JPH0763203B2 - Relay board - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a relay plate. In particular, the present invention interposes between the computer and the control panel of each equipment when the operation of the equipment is controlled by the computer in the factory, and sends the control signal based on the control signal generated by the computer to the control end. Related to the relay board.

[Conventional technology]

Computer control of the operation of various plant equipment is now commonplace. In this case, the output of the computer, that is, the control signal generated by the computer is transmitted to the control end of each facility via the relay.

[Problems of conventional technology]

For this reason, in general, one equipment uses hundreds to thousands of relays, and a large space for installing a control panel in the control room is required to accommodate the relays. Also,
Due to the large number of relays, it is difficult to design and maintain the control panel, and it is difficult to deal with the necessary changes and modifications of the control panel. Part of these problems is due to the fact that the control panel is manufactured under the same concept as the conventional one, although the computer control requires a large number of relays.

[Means for solving problems]

As a result of studies aimed at solving the above-mentioned problems by modularizing the configuration of the control panel, the present inventors have found that a large number of relays that become part of the control panel when mounted on the control panel. The use of standardized relay plates with circuits arranged side by side has solved the above-mentioned problems.

That is, according to the present invention, a plurality of control units, each of which is formed by connecting one set of control components including one relay contact and one switch in series, are arranged in parallel, and a control signal for controlling ON / OFF of each relay is provided. The input end of the control terminal is connected to the input terminal block, and the output terminal of the control signal of the control section is connected to the output terminal block. The main point is the relay board.

To explain the present invention in detail, the relay plate according to the present invention is provided with a plurality of control units arranged in parallel, each of which is formed by connecting a set of control components each including one relay contact and one switch in series. There is. Preferably, a plurality of control units each having one relay contact, one switch and a fuse connected in series are arranged in parallel. All connections are preferably printed wiring. Since the output of the computer for process control is normally in units of 16 channels, it is preferable to arrange 16 control units in parallel on the relay plate so as to correspond to this. The relay board has an input terminal block that collects the control signal input terminals that control the ON / OFF of the relay of each control unit to connect each control unit to the external cable, and the output of the control signal of each control unit. An output terminal block with the ends gathered together is installed. Therefore, each controlled device can be controlled by connecting the external cable to the input terminal block and the output terminal block.

Since the relay board according to the present invention is configured as described above, it can be manufactured as a standardized part. Further, since each control unit is provided with a switch and preferably further a fuse, it is possible to cut off only a specific control unit without affecting other control units, and to short-circuit one control unit. Even if an accident occurs, it will not affect other control units. Further, when maintenance and inspection are required, the relay plate can be removed from the control panel to perform the work, so the work is easy.

In one of the preferred embodiments of the relay plate according to the present invention,
If desired, the output signal of each control unit can be set to
It has a power supply terminal for connecting to an external power supply, for example, a power supply of 100 V AC, and a wiring for connecting the power supply terminal and the output terminal of each control unit so as to be openable and closable so as to be 0 V. . Preferably, this wiring is also a printed wiring, and a jumper pin connects the power supply terminal and the output terminal of the control unit. By doing so, a voltage control terminal at the control end of the equipment, that is, a power supply from the control unit, for example, a terminal for connecting to a device directly driven by AC 100V, and a non-voltage control terminal, that is, the control unit. Even if a terminal for sending a non-voltage signal to other control devices is mixed by opening and closing only the contact point by the signal from the controller, each control unit can control which equipment by connecting with the jumper pin. It can also correspond to the edge.

In another one of the preferred embodiments of the present invention, the wiring connecting the power supply terminal for relay operation and the excitation circuit of each relay is provided with a jumper pin for selecting the operating condition of the relay, and By selecting the connection, the control unit on the relay board can be divided into several groups according to operating conditions. For example, if there are 3 reaction vessels in a batch process and there are 5 control ends for each reaction vessel, 16
One reaction plate of the present invention having one control unit can control three reaction kettles. In such a case, the power supply system of the relay of the control unit is divided for each reaction kettle, or It is preferable that a failure that occurs in the control system of the reaction kettle that does not affect other systems. Further, in the case where an emergency occurs in one of the reaction vessels, it may be preferable that the control unit associated therewith be operated on the safe side. As for this condition, a jumper pin is provided in the connection that connects the power supply terminal for relay operation and the excitation circuit of each relay as described above, and the relay operation power supply wiring for the specific control circuit group is made common by the combination of pins. Can be set. In this case, it is convenient to set the power supply terminal as a jumper pin.

To explain one of the embodiments of the present invention more specifically with reference to the drawings, FIG. 1 is a schematic plan view of a relay plate,
2 is a sectional view taken along the line AA of FIG. 1, and FIGS. 3 and 4 are circuit diagrams.

The relay plate (1) has a fuse F _{1-16 on} its surface, a 2-position changeover switch S _1-16 and relay contacts RA in the relay plate R _1-16 .
There are 16 control units connected in series with _1-16 .
In addition, an input terminal block (CN ₁ ) in which 16 pairs of control signal input terminals from the external cable for controlling ON / OFF of each relay are grouped together, and an output terminal of the control signal to the external cable of each control unit. Output terminal block (CN ₂ ), which includes 16 groups,
A power supply terminal (CN ₃ ) for supplying AC 100V for the voltage control terminal, a power supply terminal (CN ₄ ) for supplying DC 24V for operating the relay R _1-16 , and a power supply for operating this relay are grouped. A jumper terminal block (CN _5-8 ) is provided for this purpose. On the relay board (1), jumper pins J _{1-16 for} connecting the relay R _1-16 to the operating power supply directly or via the jumper terminal block (CN _5-8 ), and the output of the control unit. A jumper pin J _17-32 for switching the voltage of the relay plate to a voltage or no voltage is provided at a corresponding position of each control unit of the relay plate (1).

Input terminal block (CN ₁ ) is relay R via wiring (2-a)
They are connected to _1-16 respectively, and control signals can be sent to relays R _1-16 . Connect the output terminal block (CN ₂ ) to the wiring (2-
b), the wiring (2-d) relay contacts RA _1-16 in the relay R _1-16 through, are connected in series, each switch S _1-16. The relay power supply terminal (CN ₄ ) is connected to the fuse F _1-16 and switch S via the wiring (2-c) and jumper pin J _1-16.
1-16 are relay excitation circuit R _'1-16 and connection in the relay R _1-16. The power supply terminal for voltage (CN ₃ ) is connected to the fuse F _1-16 via wiring (not shown), and
Switch S _1-16 , relay R via jumper pins J _17-32.
Both relay contacts RA _1-16 and output terminals of the _1-16 (CN ₂₎ is connected. And by switching the jumper pin J _17-32, the power supply terminal for voltage (CN ₃ ) and the fuse F
_1-16 is switch S _1-16 , relay contact RA in relay R _1-16
1-16 and the output terminal block and (CN ₂₎ are connected in series, or the switch S _1-16, electrically disconnected from the relay contact RA _1-16 and the output terminal block in the relay R _1-16 (CN ₂₎ Be done.

In FIG. 1, the wiring corresponding to the relay R _2-16 and the wiring to the jumper terminal block (CN _5-8 ) are not shown. Further, the solid lines and the dotted lines representing the wirings (2-a) to (2-d) are distinguished for the sake of clarity and are not different at all.

Figure 3 is a relay excitation circuit R _'1-16 in the relay R _1-16 are connected directly to the power supply terminal (CN _4), two kinds of the chromatic voltage and no voltage as the output of the control unit An example of output is shown. Each relay excitation circuit _R'1-16 is connected to the power supply terminal (C
Wiring (5) extending directly from N ₄ ) and jumper pin J
Since they are connected by _1-16 , when the contact γ _1-16 which is turned on and off inside the computer (3) is closed, the relay exciting circuit R ′ _1-16 is activated and the relay contact RA _1-16 is Closed. The jumper pin J ₁₇ is short-circuited between the terminals a ₁ and a ₂ and a ₄ and a _{5 at} the pin (6) so that the output signal has a voltage. Therefore, if switch S ₁ is closed, the relay contacts
When RA ₁ is closed, the terminals (7) and 10 of the output terminal block (CN ₂ )
Since the circuit to the 0V AC power supply terminal (CN ₃ ) is closed, a control signal of AC 100V, that is, a voltage, is obtained from the terminal (7) of the output terminal block CN ₂ . Also, jumper pin J
₁₈ is short-circuited between b ₂ and b ₃ and b ₅ and b ₆ at the pin (6 ′) in order to make the output of this circuit non-voltage. Therefore, if the relay contact RA ₂ is closed while the switch S ₂ is closed, the terminal (8) of the output terminal block (CN ₂ ) forms a closed circuit independent of the AC 100V power supply terminal (CN ₃ ). To do. That is, a non-voltage control signal is output. Fig. 4 shows an example of using a jumper terminal block (CN _5-8 ) to divide the relay power supplies into groups. In FIG. 4, the control units 1 to 5 are directly connected to the wiring (5) extending from the power supply terminal (CN ₄ ) by jumper pins J _1-5 . The control units 6 to 12 control jumpers J _6- to the wiring (5 ′) extending from the power supply terminal (CN ₄ ) through the jumper terminal block (CN ₅ ) and the contact (9) for simultaneous control by external factors. Connected by ₁₂ . Controllers 13 to 16 use an external power source (10) to operate the relay with another external power source.
It was fed to the jumper terminal block (CN _8), are connected by jumper J _13-16 jumper terminal block (CN ₈₎ extending through the wire (5 ').

In any of these, the output signal of each control unit can be selected to have voltage or no voltage by operating the jumper pin J _17-32 .

In the relay board of the present invention, the jumper terminal block and the jumper pin are usually a connector terminal block, a connector pin, a jack terminal block, a jack pin,
A terminal block and a pin called a wrapping pin are used.

〔The invention's effect〕

Since the relay board according to the present invention constitutes one control section by connecting in series a set of control components including at least a switch and a relay, and a large number of such control sections are arranged in parallel. Do not make a mistake when changing or modifying the control panel of factory equipment. Also, when the control unit is arranged in combination with the jumper pin and jumper terminal block, operations such as switching between voltage and no voltage, switching of power supply and grouping can be easily performed by operating the pins. it can. Also, when the control section is provided with a fuse, when an accident such as overcurrent flows due to insulation deterioration, short circuit, etc., the fuse of the corresponding circuit is blown to protect other circuits, The relay board according to the present invention is useful as a standardized and highly flexible relay board because the relay board according to the present invention can be repaired by opening the switch of the circuit without disturbing other circuits. .

[Brief description of drawings]

FIG. 1 is a schematic plan view of an example of a relay plate according to the present invention,
FIG. 2 is a sectional view taken along the line AA of FIG. 1, FIG. 3 is a circuit diagram showing one example of use, and FIG. 4 is a circuit diagram showing another example of use. 1: Relay board, 2-a to b: Wiring, 3: Computer, 5: Jumper wire, 9: Contact, 10: External power supply for voltage signal, S _1-16 :
Switch, R _1-16 : Relay, RA _1-16 : Relay contact, R '
_1-16 : relay excitation circuit, γ _1-16 : a schematic representation of ON / OFF signals inside the computer as contacts,
F _1-16 : Fuse, J _1-16 , J _17-32 : Jumper pin, CN
₁ : Input terminal block, CN ₂ : Output terminal block, CN ₃ : Power supply terminal for voltage, CN ₄ : Power supply terminal for relay, CN _5-8 : Jumper terminal block

Front page continuation (72) Inventor Kazuo Kajiwara 2447, Fujita, Hachimansai Ward, Kitakyushu, Fukuoka Prefecture Mitsubishi Kasei Co., Ltd. Kurosaki Plant (56) Reference JP-A-56-85107 (JP, A) JP-A-SHO 50-80448 (JP, A)

Claims (2)

[Claims] 1. A control signal for controlling ON / OFF of each relay, in which a plurality of control units each having one set of control parts consisting of one relay contact and one switch connected in series are arranged in parallel. The input terminal of the control unit is attached to the input terminal block, and the output terminal of the control signal of the control unit is attached to the output terminal block. Relay board. 2. The relay board according to claim 1, wherein 16 control units are arranged in parallel.