result data D1 includes information indicating the measurement value (in this example, the maximum value of the DC voltage value or the maximum value of the DC voltage value after the start of the measurement process) (“measurement value information”). And the measurement time (in this example of transmitting the maximum value as the measurement value, the time at which the maximum value is specified (that is, the time indicating the generation time point of the measurement result data D1): “measurement time information” One example) and the above processing conditions set at that time (in this example, “processing condition 1 (Function)”, “processing condition 2 (Mode)”, “processing condition 3 (Status)”) and “processing” Information (an example of “processing condition information”) indicating “condition 4 (Filter)” (four) is recorded in association with each other.

  In the portable information terminal 2, each time the measurement result data D1 transmitted from both measurement devices 1 is received by the communication unit 21, the processing unit 25 follows the description of the measurement data processing program Dp and stores the measurement result data D1. The content of the measurement result display screen displayed on the display unit 24 is updated according to the content. Thereby, the result of the measurement process by both measuring devices 1 is sequentially displayed on the display unit 24 of the portable information terminal 2.

  In this case, in the measurement system 100 (mobile information terminal 2: measurement data processing program Dp) of this example, the measurement result is stored in the measurement result display screen displayed on the display unit 24 of the mobile information terminal 2. A “data save button” for instructing and a “file output button” (both not shown) for organizing the saved data and outputting a data file are displayed. Accordingly, when the measurement result data D1 is sequentially transmitted from the measurement apparatus 1 and the display in the measurement result display screen is sequentially updated, the “data storage button” is operated at a timing when the measurement result is desired to be stored. The measurement result at that time can be stored in the portable information terminal 2.

  Specifically, as an example, when the “data save button” is operated at “12:10:15 on January 1, 2016”, the measurement result of the measuring apparatus 1A is the data number (Data No. .: In this example, “1”), measurement date and time (in this example, “2016/1/1/12: 10: 15”), measurement value (the latest measurement result data D1 value: for example, “1.23E + 00”) ), Measured value unit (“V” in this example), model (Model: “ABC01” in this example), individual information (Instrument: “H5091234” in this example, processing condition 1 (Function: “DC” in this example)) , Processing condition 2 (Mode: “MAX” in this example), processing condition 3 (Status: “” (none) in this example), and processing condition 4 (Filter: “ON” in this example) are arranged in this order. And recorded (added) in the storage unit 26 as measurement result data D1a.

  The measurement result of the measuring apparatus 1B includes a data number (Data No .: “1” in this example), a measurement date (“2016/1/1/12: 10: 15” in this example), a measurement value ( Latest measurement result data D1 value: For example, “4.56E + 00”), measurement value unit (“A” in this example), model (Model: “DEF02” in this example), individual information (Instrument: in this example “ H5188147 ", processing condition 1 (Function:" DC "in this example), processing condition 2 (Mode:" MAX "in this example), processing condition 3 (Status:" "(none) in this example), and processing condition 4 (Filter: “ON” in this example) are arranged in this order and recorded (added) as measurement result data D1a in the storage unit 26. Thereafter, each time the “data save button” is operated, the measurement apparatus Various information as described above as the measurement results of 1A and 1B are sequentially added to the measurement result data D1a in the storage unit 26. The

  In this example, the measurement result data D1a corresponds to “first measurement result data”, and is transmitted from the measurement device 1 when the connection between the measurement device 1 and the portable information terminal 2 is established. The process of sequentially adding the contents of the measurement apparatus information and the measurement result data D1 transmitted from both measurement apparatuses 1 to the measurement result data D1a as described above is the process of “generating the first measurement result data”. Equivalent to.

  In this case, during measurement processing using this type of measurement system 100, the processing conditions may be changed while the processing is continued. As an example, at “12:17:05 on January 1, 2016”, “processing condition 4 (Filter)” which is one of the processing conditions of the measuring apparatus 1B is changed to “OFF”, and then “ When the “data save button” is operated at “12:17:15 on January 1, 2016”, the measurement result of the measurement apparatus 1B includes the data number (Data No .: “8” as an example), Measurement date and time (in this example “2016/1/1/12: 17: 15”), measurement value (latest measurement result data D1 value: for example “4.58E + 00”), measurement value unit (in this example “ A ”), model (Model:“ DEF02 ”in this example, individual information (Instrument:“ H5188147 ”in this example), processing condition 1 (Function:“ DC ”in this example)), processing condition 2 (Mode: in this example) "MAX"), processing condition 3 (Status: "" (none) in this example), and processing condition 4 (Filter: "OFF" in this example) are listed in this order. It is recorded (recordable) as the measurement result data D1a in the storage unit 26.

  Further, during the measurement process using the two measurement apparatuses 1A and 1B, the measurement process by any one of the measurement apparatuses 1 is stopped, or the connection between any one of the measurement apparatuses 1 and the portable information terminal 2 is interrupted. There are things to do. As an example, the measurement process by the measuring apparatus 1A is stopped at “12:18:30 on January 1, 2016”, and then “12:19:15 on January 1, 2016” When the “data save button” is operated, only the measurement result of the measurement device 1B is recorded (added) to the storage unit 26 as the measurement result data D1a.

  On the other hand, in the measurement system 100 (the measurement device 1 and the measurement data processing program Dp) of this example, a plurality of measurement results by the measurement device 1A and a plurality of measurement results by the measurement device 1B are obtained by a plurality of operations of the “data save button”. When the “file output button” is operated in a state where the measurement result data D1a in which the measurement result is recorded is stored in the storage unit 26 (an example of “when a predetermined start condition is satisfied”), The processing unit 25 starts a “data generation process” for generating the measurement result data D2 in accordance with the description of the measurement data processing program Dp.

  In this “data generation process”, the processing unit 25 first identifies the measurement result data D1a stored in the storage unit 26 at the start time as a processing target, and is specified based on “measurement device information”. Whether or not both the “first condition” that there are a plurality of measuring devices and the “second condition” that there are a plurality of processing conditions specified based on “processing condition information”, or both are satisfied Is determined. At this time, although different from the above example, when the result of executing one type of measurement process using one measurement apparatus is stored as the measurement result data D1a, the processing unit 25 performs the measurement. The measurement values in the result data D1a are arranged in order of measurement time to generate the measurement result data D2, and the “data generation process” is terminated.

  On the other hand, in this example in which two types of measurement devices 1A and 1B are used to perform two types of measurement processing, the maximum value of the DC voltage value and the maximum value of the DC current value, the processing unit 25 is the processing target. It is determined that the measurement result data D1a satisfies both the “first condition” and the “second condition”. At this time, the processing unit 25 first groups a plurality of pieces of measurement value information that satisfy the “third condition” that the associated measurement devices are the same and the associated process conditions are the same. Specifies the measurement value information group.

  Specifically, the processing unit 25 measures the “maximum value of the DC voltage value” executed by the measurement apparatus 1A with “Filter: ON” for each “measurement value information” recorded in the measurement result data D1a. Each piece of information indicating the result of the processing is grouped into one “measurement value information group: as an example, a group with“ Info.1 ”” as “measurement value information satisfying the third condition”. Each piece of information indicating the result of the measurement processing of “maximum DC current value” executed with “Filter: ON” is regarded as “measurement value information satisfying the third condition” and another “measurement value information group: one example” Each information indicating the result of the measurement processing of “maximum value of DC current value” grouped into “Group with“ Info.2 ”” and executed by the measurement apparatus 1B with “Filter: OFF” "Measurement value information satisfying condition 3" Grouped into one “measurement value information group: a group with“ Info.3 ”as an example. Thereby, in the above example, three “measurement value information groups” from “Info.1” to “Info.3” are defined.

  Next, the processing unit 25 generates measurement result data D2 shown in FIG. 3 according to the description of the measurement data processing program Dp. Specifically, the processing unit 25 arranges the measurement values grouped in the “measurement value information group” with “info.1” in order of the associated measurement times, Measured values grouped in `` Measured value information group '' are arranged in order of the associated measurement time, and measured values grouped in `` Measured value information group '' with `` info.3 '' can be related The measurement result data D2 is generated by recording the data in the order of measurement times.

  More specifically, in the measurement system 100 of this example (the portable information terminal 2 and the measurement data processing program Dp), the type of the “measurement value information group” is made to correspond to the horizontal direction, and the “measurement time” is set to the vertical direction. The measurement result data D2 is generated in a CSV format (an example of a comma-separated text format: “data format that can be displayed in a matrix format”) in which each measurement value can be displayed in a matrix format. FIG. 3 illustrates a state in which the contents of the measurement result data D2 in the CSV format are arranged in a matrix format by a spreadsheet application in order to facilitate understanding of the contents of the measurement result data D2.

  In this case, in the measurement result data D2 of the above example, the measurement value (maximum value) in “2016/1/1/12: 10: 15” is shown as “measurement value information group” with “info.1”. From “Measured value information” with “1.23E + 00” to “Measured value information” with “1.24E + 00” indicating the measured value (maximum value) in “2016/1/1/12: 18: 15” Nine “measurement value information” until “measurement time information”, “Model: ABC01” and “Instrument: H5091234” indicating the respective measurement times (specified times: “Date” and “Time”) “Measurement device information” and “Function: DC”, “Mode: MAX”, “Status: (None)”, “Filter: ON”, and “Measurement value unit: V” “Processing condition information” 3 Each piece of information is recorded so as to be aligned in the vertical direction when displayed (or printed) in a matrix format.

  In the measurement result data D2 in the above example, “measurement value information group” with “info.2” indicates a measurement value (maximum value) in “2016/1/1/12: 10: 15”. From “Measured value information” with 4.56E + 00 to “Measured value information” with “4.58E + 00”, which indicates the measured value (maximum value) in “2016/1/1/12: 16: 15” The seven “measurement value information” are “measurement time information”, “Model: DEF021” and “Instrument: H5188147” indicating the respective measurement times (specified times: “Date” and “Time”). “Measurement device information”, “Function: DC”, “Mode: MAX”, “Status: (None)”, “Filter: ON” and “Measurement value unit: A” and “Processing condition information” The information is recorded so as to be aligned in the vertical direction when displayed (or printed) in a matrix format in association with information.

  Furthermore, in the measurement result data D2 in the above example, “measurement value information group” with “info.3” indicates a measurement value (maximum value) in “2016/1/1/12: 17: 15”. From “Measured value information” with 4.58E + 00 to “Measured value information” with “4.59E + 00”, which indicates the measured value (maximum value) at “2016/1/1/12: 20: 15” The four “measurement value information” are “measurement time information”, “Model: DEF021”, and “Instrument: H5188147” indicating the respective measurement times (specified times: “Date” and “Time”). "Measurement device information", and "Function: DC", "Mode: MAX", "Status: (None)", "Filter: OFF", and "Measurement value unit: A" and "Processing condition information" The information is recorded so as to be aligned in the vertical direction when displayed (or printed) in a matrix format in association with information.

  As described above, for each “measurement value information group” defined by analyzing the measurement result data D1a, each “measurement value information” in the measurement result data D1a is specified based on “measurement time information”. The measurement result data D2 is generated by arranging and recording in order of time. Further, in the measurement system 100 (the portable information terminal 2 and the measurement data processing program Dp) of this example, by operating the operation unit 23 of the portable information terminal 2, the generated measurement result data D2 is transmitted from the communication unit 22 to the network N. The measurement result data D2 can be arbitrarily processed by using the data server 3 or another electronic terminal that can be connected to the data server 3 to analyze the result of the measurement process. .

  Note that the display and processing of the measurement result data D2 can also be performed in the portable information terminal 2 without being transferred to the data server 3. In this case, in the measurement system 100 (the portable information terminal 2 and the measurement data processing program Dp) of the present example, the measurement value of one type of measurement process using the measurement device 1A (“info.1” in the above example) Measured values grouped into “Measured value information group”), Measured values of two types of measurement processing using the measuring device 1B (Grouped into “Measured value information group” with “info.2” in the above example) Measured values and measurement values grouped in a “measurement value information group” with “info.3”) are separately arranged in order of measurement time and recorded in the measurement result data D2.

  Therefore, when the measurement result data D2 is read and displayed or printed by a spreadsheet application, it is possible to reliably and easily grasp the change in each measurement value for each of the three types of measurement processing. In addition, when graphing changes in each measured value for each of the three types of measurement processing using the measurement result data D2, it is possible to make a graph reliably and easily without performing conditional division or sorting of the measured values. It is possible to make it.

  Thus, in this portable information terminal 2, the processing unit 25 is based on “first condition” and “processing condition information” that there are a plurality of measuring devices 1 specified based on “measuring device information”. When the “data generation process” is performed on the measurement result data D1a that satisfies at least one of the “second conditions” that there are a plurality of processing conditions specified by the process, the associated measurement apparatus 1 is the same In addition, a group of “measurement value information” that satisfies the “third condition” that the associated processing conditions are the same is defined to define a plurality of “measurement value information groups”, and the associated measurement Each “measurement value information” is arranged and recorded for each “measurement value information group” in order of time, and measurement result data D2 is generated. Further, the measurement data processing program Dp causes the processing unit 25 of the portable information terminal 2 to execute the processing as described above.

  Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, a measurement process that satisfies at least one of the “first condition” and the “second condition” is executed, When measurement result data D1a in which a plurality of types of measurement value information output from the measurement apparatus and a plurality of types of measurement value information with different processing conditions are mixed is acquired, each measurement value information is classified by type. The second measurement result data that can easily grasp the measurement result for each measurement process can be provided without performing the operation of performing the operation of arranging the classified measurement value information in time series. As a result, even users who are unfamiliar with measurement processing and measurement result analysis using this type of device / system can easily grasp and provide measurement results for each measurement processing. By processing the measurement result data D2, the contents can be grasped in more detail.

  Further, in the portable information terminal 2, the processing unit 25 determines one of the “measurement value information group” types in the vertical direction and the horizontal direction in the “data generation process” (in this example, the horizontal direction). ) And the measurement time is measured in a data format (in this example, CSV format) that can display each measurement value in a matrix format in correspondence with the other of the vertical and horizontal directions (in this example, the vertical direction). Result data D2 is generated. Further, the measurement data processing program Dp causes the processing unit 25 of the portable information terminal 2 to execute the above processing.

  Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, the measurement result data D2 is generated in a highly versatile “data format that can be displayed in a matrix format”, whereby the measurement result data By loading D2 into a spreadsheet application, not only can the contents of measurement results be displayed or printed easily, but also work such as sorting in any order or extracting only measured values that meet any condition. It can be easily implemented. Thereby, the measurement result for each measurement process can be grasped more easily.

  Further, in the portable information terminal 2, the processing unit 25 receives the measurement result data D1 (“measurement device information”, “processing condition information”, “measurement value information”, and “measurement time information”) received by the communication unit 21. The measurement result data D1a is generated based on the above, and the “data generation process” is started when a predetermined start condition is satisfied (in this example, the “file output button” is operated). Further, in the measurement system 100, “measurement device information”, “processing condition information”, “measurement value information”, and “measurement time information” (measurement result data) are measured for the portable information terminal 2 and the portable information terminal 2. The measuring apparatus 1 includes the communication unit 12 capable of transmitting D1).

  Therefore, according to the portable information terminal 2 and the measurement system 100, only the measurement device 1 is installed in the vicinity of the measurement target, and the measurement result data is transferred from the measurement device 1 to the portable information terminal 2 at a location away from the measurement target. The measurement result data D1a can be generated by transmitting D1, and then the measurement result data D2 can be generated at an arbitrary timing. As a result, for example, when performing measurement processing and measurement result acquisition on a measurement object existing at a high place or narrow place, measurement result data D2 is obtained without operating the portable information terminal 2 in a place where the operation is difficult. be able to.

  Note that the configurations of the “measurement data processing device” and the “measurement system” and the processing content of the “measurement data processing program” are not limited to the above example.

  For example, an example in which information indicating “model” or “individual information (Instrument)” is used as “measurement device information” has been described. Instead of such information, information arbitrarily determined by the user (For example, a character string “Voltmeter connected to No. 3 breaker”) or an identification code (MAC address, etc.) of “measuring device side communication unit” can be used as “measuring device information”. Further, information indicating “processing condition 1 (Function)”, “processing condition 2 (Mode)”, “processing condition 3 (Status)”, “processing condition 4 (Filter)”, and the like is used as “processing condition information”. The example has been described, but instead of such information, information arbitrarily determined by the user (for example, a character string “output voltage value of No. 3 breaker”) or the like is used as “processing condition information”. be able to.

  Further, the measurement apparatus 1A is used to execute one type of measurement process, and the measurement result data D1a generated when the measurement apparatus 1B is used to execute two types of measurement processes in parallel with the measurement process. Is described as “first measurement result data”. However, for example, a plurality of measurement result data generated by executing the same type of measurement processing a plurality of times using one measurement device 1 It is also possible to combine D1a to generate one measurement result data D1a, and to process the measurement result data D1a as “first measurement result data”.

  Further, the example in which all measurement values recorded in the measurement result data D1a are arranged in order of measurement time for each “measurement value information group” to generate the measurement result data D2 has been described. In addition, it is possible to generate “second measurement result data” by arranging only the measurement values satisfying any pre-defined arbitrary condition among the measurement values, in order of measurement time order for each “measurement value information group”. . Specifically, the measured value that exceeds the specified value, the measured value that exceeds the specified value, the measured value that falls below the specified value, the measured value that is less than the specified value, the measured value within the specified range, and the specified value Only measurement values outside the range can be arranged in order of measurement time, or only measurement values corresponding to “every specified time” among the grouped measurement values can be arranged in order of measurement time.

  Furthermore, although the example in which the content of the measurement result data D1 is added to the measurement result data D1a when the “data save button” of the portable information terminal 2 is operated has been described, the measurement result data D1 is transmitted from the measurement device 1. A configuration / method in which the contents are added to the measurement result data D1a each time can be employed. By adopting such a configuration, every time the HOLD switch (switch for holding the measurement value) of the operation unit 13 in the measurement apparatus 1 is operated, the measurement value at that time is added to the measurement result data D1a in the portable information terminal 2. Or by automatically transmitting the measurement result data D1 from the measurement apparatus 1 at regular time intervals, the portable information terminal 2 can additionally add measurement values to the measurement result data D1a at regular time intervals.

  Further, the example has been described in which the “data generation process” is started when the “file output button” of the portable information terminal 2 is operated, and the measurement result data D2 is generated. However, when the preset time arrives, Measured by starting the “data generation process” when a set time has elapsed, when a measured value of a preset amount of data has been accumulated, or when a measured value that satisfies a predefined condition is acquired A configuration / method for generating the result data D2 can be employed.

  Further, the use method of directly transmitting the measurement result data D1 from the measurement device 1 to the portable information terminal 2 constituting the “measurement data processing device” has been described as an example. The “first measurement result data” may be data acquired from the “measurement device” via an external device different from the “measurement data processing device”. In addition, the “data format in which each measurement value can be displayed in a matrix format” is not limited to the CSV format as in the above example, but adopts a PRN format (space-delimited text format) and various spreadsheet formats. Can do.

DESCRIPTION OF SYMBOLS 100 Measuring system 1 Measuring apparatus 2 Portable information terminal 11 Measuring part 12, 21, 22 Communication part 13, 23 Operation part 14, 24 Display part 15, 25 Processing part 16, 26 Storage part D1, D1a, D2 Measurement result data Dp measurement Data processing program

Claims (6)

A plurality of measurement value information indicating measurement values acquired by the measurement process includes measurement apparatus information that can identify the measurement apparatus that has performed the measurement process, process condition information that can identify a process condition of the measurement process, and the measurement A processing unit that executes data generation processing for generating second measurement result data based on first measurement result data recorded in association with a plurality of pieces of measurement time information that can specify each measurement time of the value is provided. ,
The processing unit includes a first condition that a plurality of measurement devices specified based on the measurement device information exist, and a second condition that a plurality of processing conditions specified based on the processing condition information exist. When the data generation process is executed with the first measurement result data satisfying at least one of the conditions as a processing target, the associated measurement devices are the same, and the associated process conditions are the same. The measurement value information satisfying the third condition is grouped to define a plurality of measurement value information groups, and each measurement value information is assigned to each measurement value information group in the order of the associated measurement times. And the second measurement result data is generated by recording in association with the corresponding measurement time information, the measurement device information, and the processing condition information. Measurement data processing apparatus.   In the data generation process, the processing unit associates the type of the measurement value information group with one of the vertical direction and the horizontal direction, and the measurement time corresponds to the other of the vertical direction and the horizontal direction. The measurement data processing apparatus according to claim 1, wherein the second measurement result data is generated in a data format in which each measurement value can be displayed in a matrix format. A processing device side communication unit capable of receiving the measurement device information, the processing condition information, the measurement value information, and the measurement time information transmitted from the measurement device,
The processing unit generates the first measurement result data based on the measurement device information, the processing condition information, the measurement value information, and the measurement time information received by the processing device side communication unit. The measurement data processing apparatus according to claim 1, wherein the data generation process is started when a prescribed start condition is satisfied.   The measurement data processing device according to claim 3, and the measurement device side communication unit capable of transmitting the measurement device information, the processing condition information, the measurement value information, and the measurement time information to the measurement data processing device. A measurement system configured with a measurement device.   A plurality of measurement value information indicating measurement values acquired by the measurement process includes measurement apparatus information that can identify the measurement apparatus that has performed the measurement process, process condition information that can identify a process condition of the measurement process, and the measurement A processing unit that executes data generation processing for generating second measurement result data based on first measurement result data recorded in association with a plurality of pieces of measurement time information that can specify each measurement time of the value is provided. The first condition that there are a plurality of the measurement devices specified based on the measurement device information, and the processing conditions specified based on the processing condition information, for the processing unit in the measured data processing device When the data generation process is executed on the first measurement result data that satisfies at least one of the second conditions that there are a plurality of Grouping the measurement value information that satisfies the third condition that the measurement devices being the same and the associated processing conditions are the same, and defining a plurality of measurement value information groups The measurement value information is rearranged for each measurement value information group in the order of the measurement time being recorded, and is recorded in association with the corresponding measurement time information, the measurement device information, and the processing condition information. A measurement data processing program for executing a process of generating second measurement result data.   In the data generation processing, the measurement value information group type corresponds to one of the vertical direction and the horizontal direction, and the measurement time corresponds to the other of the vertical direction and the horizontal direction. The measurement data processing program according to claim 5, wherein the processing unit executes the process of generating the second measurement result data in a predetermined data format in which values can be displayed in a matrix format.

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