JP2550811B2 - Communication control method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication control method suitable for spinning machines such as spinning machines and automatic winders.

[0002]

2. Description of the Related Art Conventionally, in a spinning machine, a control unit of each span in which a number of spinning units are grouped into a plurality of groups (spans) and a central controller are connected by a communication line, ) To the control unit (slave station) of each span of each spinning machine to collect data. That is, when data to be transmitted to the control device such as a full threaded yarn is generated in each slave station, the slave station transmits the data after waiting for the polling cycle to come.

[0003]

However, in this method, even if data to be transmitted to the control device immediately occurs in each span, the data is transmitted until the polling cycle (for example, 2 seconds) is reached. I can't. Of course,
For applications where the purpose is merely to collect data, the conventional polling method is not considered to cause any problems.
In the case of a system in which a faster response is required, or in a system in which the number of N is large in a communication system in which a master station and a slave station are 1: N, the delay required for polling becomes a problem. On the other hand, it is possible to reduce the polling interval by dealing with such a problem, but it becomes complicated in terms of software and hardware, and the occurrence of full yarn in the spinning yarn and the package in a spinning machine, an automatic winder, etc. This is a phenomenon that occurs irregularly and that thread breakage and the like rarely occur, and it is wasteful to frequently poll for the occurrence of such an event.

Therefore, an object of the present invention is to solve the above problems and to provide a communication control method capable of communicating from an arbitrary slave station to a master station even while polling is being executed.

[0005]

A communication control method of the present invention is different from a communication line for data communication between a master station and a slave station.
Slave station where data to be transmitted is generated by the line provided in
First of all, the parent station is not using the communication line and other children
Send to the master station after confirming that the station has not requested transmission
Notify the request and set up separately from multiple slave stations
Send to each slave station so that transmission requests do not occur simultaneously on the line
Prioritize requests and follow the priority of the outgoing request
The slave station, which has been enabled to send data, immediately sends the data to the master station.
It is something that is done. Serial priority from master station to slave station
Priority is given to the transmission request to each slave station by connecting with the order determination line
You may rank.

[0006]

When each span of the spinning machine is a slave station and the control device is a master station, a communication line for polling is provided between them .
Has been. In the present invention, for example, a bus request line is provided separately from the polling communication line. When data to be transmitted immediately occurs in one of the slave stations, the slave station uses the polling busy line to connect to the master station.
Is being polled by another slave station
After confirming that the request is not made, the master station is notified of the data transmission request through the bus request line. If there is a data transmission request, the controller will set the polling timing.
Suspend temporarily and receive the data of the slave station that requested data transmission. In this way, the slave station determines whether the master station is polling.
Data will be sent after confirmation, so it should be sent immediately
When data occurs, send it without waiting for polling.
Can believe

If only the bus request line is provided, a problem arises when a plurality of slave stations issue requests at the same time. Therefore, the slave stations are connected in series by the priority determining line from the master station, and the slave stations are ranked so that transmission requests from a plurality of slave stations do not simultaneously occur on the line. By this serial priority determination method, only the highest priority slave station can use the communication system, and the slave station can freely communicate.

[0008]

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

As an example of a communication system in which a master station and a slave station are 1: N in FIG. 1, a large number of spinning units of a spinning machine are grouped into n groups (spans), and a central control unit 1 for the entire spans is arranged. 1 shows a communication system configuration in which a master station (master station) 10 is used and a control unit (hereinafter simply referred to as span) 2 of each span is used as a slave station (slave station) 20.

The central controller (master station) 1 and each span (slave station) 2 are connected by a communication line 3, and the master station 10 polls each slave station 20. In addition to the communication line 3 for polling, a polling busy (PBUSY) line 4 and a bus request (BREQ) line 5 are provided between the control device 1 and each span 2. That is, master station 1
0 is a PB in addition to the TxD and RxD terminals 11 for transmission and reception.
USY (polling busy) output terminal 12 and BREQ
The slave station 20 also has a PBUSY (polling busy) input terminal 22 and a BREQ (bus request) input / output terminal 23 in addition to the (bus request) input terminal 13. , And the polling busy line 4 and the bus request line 5, respectively.

On the master station 10 side, the PBUSY output terminal 12 is a terminal for outputting a signal indicating that the master station 10 is polling, and before the master station 10 starts polling using the communication line 3. , The polling busy line 4 is activated to "L", and the slave station 20 is notified that polling is in progress. When the polling is completed, the polling busy line 4 is set to H to notify the slave station 20 that the use of the communication line 3 is completed.

On each slave station 20 side, the BREQ input / output terminal 23 has an open collector output in which DSR (data set ready) and DTR (data terminal ready) are connected, as shown in FIG. Each slave station 20 is connected to the bus request line 5 by a wired OR. When any of the slave stations 20 makes a transmission request,
The BREQ input / output terminal 23 is set to active "L". Therefore, the slave station 20 confirms that the bus request line 5 is "H", that is, no slave station makes a transmission request, and then sets the BREQ input / output terminal 23 to "L" to make a transmission request. To do. On the master station 10 side, the BREQ input terminal 13 monitors whether or not any of the slave stations 20 is requesting transmission, and when requesting transmission, the master station 10 suspends the polling timing,
After receiving the data from the slave station requesting the transmission, if there is no other slave station requesting the communication, polling is restarted again.

If the slave stations 20 are wired-OR connected to the bus request line 4 as described above, if a plurality of slave stations 20 issue transmission requests at the same time, there is a possibility that the collision will occur. This is inconvenient in constructing a system capable of requesting transmission from the slave station 20 at the time. Therefore, the master station 10 is provided with a BPRO0 (bus priority zero) output terminal 14, and the slave station 20 is provided with a BPRN (bus priority in) input terminal 24 and a BPRO (bus priority out) output terminal 25, so that each child The BPRN input terminal 24 and the BPRO output terminal 25 of the station 20 are connected to each other in series by a line (serial priority line) 26, and then connected to the BPRO0 output terminal 14 of the master station 10. In the serial priority line 26, the slave station 20 closer to the master station 10 is determined to have a higher priority by the serial priority determining method. The BPRO0 output terminal 14 outputs an output signal to the slave station 20 having the highest priority in the serial priority determination method, and this signal interrupts transmission from other slave stations 20. Therefore, a plurality of slave stations 20
When the mobile stations 20 simultaneously issue transmission requests, only the slave station 20 having the highest priority can use the communication system.

FIG. 2 shows a hardware configuration of this serial priority determining method, and the BPRN input terminal 24 of the slave station 20.
The NAND gate 30 is provided between the BPRO output terminal 25 and the BPRO output terminal 25. When the slave station 20 makes the BREQ input / output terminal 23 active "L" to issue a transmission request, that is, when DTR is issued, the NAND gate 30 is prohibited. hand,
The output is not output to the BPRO output terminal 25 (non-active state). Therefore, even if there is a transmission request RTS in the next-stage slave station 20 having a low priority,
NAND with this signal and BPRN signal as two inputs
Clear to send C which usually comes back to gate 31
TS cannot be obtained and communication cannot be performed. In short, the priority of the slave station 20 becomes lower as it gets farther from the master station 10, and only the slave station 20 having the highest priority can make a transmission request, and a plurality of transmission requests collide on the bus request line 5. Is avoided.

FIG. 3 shows a transmission procedure of the slave station 20. After confirming that the master station 10 is not polling (step), it is confirmed that another slave station 20 is not requesting transmission (step). Then, another slave station 20
Notify that the local station is requesting transmission (step). The transmission request RTS is activated to "L" (step), and the clear-to-send CTS is activated to "L".
If (step), communication is started (step). In the step, the clear-to-send CTS becomes active "L" when both the transmission request RTS and the BPRN input are "L".

In FIG. 2, reference numeral 32 denotes a bypass path when the slave station 20 goes down (including power down) due to a computer runaway or the like. When the slave station 20 goes down, the relay B contact RA1 switches. , B regarding the slave station 20
Bypass between the PRN input terminal 24 and the BPRO output terminal 25.

The features of the master / slave communication system will be described below. When a certain slave station 20 is “bus-accessing”, another slave station 20 does not make a bus request even if it has a high priority. However, there may be interruption by the master station 10. Further, regarding data collection, a conventional polling method can be used. Since the plurality of slave stations 20 do not have the bus access right, the slave station 20 having the access right can immediately (without polling) transmit. By controlling BREQ or BPRN1 by the master station 10, it is possible to suspend the transmission of the slave station 20.

Due to the above-mentioned structure, when data to be transmitted immediately occurs in one of the spans 2 of the spinning frame, the span 2 requests the control device 1 and the bus request line 5 to transmit the data. Can be notified. If there is a data transmission request, the control device 1 changes the polling order and receives the data of the span for which the data transmission request is made. If data transmission requests occur simultaneously in a plurality of spans, polling is performed according to the priority of each span. After the data processing is completed, the normal polling is resumed.

Although a spinning machine has been described as an example in the above embodiment, the present invention is not limited to this and can be applied to a communication control method in another spinning machine such as an automatic winder or the like.

[0020]

As described above, according to the present invention, it is possible to obtain a communication system capable of requesting transmission from any child station to a parent station at any time even during polling. . The conventional polling method can be applied as it is to the data collection, and it is not necessary to shorten the polling cycle.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a communication system according to an embodiment of a communication control system of the present invention.

FIG. 2 is a diagram showing a configuration example of serial priority order determination in the slave station of FIG.

FIG. 3 is a diagram showing a communication procedure in a slave station in FIG.

[Explanation of symbols]

 1 Central Control Unit 2 Span (Control Unit) 3 Communication Line 4 Polling Busy (PBUSY) Line 5 Bus Request (BREQ) Line 10 Master Station (Master Station) 11 TxD and RxD Terminals for Transmission / Reception 12 PBUSY (Polling Busy) Output terminal 13 BREQ (bus request) input terminal 14 BPRO0 (bus priority zero) output terminal 20 Slave station (slave station) 21 Transmission / reception terminal 22 PBUSY (polling busy) input terminal 23 BREQ input / output terminal 24 BPRN (bus priority in) ) Input terminal 25 BPRO (Bus Priority Out) output terminal 26 Serial priority line 30,31 NAND gate 32 Bypass path DSR Data set ready DTR Data terminal ready RTS Transmission request CTS Clear to send RA1 B contact of relay

Continuation of the front page (56) Reference JP-A-59-104844 (JP, A) JP-A-63-65731 (JP, A) JP-A-59-122257 (JP, A) JP-A-63-294030 (JP , A) JP-A-1-284198 (JP, A)

Claims (2)

(57) [Claims] 1. A slave station in which data to be transmitted is generated by a line provided separately from a communication line for data communication between the master station and the slave station , the master station does not use the communication line. Over
After confirming that each slave station and another slave station have not requested transmission, each slave station notifies the master station of the transmission request and prevents multiple slave stations from simultaneously requesting transmission on the separately established line. In the communication control method, the priority order of the transmission request is assigned to the slave station, and the slave station which becomes ready to transmit according to the priority order of the transmission request immediately transmits the data to the master station. 2. The communication control method according to claim 1, wherein the master station is connected to the slave stations in series by a priority order determination line to prioritize the transmission requests to each slave station.