JPH0414352A - Continuous memory dial method - Google Patents

Abstract

PURPOSE:To call an opposite subscriber continuously and sequentially by giving calling priority to each of memory addresses in which a telephone number is registered so as to make dialing processing. CONSTITUTION:When the user selects consecutive memory dial processing from a keyboard 1 at first and key entry of a memory address A of a memory 2 with a desired telephone number registered in advance therein via a CPU by the keyboard 1, the CPU 11 applies processing giving 1st call priority to the address A. Thus, the CPU 11 implements similar processing by executing the key entry of the memory address with a desired telephone number registered in advance sequentially in this way. Thus, after the user sets the priority of a call to the CPU 11 for each memory address of the memory 2, the user hooks off, then the CPU 11 detecting the closing of a hook switch 3 starts dialing to the consecutive memory.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is characterized in that a user registers the telephone numbers of a plurality of subscribers,
This invention relates to a continuous memory dialing method for automatically dialing sequentially in a desired order.

BACKGROUND OF THE INVENTION Conventionally, when a user (calling party) wants to talk to a plurality of subscribers in sequence, he or she repeats off-hook (calling), dialing, and on-hook (disconnection) in sequence each time.

Problems to be Solved by the Invention However, in the prior art as described above, when the other subscriber is busy or when the call with the other subscriber ends, there is no way to call the next other subscriber. , the user has to go on-hook and off-hook each time he or she dials, which can be extremely troublesome when the other party is busy or when there are many other subscribers who want to talk continuously. Ta.

The present invention solves such conventional problems. By simply inputting the memory addresses of the multiple subscribers you want to call in order of priority and making a call, you can call the subscribers in order according to their priorities. It is an object of the present invention to provide a continuous memory dialing method that allows continuous calling and facilitates operation.

Means for Solving the Problems The technical solution of the present invention for achieving the above object is as follows:
By assigning a call priority to each memory address where a telephone number is registered and performing call processing, the telephone number at the memory address with the first priority is read out and automatically dialed, and the called party's subscription is automatically dialed. If the caller is busy or the call ends due to a response from the called subscriber, the call will be automatically disconnected, and the phone number at the second memory address in the priority order will be read and automatically dialed. Similarly, the other subscribers are called in sequence according to their priorities.

Therefore, according to the present invention, it is possible to sequentially call and talk to a plurality of counterpart subscribers in order of priority by performing call processing once.

EXAMPLES Hereinafter, examples of the present invention will be described with reference to the drawings.

FIG. 1 is a partial schematic block diagram of a telephone used in a continuous memory dialing method according to an embodiment of the present invention.

In Fig. 1, 1 is the destination dial, memory address,
Keyboard for inputting priorities, etc. and selecting continuous memory dial processing; 2 is memory for storing destination dialing, memory address, and priority data; 3 is t
4 is an element that separates the received voice signal from the data from the other subscriber; 5 is an amplifier that amplifies the separated received voice signal; and 6 is the amplified received voice signal. 7 is a microphone that converts the transmitted voice into an electrical signal; 8 is an amplifier that amplifies the transmitted voice signal; 9 is an element that mixes the transmitted voice signal with data to the other party; 10 is the received voice 11 is a CPU (central processing unit) that controls the entire telephone.

In the above configuration, the continuous memory dialing method will be explained below with reference to the flowchart shown in FIG.

First, the user (caller) selects the continuous memory dialing process from the keyboard 1 (Step 21), and then selects memory address A of the memory 2 where the desired telephone number is previously registered from the keyboard 1 via cPUll. When the key input is executed (step 22), the CPU II performs a process of assigning the first call order to the first input memory address A (step 23). Next, when the key of memory address B of memory 2, in which the desired telephone number has been registered in advance from the keyboard 1 via the CPU II, is executed (step 24), the CPU 11 assigns the second call priority to this memory address B. The process of adding is performed (step 25). In this way, the desired telephone numbers are sequentially registered at the memory addresses (,D).

. . ., the CPU 11 performs similar processing. In this way, the user can
After setting the calling priority for each memory address of memory 2 in I, by performing an off footer (calling) (step 26), C detects the closing of this hook switch 3.
The PU 11 starts the calling operation by continuous memory dialing as follows.

First, the CPU II issues a read request for the telephone number at memory address A, which has the first priority in memory 2 (step 27), and automatically dials the read telephone number at memory address A.

Next, the CPU II receives data from the line via the element 1o14 (step 28), and if the CPU II receives busy data from the other subscriber (step 28),
9), Control hook switch 3 to turn on footer (disconnection)
(step 30), controls the hook switch 3 again to go off-hook (step 31), requests to read the telephone number at memory address B, which has the second priority in memory 2 (step 32), and then Automatically dials the read phone number at memory address B. On the other hand, in step 29, if the received data is not the busy data of the other subscriber with the first priority, the CPU II checks whether the data is included in a call (
Step 33). If the data is for a telephone call, the microphone 7 and the speaker 6 send the amplifier 8.5 and the element 9.
．． 4.10 etc., a telephone conversation can be made with the other subscriber at memory address A (step 34). When the user ends the call with the other subscriber at memory address A, (
Step 35), the CPU II automatically controls the hook switch 3 to execute off-hook.Step 31),
In the same manner as described above, a read request is made for the telephone number at the next memory address B in the second priority order in the memory 2 (step 32), and automatic dialing is performed. In step 33 above, if the received data is not data that will enter into a call with the other subscriber, the CPU II executes processing based on the received data (step 36) above in step 2.
The process returns to step 8 and enters the data reception waiting state again. However, if the user is busy or cannot receive data to enter a call after a certain period of time T (step 37), the process returns to step 30 and the on-hook state is entered. Select the process to be executed and automatically dial the phone number at the next priority memory address.

In this way, according to the above embodiment, when the user performs the process of assigning call priority to the phone numbers in the memory address consecutively and selects the process to make a call, if the other subscriber is busy, Or, when a call with the other party ends, calls can be made consecutively in order of priority without having to go on-hook or off-hook each time.

Effects of the Invention As described above, according to the present invention, by assigning a call priority to each memory address where a telephone number is registered and performing call processing, the first priority memory address is first assigned. The telephone number of the address is read and automatically dialed. If the called party is busy or the call ends due to the answer of the called party, the call is automatically disconnected and then stored in the second priority memory. The telephone number of the address is read and automatically dialed, and thereafter, the other subscribers are called in order according to the priority order in the same way as above. It is possible to call and talk to a plurality of subscribers in sequence according to the order of rank, thus making it easier to operate when calling a plurality of subscribers in succession.

[Brief explanation of the drawing]

FIG. 1 is a partial schematic block diagram of a telephone used in a continuous memory dialing method according to an embodiment of the present invention, and FIG. 2 is a flowchart for explaining the continuous memory dialing method of the present invention. 1...Keyboard, 2...Memory, 3...Hook switch, 5...Amplifier, 6...Speaker, 7...
・Microphone, 8...Amplifier, 11...CPU0
Figure 1

Claims (1)

[Claims] By assigning a call priority to each memory address where a telephone number is registered and performing call processing, the telephone number at the memory address with the first priority is read out and automatically dialed, and the called party's subscription is automatically dialed. If the caller is busy or the call ends due to a response from the called subscriber, the call will be automatically disconnected, and the phone number at the second memory address in the priority order will be read and automatically dialed. A continuous memory dialing method characterized by sequentially calling other subscribers in the same manner according to their priorities.