JPS5816099Y2 - interlocking switch circuit - Google Patents

Description

[Detailed description of the invention] The present invention relates to an electrically interlocking interlocking switch circuit, and is a combination circuit of a non-locking switch, a self-holding relay, and an auxiliary relay to perform an interlocking switch circuit. .

Interlocking switch function and c'; For example, there are multiple pushbutton switches, and there are pushbutton switches that each have a self-holding function, but they can also be linked when other pushbutton switches are pressed. This is a so-called linked electric key.

Conventional interlocking switches. Most of them were interlocking mechanisms based on mechanical structures.

Therefore, in order to change the number of interlocking switches mounted, mechanical structural changes are required, and it is not easy to freely select the number of mounted switches.

In the conventional case, as shown in Figure 3, the load circuit contacts are located on the interlocking switch K, so when the total number of load circuits W is large, the total amount of wiring becomes larger than necessary, resulting in complicated wiring and tedious wiring work. I have something to do.

The present invention improves the above-mentioned drawbacks, makes it easy to change the number of interlocking switches, and separates the operating section from the load circuit section to reduce wiring for the operating section regardless of the number of load circuits. This is the purpose.

The present invention will be explained in detail below.

FIG. 1 is an interlocking switch circuit diagram showing one embodiment of the present invention.

K- is a throat lock switch, which is the operating part of the interlocking switch of the present invention, and is mainly added to the front of the device.

sw-sw is a switch circuit, and the circuit configuration thereof is all the same.

I will now explain the circuit configuration using the switch circuit SW as an example. do.

A is a self-holding relay with load circuit contacts a to 1. al, a drive winding p1, and a recovery winding s1.

It operates by energizing the drive winding P and maintains the operating state even if the energization is cut off, and restores by energizing the recovery winding S and maintains the restored state even if the energization is cut off.

Normally open contact b1 of relay B1 and switching contact a1 of relay A
The normally closed side of relay B1 is connected in parallel with the normally closed side of relay B1, and the normally closed side of relay B1's normally open contact b12 and relay C1's switching contact c11 are connected in parallel. A relay B1 circuit is constructed by connecting in series the normally open contact b□ of relay B1, the normally open contact C12 of relay C□, the normally open side of the switching contact a11 connected in parallel, and the winding of relay C1. C, circuit, the relay B1 circuit and the relay C1 circuit are connected in parallel, the connection point q is led to the power supply + pole through the contact 1 of the non-lock switch, and the other end r is the power supply - pole It is connected to the.

One end of the drive winding p1 and the recovery winding s1 of the relay A1 are each connected to the ten poles of the power supply, and the other end of the drive winding p is connected to the relay B1.
The other end of the recovery winding S is connected to the normally open side of the switching contact b□, and the master spring of the switching contact b is connected to the normally open side of the switching contact c1. S
It is commonly connected to the same line from W to SW.

D(1) to D(4) are diodes for absorbing back electromotive force of the relay winding.

Next, the operation will be explained.

FIG. 2 is an operational diagram of the circuit of FIG. 1.

(1) Press 1 on the non-lock switch (ON-1). Relay B operates in the closed circuit of the power supply (→-k □a 1-relay B1 winding-el-power supply ←), and the contacts b1 and bl are self-contained. Since the contact b3 is held and the contact b3 is closed at the same time, the voltage Q+)−k
1-b 13-1) Relay C1 operates in the closed circuit of relay C1 winding m - power supply E-), self-holds at contact 01', and at the same time the normally open side of contact c11 closes and closes the power supply (→- drive winding p1 Relay A operates in the closed circuit of -b□-C1-power supply).

When the non-lock switch K is restored, the contact k is opened and the relays B1 and C1 are restored, but the relay A1 is maintained in its operating state by the built-in permanent magnet.

(2) Press the non-lock switch K again (ON-2). Relay C operates in the closed circuit of power supply (→- to □-a11 j7 relay C□ winding-power supply (to), but relay B has contact a
It does not work because 1 is open.

When relay C□ operates, relay A□ is restored with a closed circuit of power supply←←recovery winding 5b-c - power supply←).

When the non-lock switch returns to 1, contact k opens again and relay C1 is restored and returns to its initial state.

(3) Press 1 three times on the non-lock switch (ON-3
) Repeating the same operation as in case (1), relay A□ is self-held.

(4) Press the other non-lock switch k (ON-4)
Relay A operates and holds itself in the same manner as in case (1).

At this time, another switch circuit, for example, switch circuit SW
If relay A□ was already self-holding, relay A□ that was self-holding will become relay A in the closed circuit of the power supply (→-recovery winding S□-b□-cn-power supply←). □ is restored and the switch circuit SW returns to its initial state.

That is, it operates as the interlocking switch described above.

Figure 4 is a wiring diagram for the case of the present invention, in which the interlocking switch operation unit, that is, the wiring W to W of the non-lock switch is twice the number of switch circuits, regardless of the number of the respective load circuit lines W to W.
Since the book takes up space, the total amount of wiring can be reduced compared to the conventional case shown in FIG. 3, and the wiring work becomes easier even if the operating parts are spaced out.

If you try to change the number of interlocking switches installed in the cabinet,
The parts of the switch circuit SW can be installed or removed by removing and changing the wiring, so it can be done more easily than conventional mechanical 4-action switches.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of an interlocking switch circuit showing an embodiment of the present invention, and FIG. 2 is an operational diagram of the circuit of FIG. 1. Figure 3 shows the linked subbutsutsu of employees? FIG. 4 is a wiring diagram when the interlocking switch circuit of the present invention is used. A-A is a self-holding relay, B-BC1
~Cn is 1) Ray, K□ ~Kn is a non-lock switch, W□ ~ Wn is the wiring of a non-lock switch, W□ ~ Wn
is the wiring of the load circuit, a□1-aゎ4 is the relay A1 to An
? 7 points, 2b□1~bn' are contact points of Relay B~B, c
0~cn is relay C□~C! 1 extra point, k-kn is 1-Kr1g 9 for non-lock switch

Claims (1)

[Scope of utility model registration request] At least 2 windings for operation and restoration*! A switch circuit is composed of a self-holding relay, a non-lock switch, and first and second relays whose operating circuit can be configured via the non-lock switch, and the switch circuit is configured by the first relay. One winding of the self-holding type relay is selected by the contacts of the second relay, and the operating circuit of the second relay is closed, and the selected self-holding type is selected by the contacts of the second relay. energizing the winding of the self-holding relay, and switching the operating circuits of the first and second relays by the contacts of the self-holding relay; Each relay is configured to be self-held by its own contacts,
By providing a plurality of the above switch circuits, connecting the energizing circuits to the self-holding relays through the contacts of the second square one in duplicate, and operating the above non-locking switch of one switch circuit, it is possible to An interlocking switch circuit characterized in that it controls a self-holding relay in a switch circuit and also energizes and controls a self-holding relay in another switch circuit.