JP2019168361A - Measurement unit and measurement system - Google Patents

Abstract

To provide a measurement unit and a measurement system which can suppress electric power consumed by a measurement unit and can reduce power consumption.SOLUTION: A measurement system 1 has a measurement unit 2 connected to an external apparatus 3 by connection means 4. The measurement unit 2 includes control means 20 for controlling the measurement unit 2. The control means 20 includes: normal controller 21 for controlling a counting operation; a power saving controller 22 having a power saving mode of stopping the function of the measurement unit 2, which has become unnecessary by the connection to the external apparatus 3; and a determination unit 23 for determining whether to execute the power saving mode according to a predetermined opportunity. The power saving controller 22 executes the power saving mode when the determination unit 23 has determined that the power saving mode needs to be executed.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a measuring instrument and a measuring system.

Conventionally, a measurement system related to a measuring instrument connected to an external device via a connection means is known. Measuring instruments in the measuring system are, for example, dial gauges, calipers, indicators, linear scales, micrometers, and the like.
In such a measurement system, for example, a state display system (measurement system) of a displacement detection and measurement machine described in Patent Document 1 is driven by a battery and has a display unit that displays measurement data (counting results). A machine (measuring instrument) and a computer (external device) for inputting measurement data output from the displacement detection measuring machine. The displacement detection measuring machine and the computer are connected by wire or wireless (connection means).

  The display unit of the displacement detection measuring machine is, for example, a liquid crystal display device. When the liquid crystal display device does not include a backlight, there is a problem that it is difficult for the user to read measurement data displayed on the display unit when the liquid crystal display device is used in a dark environment. Further, when the environment is used in a dark environment, it is difficult to grasp the state of the displacement detection measuring machine, and thus there is a problem that it is difficult for the user to operate the displacement detection measuring machine. However, a computer connected to the displacement detection / measurement device stores a model image of the displacement detection / measurement device in advance. The computer can display the state of the displacement detection measuring machine as an animation on the display of the computer by synchronizing the measurement data measured by the displacement detection measuring machine and the model image. As a result, the user can easily display the measurement data displayed on the display unit of the displacement detection and measurement device in the environment where it is difficult to visually check, the state of the displacement detection and measurement device, etc. Can be confirmed.

JP-A-2005-233801

  However, in such a state display system of the displacement detection measuring machine, the measurement data measured by the displacement detection measuring machine can be confirmed on a computer display, and the display unit of the displacement detection measuring machine cannot be visually recognized. Even if it exists, the measurement data continues to be displayed on the display unit. For this reason, there is a problem that power is consumed for the display unit even though display by the display unit is not necessary.

  The objective of this invention is providing the measuring device and measuring system which can suppress the electric power consumed by a measuring device and can aim at power saving.

  The measuring instrument of the present invention is a measuring instrument connected to an external device via a connecting means, and includes a control means for controlling the measuring instrument, the control means including a normal control unit for controlling the counting operation, and the external equipment A power saving control unit having a power saving mode that stops the function of the measuring instrument that is no longer needed by being connected to the power supply, and a determination unit that determines whether to execute the power saving mode based on a predetermined trigger. The power saving control unit executes the power saving mode when the determining unit determines to execute the power saving mode.

  According to the present invention as described above, the control means in the measuring instrument has a power saving mode for stopping the function of the measuring instrument that is no longer necessary when connected to an external device. Since the measuring device includes a determination unit that determines whether to execute the power saving mode based on a predetermined trigger, when the determination unit determines to execute the power saving mode, the power saving control unit Execute.

Here, the function of the measuring instrument that has become unnecessary by being connected to an external device will be described. For example, a measuring instrument normally performs a counting operation continuously. However, the measuring instrument may be on standby without the need for counting operation. In addition, the measuring device may display the same counting result on the display means included in each of the measuring device and the external device. These functions may be stopped. The power saving mode is a mode in which such a function that is no longer required when such a measuring device is connected to an external device is stopped.
Therefore, the measuring device can suppress the power consumption consumed by the measuring device by stopping the function that becomes unnecessary by being connected to the external device, and can achieve power saving.

  In addition, the measuring instrument may be driven by a battery rather than a power supply from an external device or an external power source. In this case, since the measuring instrument stops the function of the measuring instrument that is no longer necessary when connected to an external device, power consumption in the measuring instrument can be suppressed and the battery life can be extended.

  At this time, the external device includes an output request unit that requests output of the count result, and the normal control unit outputs the count result to the external device in response to a request from the count execution unit that executes the counting operation and the output request unit. The power saving control unit includes a sleep execution unit that executes a sleep mode that is a power saving mode that stops the counting execution unit, and the sleep execution unit executes the sleep mode by the determination unit. When the determination is made, it is preferable to execute the sleep mode and to cancel the sleep mode and cause the count execution unit to execute the count operation when the output request unit requests the output of the count result.

  According to such a configuration, the measuring device is connected to an external device including an output request unit that requests the output of the count result, so that the count is executed only when there is a count output request from the output request unit. The counting can be executed in the unit. And when there is no output request of a count result from an output request part, a count execution part can be stopped.

  Therefore, the sleep execution unit executes the sleep mode for stopping the count execution unit when the determination unit determines to execute the sleep mode, and cancels the sleep mode when the output request unit requests the count output. Since the counting execution unit executes counting, the counting execution unit can be operated intermittently. Therefore, the measuring instrument can suppress power consumption in the measuring instrument as compared with the case where the counting execution unit is continuously operated.

  At this time, the measuring instrument includes a display unit that displays the counting result, and the power saving control unit includes a non-display executing unit that executes a non-display mode that is a power saving mode for stopping display of the display unit. The execution unit preferably executes the non-display mode when the determination unit determines to execute the non-display mode.

  According to such a configuration, the power saving control unit includes the non-display execution unit that executes the non-display mode for stopping the display of the display unit, and executes the non-display mode according to the determination of the determination unit. Therefore, the measuring instrument can suppress power consumption in the measuring instrument as compared with a state where something is always displayed on the display means of the measuring instrument.

  At this time, at least one of the measuring instrument and the external device includes an input unit that receives an input from the user, and the determination unit determines whether to execute the power saving mode based on the input from the input unit. It is preferable to include a determination unit.

  According to such a configuration, the input determination unit executes the power saving mode to the power saving control unit based on a user input in order to determine whether to execute the power saving mode based on an input from the input unit. Can be made. Therefore, the measuring device can execute the power saving mode at an arbitrary timing by the user.

  In this case, the determination unit preferably includes an output request determination unit that determines whether or not to execute the power saving mode based on an output request from the output request unit in the external device.

  According to such a configuration, the output request determination unit has received an output request from the external device in order to determine whether to execute the power saving mode based on the output request from the output request unit in the external device. Sometimes, the power saving mode can be automatically executed by the power saving control unit.

  Further, the output request determination unit determines whether or not to execute the power saving mode based on the output request from the output request unit. The output request determination unit can be implemented simply by changing.

  At this time, the determination unit includes a connection determination unit that determines whether or not an external device is connected to the measuring instrument, and when the connection determination unit determines that the external device is connected to the measuring instrument, It is preferable to execute the power saving mode.

  According to such a configuration, when the connection determination unit determines that an external device is connected to the measuring instrument, when the external device is connected to the measuring instrument in order to cause the power saving control unit to execute the power saving mode. The power saving mode can be automatically executed by the power saving control unit.

  The measuring system of the present invention is characterized by comprising the measuring instrument of the present invention, an external device connected to the measuring instrument, and connection means for connecting the measuring instrument and the external instrument.

  According to the present invention as described above, the measurement system includes the measuring device of the present invention connected to the external device via the connection means, and thus becomes unnecessary when the measuring device and the external device are connected. The function can be stopped, power consumption consumed by the measuring instrument can be suppressed, and power saving can be achieved.

The figure which shows the measurement system which concerns on 1st Embodiment. Block diagram showing the measurement system Flowchart showing a method for switching to the power saving mode in the measurement system Flow chart showing a sleep mode in the measurement system Flowchart showing a non-display mode in the measurement system Block diagram showing a measurement system according to the second embodiment Flowchart showing a method for switching to the power saving mode in the measurement system The block diagram which shows the measurement system which concerns on 3rd Embodiment Flowchart showing a method for switching to the power saving mode in the measurement system Block diagram of measurement system according to modification

[First Embodiment]
A first embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 is a diagram illustrating a measurement system according to the first embodiment.
As shown in FIG. 1, the measurement system 1 includes a measuring instrument 2, an external device 3, and connection means 4.

The measuring instrument 2 is a dial gauge including a counting unit 5 that counts a counting target (not shown) and a measuring instrument display unit 6 that is a display unit that displays a counting result. The measuring instrument 2 is driven using a battery as a power source. The measuring instrument 2 includes a disc-shaped main body 51 as the counting unit 5, a spindle 52 provided so as to penetrate the main body 51 in the vertical direction, and a tip of the spindle 52 provided on the opposite side of the main body 51. Provided with the measuring element 53.
Note that the measuring instrument 2 may use an external device 3 or an external power source as a power source without using a battery as a power source.

  The measuring instrument display unit 6 is a liquid crystal panel provided in the approximate center of the front surface of the main body unit 51. The measuring instrument display unit 6 displays the counting result P by the counting unit 5. Note that the measuring instrument display unit 6 is not limited to a liquid crystal panel, and an arbitrary one such as an organic EL (Electro-Luminescence) or electronic paper may be used. Further, the measuring instrument display unit 6 can display arbitrary information as well as the counting result P.

  The external device 3 includes an external display unit 7 that is a display unit and displays the counting result P, and an input unit 8 that receives an input from the user. The external device 3 is an information processing apparatus (computer) that can receive a count result from the measuring instrument 2 and perform a predetermined process, for example. The external device 3 may be any device as long as it is connected to the measuring instrument 2 by the connecting means 4, and any device can be used.

The external display unit 7 is a liquid crystal panel similarly to the measuring instrument display unit 6. Note that the external display unit 7 is not limited to a liquid crystal panel, and an arbitrary one such as an organic EL or electronic paper may be used. The external display unit 7 may be provided as a separate body instead of being integrated with the external device 3.
The input unit 8 is a button switch that receives an input from the user when pressed. The input unit 8 may be a slide type, a touch panel type, a keyboard, a mouse, or the like instead of a button switch, and any type of input unit 8 may be adopted as long as it can accept an input from a user.

The connection means 4 is a communication cable that connects the measuring instrument 2 and the external device 3. The connection means 4 connects the measuring device 2 and the external device 3 through a connector that can be repeatedly attached and detached. Note that the connection means 4 may not include a communication cable (wired) and may connect the measuring device 2 and the external device 3 wirelessly. Moreover, the connection means 4 does not need to be detachable from the measuring instrument 2 and the external device 3 when being wired.
The connection means 4 communicates the counting result from the measuring device 2 to the external device 3 and communicates the input from the external device 3 to the measuring device 2. The connection unit 4 may communicate information other than the counting result.

FIG. 2 is a block diagram showing the measurement system.
As shown in FIG. 2, the measuring instrument 2 further includes control means 20 that controls the measuring instrument 2.
The external device 3 further includes an output request unit 30 that requests output of the counting result. The external device 3 requests the measuring device 2 to output the counting result from the output requesting unit 30 and obtains the counting result from the measuring device 2 when the counting result is necessary.

The control means 20 includes a normal control unit 21 that controls the counting operation, a power saving control unit 22 that executes a power saving mode that adjusts the power of the measuring device 2, and a determination that determines whether to execute the power saving mode. Unit 23.
The normal control unit 21 includes a count execution unit 211 that executes a counting operation and a count output unit 212 that outputs a count result.
In response to the output request from the output request unit 30, the count execution unit 211 controls the counting unit 5 (see FIG. 1) to execute the counting target. The count output unit 212 outputs the count result by the count execution unit 211 to the measuring instrument display unit 6 and the external device 3. The external device 3 displays the count result output from the count output unit 212 on the external display unit 7. The external device 3 may not only display the count result output from the count output unit 212 but also may be used for another purpose by calculating the count result.

The control means 20 has a power saving mode for adjusting the power of the measuring instrument 2 and stopping the function of the measuring instrument 2 that is no longer necessary when connected to the external device 3. Specifically, the power saving mode includes a sleep mode in which the counting execution unit 211 is stopped and a non-display mode in which the display of the measuring instrument display unit 6 that is a display unit of the measuring instrument 2 is stopped.
The power saving control unit 22 includes a sleep execution unit 221 that executes a sleep mode and a non-display execution unit 222 that executes a non-display mode.
In the following description, the counting execution unit 211 does not shift to the power saving mode (sleep mode, non-display mode), continuously executes the counting operation, and the counting result is displayed on the measuring instrument display unit 6. This state may be described as a normal mode.

  Here, the input unit 8 of the external device 3 includes a counting state switching unit 81 and a display ON / OFF unit 82 (see FIG. 1). The determination unit 23 of the control unit 20 in the measuring instrument 2 includes an input determination unit 231. When there is an input from the counting state switching unit 81, the input determination unit 231 shifts the mode from the normal mode to the sleep mode. In addition, when there is an input from the counting state switching unit 81 in the state of shifting to the sleep mode, the input determination unit 231 cancels the sleep mode and shifts the mode to the normal mode. When there is an input from the display ON / OFF unit 82, the input determination unit 231 shifts the mode from the normal mode to the non-display mode. In addition, when there is an input from the display ON / OFF unit 82 in the state of shifting to the non-display mode, the input determination unit 231 cancels the non-display mode and shifts the mode to the normal mode.

In a state where the sleep execution unit 221 has shifted from the normal mode to the sleep mode, when the output request unit 30 requests output of the count result, the sleep execution unit 221 temporarily cancels the stop (sleep) of the count execution unit 211 and performs counting. The execution unit 211 performs a counting operation. Then, after outputting the count result from the count output unit 212, the sleep execution unit 221 causes the count execution unit 211 to sleep again. In the following description, the stop of the counting execution unit 211 may be described as sleep.
The non-display executing unit 222 stops the display of the measuring instrument display unit 6 in a state where the normal mode is changed to the non-display mode. When the non-display mode is canceled by the input determination unit 231 and the mode is shifted to the normal mode, the non-display execution unit 222 displays the count result on the measuring instrument display unit 6.

FIG. 3 is a flowchart showing a method for switching to the power saving mode in the measurement system.
Hereinafter, a method for switching to the power saving mode in the measurement system 1 will be described with reference to FIG.
First, as shown in FIG. 3, the input determination unit 231 of the determination unit 23 determines whether or not there is an input from the input unit 8 in the external device 3 (step ST01).
When there is an input from the input unit 8 by the user (YES in step ST01), the input determination unit 231 shifts the mode of the control means 20 from the normal mode to the power saving mode (step ST02).

At this time, if there is an input from the counting state switching unit 81 of the input unit 8 (YES in step ST01), the input determination unit 231 shifts the mode of the control means 20 to the sleep mode, which is a power saving mode (step). ST02). When there is an input from the display ON / OFF unit 82 of the input unit 8 (YES in step ST01), the input determination unit 231 shifts the mode of the control means 20 to the non-display mode that is the power saving mode ( Step ST02).
When there is no input from the input unit 8 (NO in step ST01), the input determination unit 231 performs determination until there is an input from the input unit 8 (step ST01).

Next, in the state of shifting to the power saving mode (step ST02), the input determination unit 231 determines whether or not there is an input from the input unit 8 (step ST03).
When there is an input from the input unit 8 by the user (YES in step ST03), the input determination unit 231 cancels the power saving mode of the control means 20 and shifts to the normal mode (step ST04).

  At this time, if there is an input from the counting state switching unit 81 of the input unit 8 (YES in step ST03), the input determination unit 231 cancels the sleep mode of the control means 20 and shifts to the normal mode (step ST04). ). If there is an input from the display ON / OFF unit 82 of the input unit 8 (YES in step ST03), the input determination unit 231 cancels the non-display mode of the control means 20 and shifts to the normal mode (step S31). ST04).

In the state of shifting to the power saving mode (step ST02), when there is no input from the input unit 8 (NO in step ST03), the input determination unit 231 performs determination until there is an input from the input unit 8 (step ST02). ST03).
Thus, the user can easily switch between the normal mode and the power saving mode at any timing of the user by inputting from the input unit 8 corresponding to each mode.

FIG. 4 is a flowchart showing a sleep mode in the measurement system.
Hereinafter, the sleep mode in the measurement system 1 will be described with reference to FIG.
First, in step ST02 of FIG. 3, the mode of the control means 20 is shifted from the normal mode to the sleep mode which is a power saving mode.
Next, as shown in FIG. 4, when the mode of the control unit 20 shifts to the sleep mode, the sleep execution unit 221 of the power saving control unit 22 stops the operation of the count execution unit 211 of the normal control unit 21. A process is executed (step ST11).

  Subsequently, the sleep execution unit 221 executes an output request determination step of determining whether there is an output result of the counting result from the output request unit 30 of the external device 3 (step ST12). When there is a count result output request from the output request unit 30 (YES in step ST12), the sleep execution unit 221 executes a sleep release process for canceling sleep in order to operate the count execution unit 211 (step ST13). When there is no count result output request from the output request unit 30 (NO in step ST12), the sleep execution unit 221 stops the operation of the count execution unit 211 until there is a count result output request from the output request unit 30. A process is executed (step ST11).

  When the sleep is canceled, the count execution unit 211 executes a counting process for counting the counting target (step ST14). When the counting step is executed by the counting execution unit 211, the counting output unit 212 executes an output step of outputting the counting result to the measuring instrument display unit 6 of the measuring instrument 2 and the external device 3 (step ST15). . After the count result is output by the count output unit 212, the sleep execution unit 221 executes a sleep execution step for stopping the operation of the count execution unit 211 (step ST11).

  The sleep execution unit 221 repeatedly executes step ST11 to step ST15 until the sleep mode is canceled and the mode is shifted to the normal mode in step ST04 of FIG. As a result, the count execution unit 211 can stop the operation until the output request unit 30 requests the count result to be output, and thus suppresses power consumption compared to when the count execution unit 211 is always operating. be able to.

FIG. 5 is a flowchart showing a non-display mode in the measurement system.
Hereinafter, the non-display mode in the measurement system 1 will be described with reference to FIG.
First, as shown in FIG. 5, a counting step similar to the counting step (step ST14) in FIG. 4 is executed by the count execution unit 211 (step ST21). Next, the non-display execution unit 222 of the power saving control unit 22 determines whether or not there is an input from the display ON / OFF unit 82 of the input unit 8, that is, step ST01 is executed in FIG. It is determined whether or not the mode has shifted to the non-display mode (step ST22).

  If it is determined that the non-display mode has shifted to the non-display mode (YES in step ST22), the non-display execution unit 222 executes a non-display process for stopping the display of the measuring instrument display unit 6 (step ST23). When it is determined that the non-display mode has not been shifted (NO in step ST22), the non-display execution unit 222 executes a display process for displaying the count result without stopping the measuring instrument display unit 6 (step ST24). .

  When the counting execution unit 211 executes the counting process (step ST21), the counting output unit 212 executes an output process of outputting the counting results to the measuring instrument display unit 6 of the measuring instrument 2 and the external device 3 (step ST21). ST25). At this time, if the non-display process is being performed on the measuring instrument display unit 6 (step ST23), the counting result is not displayed because the measuring instrument display unit 6 is stopped even if the counting result is output. When the display process is being performed on the measuring instrument display unit 6 (step ST24), the measuring instrument display unit 6 displays the counting result output from the counting output unit 212.

According to the present embodiment as described above, the following operations and effects can be achieved.
(1) The control means 20 in the measuring instrument 2 has a sleep mode and a non-display mode, which are power saving modes for stopping the function of the measuring instrument 2 that is no longer necessary when connected to the external device 3. And since the measuring device 2 is provided with the determination part 23 which determines whether a power saving mode is performed based on a predetermined opportunity, when it determines with the determination part 23 performing a power saving mode, the power saving control part 22 Executes the power saving mode. Therefore, the measuring instrument 2 can suppress the power consumption consumed by the measuring instrument 2 by stopping the function which became unnecessary by connecting with the external apparatus 3, and can achieve power saving.
(2) The measuring instrument 2 driven by a battery stops the function of the measuring instrument 2 that is no longer necessary when connected to the external device 3, thereby suppressing power consumption in the measuring instrument 2 and extending the battery life. Can be achieved.

(3) When the measuring device 2 is connected to the external device 3 including the output requesting unit 30 that requests the measuring device 2 to output the counting result, the counting request is output from the output requesting unit 30. Only the counting execution unit 211 can perform counting. For this reason, when there is no output request of the counting result from the output request unit 30, the counting execution unit 211 can be stopped.
(4) When the sleep execution unit 221 determines that the sleep mode is to be executed by the determination unit 23, the sleep execution unit 221 executes the sleep mode for stopping the count execution unit 211, and when the output request unit 30 requests the count output, In order to cancel the sleep mode and cause the counting execution unit 211 to execute counting, the counting execution unit 211 can be operated intermittently. Therefore, the measuring device 2 can suppress power consumption in the measuring device 2 as compared with the case where the counting execution unit 211 is continuously operated.

(5) The power saving control unit 22 includes a non-display execution unit 222 that executes a non-display mode for stopping the measuring instrument display unit 6, and executes the non-display mode according to the determination of the determination unit 23. When the instrument 2 and the external device 3 are connected, when the measuring instrument display unit 6 of the measuring instrument 2 is not visually recognized, it can be hidden. Therefore, the measuring instrument 2 can suppress power consumption in the measuring instrument display unit 6 as compared with a state in which something is always displayed on the measuring instrument display unit 6.

(6) The input determination unit 231 causes the power saving control unit 22 to execute the power saving mode based on a user input in order to determine whether or not to execute the power saving mode based on the input from the input unit 8. Can do. Therefore, the measuring device 2 can execute the power saving mode at an arbitrary timing by the user.

[Second Embodiment]
Hereinafter, a second embodiment of the present invention will be described with reference to FIGS. In the following description, parts that have already been described are assigned the same reference numerals and description thereof is omitted.

FIG. 6 is a block diagram showing a measurement system according to the second embodiment.
In the first embodiment, the determination unit 23 of the control unit 20 in the measuring instrument 2 includes the input determination unit 231 that determines whether or not there is an input from the input unit 8. The external device 3 includes an input unit 8.
In the measurement system 1A of the present embodiment, as shown in FIG. 6, the determination unit 23A of the control means 20A in the measuring instrument 2A is an output request determination unit that determines whether there is an output request from the output request unit 30 of the external device 3A. It differs from the said 1st Embodiment by the point provided with 231A. Further, the external device 3A is different from the first embodiment in that it does not include the input unit 8.

FIG. 7 is a flowchart showing a method for switching to the power saving mode in the measurement system.
Hereinafter, a method for switching to the power saving mode in the measurement system 1A will be described with reference to FIG.
First, as shown in FIG. 7, the output request determination unit 231A of the determination unit 23A determines whether there is an output request from the output request unit 30 in the external device 3A (step ST31). That is, the output request determination unit 231A activates the measuring instrument 2A and determines whether or not there is an initial output request from the output request unit 30 of the external device 3A (step ST31).

When there is an output request from the output request unit 30 (YES in step ST31), the output request determination unit 231A shifts the mode of the control means 20A from the normal mode to the power saving mode (sleep mode, non-display mode). (Step ST32).
Then, when shifting to the power saving mode, the control unit 20A of the measuring instrument 2A executes the sleep mode shown in FIG. 4 and the non-display mode shown in FIG.

Also in this embodiment, in addition to the same operations and effects as (1) to (5) in the first embodiment, the following operations and effects can be achieved.
(7) When there is an output request from the external device 3, the output request determination unit 231 </ b> A determines whether to execute the power saving mode based on the output request from the output request unit 30 in the external device 3. Further, the power saving control unit 22 can automatically execute the power saving mode.
(8) The output request determination unit 231A determines whether or not to execute the power saving mode based on the output request from the output request unit 30, so that the measuring device 2A is not newly provided with the input unit 8 or the like. The output request determination unit 231A can be mounted only by changing the program of the control unit 20A.

[Third Embodiment]
Hereinafter, a third embodiment of the present invention will be described with reference to FIGS. In the following description, parts that have already been described are assigned the same reference numerals and description thereof is omitted.

FIG. 8 is a block diagram showing a measurement system according to the third embodiment.
In the second embodiment, the determination unit 23A of the control unit 20A in the measuring instrument 2A includes the output request determination unit 231A that determines whether there is an output request from the output request unit 30 of the external device 3A.
In the measurement system 1B of the present embodiment, as shown in FIG. 8, the determination unit 23B of the control unit 20B in the measuring instrument 2B determines whether or not the external device 3A is connected via the connection unit 4. It differs from the said 2nd Embodiment by the point provided with 231B.

FIG. 9 is a flowchart showing a method for switching to the power saving mode in the measurement system.
Hereinafter, a method for switching to the power saving mode in the measurement system 1B will be described with reference to FIG.
First, as shown in FIG. 9, the connection determination unit 231B of the determination unit 23B determines whether or not the measuring instrument 2B and the external device 3A are connected via the connection unit 4 (step ST41).
When it is determined that the measuring instrument 2B and the external device 3A are connected via the connection unit 4 (YES in step ST41), the connection determination unit 231B shifts the mode of the control unit 20B from the normal mode to the power saving mode. (Step ST42).
And if it transfers to power saving mode, the measuring device 2B will perform the sleep mode shown in FIG. 4, and the non-display mode shown in FIG.

Next, in the state of shifting to the power saving mode (step ST42), the connection determination unit 231B determines whether or not the measuring instrument 2B and the external device 3A are connected via the connection unit 4 (step ST43). ).
When measuring instrument 2B and external device 3A are not connected via connection means 4 (NO in step ST43), connection determination unit 231B cancels the power saving mode of control means 20B and shifts to the normal mode ( Step ST44).

  In the state of shifting to the power saving mode (step ST42), when the measuring device 2B and the external device 3A are connected via the connecting means 4 (YES in step ST43), the connection determining unit 231B The connection state between the measuring instrument 2B and the external device 3A is determined until the connection between the external device 3A and the external device 3A is released (step ST43).

Also in this embodiment, in addition to the same operations and effects as (1) to (5) in the first embodiment, the following operations and effects can be achieved.
(9) When the connection determination unit 231 </ b> B determines that the external device 3 is connected to the measuring instrument 2, when the external device 3 is connected to the measuring instrument 2 in order to cause the power saving control unit 22 to execute the power saving mode. Further, the power saving control unit 22 can automatically execute the power saving mode.

[Modification of Embodiment]
The present invention is not limited to the above-described embodiments, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
For example, in each of the embodiments described above, the case where the measuring instruments 1 and 1A to 1B are dial gauges has been described. However, the measuring instrument is not a dial gauge but is connected to an external device via a connection unit and counts the objects to be counted. Any measuring instrument that can do this may be adopted. In short, the measuring instrument type and counting method are not particularly limited.

  In the first embodiment, the input unit 8 is provided in the external device 3. However, the measuring device 2 may be provided, or both the measuring device 2 and the external device 3 may be provided with the input unit 8. Good. In short, at least one of the measuring instrument and the external device only needs to include an input unit that receives input from the user.

FIG. 10 is a block diagram of a measurement system according to a modification.
In each of the embodiments, the determination units 23 and 23A to 23B include the input determination unit 231 in the first embodiment, the output request determination unit 231A in the second embodiment, and the connection determination unit 231B in the third embodiment. I was prepared. In the measurement system 1C of the present modification, each of the implementations described above is that the determination unit 23C of the control unit 20C in the measuring instrument 2C includes an input determination unit 231, an output request determination unit 231A, and a connection determination unit 231B. Different from form. In this case, the determination unit 23C may determine whether to execute the power saving mode by combining the determinations.

  For example, the determination unit 23C determines whether or not the measuring instrument 2C and the external device 3 are connected via the connection unit 4 in the connection determination unit 231B. Transition to mode. Then, in a state where the mode is shifted to the power saving mode, the user may input from the input unit 8 of the external device 3 to cancel the power saving mode and shift to the normal mode.

  In each of the embodiments, the determination units 23 and 23A to 23C include the input determination unit 231 in the first embodiment, the output request determination unit 231A in the second embodiment, and the connection determination unit 231B in the third embodiment. In the above-described modification, the input determination unit 231, the output request determination unit 231 </ b> A, and the connection determination unit 231 </ b> B are provided, but the determination unit may not include these determination units. Moreover, you may provide determination parts other than these determination parts. In short, the determination unit only needs to be able to determine whether to execute the power saving mode based on a predetermined trigger.

In each of the embodiments described above, both the sleep mode and the non-display mode, which are power saving modes, are executed, but only one of the power saving modes may be executed.
Further, in each of the embodiments, the control means 20, 20A to 20C have the sleep mode and the non-display mode as the power saving mode, but the control means does not have the sleep mode and the non-display mode. May be. Moreover, you may have the power saving mode which stops other than the count execution part 211 and the measuring device display part 6. FIG. In short, the control means only needs to have a power saving mode in which the function of the measuring instrument that has become unnecessary by being connected to an external device is stopped.

  In each of the above embodiments, the external device 3 includes the output request unit 30, and the normal control unit 21 outputs the counting result to the external device 3 in response to the output request from the output request unit 30, but the external device outputs The request unit may not be provided. In this case, the normal control unit may output the counting result to the external device every time counting is performed.

  As described above, the present invention can be suitably used for measuring instruments and measuring systems.

DESCRIPTION OF SYMBOLS 1,1A-1C Measurement system 2 Measuring device 3 External apparatus 4 Connection means 8 Input part 20, 20A-20C Control means 21 Normal control part 22 Power saving control part 23, 23A-23C Judgment part 30 Output request part 211 Count execution part 212 Count output unit 221 Sleep execution unit 222 Non-display execution unit 231 Input determination unit 231A Output request determination unit 231B Connection determination unit

Claims (7)

A measuring instrument connected to an external device via a connecting means,
Comprising control means for controlling the measuring instrument;
The control means includes
A normal control unit for controlling the counting operation;
A power saving control unit having a power saving mode for stopping the function of the measuring instrument that has become unnecessary by being connected to the external device;
A determination unit that determines whether to execute the power saving mode based on a predetermined opportunity,
The power saving control unit
The measuring device that executes the power saving mode when the determination unit determines that the power saving mode is executed. The measuring instrument according to claim 1, wherein
The external device includes an output request unit that requests output of a counting result,
The normal control unit is
A counting execution unit for performing a counting operation;
A count output unit that outputs a count result to the external device in response to a request from the output request unit,
The power saving control unit
A sleep execution unit for executing a sleep mode that is the power saving mode for stopping the counting execution unit;
The sleep execution unit
When the determination unit determines to execute the sleep mode, the sleep mode is executed, and when the output request unit outputs a count result, the sleep mode is canceled and the count execution unit A measuring instrument characterized by causing a counting operation to be executed. The measuring instrument according to claim 1 or 2,
A display means for displaying the counting result;
The power saving control unit
A non-display execution unit that executes a non-display mode that is the power saving mode for stopping display of the display means;
The non-display execution unit is
The measuring device that executes the non-display mode when the determination unit determines to execute the non-display mode. In the measuring device according to any one of claims 1 to 3,
At least one of the measuring instrument and the external device includes an input unit that receives an input from a user,
The determination unit
A measuring instrument comprising: an input determination unit that determines whether or not to execute the power saving mode based on an input from the input unit. The measuring instrument according to any one of claims 2 to 4,
The determination unit
A measuring instrument comprising: an output request determination unit that determines whether or not to execute the power saving mode based on an output request from the output request unit in the external device. The measuring instrument according to any one of claims 1 to 5,
The determination unit
A connection determination unit for determining whether or not the external device is connected to the measuring instrument;
The connection determination unit
When it is determined that the external device is connected to the measuring device, the power saving control unit is caused to execute the power saving mode. The measuring instrument according to any one of claims 1 to 6,
An external device connected to the measuring instrument;
A measurement system comprising: connection means for connecting the measuring instrument and the external device.

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