JPH0671294B2 - Button telephone device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a button telephone device, and more particularly to a power-saving button telephone device in which power supply is controlled to be turned on or off.

(Prior Art) As is well known, a conventional key telephone device is composed of a key telephone main device (hereinafter referred to as a main device) and a plurality of key telephones connected to the key telephone device via a cable or the like. There is.

In the conventional key telephone device, when the power switch SW of the main device ME is turned on, power is supplied from the power circuit PW in the main device ME to the main device ME and all the key telephones KT.

(Problems to be Solved by the Invention) The above-described conventional technique has the following problems.

That is, in the conventional key telephone device, as described above, when the power switch SW of the main device ME is turned on, power supply to all the key telephone sets KT is started, and the key telephone units KT are busy or waiting. Regardless of the inside, power was always supplied.

For this reason, there is a problem that power is supplied even when the button telephone is not used, such as when it is not used or absent, and wasteful power is consumed.

Further, since the key telephone is always powered by the power supply from the main unit, there is a problem that anyone can freely make out-of-city calls from the key telephone and it is difficult to manage telephone charges.

An object of the present invention is to provide a button telephone device which eliminates the above-mentioned problems of the conventional device.

(Means and Actions for Solving Problems) The present invention relates to a button telephone device including a button telephone main device and a button telephone, and an IC dedicated connector including a power switch that is turned on when an IC card is inserted. It is provided in at least one of the main device and the key telephone, and the on / off control of the power source is performed by attaching / detaching the IC card.

Embodiment An embodiment of the present invention will be described in detail below with reference to the drawings. This embodiment shows an example of a key telephone device in which each key telephone is provided with a power switch.

FIG. 1 is a block diagram showing the overall configuration of the key telephone device of the present invention. ME is a key telephone main unit, KT-1, ..., KT
-M is a key telephone, CO-1, ... CO-n is an office line,
LN-11, LN-21, ..., LN-1m, LN-2m are key telephone main devices
It is a cable that connects ME with key telephones KT-1, ..., KT-m. In this figure, the internal structure of the key telephone KT-m is the same as that of the key telephone KT-1 and is not shown.

The main device ME is a station line circuit COT connected to a station line CO.
To connect the tone generator circuit TONE that generates the station line CO, dial toll, and station line ring tone to the button telephone KT, or connect the PB dial oscillator circuit PBOSC that outputs PB dial data to the station line circuit COT. A communication path network SW having a function and the communication path control circuit SWC
A control circuit CPU that is connected via a line, acquires incoming call information from the station line circuit COT, or controls the operation of the station line circuit COT, and a read operation that provides an operation procedure (program) to the control circuit CPU. It is configured to include a dedicated memory ROM, a random access memory RAM in which necessary data is recorded, a transmission / reception circuit XR used for exchanging signals with each key telephone KT, a plurality of transformers T and the like. ing.

Further, PW is a power supply circuit of the key telephone main device ME, and is configured to be supplied with power when the IC card ICCD is inserted into the connector 5 of the main device ME. That is, when the IC card ICCD is inserted into the connector 5, the switch ICSW provided in the connector 5 is turned on and the P relay is turned on. Thus, the contact Ps1 and Ps2 are makeup, the main unit output voltages V ₁ and V ₂ to each part of the ME is supplied, the power to all key telephone KT-1~KT-m is supplied. For example, the key telephone KT-1 has a power supply V ₂
→ Transformer T-11 → Cable LN-11 → Transformer T5 → Power circuit KPW → Transformer T6 → Cable LN-21 → Transformer T-2
1 → V ₂ becomes power is supplied via the ground to the power supply circuit KPW, the output voltage Vk is EKT KT by the power supply circuit KPW
-1 is supplied.

The button telephone KT includes a keyboard key including a selection key, a numeric keypad, and key contacts such as * and #, a light-emitting diode LED as an indicator light for indicating the usage status of office lines and extensions, a hook switch HS, and a liquid crystal display. Display DIP consisting of etc., control circuit KPU for controlling key telephone KT, read-only memory KOM, random access memory KAM, main unit
Transmission / reception circuit KXR that exchanges signals with ME, communication circuit KSL,
It is configured to include transformers T5 and T6, a speaker SP, and the like.

The control circuit (processor) CPU of the key telephone main unit ME is
The program is stored in the read-only memory ROM, and the control circuit (processor) KPU of the key telephone KT-1, ..., KT-m is operated in accordance with the program stored in the read-only memory KOM. . Conventionally, system data was stored in the random access memory RAM, but in the present embodiment, the system data is stored in the IC card.
It is configured so that it is registered in the ICCD and no system data is registered in the RAM, or only a small amount of system data is registered. The IC card ICCD is electrically connected to an address bus, a data bus and a control line in the main device ME by a connector 5 provided in the main device ME, and supplies system data required by the control circuit CPU. Therefore, the setting area of the system data can be deleted from the RAM, the storage capacity of the RAM can be reduced, and the backup battery can be reduced. The IC card will be described in detail later.

The tone generator circuit TONE has a dial tone (dial tone), a line tone (a ring tone from the station line in the general incoming mode), an extension ring tone (a ring tone from another key telephone KT-j), and a busy tone ( Lockout tone) and hold tone.

The control circuit CPU sequentially refers to the incoming call detection circuits INC-1, ..., INC-n (not shown) in the station line circuits COT-1 ,. The line CO-i is constantly monitored for incoming calls. A clock circuit CLK (not shown) measures the call time of each key telephone KT-i, the ringing time (the time from the start of ringing of a ring tone to the response), and the like.

Further, in the general incoming call mode, when there is a call from a station line, which of the key telephone sets KT-1 to KT-m is to ring the station line ringing tone is designated in advance in the RAM. There is. Here, it is assumed that the key telephone KT-m is that.

If an incoming call arrives on any of the station lines CO-1, ..., CO-n (CO-i) while operating in the general incoming call mode, the corresponding station line circuit CO
The incoming call detection circuit INC-i of T-i detects incoming call information, and this is sent to the control circuit CPU.

The control circuit CPU reads out the key telephone set (in this example, KT-m) for which ringing is designated from the random access memory RAM, and also reads out the sound source selection information, and the call path control circuit
Controls the voice network SW through the SWC, and the sound source circuit T
The corresponding tone color is transmitted from ONE to the key telephone KT-m.

As a result, on the side of the key telephone KT-m, the local line ring tone unique to the key telephone is emitted from the speaker SP. At the same time, the light emitting diode LED corresponding to the incoming call line lights up or blinks.

On the key telephone KT-m side, when operating the keyboard KEY to select an incoming call-compatible station line and raising the handset to respond, the control circuit KPU of the button telephone KT-m causes the station line selection information and hook switch HS Detecting the ON information, the transmitting / receiving circuit KXR, the transformer T6, the transformer T-2m on the button telephone side,
A response signal is transmitted to the control circuit CPU on the main device ME side via the transmission / reception circuit XR on the main device ME side.

In response to this, the control circuit CPU disconnects the tone generator circuit TONE from the speech path network SW, and the central line circuit COT-
i to form a loop, and then the curve CO-i
COT-i, speech path network SW and transformer T-1m
Via the telephone circuit KSL of the key telephone KT-m specified to ring.

In this way, a communication path between the office line CO-i and the key telephone KT-m is formed.

Next, the station line transmission operation will be described. Button telephone KT
When the transmitter / receiver is raised on the -m side and the office line key is pressed to select the office line, the control circuit KPU of the button telephone KT-m detects this and sends a detection signal to the transmitter / receiver circuit of the button telephone.
It transmits to the control circuit CPU via the KXR, the transformer, the transformer on the main device ME side, and the transmission / reception circuit XR. In response to this, the control circuit CPU causes the central line circuit to form a loop, and then the local line is transmitted via the central line circuit, the communication network and the transformer.
Connect to. In this way, the central office line and the key telephone KT-m
A communication path between them is formed.

Then, when a dial operation is performed from the key telephone KT-m, the control circuit CPU of the main unit receives the dial information and the key telephone KT set in the RAM in the main unit.
-Access the data corresponding to m. By this access, the service class data is first read, and it is confirmed whether or not the dial information satisfies the service class requirement.

In addition, the service class defines the range in which a key telephone can be used.
It is divided into five classes: out-of-town calling class, specific out-of-town calling class, local calling class, and incoming calls only.
Therefore, if, for example, local call is registered as the service class, it is possible to make and receive a call to the local telephone, but to make a call to an area farther than the local telephone, that is, a specific outside of the city. , Out-of-city and international calls are not available.

When the service class requirement is satisfied, the control circuit CPU of the main device next reads the speed dial or auto dial setting data from the received dial data. In the case of DP (dial pulse) dial, the dial data is sent to the office line circuit. The office line circuit sends a DP dial to the office line by turning the loop on and off. On the other hand, in the case of a PB (push button) dial, the control circuit CPU of the main unit activates the PB dial oscillation circuit based on the setting data. The PB dial data output from the PB dial oscillating circuit is sent to the office line through the communication path network and the office line circuit.

When the received dial data is normal data other than speed dial or auto dial, if the dial data is DP dial, the control circuit CPU sends it to the PB dial. If so, it is sent from the PB dial oscillation circuit to the office line through the communication path network and the office line circuit.

Furthermore, if the service class of the key telephone KT-m is a class that cannot be transmitted, the office line circuit is disconnected from the speech path network, and the sound source circuit is separated from the speech telephone network KT-m via the transformer of the main unit. It connects to the speech circuit and sends a lockout tone from the sound source circuit.

In addition, in the station line incoming mode and the station line outgoing mode,
Other key telephone KT, for example, KT-10 (not shown), if the telephone line is to be held and transferred, the button telephone KT-m is a hold button (not shown) on the keyboard KEY in the state where the channel and the communication path are formed. When is pressed, the hold information is detected by the control circuit KPU of the button telephone KT-m and the transmission circuit K
It transmits to the control circuit CPU via the XR, the transformer T6, the transformer T-2m, and the transmission / reception circuit XR on the main device ME side.

In response to this, the control circuit CPU controls the office line circuit COT-i to put the office line in a hold state (insert a hold resistor between the office lines L ₁ and L ₂ to hold it) and maintain the office line loop. Let At the same time, the control circuit CPU controls the communication path network SW via the communication path control circuit SWC, operates so as to send the corresponding hold tone from the tone generator circuit TONE to the station line, and also activates the light emitting diode LED corresponding to the hold station line. Make it blink. As a result, a hold tone is sent on the station line side, so that it is recognized that the line is on hold and the key telephone KT also recognizes that the line has been held on the hold display.

Next, the key telephone KT-m is an extension button (not shown)
When you press and dial the extension number of the transfer destination extension button telephone KT-10, the control circuit CPU receives the extension button information and dial information, and sends it to the key telephone KT-10 set in the RAM of the main device ME. Access the corresponding data.
This controls the call control circuit SWC, selects the button telephone KT-10 side by the call path network SW, and the sound source circuit
Send an extension ring tone from TONE. At the same time, the extension call display is blinked by the light emitting diode LED. On the key telephone KT-10 side, an extension ring tone sounds and it is understood that the call is made at the extension. Therefore, press the corresponding extension button on which the extension call is displayed. Since this extension correspondence information is immediately transmitted to the control circuit CPU of the main unit ME via the control circuit KPU, the control circuit CPU disconnects the tone generator circuit TONE from the extension call loop to stop the extension ring tone and display the extension call. Also stop.

In this way, an extension call is made between the key telephone KT-m that is on hold of the station line and the transfer destination KT-10, and the KT-10 is notified that an outside line is coming, and a request is made to take the station line that is on hold. Then, the key telephone KT-m puts the handset. Button telephone KT-
The hook switch HS information of m is transmitted to the control circuit CPU, and the call loop of KT-m is disconnected by the control.

On the other hand, when the button telephone KT-10 responds by pressing the station line button corresponding to the station line that is on hold, the response information is transmitted in the same manner as the response operation in the general incoming call mode described above, and the call loop with the station line is established. Once formed, a local line call can be made. In this way, the hold transfer and the call can be performed.

FIG. 2 shows a transmission format of one frame between the main unit ME and the key telephone KT.

Between the transmitter / receiver circuit XR of the main device ME and the transmitter / receiver circuit KXR of the key telephone KT-m, as shown in FIG. 2, first, the main device ME transmits the LED information, the display information, and the call to the key telephone KT. The route information is transmitted in sequence of several tens of bytes. Next, the mode is switched and the key telephone
Key information is sent from the KT to the main device ME in tens of bytes. Then, the mode is switched again.

These pieces of information become valid data when a state change occurs, and invalid data are transmitted when there is no change. The control circuits CPU and KPU start control when valid data is received.

This information transmission is repeated, for example, with 1 msec for 1 bit and 96 msec for one frame.

Information transmission between main unit ME → button telephone KT is 60 bits 60m
30 seconds, information transmission between key telephone KT and main unit ME
It is transmitted at a cycle of 30 msec, and mode switching is performed in 3 msec for each 3 bits.

Next, the schematic structure of the IC card ICCD and the main device ME
The state of mounting (or connecting) on the will be described with reference to FIGS. 3, 4, and 5. Note that Fig. 3 shows the IC card
FIG. 4 is a perspective view showing the ICCD and the connector, and FIG. 4 is a perspective view showing the positional relationship between the main unit ME and the IC card ICCD mounted on the main unit ME.

Generally, the usage required by a user is roughly classified into the types of users. For example, in hospitals and schools, there are many demands that we can accommodate more extensions than bureaus so that we can frequently make extension calls.
On the contrary, there are many demands for offices and the like to accommodate a large number of office lines and to manage the office line call charges for each individual telephone. When installed in factories, etc., it is often required that both the central line and the internal line have a large capacity, and that all functions such as local line regulation and call charge management are possible.

In this way, if a program is developed for each user's form in advance, it is not necessary to provide a program having a capacity that satisfies all functions.

Then, a very large effect can be expected by storing the program for each form of the user in the IC card and selectively using it appropriately.

The IC card ICCD is almost the size of a business card, and as shown in FIG. 3, an embossable area 1 that can be stamped, an IC memory 2, and a plurality of electrically connected to the memory 2. And an electrode portion 3 formed of a contact point of. On the other hand, a connector 5 for mechanically and electrically connecting this to the main device ME
Has a terminal that elastically presses and holds the electrode portion 3 of the IC card and a connection portion 6 that is connected to the bus in the main device ME, and is attached at a predetermined position in the main device ME. It should be noted that a vertical type connector and a horizontal type connector are prepared as the connector 5 and are selectively used according to the usage pattern.

The IC memory 2 is an electrically erasable / programmable EEPROM (Electrically Erasable and Programmable).
le Read Only Memory) is used. In recent years, a large capacity of 4 megabits is being realized, and there is no problem in capacity. MF40 manufactured by Mitsubishi Electric as the IC card
00 or MF5000 can be used. Further, the connector 5 is a dedicated connector, and includes a data bus, an address bus and a control line (which transmits a chip select signal, a read / write signal, etc.) provided in the main device ME,
Connect with IC card ICCD.

In the IC card ICCD, as described above, system data such as system functions, system setting constants, line information, doorphones, and security are registered.

When the IC card ICCD in which the system data is registered is inserted into the connector installed in the main device ME shown in FIG. 1 or 4, the system data is read from the IC card ICCD and the operation of the key telephone device is performed. Will contribute.

According to this embodiment, it is possible to write the system data to the IC card at any place at any time. Therefore, if an IC card in which the system data is stored is prepared in advance, it is possible to meet the user's request to the main device ME simply by inserting the IC card into the connector of the main device ME after the completion of the construction of the key telephone device. System data can be supplied. Therefore, unlike the conventional device, it is not necessary to register a large number of system data one by one from the specific key telephone after the construction is completed, which saves a lot of time.

Also, if there is a change in system data, a new
The change data is stored in the IC card by the data registration device DW, and the IC card inserted in the main device ME is removed.
The system data can be changed in a very short time by inserting the new IC card. For this reason, compared to the conventional device, the time to stop the key telephone device is significantly shortened, the system data can be changed easily, and the time period when the system data is changed can be set outside the business hours such as holidays and nights. There is an advantage that you don't have to choose to, and the work is cheap.

Next, a second embodiment of the present invention will be described. The first
In the second embodiment, the IC card ICCD is mounted on the main device ME side to control the power on / off, whereas in the second embodiment, it is mounted on the key telephone KT side and individually controlled by the terminal. It was done like this.

The manner in which the IC card ICCD is attached (or connected) to the key telephone will be described with reference to FIGS. 6, 7, and 8. 6. FIG. 6 is a block diagram showing the overall configuration of the second embodiment, FIG. 7 is a perspective view showing the positional relationship between the button telephone and the IC card ICCD attached to it, and FIG. 8 is the IC card ICCD.
Button phone KT that is formed when you insert the
It is a block diagram showing an electrical connection with an IC card.

In FIGS. 6, 7, and 8, the same reference numerals as those in FIG. 1 denote the same or equivalent parts as those in FIG. From Fig.8, IC card IC
When the CD is inserted into the connector 5, the switch ICSW provided in the connector 5 is closed, the power supply circuit KPW operates to supply the output voltage Vk to each part, and the address bus, data bus and control line in the button telephone are connected. , IC card ICCD
Address bus, data bus and control line are connected to each other.

User data such as speed dial, auto dial, service class and extension number is registered in the IC card ICCD. When this IC card ICCD is inserted into the connector of the key telephone KT-i, the switch ICSW is turned on first. Then, power is supplied to the key telephone KT-i. Then
The control circuit KPU of the key telephone KT-i reads the data in the IC card ICCD according to the address, and the transmission / reception circuit KX
The data is transmitted to the control circuit CPU via the R, the transformer T6, the transformer T-2i on the main device ME side, and the transmission / reception circuit XR. When the control circuit CPU receives the data, it sequentially stores the data in an address corresponding to the key telephone KT-i of the RAM in the main unit ME. As a result, the user data of the key telephone KT-i has been converted into the data registered in the IC card ICCD.

Then, when the user makes a call using the user data that he or she normally uses by dialing the key telephone KT-i, the control circuit CPU receives the dial information,
By accessing the data stored in the RAM, first, it is confirmed whether or not the dial information satisfies the service class requirement.

When the requirements of the service class are satisfied, the control circuit CPU then reads the speed dial or auto dial setting data from the received dial data. Then, in the case of DP dial, the dial data is sent to the office line circuit, while in the case of PB dial, the PB dial oscillator circuit PBOSC of the main unit ME is activated, and the PB dial is sent to the office line via the call line network and curved line circuit. Send to.

When the received dial data is normal data other than speed dial or auto dial, if the dial data is DP dial, the control circuit CPU sends it to the PB dial. If so, it is sent from the PB dial oscillation circuit to the office line through the communication path network and the office line circuit.

Contrary to the above, if the dial information operated by the user does not meet the requirements of the service class, that is, if the class cannot oscillate, the station line circuit is disconnected from the communication network and the tone generator circuit TONE is set. The lockout tone is transmitted from the tone generator circuit TONE by connecting to the passage circuit of the key telephone KT-i via the communication path network SW and the transformer T-1i of the main unit.

According to the key telephone device of this embodiment, for example, an IC card
If the service class data among the user data registered in the ICCD is the local call class, the local call and the incoming call from the local line are made from any button telephone KT with the IC card inserted under the program control of the main unit ME. , It is possible to transfer calls on hold line and to use speed dial, auto dial and extension, but this is used because the key telephone without IC card ICCD is not supplied with power. You cannot do it.

Therefore, since only the key telephone set with the IC card ICCD can be operated, only the person holding the IC card ICCD can use the key telephone, and the management of telephone charges and the like can be easily performed.

When the control program, system data, and user data that meet the user's required specifications are recorded in this IC card, the main unit ME or key telephone KT will operate according to the control program and system data, and the user's required specifications It is possible to easily make a key telephone device suitable for

The button telephone device of the first and second embodiments is an example in which a connector for an IC card including a power switch is provided in either the button telephone or the main device, but the present invention is not limited to this. Of course, both of them may be provided with the IC card dedicated connector at the same time.

Although the present invention has been described as an embodiment of the present invention in the key telephone device of the key telephone device in which the main unit and the key telephone unit are separate bodies, the present invention is not limited to this. Needless to say, the present invention can be applied to a so-called parent button telephone or the like in which a single telephone and a main device and a button telephone are integrally configured, and these are included in the present invention.

(Effect of the invention) As described above, according to the present invention, the IC connector including the power switch is provided in at least one of the main unit and the key telephone, so that the IC can be used when not in use, when absent, on holidays, at night, etc.
You can save power by removing the card.

Further, since the key telephone cannot be used unless the IC card is inserted into the IC connector, the telephone charge can be easily managed.

[Brief description of drawings]

FIG. 1 is a block diagram of the first embodiment of the present invention, FIG. 2 is a diagram showing a transmission format, FIG. 3 is a perspective view of an IC card and a connector, and FIG. 4 is a button telephone in which an IC card can be set. FIG. 5 is a perspective view of the main unit, FIG. 5 is a block diagram showing the electrical connection between the key telephone main unit and the IC card, FIG. 6 is a block diagram of the second embodiment of the present invention, and FIG. Fig. 8 is a perspective view of the key telephone that
It is a block diagram which shows the electric connection of an IC card. ICCD ... IC card, 1 ... emboss area, 2 ... IC memory, 3 ... electrode part, 5 ... IC connector, KPW, PW ... power supply circuit, P ... relay, ICSW ... switch

Claims (3)

[Claims] 1. A key telephone device comprising a key telephone main unit and a key telephone, wherein an IC dedicated connector including a power switch which is turned on when an IC card is inserted is provided in at least one of the main unit and the key telephone. Button telephone device characterized by the above. 2. The key telephone device according to claim 1, wherein the main device having the IC card inserted therein reads out and uses the data stored in the IC card. 3. A button telephone with an IC card inserted is an IC
The key telephone device according to claim 1, wherein the data stored in the card is read and sent to the main device.