JP2006333197A - Information apparatus, information transmission system and information transmitting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information transmission system capable of using the existing line and information apparatus and being easily constructed at low cost and to provide a highly reliable information transmission system capable of equally allocating communication expenses and surely transmitting information to a desired transmission destination information apparatus. <P>SOLUTION: In the case of using the information transmission system to transmit information, a transmission source information apparatus makes a call to the transmission destination information apparatus through a prescribed line and stops the call when detecting a ringback tone. Also, the transmission source information apparatus starts to count the number of ringing times of a ringer when receiving the call, and makes a callback to the transmission source when the call stops before the call reaches the prescribed number of ringing times of the ringer. Then, the transmission source information apparatus connects the line and outputs transmission information when receiving the callback. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technique for automatically controlling a line or transmitting information between information apparatuses in an information apparatus connected to a predetermined line.

  Various lines and information devices are used to transmit information. As one of information transmission systems using information devices via a line, there is a system that automatically transmits information between information devices by transmitting a predetermined signal to cause the information devices to perform a certain operation. For example, Patent Document 1 proposes an automatic message notification system using a telephone using a contact network. Conventionally, when a contact is made to each home or each member in a school or a circle, transmission is performed by a telephone using a contact network in which a person to be notified next is determined in advance. Nowadays, it is possible to send the transmission contents all at once to the specified address using e-mail, but not all of them have e-mail addresses. Information transmission via the network is still mainstream.

  In the automatic message notification system described in Patent Document 1, a notification source subscriber 70 and a notification destination subscriber 71 are connected to a telephone line provided with an automatic message notification device 100 as shown in FIG. Here, the automatic message notification device 100 includes a transmission / reception device 72, a storage device 73, a control device 74, and the like. The message automatic notification device 100 is added to a telephone line. As a message notification procedure, first, a notification source subscriber 70 makes a call to a telephone line provided with the message automatic notification device 100, and message information and information to be transmitted. Is notified to the telephone line. On the telephone line side, the transmission information notified from the notification source subscriber 70 and the notification destination subscriber 71 are registered, the telephone number of the designated notification destination subscriber 71 is called, and the message information is transmitted when the line is connected. Send.

  On the other hand, in Patent Document 2, a caller telephone number is acquired when an incoming call is received, and when it is determined that the acquired caller telephone number is a server telephone number, a call is made to this server. Thus, a print control apparatus has been proposed that connects to the printer, receives print data from the server, and causes the printer to print. Even when the server calls the print control device, the caller telephone number is acquired without connecting to the line, and it is determined whether the acquired caller telephone number is the server telephone number. In addition to being a high system, the print control device does not connect to the server, but the print control device makes a call to the server to receive the print data, so that the server side is charged with a telephone fee. Printing is possible.

JP-A-6-70020 JP 2001-36661 A

  However, the automatic message notification system described in Patent Document 1 has the following problems. That is, in order to use the automatic message notification system, it is necessary to add the automatic message notification device 100 to the telephone line side, which takes time and effort for service introduction. In addition, since the telephone line side is connected to the notification destination telephone number, communication cost is incurred on the telephone line side, and when using as a school or circle contact network, for example, a collect call is used from the telephone line side Such considerations are necessary. Furthermore, in order to determine whether the other party to whom the message information is to be transmitted is a subscriber having a desired notification destination telephone number, it is necessary to connect a telephone line once, which causes a security problem.

  On the other hand, in Patent Document 2, it is necessary to install and maintain a print control device dedicated to receiving print data. For example, when applying to information transmission using a communication network in a school or a circle, print control dedicated to receiving print data is used. It is very difficult to install and maintain the device.

  Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide an information transmission system that can use existing lines and information equipment and can be constructed easily and at low cost. To do. It is another object of the present invention to provide a highly reliable information transmission system that can allocate communication costs evenly and can reliably transmit information to a desired destination information device.

  In order to solve the above problems, an information transmission system according to the present invention includes at least two information devices that can be connected to each other via a predetermined line, and transmits predetermined transmission information from a transmission source information device to a transmission destination information device. Information transmission system. Here, the transmission source information device includes first line control means for making a call to a predetermined line, and ringback tone management means for detecting a ringback tone returned to the call. . On the other hand, the destination information device has a ringer ring number recognition means for counting the number of ringer rings that are transmitted when a call is made, and a predetermined line when the call is stopped at a predetermined number of ringers or less. And second line control means for performing a callback. Further, the first line control means stops the call when the ringback tone is detected, and outputs the transmission information by connecting the line when there is a callback. Note that these means are provided as standard in the information equipment used by connecting to the line.

  When information is transmitted using the above information transmission system, it is performed as follows. First, the transmission source information device makes a call to the transmission destination information device, and stops the call when a ringback tone for the call is detected. On the other hand, the destination information device starts counting the number of ringer rings when a call is made, and calls back to the caller when the call is stopped below a predetermined number of ringers. Then, when there is a callback, the transmission source information device is connected to the line and outputs transmission information.

  In the above information transmission system, the transmission source information device stops calling after detecting the ringback tone. That is, since the call is stopped after confirming that the line is good, it is possible to construct a highly reliable information transmission system capable of reliably transmitting information to the destination information device.

  In addition, the number of ringer rings is determined in advance between the transmission source information apparatus and the transmission destination information apparatus, and the transmission destination telephone performs a callback only when the call is stopped at a predetermined number of ringers or less. When the number of ringers ringing exceeds the number of rings, it is determined that the information transmission service is not used, and processing for normal calls is performed. On the other hand, if the call is stopped beyond the predetermined number of ringers, it is determined that the information transmission service is not used and no callback is performed. That is, by using the number of ringer ringing as a callback request signal, it is possible to distinguish between a normal call and the use of this information transmission service without connecting a line. It is possible to construct a system easily and at low cost without the need to prepare a special line or an information device dedicated to this information transmission service.

  Further, since a line connection is made for a call from the transmission destination information device to the transmission source information device, a communication cost is generated in the transmission destination information device. By paying only the communication cost required for information transmission to each individual destination information device, the communication cost can be allocated equally.

  Furthermore, in order to solve the above problems, the information transmission system according to the present invention is such that the transmission source information device has a ringer ring number recognition means, and when there is a callback from the transmission destination information device, a predetermined ringer ringing is performed. It is characterized in that the line connection is made with the number of If the line is not connected even if the number of ringers ringing exceeds the predetermined number of ringers, the transmission destination information device that performed the callback determines that the transmission source information device is busy and temporarily stops the callback. After the callback is stopped, a new callback may be performed again or may be terminated as it is.

  Furthermore, in order to solve the above problem, in the information transmission system according to the present invention, the transmission destination information device transmits an information transmission request code when there is a line connection, and the transmission source information device transmits information after receiving the information transmission request code. The output of transmission is started. That is, if an information transmission request code is determined in advance between the transmission source information device and the transmission destination information device, and the transmission source information device cannot receive the information transmission request code even if the line connection is made, It is determined that the information transmission service is not being used, or the transmission destination information device is not ready to accept the transmission information, and the transmission information is not transmitted. That is, it is possible to provide a highly reliable information transmission system that can reliably transmit information to the destination information device.

  Furthermore, the information device has a transmission source specifying means for specifying the identification number of the transmission source without connecting a line when a call is received, and the transmission source information device makes a call in using this information transmission service. When a new call is received after the call is stopped, the identification number of the call originator is specified, and the line is sent when the source information device matches the identification number of the destination information device that stopped the call. It is characterized by connecting. If the source information device receives a new call, it identifies the source information device before connecting the line, and if the source information device does not match the identification number of the destination information device that stopped the call In addition, processing for a normal call is performed and output of the transmission information is restricted. Therefore, it is possible to reliably transmit information only to a desired information device, and it is safe even when subjected to a cyber attack.

  Furthermore, in order to solve the above problems, the information transmission system according to the present invention has a transmission condition registration table in which the information device registers and stores at least the identification number of the information device, and the transmission destination information device makes a call. When received, the identification number of the originator of the call is specified, and when the identification number matches the identification number registered in the transmission condition registration table, counting of the number of ringers is started. If the identified caller identification number does not exist in the transmission condition registration table, it is determined that the information transmission service is not used and processing for a normal call is performed. That is, since it is possible to distinguish between a normal call and the use of this information transmission service without connecting the line, it is possible to use an existing line and information equipment, and a special line or this information transmission service can be used. There is no need to prepare a dedicated information device, and a system can be constructed easily and at low cost.

  Furthermore, in order to solve the above-mentioned problem, the information transmission system according to the present invention includes a transmission information management means for inputting, storing and outputting transmission information, and the transmission source information apparatus transmits transmission information before making a call. Is stored, and when there is a callback, the previously stored transmission information is output. Therefore, even when there are a plurality of transmission destination information devices, the same transmission information is always transmitted, and accurate transmission of information is possible.

  In the above information transmission system, the transmission source information device stops calling after confirming the detection of the ringback tone. That is, since the call is stopped after confirming that the line is good, it is possible to construct a highly reliable information transmission system capable of reliably transmitting information to the destination information device. Further, by using the number of ringer ringing as a callback request signal, it is possible to distinguish between a normal call and the use of this information transmission service without connecting to a line. Therefore, it is possible to use an existing line and information device, and it is not necessary to prepare a special line or an information device dedicated to this information transmission service, and it is possible to construct a system easily and at low cost.

  Further, since a line connection is made for a call from the transmission destination information device to the transmission source information device, a communication cost is generated in the transmission destination information device. By paying only the communication cost required for information transmission to each individual destination information device, the communication cost can be allocated equally.

Embodiments of the present invention will be described below with reference to the drawings.
A first embodiment according to the present invention will be described with reference to FIGS. FIG. 1 is a block diagram showing an overall configuration of an information transmission system 1 according to a first embodiment of the present invention, FIG. 2 is a principle diagram of an information device 2 according to the first embodiment of the present invention, and FIG. It is a flowchart which shows operation | movement of the information transmission system 1 in the 1st Embodiment of this invention.

  First, FIG. 1 will be described. In FIG. 1, the information transmission system 1 according to the first embodiment is seven information devices 2 connected to each other via a predetermined line 4, and is a transmission source information device that transmits transmission information 5. 2a is composed of one unit, and transmission destination information device 2b that receives transmission information 5 is composed of six units. Each information device 2 does not need to be fixed to the transmission source information device 2a and the transmission destination information device 2b, and can correspond to either the transmission source information device 2a or the transmission destination information device 2b as necessary.

  When transmitting the transmission information 5 from the transmission source information device 2a to the transmission destination information device 2b, first, the transmission source information device 2a makes a call 21A to the transmission destination information device 2b of A. Upon receiving the call 21A, the transmission destination information device 2b of A performs the callback 25A and receives the transmission information 5. When the transmission of the transmission information 5 to the A destination information device 2b is completed, the transmission source information device 2a makes a call 21B to the B transmission destination information device 2b, and the B transmission destination information device 2b calls the callback 25B. Go and receive the transmission information 5. Thereafter, the transmission source information device 2a repeats a series of operations until transmission of the transmission information 5 to the transmission destination information device 2b of C,. In the first embodiment, the calls 21 are made in order from A to F, but the calls 21 to A to F may be made simultaneously.

  Next, the principle of the information device 2 will be described with reference to FIG. As shown in FIG. 2, the information device 2 includes a line control means 11 for making a call to the line 4 and a ringback tone detecting means 12 for detecting a ringback tone returned when the call is made or a call. The ringer ring number recognition means 13 for counting the number of ringer rings transmitted when the ringing is performed. Here, the line connection means 11 makes a call to a predetermined line, stops the call when a ringback tone is detected, and outputs the transfer information by connecting the line when there is a callback. The first line control unit 11a includes a second line control unit 11b that performs a callback to a predetermined line when a call is stopped at a predetermined number of ringers or less. The transmission source information device 2a does not necessarily have the second line control unit 11b and the ringer ring number recognition unit 13, and the transmission destination information device 2b includes the first line control unit 11a and the ringback tone detection unit 12. It does not necessarily have to have. These means are provided as standard as long as they are information devices connected to a line.

  Next, the operation flow of the information transmission system 1 according to the first embodiment of the present invention will be described with reference to FIG. First, when using this information transmission system 1, the number of arbitrary ringer rings 23 is determined between the transmission source information device 2a and the transmission destination information device 2b. Here, the number of ringer rings 23 is a number used for discrimination between a normal call and a call 21 by using the information transmission system 1. Since it is determined as a normal call when the number of the predetermined ringer ringing 23 is exceeded, it is preferable to set the number to about 1 to 3. In the first embodiment, the number of ringer rings 23 is set to “2”. Further, the sender of the transmission information 5 designates the transmission destination information device 2b using the transmission source information device 2a.

  In FIG. 3, the transmission source information device 2a first makes a call 21 to the first transmission destination information device 2b (transmission destination information device 2b of A in FIG. 1) (step 101). When the transmission source information device 2a detects the ringback tone 22 for the call 21 (step 102), it stops the call 21 (step 103).

  On the other hand, the destination information device 2b that has received the call 21 starts counting the number of ringer rings 23 (step 104). If the number of ringer rings 23 is equal to or less than “2” (step 105) and the stop of the call 21 is detected (step 106), the transmission destination information device 2b performs a callback 25 to the transmission source information device 2a. (Step 107). Further, when receiving the callback 25 from the transmission destination information device 2b, the transmission source information device 2a connects the line (step 108) and transmits the transmission information 5 (step 109). When the transmission of the transmission information 5 is completed, the line is disconnected (step 110).

  As shown in FIG. 1, there are six destination information devices 2b, A to F. When the transmission of the transmission information 5 to the transmission destination information device 2b of A is completed and the line is disconnected, the transmission source information device 2a next makes a call 21 (step 101) to the transmission destination information device 2b of B. Thereafter, Step 101 to Step 110 are repeated until the transmission information 5 is transmitted to the F transmission destination information device 2b.

  Here, if the transmission source information device 2a cannot detect the ringback tone 22 even if the call 21 is made in step 102, it is determined that there is some trouble in the line 4, and the call 21 is temporarily stopped and a new call is made. Make an outgoing call 21. In other words, by stopping the call 21 after confirming the ringback tone 22, it is possible to construct a highly reliable information transmission system 1 that can reliably transmit information to the destination information device 2b.

In step 105, if the destination information device 2b continues the call even if the number of ringer rings 23 exceeds "2", it is determined that the information transmission service is not being used and the line 4 is promptly used. Connect. In step 106, the destination information device 2b determines that it is not the use of this information transmission service when the call is stopped and the number of ringer rings 23 exceeds "2", and the callback 25 is performed. Absent.
As described above, since the normal call and the call 21 by using the information transmission service can be distinguished without connecting the line 4, the information transmission system 1 is configured so that the existing line 4 and the information The device 2 can be used, and a system can be constructed easily and at low cost.

  Furthermore, in the first embodiment according to the present invention, transmission of the transmission information 5 is performed by a callback 25 from the transmission destination information device 2b to the transmission source information device 2a, so that the communication cost is transferred to the transmission destination information device 2b. appear. It is possible to allocate the communication cost evenly by paying only the communication cost required for information transmission to each individual destination information device 2b.

  Here, the transmission destination information device 2a or the transmission destination information device 2b may be any device as long as it can exchange information via the line 4, and may be a telephone, a FAX telephone, a server, or the like. The transmission information 5 corresponds to audio information, character information, video information, electronic data, and the like.

  Next, a second embodiment according to the present invention will be described with reference to FIGS. FIG. 4 is a diagram showing the principle of the telephone 3 according to the second embodiment of the present invention, FIG. 5 is a flowchart showing the operation of the information transmission system 1 in the second embodiment of the present invention, and FIG. An example of the transmission condition registration table 16 in the 2nd Embodiment of this invention is shown.

  In the second embodiment according to the present invention, the information device 2 is a telephone set 3. As shown in FIG. 4, the telephone set 3 includes a line control means 11, a ringback tone detection means 12, a ringer ring number recognition means 13, an outgoing call. An original identification unit 15, a transmission condition registration table 16, and a transmission information management unit 17 are included. The line control means 11, the ringback tone detection means 12, and the ringer ringing number recognition means 13 are the same as the means of the information equipment 2 shown in the first embodiment.

  The caller identification means 15 is a so-called number display service that identifies a telephone number that is a caller identification number 24 without connecting a line when a call is received via a predetermined line. It is. The transmission condition registration table 16 is a table for registering transmission conditions 26 such as the telephone number 24a of the telephone 3 that uses the information transmission system 1, the number of ringer rings 23, and the information transmission request code 27. The transmission information management means 17 inputs, stores and outputs the transmission information. In the case of the telephone 3, the transmission information management means 17 records and reproduces voice information by voice, which is a so-called absence recording function. In the case of a FAX telephone, character information is stored and printed, and in the case of a video telephone, video information is recorded and reproduced.

  Next, the operation flow of the information system according to the second embodiment of the present invention will be described with reference to FIG. Here, as in the first embodiment, a case where the voice information 5a is transmitted from the transmission source telephone 3a to the six transmission destination telephones 3b of A to F will be described. First, in using the information transmission system 1, the telephone number 24a, the number of ringer ring 23 and ringer ring 33, the information transmission request code 27 are determined between the transmission source telephone 3a and the transmission destination telephone 3b, and the transmission condition registration is performed. Register in the table 16. An example of the transmission condition registration table 16 is shown in FIG. Here, the number of ringer rings 23 is used to distinguish between a normal call and a call 21 using the information transmission system 1, and the number of ringer rings 33 is a normal call and this information transmission. This is used for discrimination from the callback 25 by the use of the system 1.

  In the second embodiment, as shown in FIG. 6, “2” is set for the number of ringer rings 23 and 33 and “333” is set for the information transmission request code 27 as the transmission condition 26. Here, “2” and “333” are both PB signals (push button signals). Since the information transmission request code 27 also has a function as a password, it is desirable that the information transmission request code 27 is set so as not to be easily guessed by a third party. Further, the sender of the transmission information 5 records the voice information 5a using the answering machine of the transmission source telephone 3a.

  In FIG. 5, first, the source telephone 3 a makes a call 21 via the line 4 to the first designated destination telephone 3 b (the telephone number 24 a is “AAAAA”) according to the designated transmission condition 26. (Step 201). Further, when the transmission source telephone 3a detects the ringback tone 22 for the call 21 (step 202), the caller 21 is stopped (step 203). On the other hand, the destination telephone 3b that has received the call 21 uses the number display service to acquire the telephone number 24a of the transmission source, and confirms whether it is the telephone number 24a “XXXX” registered in the transmission condition registration table 16 (Step 204). When the telephone number 24a of the caller 21 is “XXXX”, the count of the ringer ringing 23 is started (step 205). If the number of ringer ringing 23 is “2” or less (step 206) and the call 21 is stopped (step 207), the destination telephone 3b performs a callback 25 (step 208).

  Further, if the transmission source telephone 3a receives a call through the line 4 after stopping the call 21 in step 203, the transmission source telephone 3a acquires the telephone number of the transmission source using the number display service. The transmission source telephone 3a can confirm that the acquired telephone number of the transmission source is the telephone number 24a “AAAAA” of the transmission destination telephone 3b that stopped the call 21 in step 203, and that it is the callback 25 from the transmission destination telephone 3b. If this is the case (step 209), the line connection is established when the number of ringer rings 33 for the callback 25 is "2" or less (step 210).

  Further, when the number of ringer ring 33 is less than “2” (step 211) and the line is connected (step 212), the destination telephone 3b transmits “333” as the information transmission request code 27 (step 213). . Further, when the transmission source telephone 3a receives the information transmission request code 27 (step 214), it starts transmission of the voice information 5a (step 215), and disconnects the line 4 when the transmission of the voice information 5a is completed (step 215). Step 216).

  Thereafter, the transmission source telephone 3a repeats Step 201 to Step 216 until the transmission of the audio information 5a to the six transmission destination telephones 3b A to F is completed.

  Here, in step 204, if the specified telephone number 24a of the caller does not coincide with the telephone number 24a registered in the transmission condition registration table 16, it is determined that the information transmission service is not used and the normal call is made. Processing for the call 21 is performed. That is, since the normal call 21 and the call 21 related to the use of the information transmission service can be distinguished without connecting the line, the existing line 4 and the telephone 3 can be used. It is not necessary to prepare a simple line or an information device dedicated to this information transmission service, and a system can be constructed easily and at low cost.

  In step 209, if the acquired telephone number 24a of the transmission source and the telephone number 24a of the destination telephone 3b that stopped the call 21 in step 203 do not match, processing for a normal call is performed and transmission information is transmitted. By limiting the output to 5, it is possible to reliably transmit information only to the desired destination telephone 3b, and it is safe even in the event of a cyber attack.

  Furthermore, even if it can be confirmed that the call back 25 is received from the destination telephone 3b that has stopped the call 21 in step 209, if the information transmission request code 27 is not received in step 214, this information transmission service is not used. Alternatively, it is determined that the destination telephone 3b is not ready to accept the voice information 5a, and the voice information 5a is not transmitted. That is, it is possible to provide a highly reliable information transmission system 1 that can reliably transmit the voice information 5a to the destination telephone 3b.

In the second embodiment, the sender of the voice information 5a records the voice information 5a using the answering machine of the source telephone 3a, and in step 215, the voice information 5a recorded in advance is recorded. Is sending. Accordingly, the same voice information 5a is always transmitted to the six destination telephones 3b of A to F, and accurate information transmission is possible.
Furthermore, in the second embodiment, when the destination telephone 3b is not connected to the call back 25 from the source telephone 3a even if the number of ringer ringing 33 exceeds “2” in step 211 in the second embodiment. Therefore, it is determined that the transmission source telephone 3a is busy, and the callback 25 is temporarily stopped and a new callback 25 is performed. However, it is not always necessary to make a new callback 25, and it may be determined that the information transmission service is not used and the processing may be terminated as it is.

  In the second embodiment, the number of ringer ringing 23 related to the call of the transmission source telephone 3a and the number of ringer ringing 33 related to the callback of the transmission destination telephone 3b are both “2”. The number of ringing sounds 23 and the number of ringer ringing 33 may be set to different numbers.

  Next, a third embodiment according to the present invention will be described with reference to FIGS. FIG. 7 is a flowchart showing an operation after the callback 25 in the information transmission system 1 according to the third embodiment of the present invention, and FIG. 8 shows an example of the transmission condition registration table 16 according to the third embodiment of the present invention. It is shown.

  In the third embodiment according to the present invention, the telephone 3 has the same means as the telephone 3 of the second embodiment. Similarly to the second embodiment, the voice information 5a is transmitted from the source telephone 3a to the six destination telephones 3b of A to F. Furthermore, when using the information transmission system 1 according to the third embodiment, the transmission source telephone 3a and the transmission destination telephone 3b determine the number of ringer rings 23 and 33, the information transmission request code 27, the end code 28, etc. in advance. And registered in the transmission condition registration table 16. A transmission condition registration table 16 according to the third embodiment is shown in FIG. The reason why the numbers of ringer sounds 23 and 33 are parenthesized is that it is necessary to set a common number for the transmission condition 26 in the third embodiment.

  In the third embodiment, “1” is selected as the transmission condition 26 in FIG. That is, “2” is set for the number of ringer rings 23 and 33, “333” is set for the information transmission request code 27, “#” is set for the end code 28, and “voice” is set for the information form. . Here, “2”, “333”, and “#” are all push button signals (hereinafter referred to as PB signals). Furthermore, when using the information transmission system 1 according to the third embodiment, the sender of the voice information 5a records the voice information 5a using the answering means of the transmission source telephone 3a.

  Next, the operation of the information transmission system 1 in the third embodiment will be described. Here, the information transmission system 1 in the third embodiment is from the call 21 (step 201) of the source telephone 3a to the callback 25 (step 208) by the destination telephone 3b in the second embodiment. The same operation is performed. Therefore, in FIG. 7, among the operations of the third embodiment according to the present invention, the steps 301 to 307 corresponding to the steps 201 to 207 in FIG. 5 are omitted, and the callback from the destination telephone 3b is performed. The operation after 25 (step 308) will be described. In the following, FIG. 7 will be described focusing on the differences from the operation of the second embodiment.

  In FIG. 7, a callback 25 is made from the destination telephone 3b to the source telephone 3a (step 308). The transmission source telephone 3a acquires the telephone number of the transmission source using the number display service, and determines whether or not the telephone number 24a of the transmission destination telephone 3b that stopped the call 21 in step 303 (not shown) matches (step 309). ). If the telephone numbers match, the line connection is established when the number of ringer rings 33 for the callback 25 is “2” or less (step 310), and a PB signal of “1” is transmitted as the transmission condition 26 (step 311). .

  On the other hand, when the destination telephone 3b is connected to the line when the number of ringer sounds 33 for the callback 25 is "2" or less (step 312) (step 313), it receives the transmission condition 26 (step 314). Then, “333” is transmitted as the information transmission request code 27 set to “1” in the transmission condition 26 of the transmission condition registration table 16 (step 315) and recording of the audio information 5a is started (step 316). Further, when the transmission source telephone 3a receives the information transmission request code 27 (step 317), the transmission source telephone 3a starts transmission of the voice information 5a (step 318), and when the transmission of the voice information 5a is completed, the end code 28 “#”. (Step 319), the line 4 is disconnected (step 320). On the other hand, when receiving the end code 28 “#”, the destination telephone 3b ends the recording of the voice information 5a (step 321). Hereinafter, it goes without saying that the transmission source telephone 3a repeats a series of steps until the transmission of the voice information 5a to the six transmission destination telephones 3b A to F is completed.

  Here, in step 314, if “1” is not transmitted as the transmission condition 26 from the transmission source telephone 3 a even if the number of ringer sounds 33 is “2” or less and the line 4 is connected, the transmission source telephone 3 a Determines that the voice information 5a cannot be transmitted, temporarily stops the callback 25, and performs a new callback 25.

  On the other hand, if the source telephone 3a does not have a callback 25 from the transmission destination telephone 3b even after a predetermined time has elapsed since the call 21 was stopped in step 303, a new call 21 is set. In some cases, a new callback 25 need not be performed. For example, in FIG. 8, when the transmission condition 26 is “2”, the redial waiting time is set to “60 minutes”. In this case, if the destination telephone 3b fails to receive the transmission condition 26 for some reason and disconnects the line 4, the source telephone 3a determines that there is no callback 25, and the call of step 303 is made. 60 minutes after the stop, a new call 21 (step 301) is made from the transmission source telephone 3a to the transmission destination telephone 3b. Accordingly, no new callback 25 is performed from the destination telephone 3b side.

  As described above, it is confirmed that communication is possible by transmitting / receiving the transmission condition 26 from the destination telephone 3a to the destination telephone 3b and the information transmission request code 27 from the destination telephone 3b to the destination telephone 3a. Then, since the audio information 5a is transmitted and received, a highly reliable information transmission system can be provided.

  In the transmission condition registration table 16 of FIG. 8, when the transmission condition 26 is “2”, the transmission source telephone number field is blank, but in this case, the telephone number 24a registered in the transmission destination telephone number. Any one of the telephones 3 having the transmission source telephone 3a. Since “character” is set as the information form, the destination telephone 3b starts storing or printing the character information in step 316.

  Further, a time table may be set to specify the time for starting the call 21, or the callback 25 in step 308 may be selected either automatically or manually. Further, when the transmission condition registration table 16 of FIG. 8 is rewritten, it is convenient to use this information transmission system. For example, when a destination telephone number is added, a new transmission condition registration table 16 to which a destination telephone number is added is transmitted from the source telephone 3a using this information transmission system, and the destination telephone 3b is newly added. The transmission condition registration table 16 may be received and overwritten on the existing transmission condition registration table 16.

  As described above, the information transmission system according to the present invention can use an existing line and information equipment, and can provide an information transmission system that can be easily and inexpensively constructed. Furthermore, it is possible to provide a highly reliable information transmission system capable of equally allocating communication costs and reliably transmitting information to a desired transmission destination information device.

1 is a block diagram showing an overall configuration of an information transmission system 1 according to Embodiment 1 of the present invention. The block diagram which shows the principle of the information equipment which concerns on Embodiment 1 of this invention. The flowchart for demonstrating operation | movement of the information system which concerns on Embodiment 1 of this invention. The block diagram which shows the principle of the telephone set which concerns on Embodiment 2 of this invention. The flowchart for demonstrating operation | movement of the information system which concerns on Embodiment 2 of this invention. The specific example of the transmission condition registration table in Embodiment 2 of this invention. The flowchart for demonstrating operation | movement of the information system which concerns on Embodiment 3 of this invention. The specific example of the transmission condition registration table in Embodiment 3 of this invention. The block diagram which shows the whole structure of the automatic message notification system using the conventional telephone line network.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Information transmission system 2 Information apparatus 2a Transmission source information apparatus 2b Transmission destination information apparatus 3 Telephone 3a Transmission source telephone 3b Transmission destination telephone 4 Line 5 Transmission information 5a Voice information 11 Line control means 11a First line control means 11b Second Line control means 12 Ringback tone detection means 13 Ringer ringing number recognition means 15 Source identification means 16 Transmission condition registration table 17 Transmission information management means 21 Calling 22 Ringback tone 23, 33 Ringer ringing 24 Identification number 24a Telephone number 25 Call Back 26 Transmission condition 27 Information transmission request code 28 End code

Claims (14)

Line control means for making a call to a predetermined line, and ringback tone management means for detecting a ringback tone returned for the call, wherein the line control means detects the ringback tone. The information device is characterized in that the call is stopped and a line connection is made when there is a callback for the call. Ringer ring number recognizing means for counting the number of ringer rings transmitted when a call is made, and a call back to a predetermined line when the call is stopped at a predetermined number of ringer rings or less. Information equipment comprising line control means for performing. An information transmission system comprising at least two information devices that can be connected to each other via a predetermined line, and transmitting predetermined transmission information from a transmission source information device to a transmission destination information device, wherein the transmission source information device A first line control means for making a call to the other line, and a ring back tone management means for detecting a ring back tone returned for the call, wherein the destination information device comprises the call origination device. A ringer ring number recognizing means for counting the number of ringer rings transmitted when there is a call, and a call back to a predetermined line when the call is stopped below the predetermined number of ringer rings. And the first line means stops the call when the ringback tone is detected, and when the callback for the call is received. Information transmission system and outputs the transmission information by line connections. The transmission source information device has the ringer ring number recognition means, and when there is the callback from the transmission destination information device, the line connection is made with a predetermined ringer ring number or less. The information transmission system according to claim 3. The transmission destination information device transmits an information transmission request code when the line is connected, and the transmission source information device starts outputting the information transmission after receiving the information transmission request code. The information transmission system according to claim 3 or 4. When the information device receives the call, the information device has a source identification unit that identifies the identification number of the source without connecting a line, and the source information device has the callback The identification number of the call originator of the callback is specified for the call back, and the line connection is made when it matches the identification number of the destination information device that has stopped the call. The information transmission system according to any one of the above. The information device has a transmission condition registration table that registers and stores at least the identification number of the information device, and the transmission destination information device receives the call, 7. The information transmission system according to claim 6, wherein the identification number is specified, and counting of the number of ringers is started when the identification number matches the identification number registered in the transmission condition registration table. The information device has transmission information management means for inputting, storing, and outputting the transmission information, and the transmission source information device stores the transmission information before the call, and there is the callback The information transmission system according to any one of claims 3 to 7, wherein in the case, the stored transmission information is output. The transmission source information device transmits an end code after outputting the transmission information, and the transmission destination information device starts storing the transmission information after transmitting the information transmission request code, and stores the transmission by receiving the end code. The information transmission system according to claim 8, wherein the information transmission system is terminated. The information transmission system according to claim 3, wherein the information device is a telephone. The information transmission system according to claim 3, wherein the transmission information is a voice. Making a call to a predetermined line;
Stopping the call when detecting a ringback tone for the call;
Connecting a line when there is a callback for the call;
A line control method comprising: Receiving a call from a predetermined line;
A line control method comprising a step of calling back to the line when the call is stopped at a predetermined number of ringers or less. In an information transmission method for transmitting predetermined transmission information from a transmission source information device to a transmission destination information device by at least two information devices that can be connected to each other via a predetermined line,
The source information device making a call to the line;
The source information device detecting a ringback tone for the call and stopping the call;
Starting the counting of the number of ringers ringing when the destination information device has made the call;
The destination information device performing a callback to the line when the ringer ringing is below a predetermined number and the call is stopped;
The source information device connecting the line to the callback and outputting transmission information;
An information transmission method comprising:

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