JP2020034365A - Measured data processing device, measuring system, and measured data processing program - Google Patents

Abstract

To reduce burden of an operator in measurement work of a same measuring object without causing loss of measurement result data or overlapping of the measurement work.SOLUTION: A processing unit 26 performs: first processing of, when a measuring object image in an image of imaging data D2 is designated and associated with a measuring object, generating measuring object management data D1 in which a position of the measuring object image in the image is associated with the measuring object, and storing it along with the data D2, as template data; second processing of reading the template data to display the image of the data D2, specifying the position of each measuring object image in the image on the basis of the data D1, and displaying the measuring object identification display in association with the measuring object image; and third processing of, when acquiring measured value data D0 in a state where any of the measuring object images is specified, generating measurement result data D3 by associating the measured value with the measuring object of the measuring object image and storing it along with the data D1 and D2.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a measurement data processing apparatus including a processing unit that acquires measurement value data in which a measurement value of a measurement target is recorded, generates measurement result data, and stores the measurement result data in a storage unit. And a measurement data processing program that causes a processing unit of a measurement data processing apparatus to execute a process of acquiring measurement value data, generating measurement result data, and storing the measurement result data in a storage unit. .

  Applicant has a measurement device capable of measuring various electrical parameters of a measurement target, a portable information terminal capable of performing various data processing on measurement value data obtained from the measurement device, and data processing by the portable terminal device. The following patent document discloses a measurement system including a data server that stores measurement result data. In this case, a measurement data processing program in which a data processing procedure is recorded is installed in the portable terminal device.

  In the measurement process using this measurement system, first, a measurement data processing program is started in the portable information terminal, and an image of a measurement target (for example, a breaker of a switchboard) is taken. Next, a measurement operation support screen used during a measurement operation described later is displayed, and a measurement order for each measurement target is specified in a state where a captured image is displayed on the screen. More specifically, a marker indicating “measurement order = 1st” and a marker indicating “measurement order = second” are arranged on the image of each breaker in the image, respectively. It is possible to specify in what order the measurement process is to be performed on the measurement object (breaker) corresponding to. At the time of actual work, the name of the measurement target, remark information, and the like are input, but the description thereof is omitted.

  On the other hand, at the start of the measurement work, first, the measuring apparatus is turned on to switch to the desired measurement mode, and the portable information terminal is caused to change the display of the measurement work support screen to a screen for inputting the measured value. At this time, the portable information terminal starts monitoring whether or not the measurement value data is transmitted from the measurement device, blinks a marker indicating “measurement order = 1st”, and displays “(1) Please start the measurement work of "." And output a similar voice message. With this, it is possible to reliably and easily specify which measurement target is to be measured first based on which breaker image overlaps the marker blinking in the support screen. Becomes possible.

  Next, the measurement device is brought into contact with the breaker of the image on which the blinking marker is superimposed to execute the measurement process. At this time, measurement value data indicating the measurement result is generated in the measurement device, and the generated measurement value data is transmitted to the portable information terminal. Further, in the portable information terminal, the processing unit determines that the acquisition of the measurement value for the first measurement target (breaker) is completed, and uses the measurement value recorded in the transmitted measurement value data on the support screen. Enter a numerical value in the measurement value field to update the measurement result data. The processing unit blinks a marker indicating “measurement order = second”, displays a message requesting the start of measurement work for the next measurement target (breaker), and outputs a similar voice message. After the execution, the monitoring of whether or not the next measured value data has been transmitted from the measuring device is started.

  Thus, when the measurement value data of the second measurement object is transmitted to the portable terminal device in the same manner as in the case of the first measurement object, the value is input numerically in the corresponding measurement value column of the support screen. The measurement result data is updated. Also, for each of the third and subsequent measurement objects, the measurement operation is performed in the same procedure as the measurement operation for the first measurement object and the second measurement object, and the measured values are used for the corresponding measurement on the support screen. Numerical values are entered in the value field and the measurement result data is updated. Further, when the measurement work for all the measurement targets is completed and the measurement result data is updated, a message is displayed to notify that the recording of the measurement values has been completed. As a result, the measurement result data in which each measurement value for each measurement target is recorded is stored in the storage unit of the portable information terminal, and a series of measurement operations ends.

JP-A-2006-166761 (pages 11 to 27, FIG. 1-15)

  However, the measurement system disclosed by the applicant has the following problems to be improved. Specifically, in the measurement system disclosed by the applicant, the measurement target is imaged by a portable information terminal at the site where the measurement processing is performed, and each measurement is performed in correspondence with the image of each measurement target in the measurement work support screen. After setting the measurement order for the target, the measurement values recorded in the measurement value data transmitted from the measurement device are recorded by performing the measurement work on each measurement target by the measurement device in the set measurement order. The configuration in which the measurement result data is generated in the portable information terminal is adopted.

  In this case, as an application of this type of measurement system, there is an application in which measurement work on the same measurement target is periodically and repeatedly executed. When used in such applications, it is necessary to operate the portable information terminal to perform imaging of the measurement target, specify the measurement order, and input the name of the measurement target, etc. each time the work is performed. These preparation operations before starting the measurement operation are complicated. Therefore, it is preferable to improve this point.

  At the time of the second and subsequent operations on the same measurement object, the measurement result data generated during the previous operation is read out, and the measured values and the like are overwritten with new values. It is also possible to generate accurate measurement result data. However, in the usage method of reading out measurement result data generated in the past and overwriting new measurement values, if the readout measurement result data is overwritten without renaming, data that can identify past measurement results will be lost. Would. In addition, in the usage method of reading and using the measurement results generated in the past, it is necessary to erase the recorded measurement values before starting the work, and a new measurement work was started without erasing the recorded measurement values. In this case, it may be difficult to accurately and easily grasp the measurement target that has completed the measurement operation and the measurement target that has not completed the measurement operation at the time of this operation.

  For this reason, if the recorded measurement values are not deleted when reading and using the measurement result data generated in the past work, the work on the measurement target for which the measurement work has been completed is executed in duplicate. There is a risk that the operation may be forgotten or the operation for the measurement object for which the measurement operation has not been completed may be forgotten.

  The present invention has been made in view of such problems to be improved, and without causing measurement data loss, execution of duplicate measurement work, and loss of measured values for any measurement target, the same is true. A main object of the present invention is to provide a measurement data processing device, a measurement system, and a measurement data processing program that can sufficiently reduce a burden on an operator required for a preparation operation in a measurement operation for a measurement target.

  In order to achieve the above object, the measurement data processing device according to claim 1, wherein the storage unit stores image data of images in which measurement target images indicating the measurement target are arranged corresponding to respective positions of the plurality of measurement targets. And a processing unit that acquires measurement value data in which measurement values of the respective measurement objects are recorded, generates measurement result data, and stores the measurement result data in the storage unit, wherein the processing unit is based on the image data. Displaying the image on the display unit, when any of the measurement target images in the displayed image is specified and associated with any of the measurement targets, the specified measurement target image A first process of generating association data in which a position in an image is associated with one of the measurement targets and storing the association data in the storage unit as template data together with the image data; When the set display start condition is satisfied, the template data is read from the storage unit, and the image based on the image data of the template data is displayed on the display unit, and at least the acquisition of the measurement value data is performed. A position in the image of the measurement target image corresponding to the measurement target that has not been completed is specified based on the association data of the template data, and the measurement target image at the specified position can be identified. A second process of displaying a display on the display unit together with the image in association with the measurement target image at the specified position, and any one of the measurement target images in the image displayed by the second process is displayed. When the measurement data is acquired in the designated state, the measurement recorded in the acquired measurement data is performed. And a third process of generating the measurement result data corresponding to the measurement target of the measurement target image whose value is specified and storing the measurement result data in the storage unit together with the image data and the association data. Have been.

  The measurement data processing device according to claim 2 is the measurement data processing device according to claim 1, wherein the processing unit is configured to determine whether a measurement condition for each of the measurement targets is specified in the first processing. Generating measurement condition data capable of specifying the specified measurement condition, storing the measurement condition data in the storage unit as the template data together with the association data and the image data, and in the third processing, the acquired measurement value It is determined whether or not the data satisfies the measurement condition of the measurement condition data for the measurement object corresponding to the measurement value data, and when the measurement condition data is not satisfied, a predetermined fourth process is executed.

  The measurement data processing device according to claim 3 is the measurement data processing device according to claim 2, wherein the processing unit does not satisfy the measurement condition in the fourth processing. Is notified in a identifiable manner.

  Further, the measurement data processing device according to claim 4 is the measurement data processing device according to claim 2 or 3, wherein the processing unit performs the measurement recorded in the acquired measurement value data in the fourth processing. The value is discarded without being stored in the storage unit as the measurement result data.

  According to a fifth aspect of the present invention, there is provided the measurement data processing apparatus according to any one of the first to fourth aspects, further comprising an imaging unit configured to image each of the measurement targets and output imaging data. The unit acquires the imaging data output from the imaging unit as the image data prior to the first processing.

  Further, the measurement system according to claim 6, further comprising an imaging unit that captures an image of each of the measurement targets and outputs imaging data, and wherein the processing unit is configured to output the imaging data before the first processing. Acquiring imaging data as the image data;

  A storage unit configured to store image data of images in which measurement target images indicating measurement targets are arranged corresponding to respective positions of a plurality of the measurement targets; For a processing unit of a measurement data processing device comprising: a processing unit that obtains measurement value data in which measurement values for each measurement target are recorded, generates measurement result data, and stores the measurement result data in the storage unit. The image based on the image data is displayed on the display unit, and when any of the measurement target images in the displayed image is specified and associated with any of the measurement targets, the specified measurement is performed. Generating association data in which the position of the target image in the image is associated with one of the measurement targets, and stores the generated data together with the image data as template data in the storage unit. A first process, when the display start condition defined in advance is satisfied, the template data is read from the storage unit, and the image based on the image data of the template data is displayed on the display unit; The position in the image of the measurement target image corresponding to the measurement target for which acquisition of the measurement value data has not been completed is specified based on the association data of the template data, and the measurement target image at the specified position is specified. A second process of displaying an identifiable display for measurement target identification on the display unit together with the image in association with the measurement target image at the specified position, or any one of the images displayed by the second process. When the measurement value data is acquired in a state where the measurement target image is specified, the acquired measurement value data is acquired. A third process of generating the measurement result data corresponding to the measurement target of the measurement target image specified in the measurement value recorded in the storage unit and storing the measurement result data in the storage unit together with the image data and the association data And execute.

  Further, the measurement data processing program according to claim 8, when the measurement conditions for each of the measurement targets are specified in the first processing, the measurement conditions specified for the processing unit. Identifiable measurement condition data is generated and stored in the storage unit as the template data together with the association data and the image data, and in the third process, the acquired measurement value data corresponds to the measurement value data. It is determined whether or not the measurement condition of the measurement condition data for the measurement object to be measured is satisfied, and when the measurement condition is not satisfied, a fourth process defined in advance is executed.

  In the measurement data processing apparatus according to claim 1, when the processing unit specifies one of the measurement target images in the image based on the image data and associates the measurement target image with any of the measurement targets, the processing unit specifies the specified measurement target image. First processing for generating association data in which a position in the image is associated with the measurement object and storing the association data in the storage unit together with the image data as template data, and the template data when a predetermined display start condition is satisfied Is read out from the storage unit to display an image based on the image data, and at least the position in the image of the measurement target image corresponding to the measurement target for which the acquisition of the measurement value data has not been completed is specified based on the association data, and specified. The display of the measurement target identification display capable of identifying the measurement target image at the specified position in association with the measurement target image at the specified position. When the measurement data is acquired in a state in which any of the measurement target images in the displayed image is specified, the measurement value recorded in the acquired measurement data is specified. And a third process of generating measurement result data corresponding to the measurement target of the target image and storing the measurement result data in the storage unit along with the image data and the association data.

  According to a sixth aspect of the present invention, there is provided a measurement system including a measurement device configured to be capable of performing a measurement on each measurement target, and the above-described measurement data processing device. According to the measurement data processing program of the present invention, the above processing is executed by the processing unit of the measurement data processing device.

  Therefore, according to the measurement data processing device described in claim 1, the measurement system described in claim 6, and the measurement data processing program described in claim 7, each measurement target image in the image is associated with the display position. During the second and subsequent measurement work for each measurement target for which template data generation has been completed, preparation work such as associating the display position of each measurement target image with each measurement target is not performed prior to the measurement work. However, by specifying and reading the template data stored in the storage unit, a screen for supporting the measurement work and inputting the measured value can be displayed on the display unit, and the measurement work can be started immediately. Thereby, the burden on the operator during the second and subsequent measurement work on the same measurement target can be sufficiently reduced. Also, unlike the usage mode of reading out measurement result data generated in the past and overwriting new measurement values, by generating measurement result data using template data, measurement results obtained by past measurement work It is possible to preferably avoid a situation in which the measurement result data that can specify the measurement value recorded in the value data is lost, and to perform an overlapping measurement operation on one measurement object and a measurement value on any one of the measurement objects. It is possible to generate the measurement result data without inviting any missing data.

  In the measurement data processing device according to claim 2, the processing unit generates measurement condition data capable of specifying the specified measurement condition when the measurement condition for each measurement target is specified in the first processing. In the third process, whether the acquired measurement value data satisfies the measurement condition of the measurement condition data for the measurement object corresponding to the measurement value data, while storing the measurement value data in the storage unit as template data together with the association data and the image data. It is determined whether or not it is not, and when the condition is not satisfied, a fourth process specified in advance is executed. According to the measurement data processing program of the present invention, the above processing is executed by the processing unit of the measurement data processing device.

  Therefore, according to the measurement data processing device according to the second aspect, a measurement system including such a measurement data processing device, and the measurement data processing program according to the eighth aspect, the measurement conditions are designated each time the measurement operation is performed. Unlike the usage mode in which preparation work is performed, template data in which measurement condition data that can specify the measurement conditions specified for each measurement object can be specified for multiple measurement operations on the same measurement object is used. Since it is possible to reliably and easily perform a measurement operation that satisfies a specified measurement condition when generating a measurement result, it is possible to generate measurement result data that can be accurately and easily compared with measurement result data generated by a past measurement operation. .

  In the measurement data processing device according to the third aspect, the processing unit notifies in a fourth process that the acquired measurement value data does not satisfy the measurement condition in a identifiable manner. Therefore, there is provided a measurement data processing device according to claim 3, a measurement system including such a measurement data processing device, and a measurement data processing program that causes a processing unit of the measurement data processing device to execute such processing. This makes it possible for the operator to reliably and easily recognize that a measurement operation that does not satisfy the specified measurement conditions has been performed when generating the template data. Accurate and easily comparable measurement result data can be generated.

  In the measurement data processing device according to the fourth aspect, in the fourth processing, the processing unit discards the measurement value recorded in the acquired measurement value data without storing it in the storage unit as measurement result data. Therefore, there is provided a measurement data processing apparatus according to claim 4, a measurement system including such a measurement data processing apparatus, and a measurement data processing program for causing a processing unit of the measurement data processing apparatus to execute such processing. For example, when generating template data, measurement result data in which measurement values from measurement operations that do not meet the specified measurement conditions are recorded, that is, measurement result data that is difficult to compare with measurement result data generated in past measurement operations Can be reliably avoided.

  The measurement data processing device according to claim 5, further comprising an imaging unit configured to image each measurement target and output imaging data, wherein the processing unit converts the imaging data output from the imaging unit to image data prior to the first processing. To get as Therefore, there is provided a measurement data processing apparatus according to claim 5, a measurement system including such a measurement data processing apparatus, and a measurement data processing program for causing a processing unit of the measurement data processing apparatus to execute such processing. For example, an image including each measurement target image can be easily displayed on the display unit of the measurement data processing apparatus by simply imaging each measurement target by the imaging unit without performing a complicated operation of generating image data depicting the measurement target image. Can be displayed. Also, unlike using image data depicting the image of the measurement target, the image data is displayed using the image data of each measurement target to be actually measured, as an image data. Based on the display position, the position of the measurement object to be measured next can be accurately and easily grasped.

1 is a configuration diagram illustrating a configuration of a measurement system 100. It is an explanatory view for explaining an example of arrangement of breakers Xa-Xc in switchboard Y. It is a figure which shows an example of the image containing the images 32a-32c of the breakers Xa-Xc (the image 31 of the switchboard Y: the image of the imaging data D2 imaged by the camera 21). It is a display screen figure showing an example of a support screen setting screen 30a. It is a display screen figure which shows an example of the screen 30b for a measurement work support at the time of performing a measurement about the 1st measurement object. It is another display screen figure which shows an example of the screen 30b for measurement work support at the time of performing measurement about the 1st measurement object. FIG. 11 is a further display screen diagram illustrating an example of a measurement work support screen 30b when performing measurement on a first measurement target. It is a display screen figure which shows an example of the screen 30b for measurement work support at the time of performing measurement about the 2nd measurement object. It is a display screen figure which shows an example of the screen 30b for a measurement work support when the measurement work about all the breakers X is completed.

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

  The measurement system 100 shown in FIG. 1 is an example of a “measurement system” and includes measurement devices 1A and 1V, a portable information terminal 2, and a data server 3. In the following description, in order to facilitate understanding of the invention of the “measurement data processing device”, “measurement system”, and “measurement data processing program”, as an example, a distribution device Y shown in FIG. The installed breakers Xa to Xc (hereinafter, also referred to as “breaker X” when these are not distinguished) are referred to as “measurement targets”, and the current values of the currents flowing through the electric wires connected thereto and the currents applied to them The voltage value of the voltage shall be measured as a measured value. In addition, various devices other than the respective breakers X and electric wires are provided on the actual switchboard Y. However, in order to facilitate understanding of the processing contents at the time of the measurement work, elements related to the respective components other than the respective breakers X are used. Illustration and description are omitted.

  The measuring device 1A is an example of a “measuring device”, and generates a measured value data D0 by measuring a current value of a current flowing through an object to be measured via a clamp sensor (not shown), and generates the generated measured value data. D0 can be transmitted to the portable information terminal 2 or the like. The measuring device 1V is another example of the “measuring device”, and generates a measured value data D0 by measuring a voltage value of a voltage applied to a measuring object via a test lead (not shown). The generated measurement value data D0 can be transmitted to the portable information terminal 2 or the like. In this case, the measuring devices 1A and 1V are configured to be capable of performing wireless communication conforming to a short-range wireless communication standard such as the Bluetooth (registered trademark) standard, for example, and transmit the measured value data D0 by wireless communication. It is configured to be able to transmit to an external device such as the portable information terminal 2.

  Note that the measurement system 100 of the present example includes two measurement devices 1A and 1V (hereinafter, also referred to as “measurement device 1” when not distinguished), but forms a “measurement system”. The number of “measuring devices” is not limited to this, and may be configured to include one “measuring device” or three or more plural “measuring devices”. In addition, instead of (or in addition to) the current value and the voltage value, various physical quantities (electrical parameters such as resistance, power, and phase, as well as temperature, humidity, luminance (luminous intensity), illuminance, distortion, The measurement system 100 can also be configured by employing a “measuring device” capable of measuring various parameters such as rainfall and flow rate.

  On the other hand, the portable information terminal 2 corresponds to a “measurement data processing device”, and is configured by an existing tablet terminal or smartphone on which a measurement data processing program Dp (an example of a “measurement data processing program”) is installed, for example. ing. In a broad sense, “tablet terminal” means “PDA (Personal Digital Assistant) equipped with a pointing device such as a touch panel and a display device”, and “smart phone” has “PDA (Personal Digital Assistant) function”. In the present specification, the term “mobile terminal” refers to “a tablet terminal” in a broad sense and “smartphone” in a broad sense. What can customize the environment, etc. "is called" tablet terminal "or" smartphone ".

  In this case, the portable information terminal 2 in the measurement system 100 of the present example is, for example, a tablet terminal, and includes a camera 21, communication units 22a and 22b, an operation unit 23, a display unit 24, a speaker 25, and a processing unit 26. And a storage unit 27. The actual portable information terminal 2 includes various components for realizing a function as a “tablet terminal” in addition to the components 21 to 27 described above. For the sake of simplicity, illustration and description of these components will be omitted.

  The camera 21 is an example of an “imaging unit”, and captures an image of a switchboard Y or the like on which each breaker X or the like is provided, and captures image data D2 (“a measurement target image indicating a measurement target is one of a plurality of measurement targets. An example of “imaging data” as “image data of images arranged corresponding to the position” is generated, and the generated imaging data D2 is output to the processing unit 26.

  The communication unit 22a is, for example, a communication adapter capable of performing wireless communication conforming to a short-range wireless communication standard such as Bluetooth in the same manner as the communication unit of the measuring device 1 described above. Under the control of the processing unit 26, the communication unit 22a performs a process of receiving measurement value data D0 and the like transmitted from the measurement device 1 and a process of transmitting various control signals to the measurement device 1 as described later. The communication unit 22b is configured to be connectable to a communication network N such as a mobile phone line network, and is connected to the data server 3 via the communication network N according to the control of the processing unit 26, so that “template data” And various data such as "measurement result data".

  The operation unit 23 includes, for example, 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 “tablet terminal”, and an operation signal corresponding to the operation. Is output to the processing unit 26. The display unit 24 includes a liquid crystal display panel as an example, and according to the control of the processing unit 26, various types of screens such as a support screen setting screen 30a (see FIG. 4) and a measurement work support screen 30b (see FIGS. 5 to 9). Display the display screen.

  The processing unit 26 is an example of a “processing unit”, and controls the portable information terminal 2 as a whole. Specifically, the processing unit 26 generates the “template data” capable of displaying the measurement work support screen 30b for supporting the measurement work in accordance with the description of the measurement data processing program Dp. A process of acquiring the measurement value data D0 while supporting the measurement operation by displaying the measurement operation support screen 30b based on the display unit 24, and using the measurement values recorded in the acquired measurement value data D0 as “measurement result data”. The processing to be stored in the storage unit 27 and the processing to transmit the generated “measurement result data” to the data server 3 can be executed.

  More specifically, in the process of generating the “template data”, the processing unit 26 controls the camera 21 according to the operation on the operation unit 23 to image the “measurement target”, and outputs the image from the camera 21. Image data D2 is acquired as “image data”. Further, the processing unit 26 converts the images 32a to 32c of the breakers Xa to Xc (an example of a “measurement target image indicating a measurement target”; hereinafter, also referred to as “image 32” when no distinction is made) based on the acquired imaging data D2. The included image 31 (an example of “image”) is displayed on the support screen setting screen 30a, the measurement work support screen 30b, and the like.

  Further, in the above-described “template data” generation processing, the processing unit 26 displays the support screen setting screen 30a on the display unit 24 as shown in FIG. Markers 33-01 to 33-04 (hereinafter, also referred to as “markers 33” when not distinguishable) that can specify the “measurement order specified for the breaker X” are associated with the corresponding images 32 of the respective breakers X. It is displayed so as to be superimposed on the image 31 of the switchboard Y. Further, the processing unit 26 sets the “measurement condition” such as “the used device and the measurement mode at the time of measurement for each breaker X” in the used device column 42b-01 in the measurement condition measurement result display 42 of the support screen setting screen 30a. , 42b-02,... And the measurement mode columns 42c-01, 42c-02,.

  Further, the processing unit 26 associates the breaker X with the position in the image 31 of the corresponding image 32 based on the “measurement order” and “measurement condition” specified by the user, and “ Measurement target management data D1 (an example of "association data" and "measurement condition data") that can specify "measurement order" and "measurement conditions" at the time of measurement work for each breaker X is generated, and the generated measurement is performed. The target management data D1 is stored in the storage unit 27 as “template data” in association with the imaging data D2. In this case, in the portable information terminal 2 (measurement data processing program Dp) of the present example, from the display of the image 31 on the support screen setting screen 30a based on the imaging data D2, the storage of the “template data” in the storage unit 27. A series of processing up to this corresponds to “first processing”.

  In addition, in the process of supporting the measurement work and acquiring the measurement value data D0, the processing unit 26 performs an operation of starting the measurement of each breaker X by the measurement device 1 (“the display start condition defined in advance”). When “is satisfied”, the above “template data (measurement target management data D1 and imaging data D2)” is read from the storage unit 27, and the measurement work support screen 30b is displayed as shown in FIG. It is displayed on the display unit 24. In this case, in the portable information terminal 2 (measurement data processing program Dp) of the present example, the process of reading the “template data” from the storage unit 27 and displaying the measurement work support screen 30b on the display unit 24 is “ Second process ".

  Although the specific processing contents will be described in detail later, in the portable information terminal 2 (measurement data processing program Dp) of the present example, as described later, the acquisition of the measurement value data D0 is not completed. Marker 33 corresponding to one of the breakers X having the earliest “measurement order” is set as “measurement object identification display”, and a display mode when the “measurement order” for the breaker X is not the earliest order (one example) As an example, a configuration is adopted in which the image 32 is superimposed on the image 31 and displayed in a display mode (for example, blinking display) different from that of the light-on display.

  Further, as a process of storing the “measurement result data” in the storage unit 27, the processing unit 26 displays the measurement work support screen 30b on the display unit 24 as shown in FIGS. When the measurement value data D0 transmitted from the measurement device 1 is transmitted in a state where any one of the images 32 is designated by the display mode (when the measurement value data D0 is received by the communication unit 22a: “Measurement value data Is acquired), the measurement result data D3 in which the measurement value recorded in the measurement value data D0 is associated with the breaker X of the specified image 32 is generated, and the measurement target management data It is stored in the storage unit 27 as “measurement result data” in association with D1 and the imaging data D2.

  Specifically, as an example, the processing unit 26 displays the measurement value recorded in the acquired measurement value data D0 as a marker 33 for displaying “display for measuring object identification” (a marker 33 for blinking display). ) Is input to the corresponding cell of the measurement value columns 42e-01, 42e-02,... In the measurement condition measurement result display 42 shown in FIG. Generate In this case, in the portable information terminal 2 (measurement data processing program Dp) of the present example, the measurement target management data D1, the imaging data D2, and the measurement result data D3 are associated and stored in the storage unit 27 as “measurement result data”. The processing corresponds to “third processing”.

  Although specific processing contents will be described later in detail, in the portable information terminal 2 (measurement data processing program Dp) of the present example, the acquired measurement value data D0 in the above-mentioned “third processing” is It is determined whether or not the above “measurement condition” is satisfied. If the condition is satisfied, the measurement result data D3 is generated. If the condition is not satisfied, the fact is notified and the measurement value data D0 is discarded. (An example of “fourth processing”).

  When the user instructs the upload (transmission) of “measurement result data” to the data server 3, the processing unit 26 associates the measurement target management data stored in the storage unit 27 with each other. D1, imaging data D2, and measurement result data D3 are transmitted from the communication unit 22b to the data server 3 via the communication network N and recorded.

  The storage unit 27 is an example of a “storage unit”, and stores the measurement data processing program Dp executed by the processing unit 26, the measurement value data D0 acquired from the measurement device 1, and the measurement target management data D1. , The imaging data D2 and the measurement result data D3 are stored as “template data” and “measurement result data”. In this case, the “storage unit” that stores the measurement data processing program Dp and the data D1 to D3 is not limited to the storage unit 27 configured by the internal memory of the mobile information terminal 2, but is used for the mobile information terminal. 2 may be constituted by various types of removable memories.

  The data server 3 is, for example, a server for the user of the measuring device 1 and the portable information terminal 2 to store “measurement result data” for “measurement targets” such as the respective breakers X, and the portable information terminal 2 Receiving and recording the measurement target management data D1, the imaging data D2, and the measurement result data D3 (measurement result data) transmitted in a state of being associated with each other from the mobile information terminal 2 and an electronic terminal (not shown) A transmission process of “measurement result data” to a personal computer or the like can be executed.

  As the data server 3, a server dedicated to the measurement system 100 can be prepared and used, but an existing data server capable of recording “measurement result data” or the like can also be used as the data server 3. . Further, a configuration in which “measurement result data” is directly transmitted and received between the portable information terminal 2 and an electronic terminal (a personal computer or the like) without using the data server 3 may be adopted.

  Next, a measurement operation (processing for generating measurement result data) using the measurement system 100 will be described with reference to the accompanying drawings. Note that the installation work of the measurement data processing program Dp in the portable information terminal 2 and the Bluetooth pairing work between the measurement device 1 and the portable information terminal 2 (communication unit 22a) have already been completed. I do.

  When using the measurement system 100 to perform measurement on a new measurement target that has not performed a series of operations as described below, first, a preparation operation for supporting the measurement operation is performed. . Note that this preparation work can be performed at an arbitrary timing before the start of the measurement work. Specifically, only the preparation work is performed separately from the measurement work, and the measurement work can be performed at an arbitrary timing later, or the measurement work can be performed after the completion of the preparation work. .

  As an example, when performing the preparatory work immediately before the measurement work on the switchboard Y (each breaker X) that has not performed the preparatory work, first, the measuring device 1 and the portable information terminal 2 to be used are installed in the switchboard Y. The user carries the portable information terminal 2 and starts the measurement data processing program Dp. At this time, since an initial screen (not shown) is displayed on the display unit 24, the item "new template data creation" is selected by operating the operation unit 23 (touch panel). In response to this, the processing unit 26 causes the display unit 24 to display a message “Please take an image of the measurement target” as an example.

  On the other hand, when the worker who sees the message takes an image of the switchboard Y (each breaker X) with the camera 21, as an example, as shown in FIG. 3, the images 32 a to 32 c of the breakers Xa to Xc as “measurement targets” are displayed. The imaging data D2 of the images 31 arranged corresponding to the positions of the breakers Xa to Xc are generated by the camera 21 and output to the processing unit 26. In response to this, the processing unit 26 stores the imaging data D2 in which the imaging data D2 is output from the camera 21 in the storage unit 27 in accordance with the description of the measurement data processing program Dp, and sets the support screen setting screen shown in FIG. The screen 30a is displayed on the display unit 24.

  The support screen setting screen 30a is a screen for setting various kinds of information for generating “template data” necessary for displaying the measurement work support screen 30b (see FIGS. 5 to 9) used during the measurement work. For example, the layout configuration is the same as the screen layout of the measurement work support screen 30b. Specifically, a “measurement target image” such as each image 32 of the image 31 based on the imaging data D2 is displayed on the support screen setting screen 30a, and various information on each “measurement target” (the switchboard Y (Information on the installation location, measurement date and time, etc.), a measurement condition display 42 that displays the name and measurement value of each breaker X, and a setting end button 43 are displayed. .

  In this case, in the measurement condition measurement result display 42, as an example, a measurement target name column 42a-01, 42a-02... (Hereinafter, also referred to as a “measurement target name column 42a” when no distinction is made) in which a measurement target name is input. ), Used device columns 42b-01, 42b-02 (hereinafter, also referred to as "used device column 42b" when no distinction is made) for inputting a model number or the like of a measuring device used in the measurement work, and a measurement set in the measurement work. The measurement mode columns 42c-01 and 42c-02 (hereinafter, also referred to as the "measurement mode column 42c" when not distinguished) into which the mode (the type of the measured amount, the measurement range, etc.) is input, and remarks on the measurement object The remarks columns 42d-01, 42d-02... (Hereinafter, also referred to as “remarks column 42d” when not distinguished) and the measured value data D0 acquired from the measuring device 1 Recorded values are measured value column 42e-01,42e-02 ·· input is defined (hereinafter, also referred to as "measured value column 42e" when no distinction). The setting end button 43 has a function of closing the support screen setting screen 30a and generating “template data” when the setting operation is completed.

  Next, an association between each image 32 in the image 31 and the breaker X, and a “measurement order” and a “measurement condition” for each breaker X are set. Specifically, by operating the operation unit 23 (touch panel), the image 32 corresponding to the “measurement target” to be measured first among the images 32 of each breaker X in the image 31 (for example, the breaker At the display position of the Xb image 32b), a marker 33-01 indicating that the "measurement order" is the first is displayed. As a result, the marker 33-01 is displayed overlapping the display position of the image 32b of the breaker Xb, and the image 32b overlapping the marker 33-01 is associated with the breaker Xb ("" displayed. When one of the measurement target images in the image is specified and associated with one of the measurement targets.

  Subsequently, various information is input to the measurement condition measurement result display 42. Specifically, the name of the breaker Xb corresponding to the image 32b on which the marker 33-01 is superimposed is input in the measurement target name column 42a-01, and is used in the measurement operation for the breaker Xb in the device used column 42b-01. Information (model number, etc.) that can specify the measurement device 1 is input, and information that can specify the measurement mode to be set at the time of measurement work is input to the measurement mode column 42c-01, and the remarks column 42d- 01 is input with arbitrary information (remarks) on the breaker Xb (an example of “when measurement conditions for each measurement target are specified”).

  In this case, as an example, an input method for selecting a desired measuring device 1 from the registered list by registering a list of the measuring devices 1 owned by the worker in advance in the used device column 42b. (Not shown). In the measurement mode column 42c, a list of measurement modes that can be set in the measurement device 1 is displayed based on the information of the measurement device 1 input in the used device column 42b, and an input method for selecting a desired measurement mode is set. Can be employed (not shown). Thus, the setting for the breaker Xb is completed.

  Next, in the same procedure as when setting the above-described breaker Xb, from among the images 32 of the respective breakers X in the image 31, the images 32 are sequentially selected for the breakers X to be measured after the second, and the “measurement order” And "measurement conditions" are set. In the example of the support screen setting screen 30a shown in FIG. 4, two measurement operations are performed for the breaker Xa corresponding to the image 32a as the third “measurement target” and the fourth “measurement target”. Is set to

  Thereafter, when the setting of “measurement order” and “measurement conditions” for all “measurement targets” is completed, the setting end button 43 is operated. At this time, according to the measurement data processing program Dp, the processing unit 26 compares the display position of each image 32 in the image 31 with each breaker X whose “measurement condition” or the like is input to the measurement condition measurement result display 42. The measurement object management data D1 that can specify the “measurement condition” and the like for each breaker X input to the association and measurement condition measurement result display 42 is generated (“the position of the designated measurement object image in the image is determined. An example of a process of “generating association data associated with one of the measurement targets” and a process of “generating measurement condition data that can specify a specified measurement condition”).

  Next, the processing unit 26 stores the generated measurement target management data D1 and the imaging data D2 of the image 31 displayed on the support screen setting screen 30a in the storage unit 27 in a state where they are associated with each other as “template data”. Let it. As described above, the “first processing” is completed, and the preparation for starting the measurement operation for each breaker X is completed.

  On the other hand, when performing the measurement work for each breaker X in a state where the above-mentioned preparation work is completed, the portable information terminal 2 is operated to start the measurement data processing program Dp, and the “template data” is stored in the storage unit 27. Is read. In this case, the template data includes the measurement target management data D1 and the imaging data D2 that are associated with each other. However, when reading from the storage unit 27 (designating “template data” to be read), As an example, the measurement target management data D1 for the desired “measurement target (in this example, each breaker X of the switchboard Y)” is selected.

  Further, when any one of the measurement target management data D1 is selected (an example of “when a predetermined display start condition is satisfied”), the processing unit 26 performs the selection in accordance with the measurement data processing program Dp. The obtained measurement target management data D1 and the imaging data D2 associated with the measurement target management data D1 are read from the storage unit 27, and the measurement work support screen 30b shown in FIG.

  Specifically, the processing unit 26 displays the image 31 of the imaged data D2 read from the storage unit 27 as “template data” on the measurement work support screen 30b (see “Display image based on image data of template data”). In this case, based on the measurement target management data D1 read from the storage unit 27 as the “template data” together with the imaging data D2, the measurement conditions set for each breaker X are used for the measurement work support. In the measurement condition display 42 of the measurement condition measurement screen 42 on the screen 30b, the respective measurement target name columns 42a, the respective device columns 42b, the respective measurement mode columns 42c, and the respective remarks columns 42d are displayed. In this case, in the measurement work support screen 30b, instead of the setting end button 43 in the support screen setting screen 30a described above, the operation is performed when a series of measurement work described later is completed (or when the measurement work is interrupted). By doing so, the measurement end button 44 to which the function of generating the measurement result data D3 based on the measurement value data D0 that has been acquired at that time is displayed.

  Further, the processing unit 26 specifies the position of the image 32 corresponding to each breaker X in the image 31 according to the information of “association” recorded in the measurement target management data D1 (“at least acquisition of measured value data is The position of the measurement target image corresponding to the measurement target that has not been completed (in this example, all the measurement targets) in the image is specified based on the association data of the template data ”. Next, the processing unit 26 superimposes the marker 33 corresponding to the breaker X of each image 32 on the image 32 as the “measurement object identification display” that can identify each image 32 at the specified position and the image 31 (image 31). Above). In this case, in the portable information terminal 2 (measurement data processing program Dp) of the present example, when displaying each marker 33 on the image 31 as "display for measuring object identification", the breaker X which has not completed the measurement operation is displayed. Among the markers 33 to be superimposed on the image 32 of the breaker X having the earliest measurement order (at this point, no measurement operation is performed on any of the breakers X, the marker 33 is superimposed on the image 32b of the breaker Xb in the “measurement order: first”) The marker 33-01) is displayed blinking, and the other markers 33 are lit without blinking.

  Further, the processing unit 26 is the first “measurement target”, and is a measurement value column 42e- to which the measurement value of the breaker Xb corresponding to the image 32b on which the blinking marker 33-01 is superimposed is to be input. A cursor 45 is displayed at 01 (an example of “a state in which any measurement target image in the image is specified”), and as an example, a message “Start measurement work for (1).” Is displayed on the measurement work support screen 30b, and the same message as the message displayed on the message display unit 50 is output from the speaker 25 as a voice message. As a result, only by performing the operation of selecting “template data”, the measurement operation for each breaker X can be immediately started. Next, the processing unit 26 starts monitoring whether the measurement value data D0 has been transmitted from the measurement device 1 (whether the measurement value data D0 has been received by the communication unit 22a).

  On the other hand, the user who has seen the message displayed on the message display unit 50 of the measurement work support screen 30b or heard the voice message output from the speaker 25 starts the measurement work for each breaker X. In this case, the model number (equipment name) of the measuring device 1A is displayed in the used equipment column 42b-01 indicating the "measurement conditions" of the breaker Xb, and the measurement of the breaker Xb is displayed in the measurement mode column 42c-01. The measurement mode to be set during operation is displayed. Therefore, an operator who has viewed these pieces of information turns on the power of the measuring apparatus 1A, switches to the measurement mode of the AC current value, and moves to the display position of the image 32b on which the blinking marker 33-01 is superimposed. Based on this, the position of the breaker Xb on the switchboard Y is grasped, and the current value is measured. At this time, the measurement device 1A measures the current value of the current flowing through the electric wire connected to the breaker Xb to generate the measurement value data D0, and transmits the generated measurement value data D0 to its own identification information (the measurement device 1A). And the like and the measurement mode set at the time of measurement and transmitted to the portable information terminal 2.

  In the portable information terminal 2, when the measurement value data D0 transmitted from the measurement device 1A is received by the communication unit 22a (an example of “when measurement value data is acquired”), the processing unit 26 In accordance with the processing program Dp, it is determined whether or not the acquired measurement value data D0 satisfies the “measurement condition data measurement condition” in the measurement object management data D1 for the breaker X corresponding to the measurement value data D0.

  At this time, although different from the present example, as measurement value data D0 for the breaker Xb set in advance so that the measurement operation is performed using the measurement device 1A, the measurement value data D0 is transmitted from the measurement devices 1 other than the measurement device 1A When the measured value data D0 thus received is received by the communication unit 22a, the processing unit 26 notifies that fact in accordance with the measurement data processing program Dp, and discards the measured value data D0 without saving it.

  Specifically, the device information (model number of the measurement device) transmitted in association with the measurement value data D0 is “measurement information” for the breaker Xb in the measurement target management data D1 read from the storage unit 27 as “template data”. When the model number is different from the model number of the measuring device 1A recorded as “condition” (an example of “when the measurement condition of the measurement condition data is not satisfied”), the processing unit 26, as an example, as shown in FIG. , "For (1), perform the measurement work using" HD12345A ". ("HD12345A" is the model number of the measuring device 1A) and a message display unit 50 is displayed on the measurement work support screen 30b, and the same message as the message displayed on the message display unit 50 is displayed on the speaker. 25 is output as a voice message (an example of a process of “in the fourth process, a notification that the acquired measurement value data does not satisfy the measurement condition is identifiable”).

  Accordingly, the operator can determine the breaker Xb based on the message on the message display unit 50, the voice message output from the speaker 25, and the information displayed in the device-to-be-used column 42b-01 on the support screen setting screen 30a. Recognizing that the device to be used at the time of the measurement operation is incorrect, the measurement operation is performed using a preset device (in this example, the measurement device 1A). Further, the processing unit 26 discards the acquired measurement value data D0 (an example of a process of “discarding the acquired measurement value data without storing it in the storage unit as a measurement result in the fourth process”). It monitors whether new measurement value data D0 has been transmitted from the measurement device 1 (whether the communication unit 22a has received new measurement value data D0).

  Further, even when the measurement device 1A is used during the measurement work on the breaker Xb and the measurement value data D0 transmitted from the measurement device 1A is received by the communication unit 22a, the measurement value data D0 is associated with the measurement value data D0. When the transmitted “measurement mode” is different from the “measurement mode” recorded as the “measurement condition” for the breaker Xb in the measurement object management data D1 read from the storage unit 27 as the “template data” ( In another example of "when the measurement condition of the measurement condition data is not satisfied", the processing unit 26, as an example, as shown in FIG. 7, "different measurement mode for (1). Please check the settings and re-measure. ", And a message display unit 50 is displayed over the measurement work support screen 30b, and The same message as the message displayed on the message display unit 50 is output as a voice message from the speaker 25 ("In the fourth process, a notification that the acquired measurement value data does not satisfy the measurement condition is identifiably notified"). Another example of the processing of the above).

  Thus, the operator can operate the breaker Xb based on the message on the message display unit 50, the voice message output from the speaker 25, and the information displayed in the measurement mode column 42c-01 on the support screen setting screen 30a. Recognizing that the measurement mode to be set at the time of the measurement operation is incorrect, the measurement operation using the measuring apparatus 1A set to the preset measurement mode (in this example, the AC current measurement mode) is executed. In addition, the processing unit 26 discards the acquired measurement value data D0 and performs another process of “discarding the acquired measurement value data without storing it in the storage unit as a measurement result in the fourth process”. For example, it monitors whether new measurement value data D0 has been transmitted from the measurement device 1 (whether the communication unit 22a has received new measurement value data D0).

  On the other hand, when the measuring device 1A to be used at the time of the measurement operation for the breaker Xb is used and the measurement operation in the measurement mode to be set is performed, the processing unit 26 transmits the measurement value received by the communication unit 22a. It is determined that the data D0 satisfies the “measurement conditions” for the breaker Xb corresponding to the measurement value data D0.

  At this time, the processing unit 26 determines that the acquisition of the measurement value (voltage value: measurement value data D0) for the first “measurement target” is completed (“any measurement target image in the image is designated. When the measurement value data is acquired in the state in which the measurement value data is obtained), as shown in FIG. 8, the measurement value recorded in the measurement value data D0 is numerically input to the measurement value column 42e-01. To generate measurement result data D3. Further, the processing unit 26 associates the generated measurement result data D3 with the measurement target management data D1 and the imaging data D2 stored in the storage unit 27 as “template data”, and associates the generated measurement result data D3 with the storage unit 27 as “measurement result data”. (“The measurement value recorded in the acquired measurement value data is stored in the storage unit as measurement result data along with the image data and the association data in association with the measurement target of the specified measurement target image,” Processing).

  Further, as an example, the processing unit 26 causes the marker 33-01, which is displayed to be superimposed on the image 32b of the breaker Xb, to be lit and displayed in a display color different from the display color before the completion of the measurement operation. Please start the measurement operation for 2). ", And display the same message as the message displayed on the message display unit 50 so as to overlap the measurement operation support screen 30b. The message is output from the speaker 25 as a voice message. In addition, the processing unit 26 sets the marker 33 to be superimposed on the image 32 of the breaker X that has the earliest measurement order among the breakers X that have not completed the measurement operation (at this point, the measurement order : The second marker 33-02) superimposed on the image 32c of the breaker Xc is blinked, and monitoring of whether or not new measurement data D0 has been transmitted is started.

  Thereby, the user who has seen the message and the markers 33-01 and 33-02 displayed on the message display unit 50 and heard the voice message output from the speaker 25 can use the measurement device 1A for the breaker Xb. And that the measurement work for the breaker Xc is executed in the same manner as the measurement work for the breaker Xb. Thus, when the measurement value data D0 satisfying the preset “measurement condition” is transmitted from the measurement device 1A, the measurement value recorded in the measurement value data D0 is input to the measurement value column 42e-02. Is added to the measurement result data D3 (another example of “third processing”).

  Thereafter, the third and fourth breakers Xa, which are the “measurement targets”, are also operated in the same procedure as the above-described measurement operation. In this example, the measurement of the AC current value for the breaker Xa, which is the fourth “measurement target”, is completed, and the corresponding value is input to the measurement value column 42e-04 and added to the measurement result data D3. At this time, as shown in FIG. 9, the processing unit 26 supports, for example, a message display unit 50 that displays a message “Recording of measured values for (1) to (4) has been completed.” The same message as the message displayed on the message display unit 50 is output as a voice message from the speaker 25 while being displayed on the screen setting screen 30a.

  Thus, the user who has seen the message displayed on the message display unit 50 or heard the voice message output from the speaker 25 has successfully completed all the measurement operations to be performed on the breakers Xa to Xc. Is operated, and the measurement end button 44 is operated. This completes a series of measurement operations for the breakers Xa to Xc.

  Note that an example will be described in which, when the measurement value data D0 transmitted from the measurement device 1 satisfies the “measurement condition”, the value is automatically input to the measurement value column 42e and the measurement result data D3 is generated. However, in the portable information terminal 2 (measurement data processing program Dp) of the present example, as an example, the worker observes the measurement value displayed on the display unit of the measurement device 1 and performs measurement on the measurement work support screen 30b. The measurement result data D3 can be generated by manually inputting the measurement value in the value column 42e. At this time, since it is impossible to determine whether the input measurement value satisfies the “measurement condition”, the processing unit 26 performs the measurement without executing the process of determining whether the “measurement condition” is satisfied. The result data D3 is generated.

  When the “measurement result data” such as the measurement result data D3 stored in the storage unit 27 is stored in the data server 3, the processing unit 26 controls the communication unit 22b and sends the data to the data server 3 via the communication network N. An access is made, and the latest measurement result data D3 stored in the storage unit 27 is transmitted in association with the measurement target management data D1 and the imaging data D2. Thereby, the latest measurement result data D3 generated by the above-described measurement operation is stored in the data server 3 together with the measurement target management data D1 and the imaging data D2. Therefore, by using various information processing terminals that can be connected to the data server 3 and downloading them, the measurement results for each breaker X of the switchboard Y can be accurately determined, including the measurement conditions. And it can be easily grasped.

  On the other hand, in the portable information terminal 2 (measurement data processing program Dp) of the present example, the first and the second measurement work for each breaker X (distribution board Y) that performed the series of measurement work as described above is performed. Since preparation of “template data” has been completed by a preparatory operation performed prior to the measurement operation, imaging of each breaker X (distribution board Y), “measurement order” of each breaker X, and “measurement of each breaker X” The measurement operation can be started immediately without specifying the "condition" again. Specifically, at the time of the second and subsequent measurement work for the same breaker X (distribution board Y), the portable information terminal 2 is operated to start the measurement data processing program Dp, and the respective breakers X (distribution board Y ) Is read out.

  At this time, the processing unit 26 displays the measurement work support screen 30b on the display unit 24 in accordance with the measurement data processing program Dp in the same manner as in the first measurement work for each breaker X described above. In this case, the portable information terminal 2 (measurement data processing program Dp) of the present example reads out the measurement result data D3 generated by the past measurement work together with the measurement object management data D1 and the imaging data D2 and creates new measurement value data. Unlike the usage mode in which the measurement value recorded in D0 is overwritten, the measurement target management data D1 and the imaging data D2 as “template data” are read from the storage unit 27, and the measurement work support screen 30b is displayed. At the start of the measurement operation, the measurement value column 42e is blank, in order to input the measurement value recorded in the measurement value data D0 into the measurement value column 42e. Therefore, not only does the complicated work of erasing the value entered in the measurement value column 42e become unnecessary, but also whether the measurement value is entered in the measurement value column 42e independently of the change of the display mode of the marker 33. Based on whether or not, it is possible to intuitively recognize whether or not the measurement work for the corresponding breaker X has been completed.

  Therefore, by performing the measurement work for each breaker X in the same manner as in the first measurement work while viewing each information displayed on the measurement work support screen 30b, each of the breakers X is stored in the storage unit 27 of the portable information terminal 2. The measurement result data D3 from the second measurement operation for the breaker X is stored as “measurement result data” together with the measurement target management data D1 and the imaging data D2.

  As described above, in the portable information terminal 2, the processing unit 26 specifies one of the images 32 (measurement target image) in the image 31 based on the imaging data D2 (image data) and When it is associated with the target, the position of the designated image 32 in the image 31 is generated as measurement template management data D1 (association data) in which it is associated with the breaker X, and is together with the imaging data D2 as “template data”. The “first processing” stored in the storage unit 27 and the “template data” to be read to display the measurement work support screen 30b are selected when a predetermined display start condition is satisfied (in this example, the “template data” is selected). “Template data” (measurement target management data D1 and imaging data D2) is read out from the storage unit 27, and based on the imaging data D2. The image 31 is displayed, and at least the position in the image 31 of the image 32 corresponding to the breaker X for which acquisition of the measurement value data D0 has not been completed is specified based on the measurement target management data D1, and the image of the specified position is specified. "Second processing" for displaying the marker 32 that can identify the marker 32 in correspondence with the image 32 at the specified position, and the measurement value data in a state where any one of the images 32 in the displayed image 31 is designated. When D0 is acquired, measurement result data D3 in which the measurement value recorded in the acquired measurement value data D0 is made to correspond to the breaker X of the designated image 32 is generated to obtain the imaging data D2 and the measurement target data. The “third process” stored in the storage unit 27 together with the data D1 is configured to be executable.

  In addition, the measurement system 100 includes a measurement device 1 configured to be able to execute a measurement for each breaker X, and the portable information terminal 2 described above. The measurement data processing program Dp causes the processing unit 26 of the portable information terminal 2 to execute the above-described processing.

  Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, the template data (measurement object management data D1 and the like) is associated with the display position of each image 32 in the image 31. During the second and subsequent measurement work on each breaker X for which the generation of ") has been completed, preparation work such as associating the display position of each image 32 with each breaker X does not have to be performed prior to the measurement work. By specifying and reading the "template data" stored in the storage unit 27, a measurement work support screen 30b for supporting the measurement work and inputting the measured values is displayed on the display unit 24, and the measurement work is immediately performed. You can start. Thereby, the burden on the operator during the second and subsequent measurement work for the same breaker X can be sufficiently reduced. Also, unlike the usage mode in which the measurement result data D3 or the like generated in the past is read out and new measurement values are overwritten, the measurement result data D3 is generated using the “template data”, so that the past measurement work can be performed. Of the measurement result data D3, which can specify the measurement value recorded in the measurement value data D0 acquired by the above, can be appropriately avoided, and at the same time, the execution of the duplicate measurement operation for one breaker X, The measurement result data D3 can be generated without causing a loss of the measurement value of the breaker X.

  Further, in the portable information terminal 2, when the “measurement condition” for each breaker X is designated in the “first process”, the processing unit 26 performs a measurement that can specify the designated “measurement condition”. The object management data D1 (measurement condition data) is generated and stored in the storage unit 27 together with the "association data" (in this example, a part of the measurement object management data D1) and the imaging data D2 as "template data". In the "third process", it is determined whether or not the acquired measurement value data D0 satisfies the "measurement condition" of the measurement target management data D1 for the breaker X corresponding to the measurement value data D0. If not, the “fourth process” specified in advance is executed. The measurement data processing program Dp causes the processing unit 26 of the portable information terminal 2 to execute the above-described processing.

  Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, unlike the use mode in which the preparation work for designating the measurement conditions is performed each time the measurement work is performed, a plurality of times for the same breaker X is performed. Generation of “template data” by using “template data” in which “measurement condition data (measurement target management data D1)” capable of specifying “measurement conditions” specified for each breaker X at the time of the measurement work is used. Since the “measurement work” that satisfies the designated “measurement condition” can be reliably and easily performed, the measurement result data D3 that can be accurately and easily compared with the measurement result data D3 generated by the past “measurement work” Can be generated.

  Further, in the portable information terminal 2, in the "fourth process", the processing unit 26 notifies that the acquired measurement value data D0 does not satisfy the "measurement condition" so as to be identifiable. Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, the operator is informed that the measurement work that does not satisfy the “measurement condition” specified when generating the “template data” is performed. Since it is possible to make sure and easy recognition, it is possible to generate the measurement result data D3 that can be more accurately and easily compared with the measurement result data D3 generated by the past “measurement work”.

  In the portable information terminal 2, the processing unit 26 discards the measured value recorded in the acquired measured value data D0 without storing it in the storage unit 27 as the measurement result data D3 in the “fourth process”. I do. Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, the measurement result data in which the measurement values obtained by the measurement work that does not satisfy the “measurement conditions” specified when generating the “template data” are recorded. D3, that is, generation of measurement result data D3 that is difficult to compare with measurement result data D3 generated by past “measurement work” can be reliably avoided.

  Further, the portable information terminal 2 includes a camera 21 that captures an image of each breaker X and outputs captured data D2, and the processing unit 26 performs the process of capturing the captured data D2 output from the camera 21 prior to the “first processing”. As “image data”. Therefore, according to the portable information terminal 2, the measurement system 100, and the measurement data processing program Dp, the camera can be used without performing a complicated operation of generating “image data” depicting an image of the breaker X (image to be measured). The image 31 including each image 32 can be easily displayed on the display unit 24 of the portable information terminal 2 simply by imaging each breaker X by 21. Also, unlike using “image data” depicting the image of the breaker X, the image 31 is displayed using “imaging data” as the “image data” using the imaging data D2 obtained by imaging each of the breakers X to be actually measured. Thus, based on the display position of the marker 33, the position of the breaker X to be measured next can be accurately and easily grasped.

  The configurations of the “measurement data processing device” and the “measurement system” and the processing contents of the “measurement data processing program” are not limited to the above examples. For example, the configuration and processing procedure for displaying the image 31 using the imaging data D2 generated by the camera 21 as “image data” has been described as an example, but the camera 21 mounted on the portable information terminal 2 Represents “imaging data” obtained by imaging “measurement targets” such as breakers Xa to Xc by different cameras (imaging devices configured by external devices) and “measurement target images” of “measurement targets” such as breakers Xa to Xc. The drawn image data (vector image data or raster image data generated based on the design data of the measurement target or the like) can be used as “image data”.

  Also, an example has been described in which the display mode for specifying the “measurement order” of the breakers X corresponding to the respective images 32 by displaying the markers 33 has been described. However, the display of the “measurement order” for each breaker X is not essential. As long as it is possible to specify which image 32 is associated with which breaker X, a display mode in which an arbitrary display in which the “measurement order” cannot be specified is displayed as “display for measuring object identification” may be adopted. Yes (not shown). In this case, in the configuration / processing method in which the “measurement order” is not specified itself, the operator selects the “measurement target image” during the “measurement work”, so that the measurement value data D0 for any “measurement target” is obtained. It is specified in advance whether to be transmitted, or the processing unit 26 displays one of the “measurement target images” in a state that can be distinguished from the other “measurement target images” during the “measurement work” according to the “measurement data processing program”. By specifying the “measurement target” to perform the measurement work, the “measurement target” can be accurately associated with the “measurement result”.

  Furthermore, regardless of whether acquisition of the measurement value data D0 has been completed or not, a display mode of displaying a marker 33 as a “display for identifying a measurement target” in association with the images 32 of all the breakers X is adopted. However, as for the image 32 of the breaker X for which the acquisition of the measurement value data D0 has been completed, a display mode in which the “measurement object identification display” such as the marker 33 is not displayed (when the acquisition of the measurement value data D0 is completed, A display mode in which the corresponding “display for measuring object identification” is not displayed may be employed.

  In addition, “measurement conditions” are set for all the first to fourth measurement operations for all “measurement targets (breakers Xa to Xc)”, and “template data (measurement target management data D1)” is generated. Although the example has been described, it is possible to generate "template data" without setting "measurement conditions" for some "measurement targets" and only for other "measurement targets" It is also possible to generate “template data” without setting “measurement conditions” for all “measurement targets”.

  Further, a description will be given of an example of a configuration / processing method in which measurement value data D0 that does not satisfy a “measurement condition” specified when generating “template data” is discarded without generating measurement result data D3 based on the value. However, instead of such a configuration / method, a configuration / method of generating the measurement result data D3 without discarding the measurement value data D0 that does not satisfy the “measurement condition” can also be adopted. When such a configuration / method is adopted, the processing is performed to notify that the acquired measurement value data D0 does not satisfy the “measurement condition”, and is generated based on the measurement value data D0 that does not satisfy the “measurement condition”. It is preferable to execute at least one of the processes for adding information that can identify the measurement result data D3.

  Also, separate and independent measurement target management data D1 and imaging data D2 are generated as “template data”, and separate and independent measurement target management data D1, imaging data D2 and measurement result data D3 are generated as “measurement result data”. In the above description, the measurement target management data D1 including the imaging data D2 is generated as “template data”, and the measurement result data D3 including the measurement target management data D1 and the imaging data D2 is referred to as “measurement result”. Configuration / processing method of generating “data” (configuration / processing method of configuring “template data” in one data file or “measurement result data” in one data file) Can also.

  Furthermore, the measurement system 100 in which the portable information terminal 2 as the “measurement data processing device” and the measurement device 1 as the “measurement device” are separately described has been described as an example. A device that integrates a “measurement device” (a “measurement device” integrally having the configuration of a “measurement data processing device” or a “measurement data processing device” that has an integrated function as a “measurement device”) ) Can constitute a “measurement system”.

Reference Signs List 100 measurement system 1A, 1V measurement device 2 portable information terminal 3 data server 21 camera 22a, 22b communication unit 23 operation unit 24 display unit 25 speaker 26 processing unit 27 storage unit 30a support screen setting screen 30b measurement work support screen 31 image 32, 32a, 32b Image 33, 33-01, 33-02 Marker 41 Measurement target information display 42 Measurement condition measurement result display 50 Message display section D0 Measurement value data D1 Measurement target management data D2 Imaging data D3 Measurement Result data Dp Measurement data processing program N Communication network X, Xa-Xc Breaker Y Switchboard

Claims (8)

A storage unit that stores image data of images in which measurement target images indicating measurement targets are arranged corresponding to respective positions of the plurality of measurement targets.
A processing unit that acquires measurement value data in which measurement values of the respective measurement targets are recorded, generates measurement result data, and stores the measurement result data in the storage unit,
The processing unit displays the image based on the image data on a display unit, and when any of the measurement target images in the displayed image is specified and associated with any of the measurement targets. A first process of generating association data in which the designated position of the measurement target image in the image is associated with any of the measurement targets and storing the association data in the storage unit as template data together with the image data;
When a predetermined display start condition is satisfied, the template data is read from the storage unit, the image based on the image data of the template data is displayed on the display unit, and at least the measurement value data is acquired. Identifying the position in the image of the measurement target image corresponding to the measurement target that has not been completed based on the association data of the template data, and identifying the measurement target image at the specified position. A second process of displaying the display for display on the display unit together with the image corresponding to the measurement target image at the specified position;
When the measurement value data is acquired in a state where any one of the measurement target images in the image displayed by the second processing is specified, the measurement value recorded in the acquired measurement value data And a third process of generating the measurement result data corresponding to the measurement target of the measurement target image for which the designated measurement target image is specified and storing the measurement result data in the storage unit together with the image data and the association data. Measurement data processing equipment.   In the first processing, when a measurement condition for each of the measurement targets is specified in the first processing, the processing unit generates measurement condition data that can specify the specified measurement condition, and generates the association data and the image. In the third process, the acquired measurement value data satisfies the measurement condition of the measurement condition data of the measurement object corresponding to the measurement value data, while storing the measurement value data in the storage unit as the template data together with the data. The measurement data processing device according to claim 1, wherein it is determined whether or not the measurement data is satisfied, and when the measurement data is not satisfied, a predetermined fourth process is executed.   The measurement data processing device according to claim 2, wherein the processing unit reports in the fourth processing so that the acquired measurement value data does not satisfy the measurement condition.   4. The measurement data according to claim 2, wherein, in the fourth processing, the processing unit discards the measurement value recorded in the acquired measurement value data without storing the measurement value as the measurement result data in the storage unit. Processing equipment. An imaging unit that images each of the measurement targets and outputs imaging data,
The measurement data processing device according to any one of claims 1 to 4, wherein the processing unit acquires the imaging data output from the imaging unit as the image data prior to the first processing.   A measurement device configured to execute a measurement process for each of the measurement targets to generate the measurement value data, and a measurement data processing device according to any one of claims 1 to 5. Measurement system. A storage unit that stores image data of images in which measurement target images indicating measurement targets are arranged corresponding to respective positions of the plurality of measurement targets, and measurement value data in which measurement values of the respective measurement targets are recorded And a processing unit that generates measurement result data and stores the data in the storage unit.
Displaying the image based on the image data on a display unit, when any of the measurement target images in the displayed image is specified and associated with any of the measurement targets, the specified A first process of generating association data in which a position of the measurement target image in the image is associated with any one of the measurement targets and storing the association data in the storage unit as template data together with the image data;
When a predetermined display start condition is satisfied, the template data is read from the storage unit, the image based on the image data of the template data is displayed on the display unit, and at least the measurement value data is acquired. Identifying the position in the image of the measurement target image corresponding to the measurement target that has not been completed based on the association data of the template data, and identifying the measurement target image at the specified position. A second process of displaying the display for display on the display unit together with the image in association with the measurement target image at the specified position;
When the measurement value data is acquired in a state where any one of the measurement target images in the image displayed by the second processing is specified, the measurement value recorded in the acquired measurement value data And a third process of generating the measurement result data corresponding to the measurement target of the measurement target image for which the designated measurement target image is specified, and storing the measurement result data in the storage unit together with the image data and the association data. Program.   For the processing unit, in the first process, when a measurement condition for each of the measurement targets is specified, the measurement unit generates measurement condition data capable of identifying the specified measurement condition, and generates the association data and In the third process, the acquired measurement value data is stored in the storage unit as the template data together with the image data, and the acquired measurement value data is the measurement condition of the measurement condition data for the measurement target corresponding to the measurement value data. The measurement data processing program according to claim 7, wherein it is determined whether or not the condition is satisfied, and when the condition is not satisfied, a predetermined fourth process is executed.

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