JP2008020228A - Measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a measuring device capable of executing additional processing without increasing manufacturing cost and enlarging the device. <P>SOLUTION: This device is equipped with an operation part 4 having a rotary switch 4a (processing selection switch), and a control part for executing processing selected by switching operation of the rotary switch 4a. When the switching operation satisfying a prescribed condition is executed, the control part executes the processing selected by the switching operation and processing specified beforehand. In this case, when the next switching operation is executed within a prescribed time specified beforehand after execution of prescribed switching operation, the control part executes each processing of the next switching operation as the switching operation satisfying the prescribed condition. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a measuring apparatus configured to be able to execute various processes by switching operations of process selection switches.

As this type of measuring apparatus, the applicant discloses an electric measuring instrument configured to be able to execute various measurement processes by switching operation of a function switch (rotary switch) in Japanese Patent Application Laid-Open No. 8-313561. This electric measuring instrument is configured to be able to execute a measurement process using a measurement range selected by switching a function switch from among three measurement ranges of a V range, a mA range, and an A range. Specifically, when the OFF range is selected by the function switch, for example, when measuring the voltage across the object to be measured, the function switch is first rotated 45 ° clockwise to select the V range. To do. Next, the test lead connected to the terminal is connected to the measurement object. Thereby, the both-ends voltage of a measuring object is measured via a test lead.
JP-A-8-31561 (page 3-4, FIG. 1-6)

  However, the electrical measuring instrument disclosed by the applicant has the following problems to be improved. That is, this type of electrical measuring instrument employs a configuration in which a function switch is rotated to select a desired process from a plurality of types of processes and execute the process. In this case, since the electrical measuring instrument disclosed by the applicant does not include a process selection switch in addition to the above function switch, additional processing such as automatic power saving transition processing is performed on this electrical measuring instrument. In addition to the above function switch for selecting the measurement range, a dedicated operation for executing additional processing when an additional process is to be executed by a switch operation with a function to be executed. A switch needs to be provided separately. For this reason, there is a possibility that the manufacturing cost of the electric measuring device may increase due to the separate arrangement of the operation switches. Further, when an operation switch is provided in addition to the function switch, there is a possibility that the operation panel of the measuring apparatus is enlarged by the amount of the switch.

  The present invention has been made in view of the problems to be improved, and it is a main object of the present invention to provide a measuring apparatus capable of performing additional processing without causing an increase in manufacturing cost and an increase in size of the apparatus. And

  In order to achieve the above object, the measuring apparatus according to claim 1 includes an operation unit having a process selection switch configured by a rotary switch or a slide switch, and a control unit that executes a process selected by a switching operation of the process selection switch. When the switching operation that satisfies a predetermined condition is executed, the control unit executes a process selected by the switching operation and a process specified in advance.

  The measuring apparatus according to claim 2 is the measuring apparatus according to claim 1, wherein the control unit executes the next switching operation within a predetermined time after the predetermined switching operation is performed. The next switching operation is executed as a switching operation that satisfies the predetermined condition.

  According to the measuring apparatus of claim 1, when the switching operation satisfying the predetermined condition is executed, the control unit executes the process selected by the switching operation and the process specified in advance, thereby specifying in advance. The selected process and the additional process defined in advance can be executed by switching the process selection switch without separately providing a dedicated operation switch for executing the processed process. Therefore, it is possible to provide a measuring apparatus that can execute a desired additional process without causing an increase in manufacturing cost and an increase in size of the apparatus.

  According to the measuring apparatus of the second aspect, when the next switching operation is performed within a predetermined time after the predetermined switching operation is performed, the control unit performs the next switching operation. By executing each process as a switching operation satisfying the above condition, it is possible to perform additional switching only by performing the switching operation within a predetermined time without complicating the switching operation for executing the predetermined process. Processing can be executed.

  Hereinafter, the best mode of a measuring apparatus according to the present invention will be described with reference to the accompanying drawings.

  A measuring apparatus 1 shown in FIG. 1 is an example of a measuring apparatus according to the present invention, and includes a measuring unit 2, a control unit 3, an operating unit 4, and a display unit 5. As will be described later, a DC voltage measuring range, an AC unit The measurement process (an example of “process” in the present invention) corresponding to any one measurement range selected by the switching operation from the four measurement ranges of the voltage measurement range, the resistance measurement range, and the continuity measurement range can be executed. It is configured. In addition, the measuring apparatus 1 is configured to be able to execute an automatic power saving transition process, and automatically turns on the power when a no-operation state continues for a predetermined time (for example, 3 minutes). Cut off.

  The measurement unit 2 includes an A / D converter and a calculation unit (not shown), and samples and samples electrical parameters (current value and voltage value) of an input signal at a predetermined period according to the control of the control unit 3. Data is generated and measured values are calculated based on the generated sampling data. The control unit 3 comprehensively controls the measuring device 1. Specifically, the control unit 3 executes the measurement process 10 shown in FIG. 3 in a state where the measurement apparatus 1 is turned on, and measures the measurement unit 2 with the measurement range selected by the switching operation of the operation unit 4. The processing is executed, and the measurement result (calculated value based on the sampling data) by the measurement unit 2 is displayed on the display unit 5.

  The control unit 3 includes two types of internal timers. When a switching operation of the rotary switch 4a is performed, for example, an internal timer that measures 1 second is operated to measure a time interval until the next switching operation. At the same time, when the next switching operation is performed within one second, additional processing is executed as described later. Further, when the switching operation of the rotary switch 4a is performed, the control unit 3 activates an internal timer that measures, for example, 3 minutes to measure the time interval until the next switching operation, and the next switching operation is performed for 3 minutes. When the operation is not performed within a period of time, that is, when the no-operation state continues for 3 minutes, the power supply of the measuring device 1 is shut off. In this measuring apparatus 1, immediately after the power is turned on, the automatic power saving transition process is set to OFF, and when the switching operation that satisfies a predetermined condition is executed, the control unit 3 performs the automatic power saving transition process. Is configured to turn on.

  As shown in FIG. 2, the operation unit 4 includes a rotary switch 4 a disposed on the operation panel of the measurement apparatus 1, and outputs an output signal corresponding to the switching operation of the rotary switch 4 a to the control unit 3. In this case, the rotary switch 4a is an example of a processing selection switch according to the present invention, and is configured to be able to switch any one measurement range out of the four measurement ranges described above. The display unit 5 numerically displays the measurement result (calculation result) by the measurement unit 2 under the control of the control unit 3.

  For example, when measuring the presence / absence of conduction between two arbitrary points using this measuring apparatus 1, first, as shown in FIG. 2, the rotary switch 4a in a state where the power-off ("OFF") is selected. Is rotated in the direction of the arrow A1 to select the “continuity measurement range” located at the right end (an example of the switching operation in the present invention). At this time, the measurement apparatus 1 is powered on, and the control unit 3 starts the measurement process 10 shown in FIG. In the measurement process 10, the control unit 3 controls the measurement unit 2 to measure the measurement range (in this example, the continuity measurement range) selected by the switching operation of the rotary switch 4a (the process in the present invention). Is executed (step 11). As a result, the measurement unit 2 measures the presence or absence of conduction between any two points with which a test probe (not shown) is in contact, and the measurement result is displayed on the display unit 5. Next, the control unit 3 monitors whether or not the rotary switch 4a has been operated (step 12).

  On the other hand, when measuring the resistance value, the “resistance measurement range” located on the left is selected by rotating the rotary switch 4a in the direction of arrow A2 shown in FIG. Example). At this time, the control unit 3 determines that the switching operation has been executed (step 12), and causes the measurement process of the measurement range (in this example, the resistance measurement range) selected by the switching operation of the rotary switch 4a to be performed ( Step 13). As a result, the resistance value between any two points with which a test probe (not shown) is in contact is measured by the measurement unit 2 and the measurement result is displayed on the display unit 5. The control unit 3 selects the immediately preceding switching operation (in this example, “continuity measurement range”) based on the presence or absence of an output signal from the internal timer that measures 1 second when the switching operation is performed. It is determined whether or not the switching operation is within one second from the switching operation) (step 14). At this time, it is determined that the switching operation is after a time exceeding 1 second has elapsed, and the control unit 3 monitors whether or not the rotary switch 4a has been operated (step 12).

  At this time, when the resistance value measurement is performed again after setting the automatic power saving transition process to ON, as an example, the rotary switch 4a is rotated in the direction of the arrow A2, for example, on the left side. After selecting the “AC voltage measurement range” to be performed (an example of the switching operation in the present invention), before 1 second elapses, the rotary switch 4a is rotated in the direction of the arrow A1, and the “resistance measurement” “Range” is selected again (an example of a switching operation executed within a predetermined time in the present invention). At this time, the control unit 3 determines that the switching operation has been performed by monitoring the output signal of the internal timer that measures 1 second (step 12), and the measurement range selected by the switching operation of the rotary switch 4a. (In this example, the resistance measurement range) is measured (step 13). As a result, the resistance value between any two points with which a test probe (not shown) is in contact is measured by the measurement unit 2 and the measurement result is displayed on the display unit 5.

  Further, when the control unit 3 determines that the switching operation has been executed in the above step 12, the control unit 3 within one second from the switching operation immediately before that (the switching operation in which the “AC voltage measurement range” is selected in this example). It is determined that the switching operation for selecting the “resistance measurement range” has been performed (step 14), and the automatic power saving transition process is set to ON (execution of additional processing specified in advance: step 15). At this time, the control unit 3 monitors the output signal of the internal timer that measures 3 minutes, and when it is determined that the non-operation state for the rotary switch 4a has continued for 3 minutes, the power source of the measuring device 1 is turned on. Cut off. This avoids wasting power.

  Thus, according to this measuring apparatus 1, when a switching operation satisfying a predetermined condition is executed, the control unit 3 performs a process (measurement process) selected by the switching operation and a predetermined process (automatic saving). By executing the power transition process), a switching operation of the process selection switch (in this example, the rotary switch 4a) can be performed without separately providing a dedicated operation switch for executing a predetermined process. The selected measurement process and a predetermined additional process (in this example, an automatic power saving transition process) can be executed. Therefore, it is possible to provide a measuring apparatus that can execute a desired additional process without causing an increase in manufacturing cost and an increase in size of the apparatus.

  Moreover, according to this measuring apparatus 1, when the next switching operation is performed within a predetermined time (in this example, within one second) after the predetermined switching operation is performed, the control unit 3 However, by executing each process as a switching operation that satisfies the predetermined conditions in the present invention, the switching operation is performed within a predetermined time without complicating the switching operation for executing a predetermined process. Only by this, it is possible to execute a predetermined additional process.

  In addition, this invention is not limited to said structure. For example, the measurement apparatus 1 includes the rotary switch 4a for switching the measurement range as the process selection switch in the present invention. However, the process selection switch is not limited to this, and is replaced with the rotary switch 4a. The slide switch (not shown) can be used. In this case, in the configuration adopting the slide switch, the measurement range corresponding to the processing in the present invention is selected according to the slide position of the switch, and the other is performed within, for example, one second in the same manner as when the rotary switch 4a is operated. When the above process (measurement range) is selected, an additional process such as an automatic power saving transition process is executed.

  Further, the additional processing executed when a predetermined condition is satisfied in the present invention is not limited to the automatic power saving transition processing, but the comparator processing and zero adjustment processing (cancelling by canceling the display remaining and forcing In other words, it is possible to adopt a configuration in which various processes such as a process of displaying zero) and an averaging process are added according to the switching operation. In addition, the measurement apparatus 1 employs a configuration that executes a process (in this example, an automatic power saving transition process) defined in advance by operating the rotary switch 4a for switching the measurement range. The process selection switch in the invention is not limited to this. For example, in a measuring apparatus having a changeover switch for changing the resolution at the time of voltage measurement or current measurement, an additional process is executed by the changeover operation of the changeover switch. It can also be configured.

1 is a block diagram showing a configuration of a measuring device 1. FIG. 1 is a front view of a measuring device 1. FIG. 3 is a flowchart of a measurement process 10.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Measuring apparatus 3 Control part 4 Operation part 4a Rotary switch 10 Measurement process

Claims (2)

An operation unit having a process selection switch configured by a rotary switch or a slide switch, and a control unit that executes a process selected by a switching operation of the process selection switch,
The control unit is a measurement device that executes a process selected by the switching operation and a predetermined process when the switching operation satisfying a predetermined condition is executed.   When the next switching operation is executed within a predetermined time after the predetermined switching operation is executed, the control unit sets the next switching operation as a switching operation that satisfies the predetermined condition. The measurement apparatus according to claim 1, wherein each process is executed.

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