JPH0338958A - Random automatic exchange method and random automatic exchange - Google Patents

Abstract

PURPOSE:To attain communication between unspecified parties desiring communication by applying exchange to two lines receiving a call among plural lines connected to the exchange in the order of incoming. CONSTITUTION:The above exchange consists of an incoming detection circuit 1 as an incoming call detection means, an exchange control circuit 2 as an exchange control means, and a speech output circuit 3 as a line exchange means. Upon the detection of an incoming all, the incoming detection circuit 1 informs a line receiving the call to the exchange control circuit 2, which controls the speech output circuit 3 in a way that two lines receiving the call are exchanged in the order of incoming call. Thus, the lines receiving the call connected in the order of receiving the call and callers are connected mutually at random. Thus, communication between unspecified parties desiring communication is attained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a random automatic switching method and a random automatic switching device that connects indiscriminately two lines at a time on a first-come, first-served basis to lines on which incoming calls are received.

[Conventional technology]

The switching equipment that is currently in widespread use calls a designated destination from the calling party, and connects the line between the calling party and the called party upon a response from the calling party (called party). ing.

[Problem to be solved by the invention]

In this way, conventional switching equipment calls a designated destination from the calling party, and connects the line between the calling party and the called party upon response from the calling party (called party). Because there are
In a telephone system configured using this switching equipment,
This results in a so-called one-way structure in which a person who wants to conduct telephone communication (call) (caller) calls a desired party (called party) and makes a call.

In such a telephone system, for example, a group of people with the same or similar hobbies, tastes, circumstances, and lifestyles, such as a club or a club.

It is difficult to construct a system for information exchange and conversation among unspecified parties such as card members, fan clubs, etc., that is, a system that allows people who wish to talk to each other to talk to each other.

The present invention was developed in response to these circumstances, and its purpose is to provide a random automatic exchange method and a random automatic exchange method that enable telephone calls between unspecified persons who wish to make telephone calls. The purpose is to provide a replacement device.

[Means to solve the problem]

According to the first invention of the present application, out of a plurality of connected lines, lines on which calls are received are switched two lines at a time on a first-come, first-served basis.

Further, the second invention of the present application includes a line switching means for switching a plurality of connected lines, and an incoming call detecting means for detecting an incoming call made via each of the plurality of lines, and the incoming call detecting means The line switching means is controlled so that lines on which incoming calls are detected are switched two lines at a time on a first-come, first-served basis.

[Operation] By taking such measures, lines on which incoming calls are received are connected to each other in the order of incoming calls. Therefore, those that have made calls will be randomly connected.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS A random automatic switching device according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing the general configuration of the random automatic switching device. In the figure, 1 is an incoming call detection circuit as an incoming call t=m output means, 2 is an exchange control circuit as an exchange control means, and 3 is a call output circuit as a line exchange means.

The call output circuit 3 is used to switch a plurality of connected lines (in this embodiment, 10 times 11!l) A, B, . . . , J. The incoming call detection circuit 1 monitors the state of the line A-J connected to the call output circuit 3 and detects incoming calls. When the incoming call detection circuit 1 detects an incoming call, it notifies the exchange control circuit 2 of the line on which the incoming call was received. The exchange control circuit 2 is comprised of a standby connection circuit 2a and an interference prevention circuit 2b, and controls the call output circuit 3 to exchange lines on which incoming calls are received, two lines at a time, on a first-come, first-served basis.

FIG. 2 is a circuit diagram showing a detailed configuration example of the standby connection circuit 2a in the exchange control circuit 2. As shown in FIG.

The standby connection circuit 2a consists of nine stages of circuits 20, 21, . . . , 28.

The first stage circuit 20 has nine values tz -1?20-11?
2Q-2..., has R20-9. Relay contacts CA are connected in series to each of the relays 1?20-1 to R20-9. Further, relay contacts CB are connected in series to the relay R20-1, relay contacts CC are connected to the relay R20-2, and relay contacts CJ are connected in series to the relays 1 to 20-9. And relay R20
-1 to R20-9 are connected to the power supply line V via two relay contacts connected to each other.

Also, relay I? 20-1~l? Terminals 20-9 that are not connected to the power supply line V are grounded.

The second stage circuit 21 includes eight relays 1?2J-IR212
..., has R21-8. This relay R21
Relay contacts CB are connected in series to -1-R21-8, respectively. Furthermore, a relay contact CC is connected to the relay R201, a relay contact CD is connected to the relay R21-2, and a relay contact CJ is connected in series to the relay R21-8. And relays R21-1 to R21-8
are connected to the power supply line V through two relay contacts connected to each other.

Also, relay R21-1~I? Terminals 21-11 that are not connected to the power supply line V are grounded.

Similarly, the nth stage circuit 22 has (10-n) relays, and the third stage circuit 22 has one of the relay contacts CD-CJ, and the fourth stage circuit 23 has one of the relay contacts CE-CJ. Either of them is connected in series with the relay contact CD, and connected to the power supply line V. Further, terminals not connected to the power supply line V are grounded.

The ninth stage circuit 28 at the final stage has one relay 1?
It has 2ft-1. A relay contact CI and a relay contact CJ are connected in series to this relay R28-1. The relay R28-1 is connected to the power supply line V via connected relay contacts CI and CJ. Further, the terminal of relay R28-1 that is not connected to the power supply line V is grounded.

Here, the relay contacts CA, CB, .
B..., those corresponding to J are turned on.

That is, relay R20R2O-1-R2 is rotated fiA-
It is set to turn ON on condition that a call is received on two predetermined lines of J.

FIG. 3 is a circuit diagram showing a detailed configuration example of the interference prevention circuit 2b in the exchange control circuit 2. As shown in FIG.

This interference prevention circuit 2b is composed of nine stages of circuits 30, 31, . . . , 38, similar to the standby connection circuit 2a described above.

The first stage circuit 30 includes nine relays R30-11?3Q-
2..., has R2O-9. This relay R3
0-L-1?30-9 each have relay contact C20
-1.

C20-2, . . . C20-9 are connected. Furthermore, relays R30-1-R30-9 and relay contact C2
O-L to C20-9 have relays R30-1-R30-
9 normally closed relay contact 030-1, C30
-2..., eight of C30-9 excluding the self are connected in series. That is, relay R3Q
~1 has relay contacts C30-2 to C30-9, relay 1
? 30-2 has relay contacts C30-1, C30-3 to C
30-9. Also, relay 1?30-1- R30-9 and relay contact C20-
1-020-9, the relay contacts (normally open contacts) of the relays to which the eight relay contacts are connected are connected in parallel. That is, relay contact C30 connected to relay 1?30-1
-2 to C30-9 have relay contact C30-1, relay 1
? Relay contacts C30-1 and C3G connected to 30-2
-3 to C30-9 are connected to relay contact C30-2. And relay 1?30-1-
R30-9 is connected to the power line (2) through nine relay contacts connected to each other.

Also, relay R30-1~l? 30-9 power line V
Terminals not connected to are grounded.

The second stage circuit 31 includes eight relays 1?31-f.

R31-2... Contains R31-8. Each of these relays 1?31-1-R31-8 has a relay contact C211.

C21-2, . . . C21-8 are connected. Furthermore, relay 1?31-1 ~ R3l-8 Oyobi IJ lz-
Relay 1?31-1 is connected to contacts c23-1 to C21-8.
- Relay contact C31-1 which is a normally closed contact of R31-8
, C312=-, seven of C31-8 excluding the self, and relay contact C30-1 (normally closed contact) are connected in series. In other words, relay 1?31-1 has relay contacts c31-2 to C31-8.030-1.
Relay 1?31-2 has relay contacts C311 and C31-
3~C31-J cao-i Germany t: gu@l:
It is connected. Also, relay R31-1-1?31-
The relay contacts (normally open contacts) of the relays to which the eight relay contacts are connected are connected in parallel to the eight relay contacts connected to each of the eight relay contacts C2f-1 to C21-8. That is, relay R31-11,
: Connected relay contacts C31-2 to C31-8゜03
0-1 has relay contacts C31-1, C31-3 to C31- connected to relay contact C31-11 and relay R312.
A relay contact C31-2 is connected to 8° C30-1. And relay! ? 31-f~R3
1-1t are connected to the power supply line V through respective connected relay contacts. Also, relay R31-1
The terminals of ~R31-4 that are not connected to the power supply line V are grounded.

The third stage circuit 32 includes seven relays R32-IR32-2.
..., has R32-7. This relay R32
-1-R32-71:: Relay contact C22-
1.

022-2, . . . C22-7 are connected. Furthermore, relays R32-1 to R32-7 and relay contacts C22-1 to C22-7 have relays 1?32-1-
Relay contact C32-1, C which is a normally closed contact of R32-7
52-2-, C32-7 except for my own 6
and relay contacts C30-2 and C31-1 (normally closed contacts) are connected in series. That is, relay R32-
1 has relay contacts C32-2 to C32-7, C30
-2, C31-1, Relay - R32-2 has relay contacts 032-1, C32-3 to C32-7, 03
0-2.

It is connected as C31-1. In addition, relay 1?32-1 to R32-7 and relay contact C22-
Relay contacts (normally open contacts) of the relays to which the eight relay contacts are connected are connected in parallel to the eight relay contacts connected to each of C1 to C22-7. In other words, relay contact C32- connected to relay R32-1
2-031-7. C30-2 and C31-1 have relay contacts C32-1 and relay contacts C32-1, C32-3 to C32-7, and C30-2 connected to relay R32-2.
, C3J-J are connected to relay contacts 032-2.

The relays R32-1 to R32-7 are connected to the power supply line V via respective relay contacts. Further, terminals of the relays R32-1 to R32-7 that are not connected to the power supply line V are grounded.

The ninth stage circuit 38 has one relay 1738-1. This relay 123g-1 has relay contact C.
28-1 (normally closed contact) and relay contact C30-8.

C31-7..., C3G-2, and 037-1 (normally closed contacts) are connected in series. In addition, relay contact C30
-8.

A relay contact C3g-1 (normally closed contact) is connected in parallel to C31-7..., 03B-2, and C37-1.

The relay 1?38-1 is connected to the power supply line V via the connected relay contact. Further, the terminal of relay R38-1 that is not connected to the power supply line V is grounded.

FIG. 4 is a circuit diagram showing a detailed configuration example of the call output circuit 3. As shown in FIG.

In the figure, A-J is the same line as described above, and these lines A-J are connected via relay contacts, respectively. Here, the connection between line A and line B-J is relay contact 0.
30-1-C30-9, the connections between line B and line C-J are relay contacts C3-1 to C31-8, and line H and four wires 1. Connection with J is relay contact C3
7-1, 037-2, four wires (■) and line J are connected to relay contact C311-1.

Next, the operation of the random automatic switching device configured as above will be explained.

First, when the incoming call detection means 1 detects an incoming call via the line A, the incoming call detection means 1 turns on a relay (not shown) corresponding to the line A, and connects the relay contact CA of the standby connection circuit 2a.
Turn on. At this time, since no other incoming calls have occurred yet, relays R20-1-R2g of the standby connection circuit 2a
-1 indicates that the time IA is in a standby state.

In this state, when an incoming call via line B is detected by incoming call detection circuit 1 and relay - contact CB is turned on, relay 1720-1 becomes conductive and turns on. Then, relay contact C20-1 of the interference prevention circuit 2a turns ON.
becomes. At this time, there are no other incoming calls, so relay 1?30-1~l? 3 (all 1-9 are OFF. Therefore, relay contacts C30-1 to C30-9 are ONL)
, and relay R30-1 becomes conductive and turns on.

When relay 1130-1 turns on, relay contact C30-1
is ONL, and line A and four wires B are connected. In addition, when relay R30-1 is turned on, relay contacts C30-1 to C
Relay contact C30-1 connected in parallel to 30-9 is also O.
NL and relay R30-1 maintain their operation. Furthermore, when the relay R30-1 is turned on, the relay contacts 30-1 (normally closed contacts) in the first stage circuit 30 and second stage circuit 31 of the interference prevention circuit 2b are turned off, and the first stage circuit 30 and Relay R30-1- in second stage circuit 31
The operation of R31-9 is prohibited.

Next, when a call is received via line C, relay contact CC in standby connection circuit 2a is turned on.

At this time, if line A and line 491B are talking, relay contacts CA and CB are in the ON state, so relay R20-2 and relay contact R211, which sets CB and relay contact CC as ON conditions, is ONL, and the relay (main point C2Q-2 and relay contact C21-1) in the interference prevention circuit 2b is turned ON.

However, if line iA and line B are busy, that is, relay R
Since 30-1 is in the ON state, relay contact C20-2
Relay contact 30-1 (normally closed contact) connected in series to relay contact C21-1 is OFF. Therefore, relay R30-2 and relay R3
1-1 is not conductive and has no ONL. As a result, line C is in a standby state.

Then, when an incoming call is received via the line, the line C is connected by the same operation as the connection between line A and line B described above.
and the line are connected.

Thereafter, two lines are connected in the same manner on a first-come, first-served basis.

On the other hand, for example, when line E is on standby, line A
When the call with line B ends, the incoming call detection circuit 1 detects the end of the call and turns off relay contacts CA and CB. Then, relay R20-1 turns OFF and relay contact C20
-1 turns OFF, and relay 1?30-1 turns OFF. As a result, relay contact C30- in the call output circuit 3
1 (normally open contact) is turned OFF and the line A and line B are disconnected, and the first stage circuit 30 and the second stage circuit 3
The relay contact C30-1 (normally closed contact) in the first stage circuit 30 and the second stage 31 returns to the ON state, and each relay 1?30-1 to I? in the first stage circuit 30 and the second stage 31. Operation 31-8 is permitted.

After that, when a new call arrives via line A and the relay contact CA in the standby connection circuit 2a turns ON, the relay contact CE, which is waiting in the ON state, and the relay contact CA
Relay 1 whose operating condition is ? 20-4 becomes ON, and relay contact C20-4 in the interference prevention circuit 2b becomes O.
It becomes N. Here, relay contact C30-1 (normally closed contact)
is in the ON state, and each relay R3D in the first stage circuit 30
Since the operation of -1 to R30-9 is permitted,
Relay R30- connected to relay contact C20-4
4 becomes conductive and turns ON. As a result, the call output circuit 3
Relay contact C30-4 inside is turned ON, and line A and line E are connected. In addition, when the relays R30 to 4 are turned ON, the relay contact C30-4 (normally closed contact) in the first stage circuit 30 and the fifth stage circuit 34 (not shown) of the interference prevention circuit 2b is turned OFF, and the first stage Each relay 1?30-1 to I? in the circuit 30 and the fifth stage circuit 34 30-9°R3
The operation of 4-1-R34-5 is prohibited.

Although the explanation has been given so far assuming that calls are received in order starting from line A, the operation is exactly the same even if calls are received in a random order.

In this way, according to this embodiment, each time a call is received from two lines, the two lines are switched and connected, so that those who have made calls to this random automatic switching device are indiscriminately connected to each other. can be connected to. Therefore, it is possible to make an unspecified call between two people who wish to make a call.

Note that the present invention is not limited to the above embodiments. For example, the detailed configuration of the exchange control circuit 2 can be changed in various ways. Further, in the above embodiment, the exchange control means has a hardware configuration, but it may be implemented electronically (software-wise) using a microcomputer or the like. In addition, various modifications can be made without departing from the gist of the present invention.

〔Effect of the invention〕

According to the first invention of the present application, out of the plurality of connected lines, the line on which the call was received is switched two lines at a time on a first-come, first-served basis, so that an unspecified person who wishes to make a call can It becomes a random automatic switching system that enables calls between people.

Further, according to the second invention of the present application, there is provided a line switching means for switching a plurality of connected lines, and an incoming call detection means for detecting an incoming call made via each of the plurality of lines, and the incoming call detection means is provided. Since the line switching means is controlled so that the lines on which incoming calls are detected are switched two lines at a time on a first-come, first-served basis, random calls can be made between unspecified persons who wish to make calls. It becomes an automatic exchange device.

[Brief explanation of drawings]

1 to 4 are diagrams explaining a random automatic switching device according to an embodiment of the present invention, FIG. 1 is a block diagram showing a schematic configuration, and FIG. 2 is a standby connection circuit in FIG. 1. 3 is a circuit diagram showing a detailed configuration example of the interference prevention circuit 2b in FIG. 1, and FIG. 4 is a detailed configuration example of the call output circuit 3 in FIG. 1. FIG. 1... Incoming call detection circuit, 2... Exchange control circuit, 2a.
...Standby connection circuit, 2b...Interference prevention circuit, 3...
Call output circuit.

Claims (2)

[Claims] (1) A random automatic switching method characterized in that among a plurality of connected lines, lines on which calls are received are switched two lines at a time on a first-come, first-served basis. (2) a line switching means for switching a plurality of connected lines; an incoming call detecting means for detecting incoming calls via each of the plurality of lines; 1. A random automatic switching device comprising switching control means for controlling said line switching means so as to switch two lines at a time on a first-come, first-served basis.