JPS6325505A - Indication-holding type measuring apparatus - Google Patents

Abstract

PURPOSE:To reduce the number of SWes, by using a single switch (SW) as hold-switches and data-switches. CONSTITUTION:A hold-switch SW 28 is of a toggle-operation type and connected with a source through a pull-up resistance 36 and with a controlling circuit 30 through a JKFF 38. And, when an external processing apparatus 34 is out of connection, and the SW 28 is pushed and then released, a hold-signal H is issued in a pulse and an interrupting signal I becomes active and an indication value is held by a circuit 30. When the SW 28 is pushed and released again, the signal becomes inactive and holding of the indication value is released. On the other hand, in case of connection of the apparatus 34 when the SW 28 is pushed and released, a signal H is issued and the signal 1 becomes active. Then, a ready-signal RD becomes active also. In this condition, when a data- enquiry signal REQ from the apparatus 34 becomes active, the signal RD is reversed to inactive condition and data are transported using a signal line L transporting a clock-signal CK and that M transporting DATA.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a display value holding type measuring instrument, and particularly relates to a transducer that converts the displacement of a measuring point into an electrical signal, a measuring circuit that processes the electrical signal to obtain a measured value, and a measuring circuit that processes the electrical signal and displays the measured value. It includes a display, a hold switch for instructing to hold the displayed value, and a control circuit for controlling the functions of the measuring instrument according to commands from operation switches including the hold switch, and transmits data to an external data processing device. Regarding the improvement of a display value holding type measuring instrument having the function of outputting

[Conventional technology]

In recent years, measuring instruments such as electronic digital calipers and electronic digital micrometers that have built-in capacitance type, photoelectric type, etc. transducers and that digitally display measured values have become contradictory. In such a measuring instrument, there is a display value hold function that is effective when performing measurements in a position where the display cannot be directly viewed. Furthermore, in order to statistically process the measured values, there is a measured value output function that outputs data to an external data processing device such as a host computer. Hold switch 1 for controlling the hold function
2 and a data output switch 14 for controlling data output are provided separately, as shown in FIG. 5, taking the electronic digital caliper 10 as an example. That is, in FIG. 5, the hold switch 12 is installed near the display 16 of the main body of the measuring instrument, and the data output switch 14 is installed on the plug 18 of the connector for interface with an external data processing device.

[Problems to be solved by the invention]

However, in electronic measuring instruments, there is a demand for reducing the number of switches as much as possible. That is, providing a mechanical switch increases costs, and it is better to create a form that can be processed inside the integrated circuit as much as possible to reduce costs. A method of mechanically switching by connecting with a connector may also be considered, but this would warp and increase costs. Furthermore, as technology advances, newer functions such as a data preset function are required, so it is desirable to reduce the number of switches required to implement conventional functions as much as possible.

[Purpose of the invention]

The present invention was made to solve the above-mentioned conventional problems, and provides a display value holding type measuring instrument that can reduce the number of switches by using a single switch as both a hold switch and a data output switch. 9 with the purpose of providing

[Means to solve the problem]

The present invention includes a transducer that converts the displacement of a probe into an electrical signal, a measurement circuit that processes the electrical signal to obtain a measured value, a display that displays the measured value, and a command to hold the displayed value. A display value holding type that includes a hold switch for controlling the display and a control circuit for controlling the functions of the measuring instrument according to commands from the operation switch including the hold switch, and has the function of outputting data to an external data processing device. In the measuring instrument, the hold switch has a function of holding a displayed value when an external data processing device is not connected, and a function of outputting data in response to a data request signal when an external data processing device is connected. According to embodiment B of the present invention, a signal line whose state changes according to the operation of a hold switch is input to the control circuit, and the external data processing device is The connection is made using at least a signal line indicating that data output is possible and a signal line indicating a data request. In another embodiment of the present invention, the hold switch maintains the 8!1 ability to hold the displayed value even when an external data processing device is connected. Further, in another embodiment of the present invention, the hold switch is of a toggle operation type in which holding and releasing the hold are repeated each time the hold switch is pressed and released when the external data processing device is not connected.

[Effect]

The present invention provides a measuring instrument that has a function of holding display values and a function of outputting measured data to an external data processing device.The present invention provides a hold switch on the main body of the measuring device, and displays a display when the measuring device is not connected to the external data processing device. It is designed to only hold the value 1, and to act as a data output switch when connected to an external data processing device. Therefore, one switch can serve both as a hold switch and a data output switch, and the number of switches can be reduced.

【Example】

Embodiments of the present invention will be described in detail below with reference to the drawings. As shown in FIG. 1, this embodiment includes a transducer 20 that converts the displacement of a probe (not shown) into an electrical signal, a measuring circuit 22 that processes the electrical signal to obtain a measured value, and a display. A display 26 that displays the measured value input from the measurement circuit 22 via the buffer 24, a hold switch 28 for instructing to hold the displayed value, and the hold switch 28.
and a control circuit 30 for controlling the functions of the measuring instrument according to commands from various operation switches (not shown), including a function for outputting data to an external data processing device 34 via an output buffer 32 and a connector 33. In the display value holding type measuring instrument having the above, the hold switch 28 has a function of holding the display value when the external data processing device 34 is not connected, and when the external data processing device 34 is connected, the hold switch 28 has the function of holding the displayed value, and when the external data processing device 34 is connected, It has a function of outputting data DATA accordingly. The hold switch 28 is connected to an external data processing device 34.
It is a toggle operation method that repeats bold and hold release every time it is pressed and released when it is not connected to the JK flip-flop 38. control circuit 3
Connected to 0. Since the JK terminal of this JK flip-flop 38 is not used, the output Q is inverted every time a negative logic hold signal H is input to the clock terminal CK. This output Q becomes logic O (inactive) when inputted to the reset terminal R. The characteristic configuration of the present invention is the control circuit 30, and the software configuration of this control circuit 30 will be explained with reference to the flow chart of FIG. In FIG. 1, three are pull-up resistors. That is, in the control circuit 30, when the interrupt signal, which is the output Q of the JK flip-flop 38, becomes logic 1 (active), the process goes to step 110, and in step 112, the update of the display buffer 24 is stopped, and the display is displayed on the display 26. Make sure the value is held. Next, the process proceeds to step 114, where a negative logic ready signal RD indicating that data can be output to the outside is set to logic 0 (active). Next, in step 116, it is determined whether the negative logic signal REQ, which is the data request signal from the external data processing device 34, is logic 0 (active).If the result of the determination is negative, the process proceeds to step 118. , if the result of the 1 determination is positive, the process returns to step 116. On the other hand, if the determination result in step 118 is negative,
Proceeding to step 120, the ready signal RD is set to logic 1 (inactive), and in step 122, the display buffer 24
is updated to release the display value hold and return to normal mode. On the other hand, if the determination result in step 116 is positive and it is determined that the data request signal REQ is active, the process proceeds to step 130 and the ready signal RD is set to logic 1.
(inactive). Next, the process proceeds to step 132, in which the data in the display buffer 24 is transferred to the output buffer 32 using the data signal line M and the clock signal fiL, and then the data is transmitted to the outside. After the data transmission is completed, in step 134, the reset signal N
is input to the JK flip-flop 38 to set the interrupt signal to logic 0 (inactive), and the process proceeds to step 122. The operation when the external data processing device 34 such as a host computer or printer is not connected will be described below with reference to FIG. In this case, when the hold switch 28 is pressed once and released, the hold signal H is output as a pulse as shown in FIG. 3(A). Then, Figure 3 (B
), the interrupt signal is activated and the display value is held by the control circuit 30. At this time, as shown in FIG. 3(C), the signal line J having the ready signal RD also becomes active, but this signal iJ is not read externally, and the data request signal REQ is connected to the three pull-up resistors. Because it is pulled up by
), the data request signal REQ does not change. If the hold switch 28 is pressed again in this state, the interrupt signal T becomes inactive, the ready signal RD becomes inactive, and the display value is released from being held. and return to normal routine. On the other hand, when the external data processing device 34 is connected, the hold switch 28 also functions as a data output switch, resulting in an effect as shown in FIG. 4. That is, when the hold switch 28 is pressed and released, the hold signal H is output as a pulse, as shown in FIG. 4A, and the interrupt signal 2 becomes active, as shown in FIG. 4B. Then, as shown in FIG. 4(C), the ready signal RD also becomes active. In this state, as shown in FIG. 4 <D), the data request signal REQ from the external data processing device 34 is
becomes active, the ready signal RD is inverted to inactive, and the signal fiL, which transfers the clock signal OK, is inverted to inactive.
When data is transferred as shown in FIG. 4(E), <F) using the signal f1M that transfers the data DATA, the signal i is transferred as shown in FIG. 4(G).
A negative logic pulse (reset signal) is output to 1N, and J
The K flip-flop 38 is reset and the interrupt signal ■
becomes inactive, the display value is no longer held, and the normal routine returns. In this embodiment, the hold switch 28 maintains the function of holding the displayed value even when the external data processing device 34 is connected, and if the data request signal REQ does not become active due to an abnormality in the external data processing device 34. Since the displayed value is held indefinitely, the display also serves as a warning of an abnormality. Further, in this embodiment, since the hold switch 28 is of a toggle operation type, the external data processing device 34
When used as a data output switch that outputs data to a computer, there is no need to keep the switch pressed all the time, and the operation is simple. Note that the operation method of the bold switch 28 is not limited to this, and while the switch is pressed, it is held;
It is also possible to use one that releases the hold when released. Note that the positive logic signal and negative logic signal in the above embodiments are not essential, and may be of opposite logic type. or,
For data transfer, various methods can be considered, such as not only serial output of the clock signal CK and data DATA, but also parallel output.

【Effect of the invention】

As explained above, according to the present invention, the hold switch and the data switch can be combined into one, and the number of switches can be reduced. 9 Furthermore, when used as a data output switch,
This has an excellent effect such that the held state of the displayed value also serves as a warning of abnormality in the external data processing device.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the display value holding type measuring instrument according to the present invention, FIG. 2 is a flowchart showing the operation of the control circuit in the embodiment, and FIG. In the embodiment, a diagram showing an example of the signal waveform of each part when the external data processing device is not connected, and FIG. 4 similarly shows an example of the signal waveform of each part when the external data processing device is connected. 5 is a front view showing an example of a conventional electronic caliper in which a hold switch and a data output switch are separately provided. 20... Transducer, 22... Measurement circuit, 26... Display, 28... Hold switch, 30... Control circuit, 34... External data processing device, REQ... Data Request signal, DATA...Data, H...Hold signal, ■...Interrupt signal, RD...Ready signal.

Claims (4)

[Claims] (1) A transducer that converts the displacement of the probe into an electrical signal, a measurement circuit that processes the electrical signal to obtain a measured value, a display that displays the measured value, and a transducer that instructs to hold the displayed value. In a display value holding type measuring instrument that includes a hold switch and a control circuit for controlling the functions of the measuring instrument according to commands from an operation switch including the hold switch, and has a function of outputting data to an external data processing device. ,
The hold switch has a function of holding a displayed value when an external data processing device is not connected, and has a function of outputting data in response to a data request signal when an external data processing device is connected. Display value holding type measuring instrument. (2) A signal line whose state changes according to the operation of the hold switch is input to the control circuit, and the external data processing device is connected to at least a signal line indicating that data output is possible and a data request. The display value holding type measuring instrument according to claim 1, which is connected using the signal line shown in FIG. (3) The display value holding type measuring instrument according to claim 1, wherein the hold switch maintains the function of holding the display value even when an external data processing device is connected. (4) The display value holding type measuring instrument according to claim 1, wherein the hold switch is of a toggle operation type that repeatedly holds and releases hold each time it is pressed and released when an external data processing device is not connected.