JP2001111635A - Communication device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication unit with a small size that can communication with a transmission reception terminal and a transmission terminal with different communication specifications. SOLUTION: Connection terminals 63-65 of a communication section 40 are connected to ground via resistors 69, 70 in common. A microcomputer 71 identify a voltage level caused at connection point of a transistor(TR) 66 and the resistor 69 while the TR 66 is conductive and TRs 67, 68 are nonconductive to receive a 1st pulse signal sent from a transmission reception section 41 and allows the transmission reception section 41 to transmit a 2nd pulse signal by turning on/off while the TRs 67, 68 are nonconductive. The microcomputer 71 identify a voltage level caused at connection point of the TR 68 and the resistor 69 while the TR 68 is conductive and TRs 66, 67 are nonconductive to receive a level signal sent from a transmission section 42.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmitting / receiving terminal having different communication specifications and a communication apparatus for transmitting / receiving signals to / from a transmitting terminal.

[0002]

2. Description of the Related Art Conventionally, a plurality of transmitting / receiving terminals and transmitting terminals are connected to one communication apparatus, and various signals are transmitted from these terminals to the communication apparatus, whereby the communication apparatus is provided. Various control systems that control the operation of a main body device have been proposed.

As an example of such a control system, for example, a hot water heater such as a floor heater or a hot air heater for heating a room using hot water as a heat source, and a hot water heater for supplying hot water to these hot water heaters The start and stop of hot water from the hot water supply device to the hot water type heater is controlled by communicably connecting the supply device (main device) and transmitting a control signal from the hot water type heater to the hot water supply device. Such is known.

Here, the communication specifications between the hot water heater and the hot water supply device are not always uniform, and may differ as shown in FIG. Referring to FIG. 4, reference numeral 90 denotes a communication device provided in the hot water supply device, which performs two-way communication with the transmission / reception terminal 41 provided in the hot air heater and is provided in the floor heater. One-way communication (from the transmission terminal 42 to the communication device 90) is performed with the transmission terminal 42.

[0005] The transmission / reception terminal 41 includes a microcomputer 43 and an input / output circuit 46 having photocouplers 44 and 45 and the like. Then, the transmission / reception unit 41 turns on the photocoupler 44 by the output from the output port OUT20 of the microcomputer 43.
The first pulse signal is transmitted to the communication device 90 by turning on / off and outputting the current intermittently from the input / output terminal 47. The transmission / reception terminal 41 sets the ON / OFF state of the photocoupler 45 that is turned ON / OFF in accordance with the presence or absence of an externally supplied current to the input / output terminal 47 with a voltage (logic high) input to the input port IN20 of the microcomputer 43. By recognizing the level / logic low level, the second pulse signal output from the communication device 90 is received.

On the other hand, the transmitting terminal 42 includes a microcomputer 50 and an output circuit 53 having transistors 51 and 52 and the like. The transmitting terminal 42 uses the combination of ON / OFF of the transistors 51 and 52 according to the output from the output ports OUT30 and OUT31 of the microcomputer 50,
V _CC, Vz (Zener voltage of the Zener diode 54), by selectively outputs three kinds of voltage of 0V from the output terminal 55, and transmits the level signal to the communication device 90.

As described above, the transmitting / receiving terminal 41 and the transmitting terminal 4
2 differs in the type of signal to be handled. Therefore, in the conventional communication device 90, the transmitting / receiving terminal 41
Connector 91-93, input / output circuit 94 for transmitting / receiving pulse signals (first pulse signal, second pulse signal), and input / output circuit by selecting one of connection terminals 95-97 of connectors 91-93 Selector circuit 100 to connect to 94
102 was provided exclusively. For the transmitting terminal 42, the connectors 103 to 105 and the connector 103
Input circuits 109 to 111 for receiving the level signals input to the connection terminals 106 to 108 respectively are provided exclusively.

Here, the input / output circuit 94 is connected to the photocoupler 9
8 and 99, and the photocoupler 98 has connection terminals 95-9.
7 (selected by the selection circuits 100 to 102) depending on the presence or absence of a current flowing therethrough, and the level of the voltage input to the input port IN10 of the microcomputer 120 is switched accordingly (logic High level / logic low level).

Therefore, the microcomputer 120 is connected to the input port I
The ON / OFF state of the photocoupler 98 can be recognized by confirming the presence or absence of the input of a logic high level voltage to N10. The photocoupler 99 is turned on in response to the output from the output port OUT13 of the microcomputer 120.
/ OFF, and accordingly, any one of the connection terminals 95 to 97 (selected by the selection circuits 100 to 102) is connected to the ground potential via the resistor 121 and the cutoff state is cut off from the ground potential. Switch to

Then, the microcomputer 120 keeps the photocoupler 99 in the ON state and turns on / off the photocoupler 98.
By recognizing F, the first pulse signal input to any of the connection terminals 95 to 97 (selected by the selection circuits 100 to 102) is received. By turning on / off the photocoupler 99, the connection terminal 95 is turned on.
To 97 (selected by the selection circuits 100 to 102) transmit the second pulse signal.

In FIG. 4, the output port OUT1
From 0, a logic low level signal is output to the selection circuit 100, and the selection circuits 101 and 10 are output from OUT11 and OUT12.
2, the connection terminal 95 is selected by outputting a logic high level signal to each of them.

On the other hand, connectors 103 to 105 provided for the transmitting terminal 42 have input circuits 109 to 11 respectively.
1 is connected. The input circuits 103 to 105 include NOT circuits 112 and 113 and a Zener diode 1 respectively.
14. When a _Vcc level signal is input to the connection terminal 107, the inputs to the NOT circuits 112 and 113 both have a logic high level, and the inputs to the input ports IN13 and IN14 of the microcomputer 120 both have a logic low level. . When a Vz level signal is input to the connection terminal 107, the input to the NOT circuit 112 goes to a logic high level, but the voltage to the NOT circuit 113 goes to a logic low level due to the voltage drop by the Zener diode 114. Therefore, the input to IN13 is at a logic low level and the input to IN14 is at a logic high level.

When a 0 V level signal is input to the connection terminal 107, the inputs to the NOT circuits 112 and 113 are both at a logic low level.
Both inputs to logic high. Therefore,
Check the input voltage to the input port IN13 and IN14 of the microcomputer 120, is input to the connection terminal 107 a voltage V _CC, Vz, by identifying which of 0V, the communication device 90 sends the terminal 42 Can be received.

When the transmitting terminal 42 is connected to the connector 103, the input ports IN11 and IN11 of the microcomputer 120 are connected.
By confirming the input voltage to N12 and, when the transmitting terminal 42 is connected to the connector 105, by confirming the input voltage to the input ports IN15 and IN16 of the microcomputer 120, the communication device 90 is connected to the transmitting terminal 42. Can be received.

However, as described above, the communication device 90 is provided with the connectors 91 to 93 and the input / output circuit 94 for the transmission / reception terminal 41 exclusively, and the connectors 103 to 1 for the transmission terminal 42 are provided.
When dedicated circuits 05 and output circuits 109 to 111 are provided, it is necessary to secure a large space for mounting these connectors, and it is also necessary to increase the number of circuit components and the number of input / output ports of the microcomputer. However, since the size of the communication device also increases, there is a disadvantage that the size of the communication device increases.

[0016]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned disadvantages and has a small communication device capable of communicating with a transmitting / receiving terminal for transmitting / receiving a pulse signal and a transmitting terminal for transmitting a level signal. The purpose is to provide.

[0017]

SUMMARY OF THE INVENTION The present invention has been made to achieve the above-mentioned object, and has been described in connection with a case where the input / output terminal of a transmitting / receiving terminal for transmitting / receiving a pulse signal is connected via a first communication line. Perform two-way communication with the transmitting and receiving terminal,
A communication device that performs one-way communication with an output terminal of a transmission terminal that transmits a level signal when the output terminal is connected to the transmission terminal via a second communication line, wherein the transmission and reception terminal includes the input / output terminal. A pulse signal transmitting / receiving means for transmitting a first pulse signal by intermittently supplying an electric current to the input terminal and receiving a second pulse signal by intermittently supplying an electric current to the input / output terminal; Comprises level signal transmitting means for transmitting a plurality of types of level signals by selectively outputting a plurality of levels of voltages to the output terminal.

The communication device includes a connection terminal connected to the first communication line or the second communication line, a connection state in which the connection terminal is connected to a predetermined potential portion via a resistor, and the connection portion connected to the predetermined potential portion. A switching circuit for switching to a cut-off state, a voltage identification means for identifying a voltage level at a connection point between the switching circuit and the resistor, and the transmission / reception terminal connected to the connection terminal via the first communication line. When the switching circuit is in the connection state, a voltage of a predetermined level intermittently generated at a connection point between the switching circuit and the resistor by the first pulse signal transmitted from the transmission / reception terminal is applied to the voltage identification unit. By receiving the first pulse signal transmitted from the transmitting and receiving terminal, and by switching the switching circuit between the connection state and the cutoff state A pulse communication control means for transmitting the second pulse signal to the transmission / reception terminal by intermittently supplying a current to the input / output terminal of the transmission / reception terminal; and the connection terminal via the second communication line. Level communication for receiving the level signal transmitted from the transmitting terminal by recognizing the level of the voltage identified by the voltage identifying means when the transmitting terminal is connected and setting the switching circuit to the connected state. Control means.

According to the present invention, the communication device includes:
Via the connection terminal, it is possible to connect to both the transmitting / receiving terminal and the transmitting terminal. Therefore, it is not necessary to provide a dedicated connection terminal for each of the transmitting / receiving terminal and the transmitting terminal, and the installation space of the terminal can be reduced. Further, the pulse communication control means includes:
Receiving the first pulse signal transmitted from the transmitting / receiving terminal by identifying the voltage of the predetermined level intermittently generated by energization by the first pulse signal by the voltage identification means, Receiving the level signal by recognizing the level of the voltage identified by the voltage identification means. Therefore, it is not necessary to provide a dedicated means for receiving the first pulse signal and a means for receiving the level signal, and the size of the circuit board can be reduced, thereby reducing the size of the communication device. Can be smaller.

When the voltage of the predetermined level is intermittently identified by the voltage identification means while the switching circuit is in the connection state, it is determined that the transmitting / receiving terminal is connected to the connection terminal. And, when any one of the voltages of the plurality of levels is continuously identified by the voltage identification means, comprises a connection terminal determination means that determines that the transmission terminal is connected to the connection terminal, When it is determined that the transmitting / receiving terminal is connected to the connection terminal by the connecting terminal determining means, the pulse communication control means performs bidirectional communication with the transmitting / receiving terminal, and the connection terminal determining means When it is determined that the transmitting terminal is connected to the connection terminal, the level communication control means performs one-way communication with the transmitting terminal. And butterflies.

According to the present invention, the communication device includes:
The connection terminal determination means can recognize whether the transmission / reception terminal is connected to the connection terminal and whether the transmission terminal is connected to the connection terminal. When it is recognized that the transmitting / receiving terminal is connected to the connection terminal, the pulse communication control means can perform appropriate bidirectional communication, and the transmitting terminal is connected to the connection terminal. When it is recognized, the appropriate one-way communication can be performed by the level communication means. Therefore, it is not necessary to provide a switch or the like in the communication device for indicating whether the connection terminal is the transmission / reception terminal or the transmission terminal.

The communication device includes a plurality of pairs of the connection terminal and the switching circuit, and each switching circuit connects the connection terminal provided in the switching circuit and the pair through the resistor in common. A connection terminal selecting means for connecting to the predetermined potential portion, selecting one of the connection terminals, and setting all the switching circuits provided in pairs with connection terminals other than the selected connection terminal to the cutoff state; It is characterized by having.

According to the present invention, when one connection terminal is selected by the connection terminal selection means, all the changeover switches provided in pairs with other connection terminals other than the selected connection terminal are all cut off. State. Then, in this state, the switching circuit provided for the selected connection terminal and the pair is set to the connection state, whereby the voltage level of the connection point between the switching circuit in the connection state and the resistor is determined by the voltage identification means. Can be identified.

Therefore, the pulse communication is performed by selecting one connection terminal by the connection terminal selection means and controlling the switching circuit provided for the selected connection terminal in a pair with the connection state and the cutoff state. The control means can perform bidirectional communication with the transmitting / receiving terminal connected to the selected connection terminal. Further, by selecting one connection terminal by the connection terminal selection means and setting the switching circuit provided in the pair with the selected connection terminal to the connection state, the level communication control means sets the selected connection terminal to the selected connection terminal. One-way communication can be performed with the connected transmitting terminal. Therefore, it is not necessary to provide the voltage identification means for each of the plurality of connection terminals, and it is possible to reduce the size of the circuit board and the size of the communication device.

Further, when one connection terminal is selected by the connection terminal selection means and the connection terminal provided in a pair with the selected connection terminal is brought into the connection state, the predetermined level is determined by the voltage identification means. When the voltage is intermittently identified, it is determined that the transmitting / receiving terminal is connected to the selected connection terminal, and any one of the plurality of levels of voltages is continuously determined by the voltage identification unit. A connection terminal determining means for determining that the transmission terminal is connected to the selected connection terminal when the transmission terminal is connected to the selected connection terminal, and identifying the connection terminal when the transmission and reception terminal is connected to the selected connection terminal. When determined by the means, the pulse communication control means performs bidirectional communication with the transmitting / receiving terminal, and the transmitting terminal is connected to the selected connection terminal. When it is determined by the connecting terminal identifying means, and performing one-way communication with the transmission terminal by the level communication control unit.

According to the present invention, when one connection terminal is selected by the connection terminal selection means and the switching circuit provided for the pair with the selected connection terminal is set to the connection state, as described above, The voltage identification means is in a state capable of identifying the voltage level at the connection point between the switching circuit and the resistor in the connection state. Therefore, the connection terminal identification means selects one connection terminal by the connection terminal selection means, and when the switching circuit provided for the selected connection terminal and the pair is in the connection state, the voltage identification means When the voltage of the predetermined level is intermittently identified, it can be determined that the transmission / reception terminal is connected to the selected connection terminal, and the voltage identification unit can determine the voltage of the plurality of levels. When any of the above is continuously identified, it can be determined that the transmission terminal is connected to the selected connection terminal.

The communication apparatus can perform appropriate bidirectional communication with the transmitting / receiving terminal by the pulse communication control means in accordance with the result of the identification by the connection terminal determining means. Appropriate one-way communication can be performed with the transmitting terminal by the communication control means.

Further, the voltage of the predetermined level is included in the voltages of the plurality of levels.

According to the present invention, in order to receive the first pulse signal, the voltage identification means does not need to have a dedicated configuration for identifying the voltage of the predetermined level. Therefore, the configuration of the voltage identification unit can be simplified.

Further, the communication device and the first communication line, and the communication device and the second communication line are connected by the same type of connector.

According to the present invention, when installing the communication device, the transmitting / receiving terminal, and the transmitting terminal, there is no need to perform an exchange operation for matching the type of the connector.

[0032]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an overall configuration diagram of an indoor heating system using the communication device, the transmitting / receiving terminal, and the transmitting terminal of the present invention, FIG. 2 is a communication circuit diagram in the indoor heating system shown in FIG. 1, and FIG. 6 is an operation flowchart of the communication circuit.

Referring to FIG. 1, hot water supply device 1 is installed outdoors and is connected to hot air heater 2 and floor heating panel 3 by hot water circuit 4. The hot water circuit 4 includes a hot air heating path 5 for supplying hot water to the hot air heater 2 and a floor heating path 6 for supplying hot water to the floor heating panel 3. The hot water supply device 1 includes a hot water heat exchanger 8 that is heated by the burner 7 to raise the temperature of hot water in the hot water circuit 4, and a circulation pump 9 that circulates hot water in the hot water circuit 4.
And a cistern 10 for absorbing expansion and contraction of the hot water in the hot water circuit 4.

The hot air heating path 5 is composed of a primary supply path 11 for supplying hot water to the hot air heater 2 and a primary return path 12 for returning hot water from the hot air heater 2. The primary supply path 11 travels straight downward from the hot water heat exchanger 8 through the attachment location of the first hot water thermistor 13 in the figure, and the hot air heater 2
Is connected to the inflow side of the heating heat exchanger 15 provided in the heater. On the other hand, the primary recirculation path 12 is connected from the outflow side of the heating heat exchanger 15 to the inflow side of the cistern 10 via the flow control valve 14, and from the outflow side of the cistern 10 to the circulation pump 9.
Is connected to the hot water heat exchanger 8. The flow control valve 14 provided in the hot air heater 2 adjusts the flow rate of the hot water supplied to the hot air heater 2 or stops the supply of the hot water by changing the opening degree.

The floor heating path 6 includes a secondary supply path 16 for supplying hot water to the floor heating panel 3 and a secondary return path 17 for returning hot water from the floor heating panel 3. The secondary supply path 16 branches downward from the discharge side of the circulation pump 9 in the figure, and passes through a location where the second hot water thermistor 18 is attached.
It is connected to the inflow side of the floor heating panel 3 via an opening / closing control valve 19 for adjusting the flow rate of hot water supplied to the floor heating panel 3. On the other hand, the secondary return path 17 is connected to the outlet side of the floor heating panel 3 and is connected to the primary return path 12 and the bypass supply path 2.
Merges with 0.

The bypass supply path 20 branches from the primary supply path 11 to the left in the figure, bypasses the hot air heater 2 and
It is connected to the next return path 12. This bypass supply path 2
Numeral 0 is for mixing the hot water heated by the hot water heat exchanger 8 and the condensate from the floor heating panel 3 with the cistern 10 to raise the temperature of the condensate from the floor heating panel.

Opening / closing control valve 1 provided in secondary supply passage 16
Numeral 9 is for controlling the amount of heat radiation from the floor heating panel 3 by controlling the opening and closing time to adjust the time for supplying hot water to the floor heating panel 3.

Reference numeral 21 denotes a gas supply pipe for supplying a fuel gas to the burner 7. The gas supply pipe 21 has a source gas solenoid valve 22 and a gas solenoid valve 23 for switching between gas supply and cutoff.
A gas proportional valve 24 for adjusting the gas supply flow rate is provided. The fuel amount of the burner 7 is determined by the gas proportional valve 24.
The fuel gas supply flow rate is adjusted by the
5 by controlling the supply flow rate of the combustion air.

The hot water supply device 1 comprises a hot water supply controller 2
6 (including the function of the communication device of the present invention), its operation is controlled, and the switch unit 27 is provided with a power switch, a buzzer, and the like. The hot water supply controller 26 is an electronic unit configured by a microcomputer or the like, is connected to the hot air heater 2 by a communication line 28 (corresponding to a first communication line of the present invention), and is installed near the floor heating panel 3. The floor heating terminal 29 is connected by a communication line 30 (corresponding to a second communication line of the present invention).

The hot air heater 2 includes a hot air fan 31, a hot air heating operation panel 32 provided with a switch for instructing start and stop of the hot air heating, a thermistor 33 for detecting a room temperature, and a hot air heating thermistor 33. Hot air heating controller 34 that controls the operation of hot air heater 2 (including the function of the transmitting / receiving terminal of the present invention)
Is provided. In addition, the floor heating terminal 29 includes a floor heating operation panel 3 provided with a switch for instructing start and stop of floor heating.
5, a floor heating thermistor 36 for detecting the room temperature, and a floor heating controller 37 (including the function of the transmission terminal of the present invention) for controlling the supply and stop of hot water to the floor heating panel 3.

Then, the hot air heating controller 34 transmits a first pulse signal for instructing supply / stop of the hot water, a supply temperature of the hot water, and the like to the hot water supply controller 26, and a second pulse indicating the operation state of the hot water supply device. The pulse signal is received from the hot water supply controller 26 (two-way communication). Further, the floor heating controller 37 transmits a level signal instructing supply / stop of hot water to the hot water supply controller 26 (one-way communication).

Next, referring to FIG. 2, hot water supply controller 26 provided in hot water supply device 1 and hot air heater 2
And the communication specifications between the hot water controller 26 and the floor heating controller 37 provided in the floor heating terminal 29 will be described.

In FIG. 2, reference numeral 41 denotes a transmission / reception unit (corresponding to a transmission / reception terminal of the present invention) provided in the hot air heating controller 34 for transmitting and receiving a pulse signal, and 42 is provided in the floor heating controller 37. It is a transmitting unit (corresponding to a transmitting terminal of the present invention) for transmitting a level signal. Reference numeral 40 denotes a communication unit provided in the hot water supply controller 26 for performing two-way communication with the transmission / reception unit 41 and one-way communication with the transmission unit 42.

The configuration of the transmitting / receiving section 41 is the same as that of the transmitting / receiving terminal 41 of FIG. 4 described in the above-mentioned conventional technique, and the configuration of the transmitting section 42 is the same as that of the transmitting terminal 42 of FIG.
Although the same reference numerals are given and the detailed description is omitted, the transmission / reception unit 41 transmits a first pulse signal by intermittently supplying a current to the input / output terminal 47, and intermittently supplies the input / output terminal 47 from the outside. The second pulse signal is received by being energized. Further, the transmitting section 42 outputs V _CC , Vz, 0 V from the output terminal 55.
, And selectively outputs three types of voltages to output a level signal.

The pulse signal transmitting / receiving means of the present invention is constituted by the microcomputer 43 of the transmitting / receiving section 41 and the input / output circuit 46, and the level signal transmitting means of the present invention is constituted by the microcomputer 50 and the output circuit 53 of the transmitting section 42. .

The communication unit 40 includes connectors 60 to 60 of the same type.
62, and transistors 66 to 68 (corresponding to the switching circuit of the present invention) are provided in pairs with the connection terminals 63 to 65 of these connectors. And the transistor 66
To 68 are connected to a ground portion (corresponding to a predetermined potential portion of the present invention) through resistors 69 and 70 in common. The transistor 66 is turned on when a logic high level voltage is output from the output port OUT0 of the microcomputer 71, and at this time, the connection terminal 63 is connected to the ground via the resistors 69 and 70. When a logic low level voltage is output from OUT0, the transistor 66
Is turned off, and at this time, the connection terminal 63 is cut off from the ground potential.

Similarly, the transistors 67 and 68 are turned ON / OFF according to the output voltages (logic high level / logic low level) from the output ports OUT1 and OUT2 of the microcomputer 71, respectively, and the connection terminal 64 of the connector 61 and the connector 62 are connected. Are switched between the connection state and the cutoff state.

The comparator 72 includes transistors 66 to
68 and the voltage V _T of a connection point between the resistor 69 with a reference voltage V _1. The reference voltage V ₁ is V _T
When it _CC level voltage or comparator 72 outputs a logic high level voltage to the input port IN0 of the microcomputer 71, the logic to the input port IN0 of the comparator 72 is the microcomputer 71 when V _T is less than V _CC level voltage It is set to output a low level voltage.

[0049] In addition, the comparator 73, the resistance of the V _T 6
A voltage V _S obtained by dividing by 9,70 with a reference voltage V _2. Then, the reference voltage V ₂ and the resistors 69, 7
The voltage dividing ratio by 0, when V _T is Vz voltage level than the input port I of the comparator 73 is the microcomputer 71
Outputs a logic high level voltage to the N1, the comparator 73 is set to output a logic low level signal to the input port IN1 of the microcomputer 71 when V _T is less than Vz level voltage.

The microcomputer 71 has connection terminals 63 to 6.
Connection terminal selecting means 8 for selecting any one of 5
0, a connection terminal discriminating means for discriminating whether or not the transmission / reception unit 41 is connected to the connection terminal selected by the connection terminal selection means 80 and whether or not the transmission unit 42 is connected to the selected connection terminal. 82 and input ports IN0, IN
By recognizing the voltage input to 1 (logic high level / logic low level), the voltage level identifying means 81 for identifying the level of the voltage V _T of the connecting portion between the connection terminals 63 to 65 and the resistor 69, connected Receiving the first pulse signal input to terminals 63 to 65 and connecting terminals 63 to 6
5 a pulse communication control means 8 for transmitting a second pulse signal
3 and a level communication control means 84 for receiving a level signal input to the connection terminals 63 to 65.

The connection terminal selecting means 80 includes connection terminals 63 to 63.
When any one of 65 is selected, all the transistors provided in pairs with connection terminals other than the selected connection terminal are brought into the cutoff state. For example, when the connection terminal 63 is selected, the connection terminal selection unit 80 outputs a logic low level signal from the output ports OUT1 and OUT2, turns off the transistors 67 and 68, and connects both the connection terminals 64 and 65. The above-mentioned cutoff state is set. Thus, the voltages input to the comparators 72 and 73 correspond to the input voltage to the connection terminal 63.

The voltage level discriminating means 81 selects one of the connection terminals by the connection terminal selecting means 80, and inputs the selected connection terminal and the transistor provided in the pair to the input ports IN0 and IN1 in a state of being turned on. By recognizing the voltage (logic high level / logic low level), the voltage level of the selected connection terminal is identified. For example, when the connection terminal 63 is selected by the connection terminal selection means 80, a voltage of a logic high level is output from the output port OUT0 of the microcomputer to turn on the transistor 66, so that the voltages input to the comparators 72 and 73 are changed. , According to the input voltage to the connection terminal 63.

[0053] Then, the voltage level discrimination means 81, when a voltage of a logic high level together at the input port IN0, IN1, the voltage level of V _T is identified as a V _CC, a logic high level to the IN0 Is input and IN
When a logic low level voltage is input to VT, V _T
Is determined to be Vz, and when a low-level voltage is input to both IN0 and IN1, V _T
Is identified as 0V. The comparators 72 and 73 and the voltage level discriminating means 81 constitute a voltage discriminating means of the present invention.

The connection terminal determination means 82 includes connection terminals 63 to
It is determined whether the transmitting / receiving unit 41 is connected to 65,
In addition, a connection terminal determination process for determining whether or not the transmission unit 42 is connected to the connection terminals 63 to 65 is performed. The connection terminal discriminating means 82 selects one of the connection terminals 63 to 65 by the connection terminal selection means 80 and turns on the transistor provided in the pair with the selected connection terminal to perform the connection terminal discrimination processing. Perform

For example, when the connection terminal 63 is selected by the connection terminal selection means 80 and the transistor 66 is turned on,
When the first pulse signal is transmitted from the transmission / reception unit 41, V _CC
Then, the connection terminal 63 is intermittently energized through the photocoupler 44. The level of the voltage of V _CC connection point of the transistor 66 and the resistor 69 by the current (which corresponds to a predetermined level of voltage of the present invention) is a state that occurs intermittently.

[0056] Therefore, the connection terminal determination means 82, when the voltage level of V _CC is intermittently identified by the voltage level discrimination means 81 determines that the reception section 41 to the connection terminal 63 is connected. It should be noted that whether or not the transmission / reception unit 41 has been identified can be similarly determined for the connection terminals 64 and 65.

Further, for example, when the connection terminal 65 is selected by the connection terminal selection means 80 and the transistor 68 is turned on, and a V _CC level signal is transmitted from the transmission section 42, the connection terminal 65 is _{supplied to} the connection terminal 65. The level voltage is continuously input, and the voltage at the connection point between the transistor 68 and the resistor 69 also becomes the V _CC level.

[0058] Therefore, the connection terminal determination means 82, when the voltage level of V _CC is continuously identified by the voltage level discrimination means 81 determines that the transmission unit 42 to the connection terminal 65 is connected. When the Vz level signal is transmitted from the transmission unit 42, the voltage at the connection point between the connection terminal 65 and the resistor 69 becomes the Vz level. Therefore, even when the voltage at the level of Vz is continuously identified by the voltage level identification means 81, the connection terminal identification means 82 outputs
It is determined that the transmission unit 42 is connected to No. 5.

Note that the connection terminal discriminating means 82 is connected to the connection terminal 6.
For 3 and 64, it is similarly determined whether or not the transmission unit 42 is connected.

When the connection terminal selection means 80 selects the connection terminal 64 (the connection terminal to which neither the transmission / reception unit 41 nor the transmission unit 42 is connected) and turns on the transistor 67,
The voltage at the connection point between the transistor 67 and the resistor 69 becomes 0V. Therefore, when the voltage level identification means 81 does not identify any of the voltages of V _CC and Vz, the connection terminal determination means 82 determines whether the connection terminal 64 is in the unconnected state or the connected transmission / reception unit or transmission / reception unit. It is determined that the power of the unit 42 is off.

The pulse communication control means 83 selects one connection terminal by the connection terminal selection means 80, turns on the transistor provided in the pair with the selected connection terminal, and sets a pulse signal between the transmission / reception unit 41 and the transmission / reception unit 41. Transmission and reception. For example, the connection terminal 63 is selected by the connection terminal selection means 80.
While ON the transistors 66 by selecting, when the first pulse signal from the transceiver 41 is transmitted, the level of the voltage V _CC to connect portions of the transistor 66 and the resistor 69 of the communication device 40 as described above Occurs intermittently. Therefore, by identifying the level of the voltage V _CC by the voltage level discriminator means 81, pulse communication control unit 83 receives the first pulse signal.

The pulse communication control means 83 selects one connection terminal by the connection terminal selection means 80 and turns on / off the transistor provided in the pair with the selected connection terminal.
By performing FF, a second pulse signal is transmitted. For example, when the connection terminal 63 is selected, the transistor 66
Is turned on / off, the second pulse signal is transmitted to the transmission / reception unit 41. Here, the transmitting and receiving unit 41 keeps the photocoupler 45 in the ON state when receiving the second pulse signal. Therefore, if you turn ON the transistor 66 and the connected state, the level of the voltage of V _CC is Fotorapura 4
4, photocoupler 45, transistor 66, resistor 69,
The current flows to the ground via the
Turns ON.

On the other hand, when the transistor 66 is turned off, no current flows through the photocoupler 45, and the photocoupler 45 is turned off. Therefore, the microcomputer 43 of the transmission / reception unit 41 recognizes ON / OFF of the photocoupler 45 based on the input voltage (logic high level / logic low level) to the input port IN20, and thereby the second pulse transmitted from the communication unit 40. Receive the signal.

The level communication control means 84 selects one connection terminal by the connection terminal selection means 80 and turns on a transistor provided in a pair with the selected connection terminal, thereby connecting to the selected connection terminal. The level signal transmitted from the transmitting unit 42 is received.

For example, when the connection terminal 65 is selected by the connection terminal selection means 80, the transistor 68 is turned on. In this case, the voltage input to the comparators 72 and 73 corresponds to the voltage level of the level signal transmitted from the transmission unit 42. Therefore, the voltage level identification means 8
By identifying the voltage level at the connection point between the transistors 66 to 68 and the resistor 69 by 1, the level signal transmitted from the transmission unit 42 can be received. still,
Similarly, when the transmitting section 42 is connected to the connection terminals 63 and 64, the level signal transmitted from the transmitting section 42 can be received.

Next, a series of operations of the communication section 40 will be described with reference to the flowchart shown in FIG. The communication unit 40 first selects one of the connection terminals 63 to 65 by the connection terminal selection unit 80 in order to specify the transmission / reception unit 41 or the transmission unit 42 that performs communication in STEP1, and selects the selected connection terminal. The transistor provided in the pair is turned on. Thus, the communication unit 40 is set in a state where the voltage level of the selected connection terminal can be identified by the voltage level identification unit 81.

[0067] The next STEP2 is a process by the connection terminal determination means 82, when the voltage level discriminating means 81 and intermittently identify the level of the voltage V _CC is connected terminal determination means 82, the selected connection terminal It is determined that the transmission / reception unit 41 is connected.

If it is determined in STEP 2 that the transmitting / receiving section 41 is connected by the connected terminal determining means 82,
The communication unit 40 performs the following STEP3 to STEP5.
The pulse communication control unit 83 transmits and receives a pulse signal to and from the transmission / reception unit 41. In STEP 3, the pulse communication control means 83 receives the data (first pulse signal) transmitted from the transmitting / receiving section 41, analyzes the data, and executes the next STEP.
In 4, the transmission data (second pulse signal) is transmitted to the transmission / reception unit 41 according to the analysis result.

The pulse communication control means 83 keeps the STTE until the transmission end signal is received from the transmission / reception unit 41 in STEP5.
P3 and STEP4 are repeatedly executed to continue transmission and reception of the pulse signal with the transmission / reception unit 41. And STEP
When the transmission end signal is received in step 5, the process proceeds to step 6, and in accordance with the data received from the transmission / reception unit 41, the hot water supply controller 26 provided with the transmission / reception unit 41 starts supplying hot water to the hot air heater 2. / Stopping, changing the temperature of the supplied hot water, etc.

[0070] On the other hand, in STEP2, the voltage level discriminating means 81, the process branches to STEP10 when the voltage level of V _CC is not intermittently identified. STEP10
And STEP20 branched from STEP10 is processed by the connection terminal determination means 82, in STEP10, when the voltage level of V _CC is continuously identified by the voltage level discriminator means 81, the connection terminal determination means 82, selection It is determined that the transmitting unit 42 is connected to the connection terminal thus set, and the process proceeds to the next STEP11.

Also, in STEP 20, when the voltage at the level of Vz is continuously identified by the voltage level identification means 81, the connection terminal determination means 82 determines that the transmission unit 42 is connected to the selected connection terminal. Judgment and the next STEP2
Proceed to 1.

STEP11 and STEP21 correspond to the communication unit 4
0 is a process by the hot water supply controller 26 provided with the hot water supply controller 26.
When the voltage of the V _CC level is continuously identified by the voltage level identifying means 81, that is, when the floor heating controller 37
When the V _CC level signal is received from the transmitting unit 42 of
Strong operation for continuously supplying warm water to the floor heating panel 3 is performed. Further, in STEP 20, when the voltage of the Vz level is continuously identified by the voltage level identification means 81, that is, when the Vz level signal is received from the transmission unit 42 of the floor heating controller 37, the hot water supply controller 26
Performs a weak operation of supplying hot water to the floor heating panel 3 intermittently.

Also, STEP2, STEP10, STE
In P20, if the voltage of the level of V _CC or the voltage of the level of Vz is not identified by the voltage level identifying means 81, in STEP 30, the connected terminal determining means 82 sends the transmitting / receiving section 41 to the selected connecting terminal. It is determined that the connection is not connected, or that the connected transmission / reception unit 41 or the transmission unit 42 is powered off and stopped.

The transmitting section 42 of the floor heating controller 37
When the 0 V level signal instructing the stop of the hot water supply is transmitted from, the voltage level identifying unit 81 determines that neither the transmission / reception unit 41 nor the transmission unit 42 is connected to the selected connection terminal. I will. Therefore, the hot water supply controller 26 determines whether the voltage level identified by the voltage level identification unit 81 has changed from V _CC to 0 V and the voltage level identified by the voltage level identification unit 81 has changed from Vz to 0 V. Then, the supply of hot water to the floor heating panel 3 is stopped.

In the present embodiment, the communication unit 40 provided in the hot water supply controller 26 of the hot water supply device 1 is shown as the communication device of the present invention, and the temperature of the hot air heater 2 as the transmitting / receiving device of the present invention is shown. The transmission / reception unit 41 provided in the wind heating controller 34 is shown, and the transmission unit 42 provided in the floor heating controller 37 of the floor heating terminal 29 is shown as the transmission terminal of the present invention. The present invention is not limited thereto, and the present invention can be applied to other types of main units as long as they have the same communication specifications.

In this embodiment, the transmitting / receiving section
41 when the first pulse signal transmitted from
Intermittently at the connection between the transistors 66 to 68 and the resistor 69
The level of the generated voltage (V_CC) Is transmitted from the transmission unit 42
Level signals (V _CC, Vz, 0V)
To recognize the first pulse signal
It is not necessary to provide a separate configuration, but reception of the first pulse signal
Connection between transistors 66-68 and resistor 69
The voltage level intermittently generated at the location
Level signals (V_CC, Vz, 0V)
So that it is not included, and
May be provided separately.

In this embodiment, the connection terminal discriminating means 82 identifies whether the transmission / reception unit 41 or the transmission unit 42 is connected to each of the connection terminals 63 to 65,
According to the identification result, the pulse communication control means 83 and the level communication control means 84 are selected to perform communication. However, a switch or the like for indicating whether or not the transmission / reception unit 41 and the transmission unit 42 are connected is provided. Depending on the instruction result such as
Communication may be performed by selecting the pulse communication control means 83 and the level communication control means 84.

In the present embodiment, V _CC , Vz, 0
Although the transmitting / receiving unit 41 for transmitting three types of level signals V is shown, the present invention is also applicable to a transmitting / receiving unit for transmitting two or four or more types of level signals.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram of an indoor heating system.

FIG. 2 is a communication circuit diagram of the room heating system shown in FIG.

FIG. 3 is an operation flowchart of the communication circuit shown in FIG. 2;

FIG. 4 is a communication circuit diagram of a conventional room heating system.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 hot water supply device 2 hot air heater 3 floor heating panel 4 hot water circuit 5 hot air heating path 6 floor heating path 7
... burner, 8 ... hot water heat exchanger, 9 ... circulation pump, 26 ...
Hot water supply controller, 34 ... hot air heating controller,
37 floor heating controller, 40 communication unit (communication device), 41 transmission / reception unit (transmission / reception terminal), 42 transmission unit (transmission terminal)

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 9/00 311 H04L 13/00 309Z

Claims (6)

[Claims] An input / output terminal of a transmission / reception terminal for transmitting / receiving a pulse signal performs bidirectional communication with the transmission / reception terminal when the input / output terminal is connected via the first communication line to transmit a level signal. A communication device that performs one-way communication with an output terminal and a transmission terminal when connected via a second communication line, wherein the transmission and reception terminal intermittently supplies a current to the input / output terminal. A pulse signal transmitting / receiving means for transmitting a first pulse signal, and receiving a second pulse signal by being intermittently energized from the outside to the input / output terminal, wherein the transmitting terminal transmits a plurality of levels of voltages. A level signal transmitting unit that transmits a plurality of types of level signals by selectively outputting to the output terminal; the communication device includes a connection terminal connected to the first communication line or the second communication line; The connection end A switching circuit for switching between a connection state connected to a predetermined potential portion via a resistor and a cutoff state cut off from the predetermined potential portion, voltage identification means for identifying a voltage level of a connection point between the switching circuit and the resistor, When the transmitting / receiving terminal is connected to the connection terminal via the first communication line, the switching circuit is set to the connection state, and the switching circuit is energized by the first pulse signal transmitted from the transmitting / receiving terminal. The first pulse signal transmitted from the transmission / reception terminal is received by identifying the voltage of a predetermined level intermittently generated at the connection point of the resistor by the voltage identification unit, and the switching circuit is connected to the connection circuit. The input / output terminal of the transmitting / receiving terminal is intermittently energized by switching between the state and the cutoff state, so that the transmitting / receiving terminal has the second Pulse communication control means for transmitting a connection signal, and when the transmission terminal is connected to the connection terminal via the second communication line, the switching circuit is set to the connection state and identified by the voltage identification means. A communication device comprising: level communication control means for receiving the level signal transmitted from the transmitting terminal by recognizing a voltage level. 2. When the voltage of the predetermined level is intermittently identified by the voltage identification means when the switching circuit is in the connection state, it is determined that the transmission / reception terminal is connected to the connection terminal. And, when any one of the voltages of the plurality of levels is continuously identified by the voltage identification means, comprises a connection terminal determination means that determines that the transmission terminal is connected to the connection terminal, When it is determined that the transmitting / receiving terminal is connected to the connection terminal by the connecting terminal determining means, the pulse communication control means performs bidirectional communication with the transmitting / receiving terminal, and the connection terminal determining means When it is determined that the transmitting terminal is connected to the connection terminal, one-way communication with the transmitting terminal is performed by the level communication control unit. The communication device according to claim 1. 3. The communication device includes a plurality of pairs of the connection terminal and the switching circuit, and each switching circuit connects a connection terminal provided in the switching circuit and the pair through the resistor in common. A connection terminal selecting means for connecting to the predetermined potential portion, selecting one of the connection terminals, and setting all the switching circuits provided in pairs with the connection terminals other than the selected connection terminal to the cutoff state; The communication device according to claim 1, further comprising: 4. When the connection terminal selection means selects one connection terminal, and when the connection terminal provided in a pair with the selected connection terminal is brought into the connection state, the predetermined level is set by the voltage identification means. When the voltage is intermittently identified, it is determined that the transmitting / receiving terminal is connected to the selected connection terminal, and any one of the plurality of levels of voltages is continuously determined by the voltage identification unit. A connection terminal determining unit that determines that the transmission terminal is connected to the selected connection terminal when the transmission / reception terminal is connected to the selected connection terminal. When determined by means,
When the pulse communication control means performs bidirectional communication with the transmission / reception terminal, and when the connection terminal identification means determines that the transmission terminal is connected to the selected connection terminal, the level communication 4. The communication device according to claim 3, wherein one-way communication is performed with the transmitting terminal by a control unit. 5. The communication device according to claim 1, wherein the voltage of the predetermined level is included in the voltages of the plurality of levels. 6. The communication device according to claim 1, wherein the communication device and the first communication line, and the communication device and the second communication line are connected by the same type of connector.
The communication device according to claim 1.