JP2004064601A - Communication apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication apparatus by which a low cost and space saving are available in the communication apparatus connected to an analog public line for use. <P>SOLUTION: The communication apparatus comprises: a first communications means connected to a telephone line for communications; and a second communications means connected to the telephone line through the first communication means for communications. Where, the first communications means comprises: a first switch means connecting the telephone line to the first communications means or the second communications means; a first path means connecting the second communications means to the telephone line through the first switch means; a second path means directly connecting the second communications means to the telephone line: a second switch means connecting the second communications means to the first path means or the second path means; a first hook detection means connected to the first path means; and a second hook detection means connected between the telephone line of the second path means and the second switch means. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication device for detecting a hook state of the second communication means in a facsimile apparatus or data communication apparatus usable by connecting the second communication means, such as a telephone.
[0002]
[Prior art]
FIG. 6 is a diagram showing a conventional communication device 600.
[0003]
In the conventional communication apparatus 600, communication means CS61 and CS62 are connected to one analog public line (PSTN), and a facsimile apparatus as the first communication means CS61 is connected to a telephone as the second communication means CS62. This is a conventional example used.
[0004]
In the conventional communication device 600, a line is connected to the terminals L1 and L2, and a telephone is connected to the terminals T1 and T2. The first communication means CS61 has a modem 64 (a facsimile modem or a data communication modem) and performs communication.
[0005]
Then, a CML relay 61 as a first switch is provided, and the line is connected to the telephone or the modem 64 of the first communication means CS61, and either the telephone or the modem 64 of the first communication means is connected. Can be used.
[0006]
That is, if the CML relay 61 is off, the line is connected to the telephone, and if it is on, the line is connected to the modem 64, and either the telephone or the modem 64 can operate.
[0007]
The transformer 63 transmits an analog signal for communication. The direct current capture unit 62 allows the central office switch to recognize that the communication device is connected to the line by flowing the direct current of the telephone line.
[0008]
When the CML relay 61 is connected to the ON side, the line is connected to the transformer 63 and the DC capturing unit 62 of the first communication unit CS61, so that the facsimile apparatus as the first communication unit performs communication by the modem 64. Becomes possible.
[0009]
In this case, since there is only one line, only one of the facsimile device and the telephone can be used. Therefore, the facsimile device always monitors the line use state (on-hook / off-hook state) of the telephone. There is a need.
[0010]
When detecting the hook state of the telephone, a current flowing when the telephone is off-hook flows to the HOOK detector 66, and the HOOK signal output from the HOOK detector 66 detects the hook of the telephone.
[0011]
The HOOK detector 66 includes a current sensor using a photocoupler or a Hall element, a current detection relay, and the like.
[0012]
That is, a line DC voltage or a DC power supply 67 inside the facsimile apparatus is applied to the connection part of the telephone as the second communication means CS62 via the facsimile apparatus as the conventional communication apparatus 600. When the telephone is on-hook, no current flows, so HOOK detector 66 does not output a HOOK signal, while if the telephone is off-hook, an appropriate current flows, and HOOK detector 66 outputs a HOOK signal. Therefore, the facsimile apparatus which is the conventional communication apparatus 600 can detect the hook state of the telephone which is the second communication means CS62.
[0013]
The HOOK detector 66 determines that off-hook has been detected when a DC current of 5 to 10 mA normally flows.
[0014]
On the other hand, when a second switch (H relay 65) is provided inside the facsimile apparatus and the telephone is switched to either the line side or the DC power supply 67 inside the facsimile apparatus, the following operation is realized. Can be.
[0015]
When the first switch (CML relay 61) is connected to the telephone side (off side) and the second switch (H relay 65) is connected to the line side (off side), the telephone is in a usable state, Also, a hook due to the line DC voltage can be detected. That is, it is possible to detect a standby state and a hook state in a telephone use state.
[0016]
Also, regardless of the connection direction of the first switch (CML relay 61), when the second switch (H relay 65) is connected to the DC power supply 67 side (on side) inside the facsimile apparatus, the DC power supply inside the facsimile apparatus 67 enables the detection of the telephone hook. Therefore, the hook of the telephone can be detected not only when the facsimile apparatus is in the standby state but also when the facsimile apparatus is in the operating state.
[0017]
Further, when a call signal arrives from the line in the standby state, if the second switch (H relay 65) is connected to the line side, the call signal reaches the telephone, and the telephone rings. When the second switch (H relay 65) is connected to the DC power supply 67 inside the facsimile apparatus, the calling signal does not reach the telephone and the telephone does not ring.
[0018]
Either of these can be selected by controlling or setting the facsimile machine.
[0019]
In Japanese Patent Application Laid-Open No. 1-129649, an application means for applying a line voltage is provided in a detection means for detecting the state of the communication means, and the detection means performs communication based on the voltage applied by the application means. Detecting the state of the means is described.
[0020]
Further, Japanese Patent No. 3055343 discloses a facsimile apparatus which is provided with invalidating means for invalidating a call signal for ringing a sub telephone by a one-way element, and which can detect a hook state of the sub telephone.
[0021]
[Problems to be solved by the invention]
In the above conventional example, when the DC power supply of the facsimile apparatus which is the conventional communication apparatus 600 is applied to the connection portion of the telephone which is the second communication means CS62, the secondary DC power supply provided inside the conventional communication apparatus 600 When the DC power supply is used as it is, its DC power supply needs to be insulated and separated from other secondary circuits of the conventional communication device 600. In addition, there is a problem that extra power consumption is required.
[0022]
Further, in the above-described conventional example, the internal noise of the conventional communication device 600 is likely to be output to the second communication means CS62 and the line. In order to suppress this noise, it is necessary to provide a noise countermeasure circuit. Therefore, there is a problem that it is expensive and requires a space for the noise suppression circuit.
[0023]
Further, in the above-mentioned conventional example, when using the telephone as the second communication means CS62, in order to guarantee the operation, the HOOK detector needs to satisfy the line standard for the use of the telephone. That is, audio is transmitted between the line connection of the conventional communication device 600 and the connection of the telephone as the second communication means CS62, that is, between the terminals L1 and L2 and the terminals T1 and T2 of the conventional communication device 600. It is necessary to satisfy standards such as "insertion loss" which is a standard for suppressing signal loss in a band and "series DC resistance" which is a standard for suppressing a resistance value.
[0024]
However, when the off-hook detection of the telephone, which is the second communication means CS62, needs to be performed with a current value smaller than the above 5 to 10 mA, even if the HOOK detector is configured as such, the above-mentioned standard is satisfied at the same time. There is a problem that it is difficult.
[0025]
Further, in the conventional method described in Japanese Patent Application Laid-Open No. 1-129649, there is only one means for detecting the state of the communication means. In this case, only one type of detection sensitivity can be realized. Depending on the line voltage state, detection may not be possible. For example, when a line relay (cml) is connected to the modem unit 1, a line current flows through the modem unit 1, but at the same time, the h relay is turned on to detect the state of the telephone set 2, especially off-hook. In this case, if the DC impedance of the telephone set 2 is higher than the DC impedance of the modem unit 1, the DC current flowing to the telephone set 2 becomes smaller and becomes smaller than the current required for the off-hook state detecting means of the telephone set 2. There is a problem that the off-hook of the telephone 2 cannot be detected.
[0026]
Further, in the above-described conventional method, there is no means for preventing the telephone from ringing, and if the communication device is not in an operating state, the incoming call signal always reaches the telephone and sounds even if it is not desired to ring the telephone. There's a problem.
[0027]
Further, in the conventional method described in Japanese Patent No. 3055343, one off-hook detection circuit is provided for each slave phone, and the above problem can occur similarly.
[0028]
Further, in the above conventional example, in order to solve the above problem, a means for detecting the polarity of the telephone line, and a polarity matching means for matching the polarity of the telephone line with the polarity of the slave phone based on the detected polarity. However, there is a problem that the number of internal circuits of the device increases, which leads to an increase in cost, an increase in circuit space, and an increase in power consumption.
[0029]
SUMMARY OF THE INVENTION It is an object of the present invention to provide an inexpensive and space-saving communication device connected to an analog public line.
[0030]
[Means for Solving the Problems]
According to the present invention, there is provided a first communication means for performing communication by connecting to a telephone line, and a connection means for connecting a second communication means for connecting to and communicating with the telephone line via the first communication means. In the communication apparatus provided, the first communication means includes a first switch means for connecting the telephone line to the first communication means or the second communication means, and the second communication means via the first switch means. First path means for connecting means to the telephone line; second path means for directly connecting the second communication means to the telephone line; and first path means or second path means for connecting the second communication means. , A first hook detecting means connected to the first path means, a second hook connected between the telephone line of the second path means and the second switch means. A communication device having a detection unit.
[0031]
Embodiments and Examples of the Invention
[First embodiment]
FIG. 1 is a block diagram showing a communication device 100 according to a first embodiment of the present invention.
[0032]
The communication device 100 has a first communication unit CS11 and further has a connection unit for connecting the second communication unit CS12, for example, a modular connector or the like. The first communication unit CS11 is, for example, a communication unit that performs facsimile communication, and the second communication unit CS12 is a telephone.
[0033]
The communication device 100 is connected to an analog public line via two lines L1 and L2, and a telephone as the second communication means CS12 is connected via two lines T1 and T2 which are connection means of the second communication means. It is connected.
[0034]
The facsimile apparatus as the communication apparatus 100 includes a CML relay 11, a first communication unit CS11, an H relay 15, a first path unit 16, a second path unit 17, and HOOK detectors 18 and 19. The first communication unit CS11 has a DC capturing unit 12, a transformer 13, and a modem 14.
[0035]
The CML relay 11 is an example of the first switch means, and when connected to the off side, connects the line to the telephone set as the second communication means CS12. When connecting the CML relay 11 to the ON side, the CML relay 11 is connected to a modem 14 (here, a facsimile modem) as the first communication means. That is, when the facsimile apparatus is in a standby state in which the facsimile apparatus is not operating, or when the telephone is in the operating state, the connection is made to the off side, and when the facsimile apparatus performs communication operation by the modem 14, it is connected to the on side.
[0036]
The first route means 16 is a two-wire connecting line from L1 and L2 to the telephone via the CML relay 11.
[0037]
The transformer 13 transmits an analog signal for communication. The central office exchange recognizes that the communication device is connected to the line by causing the DC capturing unit 12 to flow the DC current of the telephone line.
[0038]
When the CML relay 11 is connected to the ON side, since the line is connected to the transformer 13 and the DC capturing unit 12, which are the first communication means CS11, the facsimile apparatus can communicate with the modem 14. .
[0039]
The H relay 15 is an example of a second switch means, is connected between the CML relay 11 of the first path means 16 and the telephone, and is connected to either the first path means 16 or the second path means 17 by the telephone. Is a relay that connects
[0040]
The second path unit 17 is a path that branches from L1 and L2 connecting the lines and connects L1 and L2 and the H relay 15 with two lines. Therefore, when the H relay 15 is off and the CML relay 11 is off, the telephone is connected to the line via the first path means 16 and when the H relay 15 is on. Regardless of the connection of the CML relay 11, the telephone can be connected to the line via the second path means 17.
[0041]
The first HOOK detector 18 is connected between the CML relay 11 and the H relay 15 of the first path means 16 and detects a hook of the telephone when the telephone is connected to the line via the first path means 16. I do.
[0042]
The second HOOK detector 19 is connected between the branch point on the second path means 17 and the H relay 15 and detects the hook of the telephone when the telephone is connected to the line via the second path means 17. I do.
[0043]
The first HOOK detector 18 and the second HOOK detector 19 are configured by a current sensor using a photocoupler or a Hall element, a current detection relay, and the like, and a HOOK1 signal output from the first HOOK detector 18 according to a flowing DC current. The level of the HOOK2 signal output by the second HOOK detector 19 is determined, and the CPU of the first communication means CS11 (not shown) sees the levels of the HOOK1 signal and the HOOK2 signal, and the telephone is in the on-hook state or the off-hook state. Judge.
[0044]
That is, when the telephone is in the on-hook state, no current flows through the first HOOK detector 18 and the second HOOK detector 19, so that the HOOK1 signal and the HOOK2 signal are, for example, Low level, while the telephone is in the off-hook state. At one time, a current flows through the first HOOK detector 18 and the second HOOK detector 19, and the HOOK1 signal and the HOOK2 signal become High level on the contrary.
[0045]
The level of the HOOK1 or HOOK2 signal changes when the phone is hooked off-hook from the on-hook state or when the phone is hooked on from the off-hook state, but changes in the current due to chattering of the hook switch of the phone, capacitors and resistors inside the phone. A hook state determination timer is provided in order to eliminate a delay or the like.
[0046]
That is, when the HOOK1 signal and the HOOK2 signal change from the Low level to the High level, the timer is started. If the High level continues for 500 ms, for example, the telephone has changed from the on-hook state to the off-hook state. to decide.
[0047]
When the first HOOK detector 18 or the second HOOK detector 19 is a photocoupler, a bidirectional photocoupler that does not limit the direction of the direct current is used. In the case of a current sensor or a current detection relay, there is no restriction on the direction of the direct current.
[0048]
Next, the operation of the above embodiment will be described.
[0049]
In the standby state, the CML relay 11 is connected to the off side, so that the hook of the telephone can be detected regardless of whether the H relay 15 is connected to the off side or the on side. That is, when the H relay 15 is connected to the off side, the telephone is connected to the first path 16, and when the telephone is off hook, the line flowing through the first path 16 is connected. When the HOOK1 signal goes to a high level, the off-hook of the telephone can be detected.
[0050]
Of course, no current flows when the telephone is on-hook, so that the on-hook can be detected when the HOOK1 signal goes low. Also, when the H relay 15 is connected to the ON side, the telephone is connected to the second path 17, and when the telephone is off-hook, the line flowing through the second path 17 When the current flows through the second HOOK detector 19 and the HOOK2 signal becomes High level, the off-hook of the telephone can be detected.
[0051]
As described above, since no current flows when the telephone is on-hook, the on-hook can be detected when the HOOK2 signal goes low.
[0052]
Therefore, a DC power supply inside the device, which is required in the conventional example, is not required in the above-described embodiment, and a noise removing circuit for removing noise generated by the DC power supply is unnecessary in the above-described embodiment.
[0053]
When the telephone is off-hook from the standby state, the CML relay 11 continues the off connection, and the H relay 15 continues the off connection or connects from on to off, and connects the telephone to the first path means 16. By connecting to the line and connecting to the line, it is ensured that the telephone can be used without problems (call). At this time, when detecting on-hook of the telephone, the first HOOK detector 18 detects on-hook of the telephone.
[0054]
On the other hand, when the CML relay 11 is connected to the ON side and the hook of the telephone needs to be detected while the facsimile apparatus is performing any operation, the H relay 15 must be connected to the ON side to connect the telephone to the second side. To the path 17.
[0055]
For example, a hook key is provided in the facsimile apparatus, and when the hook key is pressed and the CML relay 11 is turned on, or when the facsimile apparatus starts dialing after turning on the CML relay 11 in order to enter a dialing operation, In order to detect a CNG signal after a call signal is received in the FAX / TEL switching mode, the CML relay 11 is turned on, a dial signal is transmitted from a facsimile apparatus with the telephone set off-hook, or the CML relay 11 is turned on. Then, when a hold tone or a voice response signal is being output from the modem 14, the H relay 15 is always connected to the ON side, and the telephone is connected to the second path 17.
[0056]
Therefore, when the telephone is off-hook, the off-hook of the telephone can be detected by passing the current from the flowing line to the second HOOK detector 19 via the second path 17, and of course, the telephone can be on-hook. At this time, since no current flows through the second HOOK detector 19, on-hook can be detected.
[0057]
Further, there are the following cases as the operation of the first embodiment.
[0058]
When the hook detection of the telephone is required when the CML relay 11 is on, the H relay 15 is turned on, the telephone is connected to the second path means 17 and the hook detection is performed. If it is off-hook and affects the operation of the facsimile machine, the telephone is disconnected from the second path means 17 by turning off the H relay 15, and the telephone is disconnected from the line. For example, when a telephone and a facsimile machine are connected in parallel to a line, the characteristics of the facsimile machine change and affect its operation. For example, when the facsimile machine is communicating or sending a dial signal. Then, the H relay 15 is turned off, and the telephone is disconnected from the second path means 17.
[0059]
As described above, the first HOOK detector 18 and the second HOOK detector 19 provided in the first path means 16 and the second path means 17, respectively, are further configured as follows.
[0060]
Since the first HOOK detector 18 is present on the first route means 16 connected when the telephone is in use, the first HOOK detector 18 satisfies the above-mentioned standard in order to guarantee the specifications of the telephone, and Is set to about 5 to 10 mA. Therefore, since there is no influence on facsimile communication of the facsimile apparatus, dial transmission, and the like, an inexpensive photocoupler or the like can be used as the first HOOK detector 18.
[0061]
On the other hand, the second HOOK detector 19 connects the telephone to the second route means 17 and disconnects the hook when the CML relay 11 is turned on and it is necessary to detect the hook of the telephone as described above. Since it may be detected, it is configured as follows.
[0062]
That is, when the telephone is connected to the second path means 17 and the telephone is off-hook while the CML relay 11 is on, the DC capturing section 12 of the facsimile apparatus and the telephone are connected in parallel. At this time, if the DC impedance of the DC capture unit 12 is smaller than that of the telephone, the current flowing through the telephone becomes small, and in this case, it is necessary to detect the hook. Therefore, the second HOOK detector 19 is configured to detect off-hook even if the current flowing through the telephone is small. Specifically, when a current of several hundred μA to 1 mA flows through the telephone, it is determined that the telephone is off-hook.
[0063]
Even if the second HOOK detector 19 is configured to detect the off-hook of the telephone with a small current, the timer determination means is provided as described above. Even if the capacitor inside is fully charged and the CML relay 11 is switched from on to off and the line is connected to the telephone, it is not erroneously detected that the central office exchange has gone on-hook due to the interruption of the line current.
[0064]
Since the second path means 17 is used to detect the hook of the telephone, when the telephone is connected to the second path means 17 including the second HOOK detector 19, it is not necessary to satisfy the above standard. The off-hook detection current of the current can be realized. Since the second HOOK detector 19 is connected so as not to affect facsimile communication and dial transmission of the facsimile apparatus, an inexpensive photocoupler can be used.
[0065]
Here, control of the above-mentioned various relays is performed by control means such as a CPU (not shown) of the facsimile apparatus.
[0066]
[Second embodiment]
FIG. 2 is a block diagram showing a communication device 200 according to a second embodiment of the present invention.
[0067]
The communication device 200 has a first communication unit CS21 and further has a connection unit for connecting the second communication unit CS22, for example, a modular connector. The first communication unit CS21 is, for example, a communication unit that performs facsimile communication, and the second communication unit CS22 is the same telephone as the second communication unit CS12.
[0068]
Further, the second path means 17 of the communication device 200 has the current rectifier 20. The current rectifier 20 is provided on the second path means 17 and closer to the line than the H relay 15.
[0069]
FIG. 3 is a circuit diagram showing an example of the current rectifier 20.
[0070]
As shown in FIG. 3, the current rectifier 20 uses four one-way elements (for example, diodes). The line side is connected to the anode and cathode connection terminals of the diode so as to have no polarity. Are connected to a polar anode connection terminal (-) and a cathode connection terminal (+). By doing so, a unidirectional DC current can be obtained on the H relay 15 side regardless of the polarity of the DC current from the line, and HOOK detection by the second HOOK detector 19 can be realized without any problem. it can.
[0071]
In particular, since the second HOOK detector 19 is located closer to the H relay 15 than the current rectifier 20, the direction of the DC current in the line is constant, and therefore, a one-way photocoupler can be used, and a two-way photocoupler can be used. As a result, costs can be reduced. Even in the case of a current sensor or a DC detection relay, there is no limitation on the direction of the DC current. However, even when the direction of the DC current is limited, it can be used as the second HOOK detector 19.
[0072]
Further, when the facsimile apparatus as the communication apparatus 200 is in a standby state, the H relay 15 is turned on, and the telephone as the second communication means CS22 is connected to the second path means 17, so that the frequency of 15 Hz to 60 Hz from the line is correct. Even if a ringing signal having a negative voltage level arrives, it is rectified by the current rectifier 20 and becomes a half-wave having only a positive voltage level, the ringing signal is invalidated, and the ringer inside the telephone does not ring. . That is, in the conventional example, even if the DC power supply provided inside the facsimile apparatus is not provided, it is possible to invalidate the telephone connected to the line without ringing the telephone.
[0073]
On the other hand, when the H relay 15 is turned off and the telephone is connected to the first route means 16 in the standby state, the call signal arriving from the line reaches the telephone as it is, and the telephone rings without any problem.
[0074]
The connection of the H relay 15 in the standby state depends on the initial setting of the facsimile machine.
[0075]
As described above, since the current rectifier 20 is provided in the second path means 17, when the H relay 15 is turned on, the telephone does not ring even if a call signal arrives. Furthermore, since the current rectifier 20 is configured using four one-way elements, regardless of the direction of the line DC current, the off-hook of the telephone can be detected without any problem without adding an extra circuit. it can.
[0076]
[Third embodiment]
FIG. 4 is a block diagram showing a communication device 300 according to a third embodiment of the present invention.
[0077]
The communication device 300 includes a first communication unit CS31 and a connection unit for connecting the second communication unit CS32, such as a modular connector. The first communication unit CS31 is, for example, a communication unit that performs facsimile communication, and the second communication unit CS32 is the same telephone as the second communication unit CS12.
[0078]
Further, the second path means 17 of the communication device 300 has an H detection relay 21. The H detection relay 21 is provided in the communication device 300 in the second path means 17 and closer to the line than the H relay 15. In the communication device 300, the H detection relay 21 is provided only on one side of the two wires, but the H detection relay 21 may be provided on both of the two wires.
[0079]
When the H detection relay 21 is turned on, the second path means 17 is connected, and when the H relay 21 is turned off, the second path means 17 is disconnected. Other configurations are the same as those of the communication device 200.
[0080]
Next, a control operation in communication device 300 will be described.
[0081]
When the hook detection of the telephone which is the second communication means CS32 is required when the CML relay 11 is on, the H relay 15 is turned on, the telephone is connected to the second path means 17, and the second hook detection is performed. The hook is detected by the detector 19. When the operation of the facsimile communication means as the first communication means CS31 is affected in a state where the telephone is off-hook and the H relay 15 needs to be turned on, the H detection relay 21 is turned off. The two-path means 17 is disconnected. That is, the telephone is disconnected from the line.
[0082]
For example, when a telephone as the second communication unit CS32 and a facsimile communication unit as the first communication unit CS31 are connected in parallel to a line, and the characteristics of the facsimile apparatus change to affect its operation. Then, for example, during communication or transmission of a dial signal by the facsimile apparatus, the H detection relay 21 is turned off and the second path means 17 is disconnected.
[0083]
According to the communication device 300, as described above, the H detection relay 21 is provided, and the second path means 17 can be separated by the H detection relay 21, so that the facsimile device is communicating or the dial signal is being transmitted. In some cases, the telephone can be disconnected from the line so that the off-hook of the telephone does not affect the operation of the telephone.
[0084]
Further, as described above, when the H relay 15 is turned off instead of the H detection relay 21, the switching sound is large when the H relay 15 is a mechanical relay, and when the switching is performed frequently, the sound is considerably large. When the H detection relay 21 is provided and controlled, the H relay 15 can be maintained in the ON state. Even if the H relay 15 is a mechanical relay, no switching sound is generated.
[0085]
Here, control of the above-mentioned various relays is performed by control means such as a CPU (not shown) of the facsimile apparatus.
[0086]
[Fourth embodiment]
FIG. 5 is a circuit diagram showing a communication device 400 according to a fourth embodiment of the present invention.
[0087]
The communication device 400 has a first communication unit CS41, and further has a connection unit for connecting the second communication unit CS42, for example, a modular connector. The first communication unit CS41 is, for example, a communication unit that performs facsimile communication. In the communication device 400, the first HOOK detector 18 is moved between the CML relay 11 and L1, L2 connecting a line. . The second communication means CS42 is the same telephone as the second communication means CS32.
[0088]
Other configurations and operations are the same as those described for the communication devices 100, 200, and 300. Even if the first HOOK detector 18 is connected to the position shown in FIG. 5, there is no problem and the same effect is obtained. be able to.
[0089]
In the communication device 400, the first HOOK detector 18 is connected to a path for performing facsimile operation such as facsimile communication and dialing, and is configured to satisfy those characteristics, that is, DC characteristics and AC characteristics. Configure so that the characteristics are not affected.
[0090]
In this case, the standards (insertion loss, series DC resistance, etc.) for the telephone can be easily satisfied. For example, a current sensor or a current detection relay using a Hall element can be used for the first HOOK detector 18. In this case, the presence or absence of the line current can be detected even in the operation state of the first communication unit in which the first switch unit is on.
[0091]
Here, control of the above-mentioned various relays is performed by control means such as a CPU (not shown) of the facsimile apparatus.
[0092]
In the communication devices 100, 200, 300, and 400, the CML relay 11 and the H relay 15 are relays that operate simultaneously in two circuits. Instead, two one-circuit relays may be used.
[0093]
According to the communication device of the first aspect, the first communication means for connecting and communicating with the telephone line and the second communication means for connecting to and communicating with the telephone line via the first communication means are connected. A first switch means for connecting the telephone line to one of the first communication means and the second communication means; and a first switch means for connecting the telephone line to one of the first communication means and the second communication means. A first path means for connecting the second communication means to the telephone line via a switch means, a second path means for directly connecting the second communication means to the telephone line, and the second communication means A second switch means connected to one of the first path means and the second path means, a first hook detection means connected to the first path means, a telephone line of the second path means, 2nd hook detection connected between 2 switch means Because it has a stage, for hook detection of the second communication means, you can have two types of hook detection means, such as separating the hook detection sensitivity can be selected depending on the usage.
[0094]
Also, in particular, the first path means can be used while connected during the operation of the second communication means, and the second path means can be used only when hook detection of the second communication means is performed. In a state where the second communication means is connected to the second path means including the hook detection means, it is not necessary to satisfy other required standards as long as the hook detection of the second communication means can be performed. Therefore, the second hook detecting means can be constituted by inexpensive hardware (for example, a photocoupler or the like). Furthermore, there is no need to provide a dedicated DC power supply conventionally provided in the first communication means, and there is no noise generated from the dedicated DC power supply, and a low-cost, small, and low-power-consumption communication device is realized. can do.
[0095]
Further, according to the communication device of the second aspect, when the second switch means connects the second communication means to the first path means, the first hook detection means performs the second communication. Means for detecting the hook state of the second communication means, when the second switch means connects the second communication means to the second path means, the second hook detection means detects the hook state of the second communication means. Since the detection is performed, the hook of the second communication unit can be detected by the line current regardless of whether the first communication unit is in the standby state or the operating state. For example, when the first communication unit is not connected to the line, either the first hook detection unit or the second hook detection unit can detect the hook of the second communication unit. Further, even when the first communication means is connected to the line side, when hook detection of the second communication means is required, hook detection can be easily performed by the second hook detection means.
[0096]
Further, according to the communication device of the third aspect, since the first hook detecting means is connected between the first switch means on the first path means and the second switch means, It is a position that has no effect on communication of the communication device and dial transmission, etc. It only needs to satisfy the characteristics of connecting the line to the second communication means and the hook detection condition, and is configured with inexpensive hardware (such as a photocoupler). It is possible to do.
[0097]
According to the communication device of the fourth aspect, since the first hook detecting means is connected between the telephone line and the first switching means, the first switching means is on. Even in the operation state of the first communication means, the presence or absence of the line current can be detected.
[0098]
According to the communication device of the present invention, the off-hook detection current value of the second hook detection means is smaller than the off-hook detection current value of the first hook detection means. Even if it is small, off-hook can be detected without any problem.
[0099]
Further, according to the communication device of the present invention, the first communication means has the timer determination means for determining that the hook state has changed after a predetermined time when the output of the hook detection means has changed. In addition, it is possible to eliminate chattering of the hook switch of the second communication unit, delay of a current change due to a capacitor and a resistance inside the second communication unit, and the like. In particular, even if the off-hook detection current is small and the capacitor inside the second communication means is not sufficiently charged, the power is sufficiently stored after the timer time elapses. Even if you reconnect to the communication means, there is no worry about the line being disconnected.
[0100]
According to the communication device of the present invention, a current rectifying means comprising four one-way elements is provided between the telephone line of the second path means and the second switch means. Therefore, the hook detection of the second communication unit by the second path unit can be performed without any problem without adding an extra circuit, and the second hook detection unit only needs to detect the current in one direction. The use of the one-way current detector as the hook detecting means leads to cost reduction, and makes it possible to make the incoming call signal a half-wave and invalidate the call of the second communication means.
[0101]
According to the communication apparatus of the eighth aspect, when the first switch is connected to the first communication unit, the second switch is connected to the first path. Therefore, even when the first switch means is connected to the first communication means side, it is possible to disconnect the telephone from the second path means and the line as necessary, and the off-hook operation of the second communication means is performed (1) It does not affect the operation of the communication means.
[0102]
Further, according to the communication apparatus of the ninth aspect, the second path means has a third switch means between the telephone line and the second switch means, and the third switch means is provided with the third switch means. Since this is a means for connecting and disconnecting the two-way means, the telephone and the second-way means and the line can be disconnected as needed while the second switch means is kept on, and the off-hook operation of the second communication means However, this does not affect the operation of the first communication means.
[0103]
According to the communication device of the tenth aspect, when the hook state of the second communication means is detected when the second switch means is connected to the second path means, the third switch means Is connected to the second path means, and if it is necessary to detect the hook state when the second switch means is connected to the second path means, the third communication means is connected by connecting the third switch means. Is connected to the line, so that the current from the line can flow even if the second communication means is off-hook, and the hook detection of the second communication means can be executed without any problem.
[0104]
According to the communication device of the eleventh aspect, the first switch means is connected to the first communication means, and the third switch means disconnects the second path means while the first communication means is operating. Therefore, even when the first switch means is operating with the first communication means connected to the circuit side, the second communication means and the second communication means can be connected with the second switch means as needed. The path means and the line can be disconnected, and the off-hook operation of the second communication means does not affect the operation of the first communication means.
[0105]
Further, according to the communication device of the twelfth aspect, since a modem is used as the first communication means and the second communication means is a telephone, data communication is performed as the first communication means instead of a facsimile apparatus. The device can be used.
[0106]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, there exists an effect that the communication apparatus connected and used for an analog public line can be inexpensive and space-saving.
[Brief description of the drawings]
FIG. 1 is a circuit diagram showing a communication device 100 according to a first embodiment of the present invention.
FIG. 2 is a circuit diagram showing a communication device 200 according to a second embodiment of the present invention.
FIG. 3 is a circuit diagram illustrating an example of a current rectifier 20.
FIG. 4 is a circuit diagram showing a communication device 300 according to a third embodiment of the present invention.
FIG. 5 is a circuit diagram showing a communication device 400 according to a fourth embodiment of the present invention.
FIG. 6 is a diagram showing a conventional communication device 600.
[Explanation of symbols]
100, 200, 300, 400 ... communication devices,
CS11, CS21, CS31, CS41 ... first communication means,
11 ... CML relay,
12 ... DC capture unit,
13 ... Transformer,
14… Modem,
15 ... H relay,
16 first path means,
17 second path means,
18, 19 ... HOOK detector,
20 ... current rectifier,
21 ... H detection relay,
CS12, CS22, CS32, CS42 ... second communication means.

Claims (12)

A communication device, comprising: a first communication means for performing communication by connecting to a telephone line; and a connection means for connecting a second communication means for connecting to and communicating with the telephone line via the first communication means. At
The first communication means includes:
First switch means for connecting the telephone line to the first communication means or the second communication means;
First path means for connecting the second communication means to the telephone line via the first switch means;
Second path means for connecting the second communication means directly to the telephone line;
Second switch means for connecting the second communication means to the first path means or the second path means;
First hook detection means connected to the first path means;
Second hook detecting means connected between the telephone line of the second path means and the second switch means;
A communication device comprising: In claim 1,
The second switch means connects the second communication means to the first path means, the first hook detection means detects a hook state of the second communication means, and the second switch means Wherein the second hook detection means detects a hook state of the second communication means when the second communication means is connected to the second path means. In claim 1 or claim 2,
The communication device according to claim 1, wherein said first hook detecting means is connected between said first switch means on said first path means and said second switch means. In claim 1 or claim 2,
The communication device according to claim 1, wherein the first hook detection means is connected between the telephone line and the first switch means. In any one of claims 1 to 4,
A communication device, wherein the off-hook detection current value of the second hook detection means is smaller than the off-hook detection current value of the first hook detection means. In any one of claims 1 to 5,
The communication device according to claim 1, wherein the first communication means includes timer determination means for determining that the hook state has changed after a predetermined time when the output of the hook detection means has changed. In any one of claims 1 to 6,
A communication device, characterized in that current rectification means comprising four one-way elements is provided between the telephone line of the second path means and the second switch means. In any one of claims 1 to 7,
A communication apparatus comprising: means for connecting the second switch means to the first path means when the first switch means is connected to the first communication means side. In any one of claims 1 to 8,
The second path means has third switch means between the telephone line and the second switch means, and the third switch means connects and disconnects the second path means. A communication device characterized by the above-mentioned. In claim 9,
When the hook state of the second communication means is detected while the second switch means is connected to the second path means, the third switch means is set to the second path means connection state. Communication device. In claim 10,
A communication device, wherein the first switch means is connected to the first communication means, and the third switch means is in a state of disconnecting the second path means while the first communication means is operating. In any one of claims 1 to 11,
A communication device, wherein a modem is used as the first communication means, and the second communication means is a telephone.

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