JP5602328B1 - Collective display slave station - Google Patents

Abstract

Control / monitoring in which a master station connected to a control unit and a plurality of output units, input units, and a plurality of slave stations corresponding to controlled devices are connected by a common data signal line, and data is transmitted by a transmission synchronization method. In the signal transmission system, it is possible to easily check the operation status of a plurality of slave stations at the installation site of the slave stations without changing the existing system. The slave station control data and slave station monitoring data are extracted by a timing signal that matches the address number stored in the control reference address storage means and the monitoring reference address storage means, and output according to a plurality of contents of these data is performed.
[Selection] Figure 1

Description

  The present invention reduces the number of signal lines between a master station connected to a control unit and a plurality of output units and input units, or a plurality of slave stations corresponding to a plurality of controlled devices, and connects them with a common data signal line. The present invention relates to a technique for confirming the operation status of a slave station at a site where the slave station is installed in a control / monitor signal transmission system that transmits data using a transmission synchronization method such as synchronization with a transmission clock.

  In a control system including a control unit, a plurality of output units and input units, or a plurality of controlled devices, so-called wiring saving, which reduces the number of wirings, is widely implemented. As a general technique for reducing the wiring, a parallel signal and a serial signal are used instead of a parallel connection that directly connects a plurality of output units and input units or signal lines extending from a controlled device to the control unit. The master station and the plurality of slave stations having the conversion function are connected to the control unit, the plurality of output units and the input unit, or the plurality of controlled devices, respectively, and common data between the master station and the plurality of slave stations. A method of exchanging data with a serial signal via a signal line is widely adopted. In such a control system, normally, the operation statuses of a plurality of slave stations are collectively displayed on the control unit side.

  In addition to the normal operation of the slave station, there has also been a proposal for grasping the disconnection failure of the slave station collectively on the control unit side. For example, the present applicant has proposed a remote wiring check system disclosed in Japanese Patent Application Laid-Open No. 2011-114449 as a system for identifying a disconnection failure between a slave station and an input unit and an output unit on the control unit side. ing. In this remote wiring check system, in a control / monitor signal transmission system having a single control unit and a plurality of controlled devices, between a master station and a slave station connected by a reduced data signal line. A management data area including connection data indicating a wiring state is provided, which is different from a control / monitor data area composed of control data (output data) and monitoring data (input data) transmitted in both directions simultaneously. In the connection data, short-circuit information, disconnection information, and normal information are identified. For this reason, it is possible to easily check the wiring connection state between the slave station itself, the slave station and the input unit, or between the slave station and the output unit without reducing the input data (monitoring data) capacity of the signal.

JP 2011-114449 A

  Attempts to grasp the disconnection failure of the slave station collectively on the control unit side, many man-hours to check the output unit, input unit, or controlled device far away from the control unit and identify the fault location It takes into consideration the fact that it requires. However, in the inspection work of the system, it is necessary to confirm the operation status of a normal slave station that is not disconnected at the slave station installation site. And in such a case, there is a problem that even if the operation status of the slave station can be grasped collectively by the control unit side far from the installation site of the slave station, it takes time and effort to confirm it. there were. In addition, when it is necessary to check the operation status of the slave station at the site where the slave station is installed, a new slave station with an output unit for batch display is provided, and a predetermined control is performed on the control unit side in order to operate the slave station. A program was required, and there was a problem that it was not possible to easily construct a system for checking the operation status of the slave station at the site where the slave station was installed.

  Therefore, the present invention is such that a master station connected to a control unit, a plurality of output units, an input unit, and a plurality of slave stations corresponding to controlled devices are connected by a common data signal line, and data transmission is performed by a transmission synchronization method. Provide a collective display slave station that enables easy confirmation of the operation status of multiple slave stations at the site where the slave stations are installed without changing the existing system. The purpose is to do.

The collective display slave station according to the present invention is connected to a common data signal line in which data transmission is performed by a transmission synchronization method, in which a master station and a plurality of slave stations are connected, and a control address extracting means and a control data extracting means Control reference address storage means, control address setting means, monitoring address extraction means, monitoring data extraction means, monitoring reference address storage means, monitoring address setting means, control display output means, monitoring display output means Is provided.
The control reference address storage unit and the monitoring reference address storage unit store a plurality of predetermined address numbers.
The control address setting means outputs the address numbers sequentially delivered from the control reference address storage means.
The control address extracting means counts the pulses of the transmission signal from the start signal indicating the start of the transmission signal transmitted to the common data signal line, and matches the address number delivered from the control address setting means Get timing signal.
The monitoring address extracting means counts the pulses of the transmission signal starting from a start signal indicating the start of the transmission signal transmitted to the common data signal line, and the count value is delivered from the monitoring address setting means Get the timing that matches the number.
The control data extraction means extracts and outputs slave station control data based on the timing signal.
The monitoring data extracting means extracts and outputs slave station monitoring data based on the timing signal.
The control display output means performs output corresponding to a plurality of contents of the slave station control data output from the control data extraction means.
The monitoring display output means performs output according to a plurality of contents of the slave station monitoring data output from the monitoring data extraction means.

  The collective display slave station according to the present invention includes HT interface means for exchanging data with a separate terminal and transferring data received from the terminal to the control reference address storage means and the monitoring reference address storage means. It may be.

  The control reference address storage unit and the monitoring reference address storage unit may store preset address numbers.

  The control reference address storage unit and the monitoring reference address storage unit may store a preset address number by downloading from the master station.

  As a synchronization method of the transmission synchronization method of the control / monitor signal transmission system to which the collective display slave station according to the present invention is applied, for example, a method using a transmission clock generated by the timing generation means of the master station is suitable. is there. In this case, under the control of the transmission clock, the master station outputs a series of pulse signals as a control signal to the common data signal line according to the value of the control data delivered from the control unit, The data value of the monitoring signal superimposed on the signal for each cycle of the clock from each of the plurality of slave stations is extracted and transferred to the control unit. On the other hand, each of the plurality of slave stations counts the pulses of the series of pulse signals starting from the start signal indicating the start of the series of pulse signals, and when the count value matches the own station address number, The data corresponding to the local station is extracted from the pulse-shaped signal and the monitoring signal is superimposed on the series of pulse-shaped signals in the same pulse cycle as the clock from which the data corresponding to the local station is extracted, or the count value is When it matches with the address number of the local station, data corresponding to the local station is extracted from the series of pulse signals, or the monitoring signal is superimposed on the series of pulse signals. However, the synchronization method is not limited, and a method suitable for the system design condition may be adopted.

  The collective display slave station of the present invention extracts a plurality of data at a predetermined address in a transmission signal from a transmission signal transmitted to a common data signal line, and displays the plurality of data according to the contents of each of the data. To output. Therefore, by storing the address number of the slave station, which is another station that requires status confirmation, in the control reference address storage means and the monitoring reference address storage means, the operation status of the slave station requiring status confirmation is displayed as an operation display. Can be confirmed at the site where the batch display slave station is installed. In addition, information regarding other slave stations can be easily confirmed as a collective operation display. Furthermore, a predetermined control program is not required on the control unit side, and only the work of storing the address numbers in the control reference address storage means and the monitoring reference address storage means at the site of installation of the slave station is required. The operation status can be grasped. In order to display the operation, a display means having a desired display format may be selected as appropriate. However, the content of the operation display can be understood sensuously if it is simple such as the presence or absence of light emission (lights on / off). preferable.

  A child that requires status confirmation is provided if it has HT interface means for exchanging data with a separate terminal and passing the data received from the terminal to the control reference address storage means and the monitoring reference address storage means. The station address number can be easily stored in the control reference address storage means and the monitoring reference address storage means via the terminal. For this reason, even if it is installed in a place where it is difficult for the operator to directly touch and operate in a site where the installation location of the collective display slave station is restricted, the address in the control reference address storage means and the monitoring reference address storage means The number can be stored, and the application range can be expanded.

  On the other hand, when a slave station that requires state confirmation has been determined, by using the control reference address storage means and the monitoring reference address storage means that store the address numbers of the slave stations in advance, the installation site Therefore, it can be used even when it is necessary to install the device in a place where it is difficult for the operator to directly touch and operate it. As a method for storing the address number of the slave station in advance in the control reference address storage means and the monitoring reference address storage means, the address number of the slave station may be downloaded in advance from the master station side and stored.

1 is a system configuration diagram of an embodiment of a collective display slave station according to the present invention. It is a functional block diagram of a reference address storage means. 1 is a system configuration diagram showing a schematic configuration of a control / monitor signal transmission system employing a collective display slave station according to the present invention. It is a system configuration | structure figure of a master station. It is a schematic diagram of the transmission system between a master station and a slave station. It is a front view of a terminal device. It is a system block diagram of a terminal device. It is a time chart figure of a transmission clock signal.

An embodiment of a control / monitor signal transmission system employing a batch display slave station according to the present invention will be described with reference to FIGS.
As shown in FIG. 3, this control / monitor signal transmission system is shared with a control unit 1 and a single master station 2 connected to common data signal lines DP and DN (hereinafter also referred to as transmission lines). A plurality of input / output slave stations 4, output slave stations 6 and input slave stations 7 connected to the data signal lines DP and DN, and a single collective display slave station 10 connected to the common data signal lines DP and DN. Composed. In FIG. 3, for convenience of illustration, the input / output slave station 4, the output slave station 6 and the input slave station 7 are shown one by one, but the slave stations connected to the common data signal lines DP and DN are shown. There are no restrictions on the type or number. The collective display slave stations 10 may be increased according to the number of slave stations that require state confirmation.

  The input / output slave station 4, the output slave station 6, and the input slave station 7 are provided with a signal output process for the output unit 8 that operates in response to an output instruction from the control unit 1 and an input unit 9 that incorporates input information to the control unit 1. One or both of the input signal processing is performed. The output unit 8 is, for example, an actuator, a (stepping) motor, a solenoid, a solenoid valve, a relay, a thyristor, or a lamp. The input unit 9 is, for example, a reed switch, a micro switch, a push button switch, or a photoelectric switch. And various sensors. The input / output slave station 4 is connected to a controlled device 5 including an output unit 8 and an input unit 9, the output slave station 6 is connected only to the output unit 8, and the input slave station 7 is connected only to the input unit 9. Has been. The output slave station 6 may include an output unit 8 (output unit integrated slave station 80), and the input slave station 7 includes an input unit 9 (input unit integrated slave station 90). It may be.

  The control unit 1 is, for example, a programmable controller, a computer, and the like, and is obtained based on the output unit 11 that sends the control parallel data 13 and the monitoring data extracted from the monitoring signals from the input / output slave station 4 and the input slave station 7. Input unit 12 for receiving the monitored parallel data 15. These output unit 11 and input unit 12 are connected to the master station 2.

  As shown in FIG. 4, the master station 2 includes an output data unit 21, a timing generator 23, a master station output unit 24, a master station input unit 25, and an input data unit 26. A control signal (hereinafter referred to as a transmission clock signal) that is connected to the common data signal lines DP and DN and is a series of pulse signals corresponding to the transmission signal of the present invention is connected to the common data signal lines DP and DN. And is extracted from the monitoring signal sent from the input / output slave station 4, the output slave station 6, or the input slave station 7 (hereinafter referred to as "slave stations 4, 6, 7" when referring to all of them) The monitoring parallel data 15 is sent to the input unit 12 of the control unit 1.

  The output data unit 21 delivers the control parallel data 13 from the output unit 11 of the control unit 1 to the master station output unit 24 as serial data.

  The timing generation unit 23 includes an oscillation circuit (OSC) 31 and a timing generation unit 32. Based on the OSC 31, the timing generation unit 32 generates a timing clock of this system and supplies it to the master station output unit 24 and the master station input unit 25. hand over.

  The master station output unit 24 includes control data generating means 33 and a line driver 34. Based on the data received from the output data section 21 and the timing clock received from the timing generation section 23, the control data generation means 33 transmits a series of pulse signals to the common data signal lines DP and DN via the line driver 34. Send a clock signal.

  As shown in FIG. 5, the transmission clock signal has a control / monitoring data area following the start signal ST. The control / monitoring data area includes control signal data (hereinafter referred to as transmission control data) OUTn (n is an integer) transmitted from the master station 2 and monitoring signal data (hereinafter referred to as transmission monitoring data) transmitted from the slave station 4. And INn (n is an integer). As shown in FIG. 8, the pulse of the transmission clock signal has a high potential level (+24 V in this embodiment) in the second half of one cycle and a low potential level (+12 V in this embodiment) in the first half. The pulse width interval of the first half of the pulse that becomes the level becomes the output data period, and the first half of the pulse that becomes the low potential level also becomes the input data period. The pulse width interval of the low potential level represents the control signal data OUTn, and the presence or absence of the current superimposed on the low potential level represents the monitoring signal data INn. In this embodiment, when one cycle of the transmission clock signal is t0, the pulse width interval of the low potential level is extended from (1/4) t0 to (3/4) t0. As long as it corresponds to the value of each data of the control parallel data 13, the width is not limited and may be determined appropriately. Also, the input data period and the output data period can be appropriately determined. For example, the input data period is set to the first half of the pulse (low potential level) as in this embodiment, and the pulse width interval of the second half of the pulse (high potential level) is set. Alternatively, the output data period may be the first half of the pulse (low potential level) and the second half of the pulse (high potential level) may be the input data period as in this embodiment. Further, the latter half of the pulse (high potential level) may serve as both the output data period and the input data period. The same applies to the case where the second half of one cycle of the transmission clock signal is at a low potential level. In FIG. 4, the upper part shows the control data (output data) period, and the lower part shows the monitoring data (input data) period.

  The start signal ST has the same potential level as the high potential level of the transmission clock signal and is a signal longer than one cycle of the transmission clock signal.

  The master station input unit 25 includes a monitor signal detector 35 and a master station monitor data extractor 36. The monitoring signal detection means 35 detects the monitoring signal sent from the input / output slave station 4 and the input slave station 7 via the common data signal lines DP and DN. As described above, the data value of the monitoring signal is represented by the presence / absence of a current superimposed on the low potential level. After the start signal ST is transmitted, each of the input / output slave station 4 and the input slave station 7 The monitor signal is received sequentially. The monitoring signal data is extracted by the master station monitoring data extracting means 36 in synchronization with the signal of the timing generating means 32. Then, the monitoring signal data is sent to the input data unit 26 as serial input data.

  The input data unit 26 converts the serial input data received from the master station input unit 25 into parallel (parallel) data, and sends the parallel data to the input unit 12 of the control unit 1.

  The input / output slave station 4, the output slave station 6 and the input slave station 7 have MCUs which are microcomputer control units as internal circuits, and each of the slave station input / output units 40, the slave station output unit 60 and the slave unit. It functions as the station input unit 70. That is, one or both of signal output processing for the output unit 8 that operates in response to the output instruction of the control unit 1 and input signal processing from the input unit 9 that incorporates input information to the control unit 1 are performed. Yes.

  As shown in FIG. 1, the batch display slave station 10 includes a transmission receiving means 41, a control address extracting means 42, a control data extracting means 43, a monitoring address extracting means 45, a monitoring data extracting means 46, an HT interface means 61, and a control reference. A collective display unit 100 having an address storage unit 62, a control address setting unit 63, a monitoring reference address storage unit 64, and a monitoring address setting unit 65 is provided. Note that the collective display slave station 10 of this embodiment also includes an MCU that is a microcomputer control unit as an internal circuit, similar to the slave stations 4, 6, and 7, and this MCU functions as the collective display unit 100. It has become a thing. Calculations and storages necessary for the processing are executed using the CPU, RAM, and ROM included in the MCU, but the CPU, RAM, and ROM in the processing of each of the above-described units constituting the batch display unit 100 are performed. The relationship is not shown for convenience of explanation.

  The collective display slave station 10 further includes a control display means 44 and a monitor display means 47 connected to the collective display unit 100. Further, an operation display means 48 is connected to the control display means 44 and the monitor display means 47.

  The transmission receiving unit 41 receives the transmission clock signal transmitted to the common data signal lines DP and DN, and delivers it to the control address extracting unit 42 and the monitoring address extracting unit 45. The control address extraction means 42 counts pulses starting from the start signal ST indicating the start of the transmission clock signal, and controls the control data at a timing when the count value matches the address number data delivered from the control address setting means 63. The data is passed to the data extraction means 43. The monitoring address extraction unit 45 counts pulses starting from the start signal ST indicating the start of the transmission clock signal, and monitors the monitoring data at a timing at which the count value matches the address number data delivered from the monitoring address setting unit 65. Is delivered to the monitoring data extraction means 46.

  As shown in FIG. 2, the control address setting means 63 sequentially delivers the plurality of address numbers delivered from the control reference address storage means 62 to the control address extracting means 42 as address number data. Similarly, the monitoring address setting unit 65 sequentially transfers the plurality of address numbers delivered from the monitoring reference address storage unit 64 to the monitoring address extraction unit 45 as address number data.

  The control data extracting means 43 extracts a data value (substation control data of the present invention) from the control data delivered from the control address extracting means 42 and delivers the extracted data to the control display means 44 simultaneously with the timing signal. The monitoring data extracting means 46 extracts the data value (the slave station monitoring data of the present invention) from the control data delivered from the monitoring address extracting means 45, and delivers the extracted data to the monitoring display means 47 simultaneously with the timing signal. .

  The HT interface unit 61 includes a light projecting unit 66 and a light receiving unit 67, and exchanges data without contact with a separate terminal device 50. Then, the address data received from the terminal device 50 is transferred to the control reference address storage means 62 and the monitoring reference address storage means 64. In this embodiment, data exchange between the HT interface means 61 and the terminal device 50 is performed without contact, but there is no limitation on the data exchange system. The HT interface unit 61 and the terminal device 50 may be connected by a data signal line, and data exchange may be performed with contact (wired).

  As shown in FIG. 2, the control display means 44 sequentially stores the data delivered from the control data extraction means 43 for each of the plurality of address numbers delivered from the control reference address storage means 62 based on the timing signal. To do. The stored data is output to the operation display means 48 connected to the control display means 44 and displayed there.

  As shown in FIG. 2, the monitoring display means 47 also sequentially transfers the data delivered from the monitoring data extraction means 46 for each of the plurality of address numbers delivered from the monitoring reference address storage means 64 based on the timing signal. Remember. The stored data is output to the operation display means 48 connected to the monitor display means 47 and displayed there.

  The operation display unit 48 includes LED light emitting units corresponding to the number of address numbers stored in the control reference address storage unit 62 and the monitoring reference address storage unit 64. Each of the LED light emitting units corresponds to each of the address numbers stored in the control reference address storage unit 62 and the monitoring reference address storage unit 64, and the data stored in the control display unit 44 and the monitoring display unit 47. Depending on the content, it is turned on, turned off, or blinked. As the operation state display method of the operation display means 48, it is preferable that the operation state display method is simple depending on the presence / absence of light emission (turned on / off) as in this embodiment. Further, in this embodiment, the operation display means 48 is connected to the collective display slave station 10, but may be included in the collective display slave station (operation display means integrated slave station 110).

  The terminal device 50 shown in FIGS. 6 and 7 includes a terminal transmitter / receiver 51, a terminal input unit 52, and a terminal display unit 53, and has an MCU which is a microcomputer control unit as an internal circuit. Yes. Since any of these can be configured with known components and circuits, a detailed description thereof will be omitted, and only an outline of the function will be briefly described. The terminal transmitting / receiving unit 51 having a light projecting element and a light receiving element issues data of the address number of the slave station that requires operation confirmation to the HT interface means 61 of the collective display slave station 10, or The data of the projection signal emitted from the interface means 61 is received.

  According to this collective display slave station 10, from the transmission signals transmitted to the common data signal lines DP and DN, predetermined addresses in the transmission signals (addresses stored in the control reference address storage means 62 and the monitoring reference address storage means 64). ) Is extracted, and the contents of each of the plurality of data are displayed on the operation display means 48. Therefore, the operation state of the slave station requiring state confirmation can be confirmed as an operation display at one or a plurality of sites where the collective display slave station 10 is installed. In addition, information regarding other slave stations can be easily confirmed as a collective operation display. Further, a predetermined control program is not required on the control unit side, and a predetermined child program that is required is only required to store the address numbers in the control reference address storage unit 62 and the monitoring reference address storage unit 64 at the installation site of the slave station. The operation status of the station can be grasped.

  In this embodiment, the data of the control display means 44 and the monitoring display means 47 are output to the operation display means 48, but these data are output to the HT interface means 61 and the contents are confirmed in the terminal device 50. It may be a thing.

1 Control Unit 2 Master Station 4 Input / Output Slave Station 5 Controlled Device 6 Output Slave Station 7 Input Slave Station 8 Output Unit 9 Input Unit 10 Collective Display Slave Station 11 Output Unit 12 Input Unit 13 Control Parallel Data 15 Monitoring Parallel Data 21 Output Data section 23 Timing generation section 24 Master station output section 25 Master station input section 26 Input data section 31 OSC (oscillation circuit)
32 Timing generation means 33 Control data generation means 34 Line driver 35 Monitoring signal detection means 36 Master station monitoring data extraction means 40 Slave station input / output unit 41 Transmission reception means 42 Control address extraction means 43 Control data extraction means 44 Control display means 45 Monitoring Address extraction means 46 Monitoring data extraction means 47 Monitoring display means 48 Operation display means 50 Terminal device 51 Terminal device transmission / reception unit 52 Terminal device input unit 53 Terminal device display unit 60 Slave station output unit 61 HT interface unit 62 Control reference address storage unit 63 Control address setting means 64 Monitoring reference address storage means 65 Monitoring address setting means 66 Projecting means 67 Light receiving means 70 Slave station input unit 80 Output unit integrated slave station 90 Input unit integrated slave station 100 Collective display unit 110 Operation display unit Body slave station

Claims (4)

Connected to a common data signal line where data transmission is performed by the transmission synchronization method, where the master station and multiple slave stations are connected,
Control reference address storage means and monitoring reference address storage means for storing a plurality of predetermined address numbers;
Control address setting means for outputting the address numbers sequentially delivered from the control reference address storage means;
Timing at which the pulses of the transmission signal are counted starting from a start signal indicating the start of the transmission signal transmitted to the common data signal line, and the value of the count matches the address number delivered from the control address setting means Control address extraction means for obtaining a signal;
Monitoring address setting means for outputting the address numbers sequentially delivered from the monitoring reference address storage means;
Timing at which the pulses of the transmission signal are counted starting from a start signal indicating the start of the transmission signal transmitted to the common data signal line, and the count value coincides with the address number delivered from the monitoring address setting means Monitoring address extracting means for obtaining
Control data extraction means for extracting and outputting slave station control data by the timing signal;
Monitoring data extracting means for extracting and outputting slave station monitoring data by the timing signal;
Control display output means for performing output in accordance with a plurality of contents of the slave station control data output from the control data extraction means;
A collective display slave station comprising monitor display output means for performing output in accordance with a plurality of contents of the slave station monitor data output from the monitor data extraction means.   2. The collective display slave station according to claim 1, further comprising: an HT interface unit that exchanges data with a separate terminal unit and delivers data received from the terminal unit to the control reference address storage unit and the monitoring reference address storage unit.   The collective display slave station according to claim 1, wherein the control reference address storage unit and the monitoring reference address storage unit store a preset address number. 2. The collective display slave station according to claim 1, wherein the control reference address storage unit and the monitoring reference address storage unit store a preset address number by downloading from the master station.

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