JPH04155497A - Contact input inspecting circuit - Google Patents

Abstract

PURPOSE:To check the operation of an input circuit by executing OR connection of plural contact input lines through diodes, connecting OR output nodes to the fly-back line of the contact input circuit through the switches and connecting a fly-back line common to contacts to the fly-back line of the input contact input circuit through the 2nd switch. CONSTITUTION:Input lines of plural contacts a11 to a1n, am1 to amn grouped like multidimensional matrix are OR-connected by diodes RCv11 and RCvmn, RCh11 to RChmn and the OR output nodes are connected to the fly-back line OF of the contact input circuit through the 1st switches rlv1 to rlvm, rlh1 to rlhn. On the other hand, the contact common fly-back line COM is connected to the fly-back line OF of the input contact input circuit through the 2nd switch Yl1. Consequently, the individual operating state of the contact input circuit can be checked from an input terminal independently of the status of an external apparatus and the sure operation of the input circuit can be checked.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a supervisory control device, and particularly to a contact input verification circuit that can confirm whether a contact input circuit from an external device operates normally.

[Conventional technology]

Conventionally, a monitoring control device is known as a device that monitors contact input from an external device or controls the external device based on the monitoring.

FIG. 2 is a block diagram showing a conventional supervisory control device.

The supervisory control device 11 shown in FIG. 2 includes a processor 22. The supervisory control device 11 shown in FIG. Processor 2 has digital input terminal D
1+, DI21..., DIall.

These digital input terminals D + + + D I 2
1 ..., D, , are photocouplers PC, , respectively.
, PC,2, . . . are grounded via the output terminals of PCヮ. Each input terminal...
, D- are each resistance R+z + R+21,..., R
It is pulled up to the power supply V by '1llll+. In addition, Photocabra P C++, P CI2.・
....

P.C. Each input terminal of is input terminal al l + a
l 2 + +8111%, and the power supply V,
has been pulled up.

Moreover, the supervisory control device 1"1 has an input terminal al l +
al 2 +..., a□, and a common return terminal COM are provided.

This input terminal a l l + + 2 +...,
A- and a common return terminal COM are connected to non-voltage contacts for detection of each external device.

For example, no-voltage detection point 141F (not shown,
When the input terminal a1J) turns on, the photocoupler PC
The primary light emitting diode of iJ lights up, and the photocoupler p
The processor 12 detects that the secondary light emitting transistor of Ci is turned on and the contacts are closed.

[Problem that the invention seeks to solve]

In such a conventional supervisory control device, individual operating states (energized states) and non-operating states I!
To check (state M that power is not applied).

This method has the disadvantage that it cannot be confirmed unless the operating state and non-operating state of the external device are forcibly generated, or the input of the external device is completely disconnected to generate a pseudo operating state and non-operating state.

SUMMARY OF THE INVENTION An object of the present invention is to provide a contact input verification circuit that eliminates the above-mentioned drawbacks and can reliably confirm the operation of an input circuit.

Means for Solving Problem C] The contact input verification circuit of the present invention is a contact input circuit in which a voltage-free detection contact is connected between a plurality of contact input lines and a contact common return line. A plurality of contact input lines grouped in a matrix are OR-connected using diodes, this OR output connection point is connected to the return line of the contact input circuit via the first switch, and the contact common return line is connected to the second contact input circuit. The input contact is connected to the return wire of the input circuit via the switch.

According to the present invention, since the operation of all input circuits can be checked on the supervisory control device side, the operation becomes reliable.

1 [Example] Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the contact input verification circuit of the present invention.

The contact input verification circuit shown in FIG. 1 shows a state in which the contacts are grouped in a two-dimensional matrix (vertically (V), horizontally (h)).

The supervisory control device 1 shown in FIG. 1 is composed of a processor 2 and other peripheral circuits. Processor 2 is
Digital input terminal DI1. DI2 pa°°・D-7,
Digital input terminal D a l + D @ 2 + ・
..., I) +++4 and digital output terminal S vl+
sV2+...+SVa and digital output terminal 5Th
l+ Sh2+ . . . +Sha and a digital output terminal S1. These digital input terminals D
+ + l D + * + ...IDIIN is
7*) Turnip 5 P C++, P CI2
．． -, P Cl1l (grounded via the DIIB power terminal. Digital human power terminal D□, Dm2+...,
D□ are photocouplers P C-+ and P C-, respectively.
2,...', P C-f) The FB power terminal is grounded via the ground. Each input terminal D + + + DI 21
. . ., D, represent each resistor RIIIRI□1. ...
It is pulled up to the power supply V by +R+□. Each input terminal D m l.

Dl, ..., D□ are each resistance Rall I Raz+
It is pulled up to the voltage sV by l +Rsn+. Also, 7t) Cub 5 P Cz, P C1
2,”・, Each input terminal of P C+n is input terminal a
l l + a l 2 +..., connected to ao, and each resistor R+1. R+io..., pulled up to electric JRV F by Ri. Photo Cub 7 P C3I, P Cla2. ..., P C1
1ll (D multi-input terminal is input terminal a 111 *
a@2 e...+ connected to allB, and each resistor RIII * Rm2 + river * Ran
is pulled up to the power supply VF. Further, the supervisory control device 1 has an input terminal all+12+”・r
al, , and input terminal am l + a a 2
+..., a, a, and a common return terminal COM are provided. This input terminal al l r al 2 +...
+alR and a non-voltage contact for detection of each external device are connected to the common return terminal COM, and the input terminal aljl+ alI2+
A non-voltage contact for detection of each external device is connected to the rallfi and the common return terminal COM. In addition, the digital output terminal Svt+ Sv2+ of processor 2
....

S□ has relay excitation quills RLv□, RLva,...
・.

It is connected to the power supply V via RL□. processor 2
Digital output terminal Shl+ Sb2. ...,S,
The relay excitation coils RLh+, RLh□,...
・.

It is connected to the power supply V via RLhTh. A digital output terminal S1 of the processor 2 is connected to a power supply V via a relay excitation coil RL.

Multiple contact input terminals grouped in a two-dimensional matrix (vertical (V)) all+ all"'+
all as diodesRev, , RCv,2.
.

OR connection is made by RCvlゎ, and the OR connection point is connected to the return wire OF via the relay contact rL+ as the -th switch, and similarly connected, and the diode Rev+++l +
RCv+a2 + ..., RC□. is connected to the return line OF via two relay contacts riv as the first switch.

In addition, multiple contact input terminals grouped in a two-dimensional matrix (horizontal (h)) all a12+
”'+ alh as diode RCh, , RC
h, 2゜..., PC, , and make an OR connection, and the OR connection point is the relay contact r Ihl as the first switch.
and similarly connected to the return line OF through diodes RCh, , RCh2. ,, ・-,RCh,. is OR-connected by the relay contact rβ as the first switch.
h, and is connected to the return line OF.

Further, the common return line COM is connected to the return line OF via a relay contact rll serving as a second switch.

The operation of the embodiment configured as described above will be explained below.

First, when the digital output terminal S of the processor 2 is turned on, the relay RL is excited. As a result, operating contact r1. Cut the connection between the common return line COM and return line OF which are supplied to external equipment, and connect the photocoupler PC,
, ~PC,, are all put in an inactive state (no power supplied) and data D, 1 to D l ? Import as. After that, the operating contacts rlv+ and the diode RCv of the relay RLv, which operates with the output of the digital output terminal S Vl from the processor 2,
, 1 to RCv1. ．． By photocoupler PC,,~P
Processor 2 with all C, , , in operation state (energized state)
The data is taken in as data DI, ~D1o.

Similarly, contact points a1 to a11, all to all
, aI, , ~ao to the processor 2 as data D II l
~D*li,D,,~D1,Dln-D*
, .

Input data D, ~D l n of these processors 2
%D, ~D□, DIl~D1, and D1~D□ confirm individual operation and non-operation from the input end of the contact input circuit within the processor 2.

Above relay contact r 1v+ ~r 1v*+ r R
h+ ~r I! hn+ 11 is processor 2
However, other methods such as a manually opened/closed switch may be used.

〔Effect of the invention〕

As described above, the present invention has the advantage that the individual operating states and operating states of the contact input circuit can be confirmed from the input end regardless of the state of external equipment, and that it is possible to confirm that the contact input circuit is operating reliably.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG. 2 is a circuit diagram showing a conventional device. DESCRIPTION OF SYMBOLS 1... Supervisory control device, 2... Processor, RC,, ~RCv,, , RCh,, ~RCh,,
,-...diode, RLV, ~RLv,, RLh+~RLhn, RL
, ...relay, rlv, ~rlv11. r1h1~rβh,,,rβ1
...Relay contact, r 1b+ ~ r 1hn+ r I+ '' Relay contact, P C+ + ~ P C+,,, P C-+ ~ P
C,,,...Photocoupler, all~alnSaal~a-...Contact input terminal, C
OM...Common return line.

Claims (1)

[Claims] 1. In a contact input circuit that connects a voltage-free detection contact between multiple contact input lines and a contact common return line, multiple contact input lines grouped in a multidimensional matrix are OR-connected using diodes. Then, this OR output connection point was connected to the return line of the contact input circuit via the first switch, and the above contact common return line was connected to the return line of the input contact input circuit via the second switch. A contact input verification circuit characterized by: