JPH04336604A - Nc device - Google Patents

Abstract

PURPOSE:To monitor plural NC devices at one time with a single monitoring means end to omit the mental switching operations. CONSTITUTION:The communication end the transfer of date are carried out between a monitoring means 1 and the NC devices 2-4. Thus the means 1 can monitor the devices 2-4. A selection recognizing means 24 recognizes the selection signal. received from the means 1. If the devices 2-4 of its own are selected based on the recognizing result of the means 24, the transfer of data is granted to the means 1 by a control means 25. This means 25 also perform the control to inhibit the transfer of data to the means 1 if those devices 2-4 are not selected.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an NC device that can connect one monitoring means and a plurality of NC devices at the same time.

0002

2. Description of the Related Art As shown in FIG. 5, the conventional method for one monitoring means 1 to monitor a plurality of NC devices 2, 3, 4 is to are connected by one communication cable 13 and a connector 14 connected to the communication cable 13. If you need to monitor another NC device, for example NC device 3, use the communication cable 1 to which monitoring device 1 and NC device 2 are connected.
3, and the removed connector 14 must be attached to the NC device 3.

Further, as shown in FIG. 6, a plurality of NC devices 2, 3, 4 and a switching device 15 for selecting these NC devices are connected by respective communication cables 16, and the switching device 15 and the monitoring In some cases, the means 1 are connected by a communication cable 16. In this method, the monitoring means 1 and the plurality of NC devices 2, 3, 4 are selected by manually operating the switch 15, so that one, for example, the NC device 2 is connected.

[0004] Therefore, in any of the above methods, it is not possible to connect a plurality of NC devices 2, 3, and 4 to one monitoring means 1 at the same time.

[0005]

[Problems to be Solved by the Invention] As described above, in order to monitor a plurality of NC devices 2, 3, and 4 with the monitoring means 1, it is not necessary to change the connection of the connector 14 or manually operate the switch 15. It may take time to switch the NC device, or inconvenience may occur due to poor connection between the connector 14 and the switch 15, or the monitoring means 1 may simultaneously
There is a problem that C devices 2, 3, and 4 cannot be monitored.

The present invention takes these problems of conventional NC devices into consideration and makes it possible to simultaneously monitor a plurality of NC devices 2, 3, 4 with one monitoring means 1 by adding a simple circuit. NC, which eliminates the need for manual switching.
The purpose is to provide a device.

[0007]

[Means for Solving the Problems] The present invention includes a selection recognition means that recognizes a selection signal from the monitoring means, and a monitoring means when its own NC device is selected based on the result of the selection recognition means. allow the exchange of data, and
If the device is not selected, it is an NC device equipped with a control means for controlling not to permit data exchange with the monitoring means.

[0008]

[Operation] In the present invention, when the selection recognition means provided in each NC device receives a selection signal from the monitoring means, it recognizes the signal, and based on the result of the selection recognition means,
The control means provided in each NC device allows data exchange with the monitoring means when its own NC device is selected, and allows data exchange with the monitoring means when its own NC device is not selected. The NC device to be controlled and communicated with is selected so as not to permit data exchange.

[0009]

Embodiments Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a schematic configuration diagram of an embodiment of an NC device according to the present invention. That is, a communication cable 9 for outputting and inputting data to the network line 7 is connected to the monitoring means 1, and a line splitter 10 for branching from the network line 7 is connected to this communication cable 9. ing. A network line 7, which is a network communication cable, is connected to this line splitter 10. Branchers 10 corresponding to the number of NC devices are successively connected to the network line 7, and these branchers 10 are also connected to another communication cable 9. This communication cable 9
are connected to each NC device 2, 3, and 4, respectively. Selection recognition means 24 and control means 25 are provided within the NC devices 2, 3, and 4.

Next, the monitoring means 1 and each NC device 2, 3, 4
As shown in FIG. 2, the monitoring means 1 has an input/output interface 17 for transmitting and receiving data. This input/output interface 17
is connected to a communication interface 11 provided inside or near the monitoring means 1. This communication interface 11 has a function of performing network communication, and is equipped with a driver for outputting data and a receiver for inputting data. Further, the network line 7 includes a transmission line 6 for transmitting output data and a reception line 5 for transmitting received data when viewed from the monitoring device 1. The driver of the communication interface 11 is connected to the transmission line 6 of the network line 7, and the receiver of the communication interface 11 is connected to the reception line 5 of the network line 7.

[0012] The network line 7 is connected to as many line splitters 10 as there are NC devices. These line separators 1
A communication cable 9 for reception of each NC device 2, 3, 4 is connected to the transmission line 6 in 0, and a communication cable 9 for transmission of each NC device 2, 3, 4 is connected to the reception line 5. Cables 9 are connected to each. These communication cables 9 for reception are connected to the receivers 121 of the communication interfaces 12 built in each NC device 2, 3, and 4, and the communication cables 9 for transmission are connected to the drivers 122 of the communication interfaces 12, respectively. has been done. This communication interface 12 is the same as the communication interface 11 on the monitoring means 1 side described above. The receiver 121 and driver 122 of the communication interface 12 built into each of the NC devices 2, 3, and 4 are both connected to the serial I/O circuit 19 within each of the NC devices 2, 3, and 4. This serial I/O circuit 19 is connected to a CPU 20 that controls the NC device.
0 has another I/O circuit 21 for controlling the NC device,
A memory 22, a peripheral circuit 23, etc. are also connected. The I/O circuit 21 and the driver 122 of the communication interface 12 are connected by a control signal line 8 to control ON/OFF of the driver 122. The selection recognition means 24 also includes the communication interface 12 and C.
The control means 25 is configured by software such as PU20, and the control means 25 is a CP.
It is configured in terms of software, including U20 and I/O circuits.

Next, the operation of the above embodiment will be explained. First, the monitoring means 1 issues a selection command to select the NC device to be monitored. In this case, the operating procedure may be entered in advance and performed automatically, or may be performed manually by the operator. Then, the monitoring means 1 is N
The C selection signal is output to the transmission line 6 of the network line 7. For example, assume that a selection signal for monitoring the NC device 2 is output. Then, the selection signal output to the transmission line 6 is transmitted to the communication interface 12 built in each NC device 2, 3, 4 connected to the transmission line 6.
are respectively input to the receiver 121 of. These receivers 121 transmit the input selection signals to their respective serial I/Os.
It is sent to each CPU 20 through the circuit 17. Each C in each NC device 2, 3, 4 that received this selection signal
The PU 20 recognizes whether the selection signal is a signal for selecting its own NC device. Recognizing that the signal does not select their own NC device, the NC devices 3 and 4 issue a command from their respective CPUs 20 to their respective I/O circuits 21 to turn off the drivers 122 of their respective communication interfaces 12. put out. Each I/O circuit 21 receiving the command from each CPU 20 outputs an OFF control signal to each driver 122 through each control signal line 8 . These drivers 122 prevent data from being output from the NC device 3 and the NC device 4 to the respective transmission communication cables 9, and therefore to the reception line 5. Further, the NC device 2 recognizes that the signal is to select its own NC device, and the
Communication interface 1 from PU 20 to I/O circuit 21
A command is issued to turn on the second driver 122. C.P.
The I/O circuit 21 receiving the command from U20 outputs an ON control signal to the driver 122 through the control signal line 8. This driver 122 then enables the output of data from the NC device 2 to the transmitting communication cable 9 and thus to the receiving line 5. In this way, N
When the C device 2 is selected, the CPU 20 of the NC device 2 communicates with the communication interface 12 through the serial I/O circuit 19.
The driver 122 outputs a data transmission request signal to the receiving line 5 to the monitoring means 1. The request signal for data transmission from the NC device 2 output to the receiving line 5 is as follows:
It is input to the receiver of the communication interface 11 of the monitoring means 1 connected to the receiving line 5. The data transmission request signal inputted to the receiver is transmitted to the monitoring means 1, and the monitoring means 1 judges this request signal and sends the data to be transmitted to the NC device 2 from the input/output interface 17 of the monitoring means 1 to the communication interface 11. Output to. The communication interface 11 outputs this data from its driver to the transmission line 6. The data output to the transmission line 6 is once input to the receiver 121 of the communication interface 12 of each NC device 2, 3, 4. Since the CPUs 20 of each of the NC devices 3 and 4 recognize that they are not selected, they ignore this data. Since the CPU 20 of the NC device 2 recognizes that it has been selected, it imports this data and
Processed within the C device 2. After processing the data, N
The C device 2 outputs data to be sent to the monitoring means 1 from the driver 122 of the communication interface 12 to the receiving line 5. The data output from this NC device 2 is monitored by the monitoring means 1.
is input to the receiver of the side communication interface 11,
This input data is received by the monitoring means 1 through the input/output interface 17. The monitoring means 1 processes the received data and sends the data from the monitoring means 1 to the NC device 2.
If there is data to be transmitted, the data is output from the driver of the communication interface 11 to the transmission line 6 in the same manner as described above. Data exchange is repeated in this manner until there is no more data to send. When the monitoring means 1 runs out of data to be transmitted, the monitoring means 1 ends communication with the NC device 2 by its own judgment, by an end command, or by other methods such as receiving a communication end signal from the NC device 2.

Next, when communication with the NC device 2 is terminated and another, for example, another NC device 3 is selected for monitoring,
This time, the monitoring means 1 sends a selection signal for selecting the NC device 3,
It is output from the driver of the communication interface 11 to the transmission line 6. Communication is then started between the monitoring means 1 and the NC device 3 following the same procedure as when the NC device 2 was selected. In this way, since a plurality of NC devices are connected to the monitoring means 1, the necessary NC devices can be selected by simply outputting the selection signal of the NC device to be monitored from the monitoring means 1 to the network line 7 common to each device. Can monitor equipment. FIG. 4 shows these communication procedures.

Further, as shown in FIG. 3, a network line 13 having a common transmission line and a reception line is provided, and one monitoring means 1 and a plurality of NC devices are connected to this network line 13 by a communication interface. It is also possible to connect via

[0016] Furthermore, the network line 7 and the network line 13 may be formed by adding a photoelectric conversion means to the communication interface 11 and using an optical fiber cable.

It is also conceivable to eliminate the communication lines of the network line 7 and the network line 13, and add a space communication means using radio or infrared rays to the communication interface 11 to communicate in space as a network line.

Furthermore, the selection recognition means and control means of the present invention may be realized in software by a microcomputer as described above, or may be realized using dedicated hardware having these functions.

[0019]

[Effects of the Invention] As is clear from the above description, the present invention provides a selection recognition means for recognizing a selection signal from a monitoring means, and a case where one's own NC device is selected based on the result of the selection recognition means. allows data exchange with the monitoring means, and if its own NC device is not selected,
Since it is equipped with a control means that controls not to allow data exchange with the monitoring means, it is possible to monitor multiple NC devices at the same time with one monitoring means, and it takes less time to select an NC device. It has the advantage that it can also eliminate connection failures.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration diagram of an embodiment of an NC device according to the present invention.

FIG. 2 is a schematic connection diagram of the network of the same embodiment.

FIG. 3 is a schematic connection diagram of a network in another embodiment.

FIG. 4 is a diagram showing a communication procedure in the same embodiment.

FIG. 5 is a schematic connection diagram using a conventional connector.

[
FIG. 6 is a schematic connection diagram using a conventional switch.

[Explanation of symbols]

1. Monitoring means 2 NC device 3 NC device 4 NC device 7 Network line 24 Selection recognition means 25 Control means

Claims (1)

[Claims] 1. Selection from monitoring means that allows the monitoring means to monitor the plurality of NC devices by communicating with the plurality of NC devices and transmitting and receiving data between the monitoring means and the plurality of NC devices. A selection recognition means for recognizing a signal, and if the own NC device is selected based on the result of the selection recognition means, data exchange with the monitoring means is permitted, and the own NC device is not selected. In case,
An NC device comprising: control means for controlling not to permit data exchange with the monitoring means.