JP4288831B2 - Control circuit of separate air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a control circuit for a separate air conditioner that suppresses a DC component current flowing into a neutral line of a commercial power supply.
[0002]
[Prior art]
A control circuit of a conventional separate type air conditioner will be described with reference to FIGS. First, as shown in FIG. 6, the outdoor terminal block (103) of the outdoor unit (101) of the air conditioner and the indoor terminal block (113) of the indoor unit (112) are connected by an indoor / outdoor connection line (111). Therefore, the AC power (102) is supplied to the outdoor unit (101) and the AC power (102) is also supplied to the indoor terminal block (113) of the indoor unit (112). In (101), a low-voltage control power source is created from the supplied AC power source (102) by the outdoor control power source (104), and the outdoor microcomputer (105) is operated by the control power source and the indoor unit side ( 112), similarly, a control power source is created from the supplied AC power source (102) by the indoor control power source (120), and the indoor microcomputer (134) is operated.
[0003]
Next, after this operation, noise is removed from the commercial power source by the indoor choke coil (116), and then the L phase opposite to the neutral line of the AC power source (102), that is, the indoor terminal block of the indoor unit (112). The AC current is half-wave rectified by the indoor half-wave rectifier diode (121) connected to No. 2 of (113), and further, the indoor zero-cross photocoupler (123) photodiode is broken by the indoor limiting current resistor (122). The current is limited to a certain level and transmitted to the indoor zero-cross photocoupler (123).
[0004]
Next, the indoor zero-cross photocoupler (123) that has received this limited current turns the photodiode ON / OFF and transmits the signal to the zero-cross input side of the indoor microcomputer (134). Process the signal.
At this time, the current passing through the indoor zero-cross photocoupler (123) returns to the N phase of the neutral line of the AC power source (102), that is, the Nth terminal of the indoor terminal block (113) of the indoor unit (112). The above is the configuration and operation of the zero cross circuit for taking in commercial power.
[0005]
Next, the configuration and operation of the serial communication circuit will be described.
First, in the serial communication circuit, an ON / OFF signal, which is a serial signal, is transmitted from the serial signal transmission port of the indoor microcomputer (134) to the indoor communication transmission transistor (132). Is turned ON / OFF, the photodiode of the indoor communication transmission photocoupler (131) is turned ON / OFF by this ON / OFF operation, and the phototransistor of the indoor communication transmission photocoupler (131) is further turned ON / OFF by this ON / OFF operation. Turns ON / OFF.
[0006]
Next, the phototransistor was turned on and off, and supplied from the L phase opposite to the neutral line of the AC power source (102), that is, from the second terminal block (113) of the indoor unit (112). The room communication half-wave rectifier diode (124) rectifies the AC power supply (102) by half-wave rectification, and the half-wave rectified AC power supply makes the room serial current that does not break the indoor communication reception photocoupler (133). It passes through the limiting current resistor (125) and becomes a non-insulated DC power source by the indoor zener diode (126).
[0007]
Next, the voltage / current of the DC power source becomes an indoor / outdoor communication serial signal by turning on / off the indoor communication transmission photocoupler (131), and the indoor communication transmission photocoupler (131) to the indoor communication reception photocoupler (133). The indoor communication receiving photocoupler (133) that has received and received the signal further transmits to the indoor communication diode (129), so that the indoor communication diode (129) that has received it is further passed through the PTC thermistor (130). Transmit to No. 3 in the indoor terminal block (113).
[0008]
Next, the indoor terminal block (113) that has received the serial signal transmits the signal to the third of the outdoor terminal block (103) through the indoor / outdoor connection line (111), and as a result, the serial signal is transmitted to the outdoor terminal block (103). It is transmitted from the outdoor limiting current resistor (108) to the outdoor communication receiving photocoupler (106) via the diode (107).
[0009]
Next, when this serial signal is received by the outdoor communication receiving photocoupler (106), the serial signal is transmitted to the outdoor communication transmitting photocoupler (110) on the one hand, and on the other hand, the serial signal is transmitted to its own photodiode. Transmits the result of the ON / OFF operation to the reception port of the outdoor microcomputer (105).
[0010]
As a result, the outdoor microcomputer (105) analyzes the input serial signal, replaces the analysis result with a control signal, controls the operation of the outdoor unit (101) of the air conditioner, and controls the control result, that is, A photodiode of the outdoor communication transmission photocoupler (110) for transmitting the ON / OFF signal from the transmission port of the outdoor microcomputer (105) to the outdoor communication transmission photocoupler (110) via the outdoor communication transmission transistor (109). ON / OFF operation is performed based on the transmission result, and the serial signal is tuned to the N phase (neutral line) of the AC power source (102) by this ON / OFF operation.
[0011]
Next, since this tuned serial signal is transmitted from the outdoor communication transmission photocoupler (110) to the N-th terminal of the outdoor terminal block (103), the indoor terminal that has received the serial signal via the indoor / outdoor connection line (111) No. N of the table (113) transmits the serial signal to the indoor Zener diode (126).
[0012]
Next, since the indoor Zener diode (126) transmits the serial signal to the indoor communication transmission photocoupler (131), the negative side (− side) of the indoor Zener voltage stabilizing electrolytic capacitor (127) is the reference of the serial communication circuit. The ground is turned ON / OFF by the ON / OFF of the serial signal from the outdoor unit (101). As a result, the phototransistor of the indoor communication transmission photocoupler (131) is also turned ON / OFF.
At this time, since the indoor communication transmission photocoupler (131) transmits a serial signal to the indoor communication transmission photocoupler (133), the photodiode of the indoor communication transmission photocoupler (133) is also turned on / off.
[0013]
Therefore, since the receiving port of the indoor microcomputer (134) becomes Hi / Lo by turning on / off the photodiode, the indoor microcomputer (134) receives the serial signal, analyzes it, and analyzes the analysis result as a new one. A serial signal is transmitted from the transmission port of the indoor microcomputer (134), and serial communication control between the outdoor unit (101) of the air conditioner and the indoor unit (112) is performed.
[0014]
As described above, since the commercial power on the half-wave rectification side of the zero cross circuit and the serial communication circuit is taken from the L phase opposite to the neutral line of the AC power supply (102), the DC component current on the half-wave rectification side Are added to each other and returned to the N phase of the neutral line of the AC power source with a sum of current values, so that a large DC component current flows. This also applies to the types of receiving devices of multi-type outdoor units.
[0015]
7 and 8 show control circuit diagrams of other conventional separate type air conditioners.
These drawings are conventional diagrams corresponding to FIGS. 2 and 3 of the invention.
[0016]
[Problems to be solved by the invention]
As described above, the control circuit of the conventional separate type air conditioner detects the frequency of the commercial power supply (AC) by half-wave rectification, and when the serial communication between the indoor unit and the outdoor unit is started, There is a problem that the DC component current for half-wave rectification of the commercial power supply (AC) and the DC component current for half-wave rectification by serial communication flow into the neutral wire.
[0017]
The present invention has been made to solve the above-described problems, and an object thereof is to suppress an excessive DC component current from flowing into a neutral line of a commercial power source.
[0018]
[Means for Solving the Problems]
In this invention, the communication between the outdoor unit and the indoor unit is performed by a serial signal, and the frequency of the commercial power supply of the indoor unit is detected in the control circuit of the separate air conditioner that controls the operation of the outdoor unit and the indoor unit. The power of the zero cross circuit is taken in from the N phase of the neutral line of the commercial power supply, and the power of the serial communication circuit of the indoor unit is taken in from the L phase on the opposite side of the neutral line and controlled.
[0019]
In addition, a zero cross circuit that detects the frequency of the commercial power supply of the indoor unit in a control circuit of a separate type air conditioner that performs communication between the outdoor unit and the indoor unit using a serial signal and controls the operation of the outdoor unit and the indoor unit Is taken in from the L phase opposite to the neutral line of the commercial power supply, and the power of the serial communication circuit of the indoor unit is taken in from the N phase of the neutral line and controlled.
[0020]
Further, the control circuit determines whether or not the indoor unit is in a normal operating state after a predetermined time since the power supply of the zero cross circuit is supplied, and shifts to the operation of the serial communication circuit when it is normal. is there.
[0021]
In addition, the control circuit includes a relay in the serial communication circuit, and after a predetermined time since the power supply of the zero cross circuit is supplied, it is determined whether or not the operation state of the indoor unit is normal. To move to the operation of the serial communication circuit.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
The configuration and operation of the first embodiment of the present invention will be described with reference to FIG. First, as shown in this figure, the outdoor terminal block (403) of the outdoor unit (401) of the air conditioner and the indoor terminal block (413) of the indoor unit (412) are connected by an indoor / outdoor connection line (411). When the AC power source (402) is supplied to the outdoor unit (401), the AC power source (402) output from the No. 2 and No. 2 terminals of the outdoor terminal block (403) is connected to the indoor terminal via the indoor / outdoor connection line (411). No. 2 and No. 2 of the base (413), supplied to the indoor unit (412), converted into a low voltage by the indoor control power source (420) of the indoor unit (412), and used as an indoor control power source. The computer (434) is operated.
At this time, the outdoor unit side (401) is also converted to a low voltage by the outdoor control power source (404) and becomes the outdoor control power source, and the outdoor microcomputer (405) is operated.
[0023]
Next, when the indoor microcomputer (434) is operated by the indoor control power supply, the AC power supply (402) as the commercial power supply becomes the AC power supply (402) from which noise is removed by the indoor choke coil (416), and the neutral line N Phase, that is, half-wave rectified by an indoor half-wave rectifier diode (421) connected to No. N of the indoor terminal block (413) of the indoor unit (412), and then flows to the indoor current limiting resistor (412), where After being limited to a current that does not break the photodiode of the indoor zero-cross photocoupler (423), it is sent to the indoor zero-cross photocoupler (423).
[0024]
As a result, the photodiode of the indoor zero-cross photocoupler (423) turns on / off the phototransistor and sends this ON / OFF signal to the zero-cross input terminal of the indoor microcomputer (434). The operation of the indoor unit is controlled based on the operation signal.
At this time, the limiting current that has passed through the indoor zero-cross photocoupler (423) returns to the L phase opposite to the neutral line of the AC power source (402) (No. 2 on the indoor terminal block of the indoor unit). The above is the configuration and operation of the zero-cross circuit that detects the frequency of the commercial power supply by half-wave rectification.
[0025]
Next, the configuration and operation of the serial communication circuit will be described.
First, the indoor microcomputer (434) receiving the serial signal transmits a serial signal for turning on / off the indoor communication transmission transistor (432) from its transmission port and operates the serial communication circuit. The photodiode of the indoor communication transmission photocoupler (431) connected to the communication transmission transistor (432) is turned on / off, and accordingly, the phototransistor is also turned on / off.
[0026]
Further, by the ON / OFF operation of the phototransistor, the power supplied from the L phase opposite to the neutral line of the AC power source (402) is half-wave rectified by the indoor communication half-wave rectifier diode (424), and further After the indoor serial limiting current resistor (425) limits the current to a level that does not break the indoor communication transmission photocoupler (431) and the indoor communication reception photocoupler (433), the indoor Zener diode (426) performs non-insulating direct current. Converted to power.
[0027]
Next, the converted voltage / current of the DC power source is converted into a serial signal which is an indoor / outdoor communication signal by turning on / off the indoor communication transmission photocoupler (431), and this serial signal is converted into an indoor communication reception photocoupler ( 433) to the indoor communication diode (429), and then further to the third indoor terminal block (413) connected to the third outdoor terminal block (403) via the PTC thermistor (430). Is done.
[0028]
Next, the serial signal transmitted to No. 3 of the outdoor terminal block (403) is transmitted to the outdoor limiting current resistor (408) via the outdoor diode (407), where the outdoor communication photocoupler (406) After limiting the current to a level that does not break the photodiode, the current is transmitted to the outdoor communication transmission photocoupler (410) via the outdoor communication reception photocoupler (406).
[0029]
As a result, the photodiode of the outdoor communication reception photocoupler (406) is turned on / off, so that the phototransistor is also turned on / off, and this ON / OFF signal is input to the reception port of the outdoor microcomputer (405). The outdoor microcomputer (405) analyzes the received serial signal, generates a control signal from the analysis result, controls the operation of the outdoor unit (401), and transmits the control content from the transmission port to the serial signal (ON / OFF signal) is transmitted to the outdoor communication transmission photocoupler (410) via the outdoor communication transmission transistor (409). As a result, the photodiode of the outdoor communication transmission photocoupler (410) is turned ON / OFF, and The phototransistor is also turned on / off.
[0030]
Therefore, the ON / OFF signal transmitted / received from the outdoor communication transmitting transistor (409) to the outdoor communication transmitting photocoupler (410) and the serial signal received from the outdoor communication receiving photocoupler (406) described above are N-phase. It is tuned by an outdoor communication transmission photocoupler (410) connected to. In other words, the serial signals of the L phase and N phase of the AC power source (402) (the neutral line of the AC power source) are tuned here.
[0031]
Next, since this tuned serial signal is transmitted from the outdoor communication transmitting photocoupler (410) to the Nth terminal of the outdoor terminal block (403), the indoor terminal connected to the Nth terminal of the outdoor terminal block (403). Since it is transmitted to the Nth of the base (413), it is transmitted to the indoor communication transmission photocoupler (431) via the indoor Zener diode (426) connected to the Nth indoor terminal block (413).
As a result, the negative side serial communication circuit reference ground of the indoor zener voltage stabilizing electrolytic capacitor (427) is also turned ON / OFF by the ON / OFF serial signal from the outdoor unit (401), so the indoor communication transmission photocoupler (431). This phototransistor is turned on / off, and its photodiode is also turned on / off.
[0032]
Next, since the receiving port of the indoor microcomputer (434) becomes Hi / Lo due to ON / OFF of this photodiode, the indoor microcomputer (434) analyzes the serial signal and sends a new serial signal to the indoor microcomputer. It transmits from the transmission port of (434).
[0033]
As described above, the power of the serial communication circuit of the indoor unit and the outdoor unit is taken from the L phase on the opposite side of the N phase of the commercial power supply (AC), and the power of the zero cross circuit that detects the frequency of the commercial power by half-wave rectification is used. Since it is taken in from the N phase, which is the neutral line of the commercial power supply (AC), the DC component currents of each other are not added to each other and do not flow as a sum value, but flow into each phase of the commercial power supply. Therefore, it is possible to obtain a reliable control circuit for a separate air conditioner that prevents malfunction of each device caused by harmonics.
[0034]
Other examples.
The configuration and operation of another example of the first embodiment will be described with reference to FIG. First, as shown in this figure, the outdoor terminal block (503) of the outdoor unit (501) of the air conditioner and the indoor terminal block (513) of the indoor unit (512) are connected by an indoor / outdoor connection line (511). When supplied to the indoor unit (512), the AC power source (502) output from the N and L terminals of the indoor terminal block (513) is converted to a low voltage by the indoor control power source (520) and becomes the indoor control power source. The indoor microcomputer (534) is operated.
[0035]
Next, when the indoor microcomputer (534) is operated by the indoor control power supply, the AC power supply that is a commercial power supply becomes the AC power supply (502) from which noise is removed by the indoor choke coil (516), and the N phase of the neutral line, that is, After half-wave rectification by an indoor half-wave rectifier diode (521) connected to No. N of the indoor terminal block (513) of the indoor unit (512), it flows to the indoor current limiting resistor (522), where the indoor zero-cross photo After limiting the current of the coupler (523) so as not to break the photodiode, it can be sent to the zero-cross photocoupler (523). As a result, the photodiode of the indoor zero-cross photocoupler (523) turns the phototransistor on and off, and the signal is input to the zero-cross input of the indoor microcomputer (534), so the indoor microcomputer is based on the operation signal. To control the indoor unit.
At this time, the current passing through the indoor zero-cross photocoupler (523) is the L phase opposite to the neutral line of the AC power source (502), that is, the L of the indoor terminal block (513) of the indoor unit (512). Return to the turn. The above is the configuration and operation of the zero-cross circuit that detects the frequency of the commercial power supply by half-wave rectification.
[0036]
Next, the serial communication circuit will be described.
First, in this serial communication circuit, a signal for turning on / off the indoor communication transmission transistor (532) is transmitted and operated from the serial signal transmission port of the indoor microcomputer (534). Therefore, the indoor communication transmission transistor (532) ) Connected to the indoor communication transmission photocoupler (531) is turned on / off, and the phototransistor of the indoor communication transmission photocoupler (531) is also turned on / off.
[0037]
However, since the 52C relay (535) in the figure is not turned on at this time, the L phase opposite to the neutral line of the AC power source (502), that is, the indoor terminal block ( Since AC power is not supplied to the L-th line 513), the serial communication circuit stands by in a non-operating state (for example, for 3 minutes).
[0038]
Next, when it is determined that the indoor microcomputer (534) satisfies the serial communication start condition, in other words, when the indoor microcomputer (534) is determined to be operating normally after 3 minutes or more after the AC power supply (502) is supplied, Since the computer (534) sends an ON signal to the 52C relay driving transistor (536) and turns on the 52C relay, the L phase opposite to the neutral line of the AC power supply (502) is in the room of the air conditioner. The AC power supply is connected to No. 2 of the outdoor terminal block (503) of the outdoor unit (501) of the air conditioner from No. 2 of the indoor terminal block (513) of the machine (512) via the indoor / outdoor connection line (511). (502) is supplied to the outdoor unit (501) of the air conditioner.
[0039]
Next, the AC power source (502) supplied to the outdoor unit (501) is supplied to the outdoor control power source (504), and the outdoor microcomputer (505) operates to move the outdoor unit. At the same time, the AC power (502) is supplied to the serial communication circuit of the indoor unit (512) of the air conditioner.
However, at this time, the indoor communication transmission transistor (532) is turned ON / OFF by the serial signal of the indoor microcomputer (534), and the phototransistor of the indoor communication transmission photocoupler (531) is also turned ON / OFF. The following operations are added to this.
[0040]
That is, the power supplied from No. L of the indoor terminal block (513) of the indoor unit (512) is half-wave rectified by the indoor communication half-wave rectifier diode (524) and then indoors by the indoor serial limiting current resistor (525). After the communication transmitting photocoupler (531) and the indoor communication receiving photocoupler (533) are limited to a current that does not break, the indoor zener diode (526) becomes a non-insulated DC power source, and the indoor communication transmitting photocoupler (531) ) Is turned into an indoor / outdoor serial communication signal, transmitted to the indoor communication diode (529) via the indoor communication receiving photocoupler (533), and then passed through the indoor serial limiting resistor 2 (530). Is transmitted to No. 3 of the indoor terminal block (513).
[0041]
Next, since a serial signal is sent to No. 3 of the outdoor terminal block (503) of the outdoor unit (501) connected to the indoor terminal block (513), the outdoor limiting current resistance ( 508) and then further transmitted to the outdoor communication transmission photocoupler (510) via the outdoor communication reception photocoupler (506). As a result, the photodiode of the outdoor communication reception photocoupler (506) is turned on. The phototransistor is also turned on / off.
[0042]
Next, when this phototransistor is turned ON / OFF, an ON / OFF signal is input to the reception port of the outdoor microcomputer (505), so the outdoor microcomputer (505) analyzes the input result and outputs it as a control signal. Since the outdoor unit (501) is operated instead, an ON / OFF signal is transmitted to the outdoor communication transmission transistor (509) as a serial signal from the outdoor unit (501), and the photodiode of the outdoor communication transmission photocoupler (510) Is turned ON / OFF, and the phototransistor is also turned ON / OFF. Therefore, by this ON / OFF, the outdoor communication transmission photocoupler (510) receives the serial signal received from the outdoor communication reception photocoupler (506) and the phototransistor of the phototransistor. ON / OFF turns serial signal into AC power supply (502) To tune to the N phase.
[0043]
Next, the tuned serial signal is transmitted from the outdoor communication transmission photocoupler (510) to the Nth terminal of the outdoor terminal block (503), and the Nth terminal of the indoor terminal block (513) is received, and the indoor zener diode (526) ), The negative side (− side) of the indoor zener voltage stabilizing electrolytic capacitor (527) is turned ON / OFF by the serial signal as well as the reference ground of the serial communication circuit, thereby the indoor communication transmission photocoupler (533). This phototransistor is turned on / off, and its photodiode is also turned on / off.
[0044]
As a result, since the reception port of the indoor microcomputer (534) becomes Hi / Lo, the indoor microcomputer (534) receives and analyzes the serial signal, and transmits a new serial signal from the transmission port.
[0045]
As described above, after the indoor microcomputer confirms the operating state of the indoor unit, the power of the serial communication circuit of the indoor unit and the outdoor unit is taken in from the L phase opposite to the N phase of the commercial power supply (AC), Since the power of the zero cross circuit that detects the frequency of the commercial power supply by wave rectification is taken in from the N phase, which is the neutral line of the commercial power supply (AC), the DC component current of each other is confirmed after confirming the operating state of the indoor unit Is not added, does not flow as a sum value, and flows in each phase of the commercial power supply. Therefore, it is highly reliable separate air that prevents malfunction of each device caused by harmonics. A control circuit for the harmonic machine is obtained.
[0046]
FIG. 3 shows a control circuit when commercial power sources for the outdoor unit (601) and the indoor unit (612) are provided separately. In this case, supply wiring for supplying commercial power to each indoor unit (612) is not necessary.
[0047]
Embodiment 2. FIG.
The configuration and operation of the second embodiment will be described with reference to FIG.
First, as shown in this figure, the outdoor terminal block (803) of the outdoor unit (801) of the air conditioner and the indoor terminal block (813) of the indoor unit (812) are connected by an indoor / outdoor connection line (811), When the AC power source (802) is supplied to the outdoor unit (801), the AC power source (802) output from the No. 2 and No. 2 terminals of the outdoor terminal block (803) is transmitted through the indoor / outdoor connection line (811). (813) No. 2 and No. 2 are supplied, so on the outdoor unit side, an outdoor control power source (804) generates a control power source, and the outdoor microcomputer (805) operates. Similarly, on the indoor unit side However, a control power source is created by the indoor control power source (820), and the indoor microcomputer (834) operates.
[0048]
Next, when the indoor microcomputer (834) is operated, the AC power source which is a commercial power source becomes the AC power source (802) from which noise is removed by the indoor choke coil (816), and the L phase on the side opposite to the neutral line, That is, after half-wave rectification by the indoor half-wave rectifier diode (821) connected to the second terminal block (813) of the indoor unit (812), it is further transmitted to the indoor zero-cross photocoupler (823). .
[0049]
As a result, the phototransistor of the indoor zero-cross photocoupler (823) is turned ON / OFF, and this ON / OFF operation signal enters the zero-cross input of the indoor microcomputer (834). Control the operation of the machine.
The current that has passed through the indoor zero-cross photocoupler (823) returns to the N phase of the neutral line of the AC power source (802), that is, the Nth terminal of the indoor terminal block (813) of the indoor unit (812). The above is the configuration and operation of the zero-cross circuit.
[0050]
Next, the indoor microcomputer (834) that has received the serial signal by the operation of the above-described zero-cross circuit starts serial communication.
That is, since the indoor microcomputer (834) transmits the serial signal from the transmission port to the indoor communication transmission transistor (832) and operates the transistor (832), the indoor microcomputer connected to the indoor communication transmission transistor (832). The photodiode of the communication transmission photocoupler (831) is turned on / off, and accordingly, the phototransistor is also turned on / off.
[0051]
Next, by turning on / off the phototransistor, the power supplied from the N phase of the neutral line of the AC power source (802) is half-wave rectified by the indoor communication half-wave rectifier diode (824), and further the indoor serial limit After the current resistance (825) is limited to a current that does not break the indoor communication transmission photocoupler (831) and the indoor communication reception photocoupler (833), it is converted into a non-insulated DC power supply by the indoor Zener diode (826). Is done.
[0052]
Next, the converted voltage / current of the DC power source is converted into a serial signal which is an indoor / outdoor communication signal by turning on / off the indoor communication transmission photocoupler (831), and passes through the indoor communication reception photocoupler (833). To the indoor communication diode (829), and then further transmitted to the third terminal of the indoor terminal block (813) connected to the third terminal of the outdoor terminal block (803) via the PTC thermistor (830).
[0053]
Next, the serial signal transmitted from the indoor terminal block (813) to the outdoor terminal block (803) No. 3 is transmitted to the outdoor limiting current resistor (808) via the outdoor diode (807), where the current limiting is performed. Then, it is transmitted to the outdoor communication transmission photocoupler (810) via the outdoor communication reception photocoupler (806).
[0054]
As a result, the photodiode and phototransistor of the outdoor communication receiving photocoupler (806) are turned ON / OFF, and the ON / OFF signal is input to the receiving port of the outdoor microcomputer (805). (805) analyzes and generates a control signal from the analysis result, controls the operation of the outdoor unit (801), and transmits the control content as a serial signal from the transmission port via the outdoor communication transmission transistor (809). It transmits to a transmission photocoupler (810).
[0055]
Therefore, the serial signal from the outdoor communication transmission transistor (809) and the serial signal from the outdoor communication reception photocoupler (806) described above are merged by the outdoor communication transmission photocoupler (810) connected to the L phase. Here, it will be tuned.
[0056]
Next, the tuned serial signal is transmitted from the outdoor communication transmission photocoupler (810) to the second terminal of the outdoor terminal block (803) to the second terminal of the indoor terminal block (813) via the indoor / outdoor connection line (811). Therefore, it is transmitted to the indoor Zener diode (826) connected to the second terminal of the indoor terminal block (813), and then the serial signal is further transmitted to the indoor communication transmission photocoupler (831).
As a result, the reference ground of the negative side (− side) serial communication circuit of the electrolytic capacitor (827) for stabilizing the indoor zener voltage is also turned ON / OFF by the ON / OFF serial signal from the outdoor unit (801). The photodiode of the communication transmission photocoupler (833) is turned on / off, and the photodiode is turned on / off.
[0057]
Next, since the receiving port of the indoor microcomputer (834) becomes Hi / Lo due to ON / OFF of the photodiode, the indoor microcomputer (834) receives the serial signal, analyzes it, and sends a new serial signal. The data is transmitted from the transmission port of the indoor microcomputer (834).
With the above serial signal flow, serial communication between the outdoor unit (801) and the indoor unit (812) is established.
[0058]
As described above, the power of the zero cross circuit is taken in from the L phase opposite to the neutral line of the commercial power supply, and the power of the serial communication circuit is taken in from the N phase of the neutral line of the commercial power supply. DC component currents are not added to each other and do not flow as a sum value, but flow into each phase of the commercial power supply, thus preventing malfunction of each device caused by harmonics. A control circuit for a separate type air conditioner having a high speed can be obtained.
[0059]
Embodiment 3 FIG.
The configuration and operation of the third embodiment will be described with reference to the flowchart of FIG.
Note that this Embodiment 3 determines whether or not the indoor unit in the zero-cross circuit state operates normally for a predetermined time when shifting from the zero-cross circuit operation to the operation of the serious circuit in the first or second embodiment. When it is normal, the configuration shifts from the zero cross circuit to the operation of the serious circuit.
[0060]
First, as shown in this figure, after installing the indoor unit / outdoor unit of the air conditioner, wiring connection (701) is performed, AC power is turned on (702), the indoor unit test run switch is pushed, Alternatively, when a driving operation, that is, an ON signal is transmitted (703) by the remote controller and three minutes have elapsed (704) after the operation, the indoor unit microcomputer (hereinafter referred to as the indoor microcomputer) is in a normal operating state. It is determined whether it is abnormal (705).
[0061]
Next, if the result of this determination is abnormal (NO), the indoor microcomputer issues an abnormality display, abnormal stop (actuator), and count start (710) command for restart time (for example, 3 minutes). Display, abnormal stop (actuator), time count (710) are performed, and after 3 minutes (711), the process returns to step (705), and the indoor microcomputer again determines whether the indoor unit is operating normally or abnormally. If the answer is NO again, the same operation is repeated.
[0062]
If it is determined in step (705) that the indoor microcomputer is normal (YES), the indoor microcomputer instructs the indoor serial communication transmission / reception means to start transmission of a serial signal (706). A serial signal is transmitted to each of the indoor and outdoor units via the connection line of the outdoor unit.
[0063]
Next, based on this serial signal, the outdoor unit microcomputer (hereinafter referred to as the outdoor microcomputer) determines whether the outdoor unit is operating normally or abnormally (707). If it is abnormal (NO), the outdoor microcomputer Since the abnormal state is transmitted as a serial signal to the outdoor serial transmission / reception means, the outdoor serial transmission / reception means transmits the serial signal abnormal stop (709) to the indoor microcomputer via the indoor serial signal transmission / reception means.
[0064]
Next, the indoor microcomputer that has received the serial signal abnormal stop (709) issues an error display, abnormal stop (actuator), and 3 minute restart count start (710) command, and after 3 minutes have passed (711), Returning to 705), the indoor microcomputer determines whether the operation state of the indoor unit is normal or abnormal. If NO, the same operation as described above is repeated.
[0065]
If the outdoor unit is operating normally (YES) in step 707 described above, the outdoor microcomputer transmits the content to the indoor microcomputer via the indoor / outdoor connection line. The latest operation status information is transmitted to the outdoor unit as a serial signal, so that the operation is continued while mutually confirming the operation status, and serial signal communication is started after a predetermined time elapses after the operation ON signal is commanded by a remote controller or the like. Therefore, a direct current component is generated only in the zero cross circuit at the time of the first 3 minutes restart.
[0066]
As described above, in the present invention, when shifting from the zero-cross circuit operation to the operation of the serious circuit, it is determined whether or not the indoor unit in the zero-cross circuit state is operating normally for a predetermined time. Since the transition to the operation of the serious circuit is made, since a direct current component does not occur in the serious circuit for a predetermined time (for example, 3 minutes) after the power is turned on, it is economical that it can communicate reliably without using wasted electricity, A reliable control circuit for a separate air conditioner can be obtained.
Further, according to this method, since the zero cross circuit power supply of the first embodiment is not connected to the opposite side, and also in the conventional control circuit, only the microcomputer software can be changed. Can be suppressed.
[0067]
【The invention's effect】
As described above, according to the present invention, in the control circuit for a separate type air conditioner that performs communication between an outdoor unit and an indoor unit using a serial signal and controls the operation of the outdoor unit and the indoor unit, Since the power of the zero cross circuit that detects the frequency of the power supply is taken in from the N phase of the neutral line of the commercial power supply, and the power of the serial communication circuit of the indoor unit is taken in from the L phase on the opposite side of the neutral line, it is controlled. The DC component currents of each other are not added to each other and do not flow as a sum value, but flow into each phase of the commercial power supply, thus preventing malfunction of each device caused by harmonics. A reliable control circuit for a separate air conditioner can be obtained.
[0068]
In addition, a zero cross circuit that detects the frequency of the commercial power supply of the indoor unit in a control circuit of a separate type air conditioner that performs communication between the outdoor unit and the indoor unit using a serial signal and controls the operation of the outdoor unit and the indoor unit The power source of the commercial power supply is taken in from the L phase on the opposite side of the neutral line, and the power of the serial communication circuit of the indoor unit is taken in from the N phase of the neutral line, so that the DC component currents of each other are mutually It is not added and does not flow as a sum value, but flows in each phase of the commercial power supply. Therefore, it is highly reliable and separate air conditioning that prevents malfunction of each device caused by harmonics. The machine control circuit is obtained.
[0069]
In addition, the control circuit determines whether or not the operation state of the indoor unit is normal after a predetermined time from supplying the power of the zero cross circuit, and shifts to the operation of the serial communication circuit when normal. Since a direct current component is not generated in the serious circuit for a predetermined time after the power is turned on, an economical and highly reliable control circuit for a separate type air conditioner capable of reliably communicating without using wasteful electricity can be obtained.
[0070]
In addition, the control circuit includes a relay in the serial communication circuit, and after a predetermined time since the power supply of the zero cross circuit is supplied, it is determined whether or not the operation state of the indoor unit is normal. Since the direct current component is not generated in the serious circuit for a predetermined time (for example, 3 minutes) after the power is turned on, the communication can be reliably performed without using wasteful electricity. And a highly reliable control circuit for a separate air conditioner can be obtained.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram in Embodiment 1 of the present invention.
FIG. 2 is another schematic configuration diagram according to the first embodiment of the present invention.
FIG. 3 is another schematic configuration diagram in the first embodiment of the present invention.
FIG. 4 is a schematic configuration diagram in a second embodiment of the present invention.
FIG. 5 is a schematic configuration diagram according to a third embodiment of the present invention.
FIG. 6 is a conventional schematic configuration diagram.
FIG. 7 is another schematic configuration diagram of the prior art.
FIG. 8 is another schematic configuration diagram of the prior art.
[Explanation of symbols]
401 outdoor unit, 402 AC power supply, 403 outdoor terminal block, 404 outdoor control power supply, 405 outdoor microcomputer, 406 outdoor communication reception photocoupler, 407 outdoor diode, 408 outdoor limiting current resistance, 409 outdoor communication transmission transistor 410 outdoor communication transmission photo Coupler, 411 indoor / outdoor connection line, 413 indoor terminal block, 416 indoor choke coil, 420 indoor control power supply, 421 indoor half-wave rectifier diode, 422 indoor limit current resistance, 423 indoor zero-cross, 424 indoor communication half-wave rectifier diode, 425 indoor Serial limiting current resistance, 426 indoor Zener diode, 427 indoor Zener voltage stabilization capacitor, 429 indoor communication diode, 431 indoor communication transmission photocoupler, 432 indoor communication transmission transistor, 433 indoor communication reception Photo coupler, 434-room micro-computer.

Claims (4)

A power supply of a zero-cross circuit that detects the frequency of the commercial power supply of the indoor unit in a control circuit of a separate air conditioner that performs communication between the outdoor unit and the indoor unit using a serial signal and controls the operation of the outdoor unit and the indoor unit Of a separate type air conditioner, wherein the power supply of the serial communication circuit of the indoor unit is taken in from the L phase on the opposite side of the neutral line and controlled. Control circuit. A power supply of a zero-cross circuit that detects the frequency of the commercial power supply of the indoor unit in a control circuit of a separate air conditioner that performs communication between the outdoor unit and the indoor unit using a serial signal and controls the operation of the outdoor unit and the indoor unit Of the separate type air conditioner, wherein the power supply of the serial communication circuit of the indoor unit is taken in from the N phase of the neutral line and controlled from the L phase on the opposite side of the neutral line of the commercial power supply. Control circuit. The control circuit determines whether or not the operation state of the indoor unit is normal after a predetermined time from supplying the power of the zero cross circuit, and shifts to the operation of the serial communication circuit when normal. A control circuit for a separate type air conditioner according to claim 1 or 2. The control circuit includes a relay in the serial communication circuit, and after a predetermined time since the power supply of the zero cross circuit is supplied, it is determined whether the operation state of the indoor unit is normal, and the relay operates when normal 2. The control circuit for a separate type air conditioner according to claim 1, wherein the control circuit shifts to an operation of the serial communication circuit.

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