JP7370671B2 - Information processing system and its connection means - Google Patents

Description

The present invention relates to an information processing system and its connection means.

Conventionally, an information processing system is known that includes a measurement device that measures a measurement target and outputs measurement information, a processing device that processes the measurement information, etc., and a connection means that connects the measurement device and the processing device. . For example, the digital display type length measurement system (information processing system) described in Patent Document 1 inputs measurement results (measurement information) output from a measuring device (measuring device) to a data processing device (processing device) such as a personal computer. A signal transmission cable (connection means) is provided. A digital display type length measurement system connects a caliper, which is a measuring device, to a data processing device using a signal transmission cable, and transmits the measurement results obtained by measuring the object with the caliper to the data processing device. There is.

Japanese Unexamined Patent Publication No. 177210/1983

A measuring device in such a conventional information processing system has a plurality of measurement modes in which the measuring device is set to predetermined measurement conditions to perform measurements. Multiple measurement modes include, for example, a measurement mode that outputs the measured value obtained by measuring the measurement target in 6 digits, a mode that outputs the measurement value in 8 digits, and initial parameters depending on the measurement target. There are measurement modes such as measuring from . When switching between a plurality of measurement modes, it is necessary to operate a button provided on the measuring device or to operate from the processing device via a connecting means. Therefore, in such an information processing system, there is a problem in that it is not possible to easily switch between and use a plurality of measurement modes.

An object of the present invention is to provide an information processing system that allows a user to select a measurement mode to use from a plurality of measurement modes, and that allows the user to easily switch the measurement mode based on the selection.

The information processing system of the present invention connects a measuring device having a processing means for measuring a measurement target and processing measurement information, a processing device for processing measurement information, etc. from the measuring device, and a connection between the measuring device and the processing device. and a connecting means for connecting. The measuring device has a first measurement mode in which the measuring device is set to a predetermined measurement condition to perform a measurement, and a second measurement mode in which the measuring device is set to a measurement condition different from the first measurement mode to perform a measurement. A measurement mode is provided. The connection means includes a selection means that is operated by a user to select one of the first selection state and the second selection state. The processing means includes a selection state determination section that determines the selection state of the selection means, and when the selection state is determined by the selection state determination section, a first selection state based on the selection state determined by the selection state determination section. The present invention is characterized by comprising a switching section that switches to the first measurement mode when it is determined that the measurement mode is in the second selection state, and switches to the second measurement mode when it is determined that the selection state is the second selection state.

According to the present invention, the connecting means of the information processing system includes the selecting means that is operated by the user to select the selected state, and the processing means, when the selected state is determined by the selected state determining section, A switching section is provided that switches to the first measurement mode or the second measurement mode based on the selection state determined by the selection state determination section. The user can easily select the measurement mode to be used by operating the selection means, and the processing means can switch the measurement mode based on the selection. Therefore, the information processing system allows the user to select the measurement mode to be used from a plurality of measurement modes, and can easily switch the measurement mode based on the selection.

In this case, the selection means is preferably a mechanical switch operated by the user.

According to such a configuration, since the selection means is a mechanical switch operated by the user, the user can easily select the measurement mode to be used by operating the mechanical switch. can.

At this time, the processing means includes a connection detection section that detects whether or not the connection means is connected. Preferably, the selection state determination section determines the selection state of the selection means when the connection detection section detects the connection of the connection means.

According to such a configuration, the processing means can recognize when the connecting means is connected by including the connection detecting section that detects whether the connecting means is connected. Furthermore, the selection state determination section determines the selection state of the selection means using the timing at which the connection means is connected as a trigger, so that the measurement mode can be switched at an appropriate timing, and usability can be improved.

At this time, the selection means is a push-button switch that selects either the first selection state or the second selection state depending on whether or not it is pressed, and when the selection means is pressed, the connection means is connected. is detected by the connection detection unit, the selection state determination unit determines that the selection state is one of the first selection state and the second selection state selected by the selection means, and the selection state determines that the selection state is one of the first selection state and the second selection state selected by the selection means. When the connection detection section detects the connection of the connection means in a state where the connection means is not pressed, the selection state determination section selects the other of the first selection state and the second selection state selected by the selection means. It is preferable to determine that the condition is the same.

According to such a configuration, the selection means is a push-button switch, and when the selection means is pressed and connected to the measuring instrument, the switching section changes the selection state based on the selection state determined by the selection state determination section. When switching to either the first measurement mode or the second measurement mode and the selection means is not pressed and connected to the measuring device, the switching section selects the first measurement mode based on the selection state determined by the selection state determination section. or the second measurement mode. Therefore, the information processing system can easily select the measurement mode and switch to the measurement mode desired by the user using the selection means having a simple mechanism.

At this time, the connection means is an output means for outputting measurement information to the processing device when the user presses the selection means after the switching unit switches to either the first measurement mode or the second measurement mode. It is preferable to include the following.

According to such a configuration, the connection means processes the measurement information when the user presses the selection means after the switching unit switches to the measurement mode desired by the user selected by the selection means. It can be used as an output means for outputting to a device. Therefore, in the information processing system, the connection means can serve as both the selection means and the output means, so that costs can be reduced.

The connection means of the present invention connects the measuring device and the processing device in the information processing system described above. The connecting means is characterized in that it includes a selection means that is operated by the user to select one of the first selection state and the second selection state.

According to the present invention, the connection means includes a selection means that is operated by the user to select one of the first selection state and the second selection state. The measurement mode can be easily selected.

Schematic diagram of an information processing system according to the first embodiment of the present invention A diagram showing connection means of the information processing system. A block diagram showing the information processing system. A flowchart showing a method of switching to either the first measurement mode or the second measurement mode in the processing device of the information processing system. A diagram showing a connection means of an information processing system according to a second embodiment of the present invention A block diagram showing the information processing system. A flowchart showing a method of switching to either the first measurement mode or the second measurement mode in the processing means of the information processing system.

[First embodiment]
Hereinafter, a first embodiment of the present invention will be described based on FIGS. 1 to 4.
FIG. 1 is a schematic diagram of an information processing system 1 according to a first embodiment of the present invention.
As shown in FIG. 1, the information processing system 1 includes a measuring device 2 that measures a measurement target (not shown) and outputs measurement information, a processing device 3 that processes the measurement information, etc., and the measuring device 2 and the processing device 3. and connecting means 4 for connecting.

The measuring device 2 can be, for example, a caliper, and outputs measurement information including measurement results obtained by measuring a measurement target. Here, the measurement information is not limited to measurement results obtained by measuring a measurement target with the measurement device 2, but also includes multiple measurement modes configured by calibration information, error information, setting information, etc. in the measurement device 2. Various information regarding the measuring device 2 is included.
Further, in this embodiment, the plurality of measurement modes includes a first measurement mode 6 and a second measurement mode 7 (see FIG. 3). The first measurement mode 6 is a measurement mode that outputs a measurement value, which is measurement information obtained by measuring a measurement target, in 6 digits, and the second measurement mode 7 is a measurement mode that outputs a measurement value that is measurement information obtained by measuring a measurement target. This is a measurement mode in which the measurement value, which is the measurement information obtained by the measurement, is output in 8 digits.
For example, a personal computer can be used as the processing device 3. Note that the processing device 3 is not limited to a personal computer, and may be any device as long as it can process measurement information and the like.

FIG. 2 is a diagram showing the connection means 4 of the information processing system 1. Specifically, FIG. 2(A) is an overall view of the connection means 4, and FIG. 2(B) is a diagram showing the slider 50 in the selection means 5 when the first selection state is selected. 2C is a diagram showing the slider 50 in the selection means 5 when the second selection state is selected.
As shown in FIG. 2(A), the connection means 4 includes a dedicated terminal 41 that connects to the measuring instrument 2, a USB (Universal Serial Bus) terminal 42 that connects to the processing device 3, and a dedicated terminal 41 and the USB terminal 42. A connecting portion 43 that is a transmission/reception cable for wired connection is provided. Note that the connection unit 43 may connect the dedicated terminal 41 and the USB terminal 42 wirelessly instead of using a wired transmission/reception cable.

The connection means 4 also includes a selection means 5 which is operated by the user to select one of the first selection state and the second selection state. The selection means 5 is a mechanical switch operated by the user, and is provided near the USB terminal 42. Specifically, the selection means 5 includes a slider 50 that is slidably provided in the direction of the USB terminal 42 and the direction of the dedicated terminal 41.
As shown in FIG. 2(B), the user can select the first measurement mode by sliding the slider 50 in the direction of the USB terminal 42. As a result, the selection means 5 enters a state in which the first selection state is selected. Further, as shown in FIG. 2(C), the user can select the second measurement mode by sliding the slider 50 in the direction of the dedicated terminal 41. As a result, the second selection state is selected in the selection means 5. The second measurement mode may be selected by sliding the slider 50 toward the USB terminal 42, as shown in FIG. 2(B), or the second measurement mode may be selected by sliding the slider 50 toward the USB terminal 42, as shown in FIG. The first measurement mode may be selected by sliding it in the direction of the dedicated terminal 41.

FIG. 3 is a block diagram showing the information processing system 1. As shown in FIG.
As shown in FIG. 3, the measuring device 2 includes a processing means 20 for processing measurement information and the like. In addition, as described above, the measuring device 2 has a first measuring mode 6 in which the measuring device is set to predetermined measurement conditions and performs measurement, and a first measuring mode 6 in which the measuring device is set to a measurement condition different from the first measuring mode. and a second measurement mode 7 for performing measurement. The user selects the first measurement mode 6 when he/she wants to output a measurement value, which is measurement information obtained by measuring a measurement target, in six digits. Further, the user selects the second measurement mode 7 when the user wants to output a measurement value, which is measurement information obtained by measuring the measurement target, in eight digits.

The processing means 20 includes a connection detection section 21, a selection state determination section 22, and a switching section 23.
The connection detection unit 21 detects whether the measuring device 2 and the processing device 3 are connected by the connection means 4. Specifically, the connection detection unit 21 detects whether the measuring device 2 and the dedicated terminal 41 are connected, and the processing device 3 and the USB terminal 42 are connected.
The selection state determining unit 22 determines whether the selection state of the selection means 5 is the first selection state or the second selection state. Further, the selection state determination section 22 determines the selection state of the selection means 5 when the connection detection section 21 detects the connection of the connection means 4.

When the selection state is determined by the selection state determination section 22, the switching section 23 changes the measurement mode used in the measuring instrument 2 into the first measurement mode 6 and the second measurement mode based on the determined selection state. Switch to either mode 7. Specifically, the switching unit 23 switches to the first measurement mode 6 when it is determined that the selection state is the first selection state based on the selection state determined by the selection state determination unit 22, and switches to the second measurement mode 6. When it is determined that the mode is selected, the mode is switched to the second measurement mode 7.

FIG. 4 is a flowchart showing a method of switching to either the first measurement mode 6 or the second measurement mode 7 in the processing device of the information processing system 1. Hereinafter, a method of switching to either the first measurement mode 6 or the second measurement mode 7 will be explained based on FIG. 4.
First, the user selects a desired measurement mode 6 or 7 by sliding the slider 50 of the selection means 5 with a finger (see FIG. 2). At this time, when the user slides the slider 50 toward the USB terminal 42 and selects the first measurement mode 6 (see FIG. 2(B)), the selection means 5 enters the first selection state. Further, when the user slides the slider 50 in the direction of the dedicated terminal 41 and selects the second measurement mode 7 (see FIG. 2(C)), the selection means 5 enters the second selection state. Next, the user connects the dedicated terminal 41 to the measuring device 2 with the processing device 3 and the USB terminal 42 connected. Note that the user may connect the USB terminal 42 to the processing device 3 while being connected to the dedicated terminal 41 and the measuring device 2.

Then, as shown in FIG. 4, the connection detection unit 21 executes a connection detection step of detecting whether or not the measuring device 2 and the processing device 3 are connected by the connection means 4 (step ST01). When the connection detection unit 21 detects the connection between the measuring instrument 2 and the processing device 3 (YES in step ST01), the selection state determination unit 22 determines whether the selection state of the selection means 5 is the first selection state or the second selection state. A selection state acquisition step is executed to obtain the selection state of the selection state or the selection state of the selected state (step ST02). If the connection detection unit 21 does not detect the connection between the measuring device 2 and the processing device 3 (NO in step ST01), the connection detection unit 21 repeatedly performs the connection detection process (step ST01).

Based on the selection state acquired in the selection state acquisition step (step ST02), the selection state determination unit 22 determines whether the selection state is the first selection state (step ST03). When the selection state determining unit 22 determines that the selection state is the first selection state (YES in step ST03), the switching unit 23 switches the measurement mode in the measuring instrument 2 to the first measurement mode 6. The process of switching to the measurement mode is executed (step ST04).

Further, if the selection state determination unit 22 determines that the selection state is not the first selection state (NO in step ST03) based on the selection state acquired in the selection state acquisition step (step ST02), the switching unit 23 executes a second measurement mode switching step of switching the measurement mode in the measuring device 2 to the second measurement mode 7 (step ST05). Through these steps, the information processing system 1 switches the measurement device 2 to either the first measurement mode or the second measurement mode. Note that if the selection state determination unit 22 determines that the selection state is neither the first selection state nor the second selection state, for example, a warning display is displayed on a display means (not shown) included in the processing device 3 to indicate that there is an error. It may be displayed to the user.

According to this embodiment, the following actions and effects can be achieved.
(1) The connection means 4 of the information processing system 1 includes a selection means that is operated by the user to select a selection state, and the processing means 20 selects the selection state when the selection state is determined by the selection state determination unit 22. A switching unit is provided that switches to the first measurement mode 6 or the second measurement mode 7 based on the selection state determined by the determination unit 22. The user can easily select the measurement modes 6 and 7 to be used by operating the selection means 5, and the processing means 20 can switch between the measurement modes 6 and 7 based on the selection. Therefore, the information processing system 1 allows the user to select the measurement mode 6, 7 to be used from the plurality of measurement modes 6, 7, and easily switches between the measurement modes 6, 7 based on the selection. .
(2) Since the connection means 4 includes a selection means 5 which is operated by the user to select one of the first selection state and the second selection state, the connection means 4 allows the user to select a plurality of measurement modes 6, 7 can be easily selected.

(3) Since the selection means 5 is a slider 50 which is a mechanical switch operated by the user, the user can select the measurement modes 6 and 7 to be used by operating the slider 50 which is a mechanical switch. can be easily selected.
(4) The processing means 20 can recognize when the connecting means 4 is connected by being provided with the connection detecting section 21 that detects whether the connecting means 4 is connected. In addition, the selection state determination section 22 determines the selection state of the selection means 5 using the timing at which the connection means 4 is connected as a trigger, so that the measurement modes 6 and 7 can be switched at an appropriate timing, improving usability. can be improved.

[Second embodiment]
A second embodiment of the present invention will be described below based on FIGS. 5 to 7. In the following description, the same reference numerals are given to the parts that have already been described, and the description thereof will be omitted.
FIG. 5 is a diagram showing a connecting means 4A of an information processing system 1A according to a second embodiment of the present invention. Specifically, FIG. 5(A) is a diagram before pressing the button 50A of the selecting means 5A in the connecting means 4A, and FIG. 5(B) is a diagram before pressing the button 50A of the selecting means 5A in the connecting means 4A. This is a diagram showing the

In the first embodiment, the connection means 4 is a dedicated terminal 41 that connects to the measuring device 2, a USB terminal 42 that connects to the processing device 3, and a transmission/reception cable that connects the dedicated terminal 41 and the USB terminal 42 by wire. The selection means 5 is a mechanical switch operated by the user, and includes a slider 50 provided near the USB terminal 42.

In the second embodiment, as shown in FIG. 5, the connection means 4A in the information processing system 1A has a selection means 5A, a dedicated terminal 41A for connecting with the measuring instrument 2, and a slider 50 unlike in the first embodiment. The USB terminal 42A is provided with a USB terminal 42A without a USB terminal, and a connecting portion 43 which is a transmitting/receiving cable that connects the dedicated terminal 41A and the USB terminal 42A by wire as in the first embodiment. The selection means 5A is different from the first embodiment in that it includes a button 50A which is a push-button switch of a mechanical switch that selects one of the first selection state and the second selection state depending on whether or not it is pressed. different from.

The button 50A is provided on the dedicated terminal 41A of the connection means 4A, and when pressed by the user from the state shown in FIG. 5(A) to the state shown in FIG. 5(B), the button 50A switches to the first measurement mode. 6 and second measurement mode 7, or output measurement information to the processing device 3. Note that the button 50A does not need to be provided on the dedicated terminal 41A, and may be provided at any position as long as it can be operated by the user. Further, the connection section 43 may connect the dedicated terminal 41A and the USB terminal 42A wirelessly instead of using a wired transmission/reception cable.

FIG. 6 is a block diagram showing the information processing system 1A.
As shown in FIG. 6, the selection state determination unit 22A of the processing means 20A connects the measuring instrument 2 and the dedicated terminal 41A and connects the USB terminal 42A and the processing device 3 when the button 50A of the selection means 5A is pressed. When the connection detection unit 21 detects, it is determined that the selected state is one of the first selection state and the second selection state selected by the selection means 5A. In addition, the selection state determination unit 22A determines that the connection detection unit 21 detects the connection between the measuring device 2 and the dedicated terminal 41A and the connection between the USB terminal 42A and the processing device 3 when the button 50A of the selection means 5A is not pressed. At this time, it is determined that the selected state is the other one of the first selection state and the second selection state selected by the selection means 5A. In these points, the selection state determining section 22A of the processing means 20A is different from the first embodiment.

In addition, the connection means 4A is configured to allow the user to press the button 50A of the selection means 5A after switching to either the first measurement mode 6 or the second measurement mode 7 by the switching unit 23. This embodiment differs from the first embodiment in that it includes an output means 8 that outputs measurement information to the processing device 3 in response to a trigger. Specifically, the output means 8 is a button 50A of the same push-button switch as the selection means 5A (see FIG. 5), and when the switching unit 23 switches between the measurement modes 6 and 7, the output means 8 outputs the output from the selection means 5A. The function is switched to the output means 8.

FIG. 7 is a flowchart showing a method of switching to either the first measurement mode 6 or the second measurement mode 7 in the processing means 20A of the information processing system 1A. Hereinafter, a method of switching to either the first measurement mode 6 or the second measurement mode 7 will be explained based on FIG. 7.
First, the user selects a desired measurement mode using the button 50A of the selection means 5A (see FIG. 5). At this time, if the user selects the first measurement mode 6 by connecting the measuring device 2 and the processing device 3 using the connecting means 4A while pressing the button 50A (see FIG. 5(B)), the selecting means 5A The first selection state is reached. Further, when the user connects the measuring device 2 and the processing device 3 using the connecting means 4A without pressing the button 50A and selects the second measurement mode 7 (see FIG. 5(A)), the selecting means 5A The second selection state is reached. Therefore, the user selects whether or not to press the button 50A so as to set the desired measurement mode, and connects the dedicated terminal 41A to the measuring device 2 with the USB terminal 42A and the processing device 3 connected. Note that the user may connect the USB terminal 42A to the processing device 3 while the measuring device 2 and the dedicated terminal 41A are connected.

Then, as shown in FIG. 7, the connection detection unit 21 executes a connection detection step of detecting whether or not the measuring device 2 and the processing device 3 are connected by the connection means 4A (step ST11). When the connection between the measuring device 2 and the processing device 3 is detected (YES in step ST11), the selection state determination unit 22A determines whether the selection state of the selection means 5A is the first selection state or the second selection state. A selection state acquisition step for determining whether the selected state is selected or not is executed (step ST12). Specifically, when the measuring device 2 and the processing device 3 are connected by the connecting means 4A while the button 50A is pressed, the first selection state is obtained, and when the measuring device 2 and the processing device 3 are connected by the connecting means 4A without the button 50A being pressed. 2 and processing device 3 are connected, a second selection state is obtained. If the connection between the measuring device 2 and the processing device 3 is not detected (NO in step ST11), the connection detection unit 21 repeatedly performs the connection detection process (step ST11).

Subsequently, based on the selection state acquired in the selection state acquisition step (step ST12), the selection state determination unit 22A determines whether the selection state is the first selection state (step ST13). When the selection state determination unit 22A determines that the selection state is the first selection state (YES in step ST13), the switching unit 23 switches the measurement mode in the processing device 3 to the first measurement mode 6. The process of switching to the measurement mode is executed (step ST14).

Further, when the selection state determination section 22A determines that the selection state is not the first selection state (NO at step ST13) based on the selection state acquired in the selection state acquisition step (step ST12), the switching section 23 executes a second measurement mode switching step of switching the measurement mode in the processing device 3 to the second measurement mode 7 (step ST15).

After the switching step of step ST14 or step ST15 is executed, the output means 8 determines whether or not the button 50A used as the selection means 5A has been pressed (step ST16). When it is determined that the button 50A has been pressed (YES in step ST16), the output means 8 executes a measurement information output step of outputting measurement information to the processing device 3 (step ST17). When it is determined that the button 50A is not pressed (NO in step ST16), or after the measurement information output step (step ST17) is executed, the output means 8 repeats the determination until the button 50A is pressed. is executed (step ST16).

Through these steps, the information processing system 1A causes the processing means 20A of the measuring device 2 to switch to either the first measurement mode 6 or the second measurement mode 7, and the output means 8 , the measurement information is output based on whether or not the button 50A of the push-button switch, which is the same as the selection means 5A, is operated.
Note that if the selection state determination unit 22A determines that the selection state is neither the first selection state nor the second selection state, or if the measurement information is not normally output in steps ST16 and ST17, for example, the A warning display may be displayed on the display means to indicate to the user that there is an error.

In the second embodiment as well, in addition to the same actions and effects as (1) to (4) in the first embodiment, the following actions and effects can also be achieved.
(5) The selection means 5A is a button 50A which is a push-button switch, and when the selection means 5A is pressed and connected to the measuring instrument 2, the switching section 23 selects the selection determined by the selection state determination section 22. When the selection means 5A is switched to either the first measurement mode 6 or the second measurement mode 7 based on the state and is connected to the measurement device 2 without being pressed, the switching section 23 selects the selection state determination section 22. The mode is switched to either the first measurement mode 6 or the second measurement mode 7 based on the selection state determined by. Therefore, the information processing system 1A can easily select the measurement modes 6 and 7 and switch to the measurement mode 6 and 7 desired by the user using the selection means 5A having a simple mechanism.
(6) After the switching unit 23 switches to the measurement mode 6 or 7 desired by the user selected by the selection unit 5A, the connection unit 4A receives the measurement information by the user pressing the selection unit 5A. It can be used as an output means 8 for outputting to the processing device 3. Therefore, in the information processing system 1A, the connecting means 4A can serve as both the selection means 5A and the output means 8, so that cost reduction can be achieved.

[Variation of embodiment]
It should be noted that the present invention is not limited to the above-mentioned embodiments, and the present invention includes modifications, improvements, etc. within a range that can achieve the object of the present invention.
For example, in each of the embodiments described above, the measuring device 2 is a caliper, but other measuring devices such as a micrometer, an indicator, a height gauge, a hole test, etc. may be used. In short, the measuring device may be any device as long as it measures the object to be measured and has processing means for processing measurement information and the like.

In each of the above embodiments, the first measurement mode 6 is a measurement mode in which a measurement value, which is measurement information obtained by measuring a measurement target, is output in 6 digits, and the second measurement mode 7 is a measurement mode in which a measurement value, which is measurement information obtained by measuring a measurement target, is output in six digits. The measurement mode outputs the measurement value, which is the measurement information obtained by measuring the object, in 8 digits, but the first measurement mode and the second measurement mode output initial parameters etc. according to the measurement object. It may also be a measurement mode in which the measurement is performed after setting the . In short, the first measurement mode is a measurement mode in which the measurement equipment is set to predetermined measurement conditions and measurements are performed, and the second measurement mode is a measurement mode in which the measurement equipment is set to measurement conditions different from the first measurement mode. Any measurement mode may be used as long as it is a measurement mode in which the measurement is performed after setting. Furthermore, in each of the embodiments described above, the measuring device 2 includes two measurement modes 6 and 7, the first measurement mode 6 and the second measurement mode 7, and the information processing systems 1 and 1A have the measurement modes 6 and 7. However, the processing device may have three or more measurement modes, and the information processing system may switch between three or more measurement modes.

In the second embodiment, the first selection state is achieved by connecting the connecting means 4A to the measuring device 2 while pressing the button 50A of the selecting means 5A, and measuring the connecting means 4A without pressing the button 50A of the selecting means 5A. By connecting to the device 2, the second selection state is entered, but by connecting the connecting means 4A to the measuring device 2 while pressing the button 50A of the selection means 5A, the second selection state is entered, and when the button 50A of the selection means 5A is pressed, the second selection state is entered. The first selection state may be entered by connecting the connecting means 4A to the measuring instrument 2 without pressing 50A. In short, any selection state may be selected depending on whether or not the button 50A of the selection means 5A is pressed.
Further, in the first embodiment, the slider 50 of the selection means 5 is a slide type switch, and in the second embodiment, the button 50A of the selection means 5A is a push button type switch, and both are mechanical switches. Although the selection means is a switch, it does not have to be a mechanical switch, and may be a switch that can be selected by voice input, for example. In short, it is sufficient that the selection means can be operated by the user to select one of the first selection state and the second selection state.

In each of the embodiments described above, the processing means 20 and 20A were provided with the connection detection section 21 for detecting whether or not the connection means 4 and 4A were connected, but the processing means 20 and 20A do not need to be provided with the connection detection section. In this case, for example, the selection means 5, 5A may be operated in a state where the measuring device 2 and the processing device 3 are connected by the connection means 4, 4A, and the processing means is in the selected state of the selection means 5, 5A. Based on this, it may be possible to switch to either the first measurement mode or the second measurement mode during the measurement. In short, the processing means includes a selection state determination section that determines the selection state of the selection means, and when the selection state determination section determines the selection state, the processing means determines the first selection state based on the selection state determined by the selection state determination section. It is only necessary to include a switching section that switches to the first measurement mode when it is determined that the device is in the selected state, and switches to the second measurement mode when it is determined that it is the second selected state.
In the second embodiment, the selection means 5A functions as the output means 8 after switching between the measurement modes 6 and 7 by the switching unit 23, but the output means does not have to be used also as the selection means, and other The means may be an output means or may not be provided.

INDUSTRIAL APPLICATION As mentioned above, this invention can be suitably utilized for an information processing system and its connection means.

1, 1A information processing system 2 measuring equipment 20, 20A processing means 21 connection detection section 22, 22A selection state determination section 23 switching section 3 processing device 4, 4A connection means 5, 5A selection means 6 first measurement mode 7 second measurement mode

Claims (5)

A measuring device having processing means for measuring a measurement target and processing measurement information , a processing device for processing the measurement information from the measuring device, and a connecting device for connecting the measuring device and the processing device. An information processing system comprising:
The measuring device is
a first measurement mode in which the measurement device is set to predetermined measurement conditions to perform measurement;
a second measurement mode in which the measurement device is set to measurement conditions different from those in the first measurement mode to perform measurement;
The connection means is
comprising a selection means operated by a user to select one of a first selection state and a second selection state;
The processing means includes:
a selection state determination unit that determines the selection state of the selection means;
When the selection state is determined by the selection state determination section, when it is determined that the selection state is the first selection state based on the selection state determined by the selection state determination section, the first measurement mode is selected. and a switching unit that switches to the second measurement mode when it is determined that the second selection state is selected ,
The processing means includes a connection detection unit that detects whether the connection means is connected,
The information processing system is characterized in that the selection state determination section determines the selection state of the selection means when the connection detection section detects the connection of the connection means. In the information processing system according to claim 1,
An information processing system characterized in that the selection means is a mechanical switch operated by a user. In the information processing system according to claim 1 or claim 2 ,
The selection means is a push-button switch that selects one of the first selection state and the second selection state depending on whether or not it is pressed;
When the connection of the connection means is detected by the connection detection section while the selection means is pressed down;
The selection state determining unit determines that the selection state is one of the first selection state and the second selection state selected by the selection means,
When the connection of the connection means is detected by the connection detection unit in a state where the selection means is not pressed;
The information processing system is characterized in that the selection state determination unit determines that the selection state is the other one of the first selection state and the second selection state selected by the selection means. In the information processing system according to claim 3 ,
The connection means is
output means for outputting the measurement information to the processing device when the user presses the selection means after the switching unit switches to either the first measurement mode or the second measurement mode; An information processing system comprising: A connection means for connecting the measuring device and the processing device in the information processing system according to any one of claims 1 to 4 , comprising:
A connection means comprising a selection means operated by a user to select one of a first selection state and a second selection state.

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