JP3019844B1 - Separate type air conditioner - Google Patents

Abstract

The present invention provides a separate type air conditioner that can cut off power supply to an outdoor microcomputer during standby and reduce standby power even when a power supply line from the outside is connected to, for example, an outdoor unit. I do. SOLUTION: An outdoor microcomputer 16 is connected to power lines L _O1 and L _O2 in an outdoor unit 1 via a relay MR2. When the relay MR2 is opened and the outdoor microcomputer 16 is stopped, start control by the indoor microcomputer is performed. in, the relay M of the outdoor unit in the 2 through the signal transmission contact lines L _CS from the indoor unit 1 side
The excitation power is supplied to the drive coil MR _{2C of} R2 and the relay M
R2 is closed and the outdoor microcomputer 16 is started. As a result, the standby power can be reduced, and there is no need to change specifications such as increasing the number of connection wirings for starting the outdoor microcomputer 16, so that the overall manufacturing cost can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a separate type air conditioner.

[0002]

2. Description of the Related Art In a separate type air conditioner, for example, as shown in FIG. 3 which is an explanatory view of the present invention, an indoor unit 1 and an outdoor unit 2 are connected to a pair of power supply connection lines L _A1 and L _A2 and a signal transmission connection line. interconnected by three contact wires with L _CS, also constituted for example in the outdoor unit 2 by connecting the commercial power supply wires L _AC · L _AC. Each power supply connection line L _A1 · L _A2 is a power line L _AC · L _AC
Is connected inside the outdoor unit 2.

[0003] In the indoor unit 1 and the outdoor unit 2, series circuits of signal transmission circuits 11 and 25 and signal reception circuits 12 and 26 are provided, respectively. They are connected to each other through the L _CS. In this case, the potential of the signal transmission contact lines L _CS, when the signal transmitting circuit 11, 25 is in a non-operating state, the signal receiving circuit 12, 2
6 is maintained at substantially the same potential as the reference-side power supply connection line L _A1 to which it is connected.

When each of the signal transmission circuits 11 and 25 is operated by the indoor microcomputer 6 constituting the indoor control unit and the outdoor microcomputer 16 constituting the outdoor control unit, the signal transmission communication line _LCS and the reference side are connected. and voltage increase between the reference power supply contact line L _A1 to also functions as a signal electrical transmission contact lines, whereby, while the indoor microcomputer 6 and the outdoor microcomputer 16 to communicate signals to each other, control the air conditioning operation It is configured to be.

In FIG. 1, reference numeral 14 denotes a wireless remote controller. When a user performs various setting operations such as start and stop of the air-conditioning operation with the wireless remote controller 14, the setting signal at this time is received by the wireless receiver 13. This is sent to the indoor microcomputer 6 and the operation state is changed to the operation state according to the new setting of the user.

Therefore, even in the standby state in which the operation is stopped, the operating power is supplied to the indoor microcomputer 6 and the wireless receiving unit 13 so that the setting signal can be received. Conventionally, the power supply to each outdoor device is controlled by the outdoor microcomputer 16 to cut off the power supply, but the operation power is continuously supplied to the outdoor microcomputer 16 even during standby.

[0007] In recent years, as a measure against global warming, energy saving of various home electric appliances has been demanded, and it has been demanded for air conditioners to further reduce the above-mentioned power consumption during standby. Therefore, as shown in FIG.
In the type in which the power supply line L _AC from the outside is connected to the indoor unit 51, for example, between the connection portion of the power supply line L _{AC in} the indoor side power supply lines L _I1 and L _I2 and the indoor side communication terminal board 52 An outdoor unit opening / closing relay MR is interposed, and when entering a standby state, the outdoor unit opening / closing relay MR is opened by an indoor microcomputer (not shown), whereby power is supplied to the outdoor microcomputer 54 in the outdoor unit 53 during standby. Also stop,
The standby power has been reduced.

[0008]

However, in the separate type air conditioner in which the power supply wire is connected to the outdoor unit, there is a problem that the standby power cannot be easily reduced as described above. That is, as shown in FIG.
Of the type power wire L _AC from the outside is connected to the outdoor unit 61, when temporarily providing outdoor unit closing relay MR as described above, also operating power during standby in the room microcomputer (not shown) in the indoor unit 62 Therefore, the outdoor unit opening / closing relay MR needs to be interposed in the power supply lines L _O1 and L _O2 in the outdoor unit 61 as shown in the figure.

In this case, when the outdoor microcomputer 63 controls the opening / closing of the outdoor unit opening / closing relay MR, the outdoor microcomputer 63 is restarted when the relay MR is opened and the outdoor microcomputer 63 is stopped. You will not be able to do it. Therefore, it is necessary to control the opening / closing of the outdoor unit opening / closing relay MR by the indoor microcomputer. For this purpose, a dedicated connection wiring for opening / closing the relay MR is provided by the indoor unit 62 and the outdoor unit 61. It is necessary to add it between

Therefore, in this case, in addition to the change of the internal circuits of the outdoor unit 61 and the indoor unit 62, the connection terminal board is changed in accordance with the increase in the number of connection wirings. If the terminal box for communication is formed integrally with the electrical component box that houses the circuit, it is necessary to change the specifications of these electrical component boxes, which raises the problem of increasing the overall manufacturing cost. Will happen.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and has as its object the purpose of connecting a power supply line from the outside to any of an indoor unit and an outdoor unit. It is an object of the present invention to provide a separate type air conditioner that can cut off standby power by cutting off power supply to the air conditioner and can further reduce the overall manufacturing cost.

[0012]

According to a first aspect of the present invention, there is provided a separate type air conditioner for transmitting and receiving signals between an indoor control unit in an indoor unit and an outdoor control unit in an outdoor unit. contact wire L a formed the separate type air conditioner to perform through _CS · L _A1, the power line L in the outdoor unit 2
_{When the} outdoor control unit 16 is connected to _O1 · L _O2 via opening / closing means MR2 controlled to be opened / closed by the outdoor control unit 16, and the opening / closing means MR2 is opened and the outdoor control unit 16 is stopped, the outdoor control unit 16 by the startup control of the indoor control unit 6 to supply starting power to the outdoor unit 2 side from the indoor unit 1 side through the signal transmission contact lines L _CS · L _A1 is formed to start It is characterized by.

According to this configuration, the opening / closing means MR2 is opened by the outdoor control unit 16 when the vehicle enters the standby state, whereby the supply of operating power to the outdoor control unit 16 is also cut off. And during release standby state, using a signal transmission contact lines L _CS · L _A1, which is provided for performing signal communication between the indoor control unit 6 and the outdoor control unit 16 at the time of air conditioning operation, through which the indoor unit 1 The start power is supplied from the side to the outdoor unit 2 to start the outdoor control unit 16. Therefore, in this case, if the operating power is supplied to the indoor control unit 6 during standby, even if the power supply line from the outside is connected to either the indoor unit or the outdoor unit, the power supply line may be connected to the indoor control unit 6 during standby. Can reduce standby power in a state where power supply to the outdoor control unit 16 is also cut off, and further, there is no need to change specifications such as increasing the number of connection wires to activate the outdoor control unit 16. Therefore, the overall manufacturing cost can be reduced.

According to a second aspect of the present invention, there is provided a separate type air conditioner comprising an indoor unit 1 and an outdoor unit 2 interconnected by a power supply connection line L _A1 and L _A2 and a signal transmission connection line L _CS and L _A1 . The signal communication between the indoor control unit 6 in the indoor unit 1 and the outdoor control unit 16 in the outdoor unit 2 is performed by causing a predetermined voltage rise between the signal transmission connection lines _LCS and _LA1. The formed separate type air conditioner, wherein the power supply connection line L _A1.
Power line L _O1 · L in outdoor unit 2 connected to L _A2
This outdoor control unit 16 is connected to _O2 via opening / closing means MR2 controlled to be opened and closed by the outdoor control unit 16,
The outdoor activation circuit means connected to said signal transmission contact lines L _CS provided in the outdoor unit 2, when the outdoor control unit 16 by the closing means MR2 to open is stopped, started by the indoor control unit 6 controlled by the indoor control unit 6 the signal transmission contact the outdoor activation signal from the wiring L _CS · L _A1 through the outdoor unit 2
Side, and the operation of activating the outdoor control unit 16 in the outdoor activation circuit means occurs with the voltage increase between the signal transmission connection lines L _CS and L _A1 at the time of signal transmission. It is characterized by being formed in.

In this configuration, when the opening / closing means MR2 is opened to release the standby state in which the outdoor control section 16 is stopped, the indoor control section 6 causes the signal transmission connecting line _LCS / _{LA1 to be} released.
Control is performed to cause a voltage rise during
The outdoor control unit 16 is activated via the outdoor activation circuit. Therefore, similarly to the above, the standby power can be reduced, and there is no need to change the specification so as to increase the number of connecting wires, so that the overall manufacturing cost can be reduced.

In this case, the start-up control by the indoor control unit 6 is performed by transmitting the outdoor start signal to the outdoor unit 2 in substantially the same manner as when the signal is transmitted from the indoor control unit 6 to the outdoor control unit 16 during the air-conditioning operation. The outdoor control unit 16 is activated by performing the transmission control. Therefore, the control procedure and the like of the start control on the indoor control unit 6 side can be configured to be substantially the same as that at the time of signal transmission at the time of air-conditioning operation. This also allows the production cost to be lower.

The communication wiring for connecting the indoor unit 1 and the outdoor unit 2 to each other is, for example, two or three power supply communication wirings corresponding to a single-phase or three-phase commercial power supply. It is also possible to provide two signal transmission communication lines for performing the connection, but as described in claim 3, the reference side power supply connection line of at least two power supply connection lines L _A1 and L _A2. By using L _A1 as a configuration shared with one of the paired signal transmission connection wirings L _CS and L _A1 , the overall configuration can be simplified.

On the other hand, in the separate type air conditioner of the present invention, the opening / closing means MR2 comprises a normally open contact of a relay, and the outdoor starting circuit means comprises a signal transmission connecting line L.
_6. A separate type air conditioner according to claim 5, wherein said relay drive coil is MR _2C which is energized and energized in accordance with a voltage rise between _CS and L _A1. but it is characterized in that a normally closed contact RY2 of the relay which is interposed in the bypass line L _BP which connects the outdoor control unit 16 to the signal transmission contact lines L _CS.

As described above, the outdoor-side starting circuit means includes:
Connect the drive coil MR _2C relay signal transmission contact lines L _CS, or normally closed contact of the relay to the bypass line L _BP R
A configuration in which Y2 is interposed can be used. In these cases,
Since the number of additional components can be reduced as much as possible and the change of the circuit specifications can be reduced as much as possible without using a complicated circuit configuration, the overall manufacturing cost can be further reduced.

[0020]

Next, specific embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 3, the separate type air conditioner according to the present embodiment, when the air conditioner is installed,
Between the communication terminal boards 3 and 4 between the indoor unit 1 and the outdoor unit 2 is connected to each other by a connection wire composed of three electric wires of a pair of power supply connection wires L _A1 and L _A2 and a signal transmission connection wire L _CS. Along with the connection, for example, a single-phase AC 100 V or 200 V power supply line L _AC · L _AC is connected to a power supply line connection terminal board 5 provided on the outdoor unit 2 side, for example. The respective connection terminals of the power supply wires L _AC and L _AC are connected to the connection terminals of the respective power supply connection wires L _A1 and L _{A2 in} the connection terminal board 4 on the outdoor side in the outdoor unit 2.

The indoor unit 1 includes an indoor control board 7 on which an indoor control section (hereinafter referred to as an indoor microcomputer) 6 comprising a microcomputer is mounted. Actuators such as a fan motor 8 having an indoor fan (not shown) connected thereto and a swing motor 9 for swinging a horizontal flap and a vertical flap provided at an air outlet of the indoor unit 1 are connected to the control board 7. Are connected, for example, a room temperature sensor 10a for detecting the room temperature, and a refrigerant temperature sensor 10b for detecting the temperature of the refrigerant flowing through the indoor heat exchanger.
Various sensors such as c are connected.

The indoor microcomputer 6 and the actuators / sensors are connected to the indoor power supply lines L _I1 and L _I2 having one ends connected to the power supply connection lines L _A1 and L _A2 , respectively. Connected through. As a result, the respective operating powers are supplied through the indoor side power supply lines L _I1 and L _I2 , and during the air conditioning operation to be described later, the indoor microcomputer 6 monitors various detection signals from the respective sensors while controlling each actuator. Operation is controlled.

The indoor control board 7 further includes an indoor signal transmitting circuit 11 and an indoor signal receiving circuit 12, which will be described later. These circuits 11 and 12 are connected in series with each other and connected between the indoor power supply lines L _I1 and L _I2 , and the portion between the circuits 11 and 12 is connected to the signal line via the indoor transmission line L _IS. The transmission connection line _LCS is connected.

The indoor control board 7 is provided with a wireless receiving section 13. The wireless receiving unit 13 receives a setting signal when the user performs various setting operations such as start and stop of the air-conditioning operation using the wireless remote controller 14, and the signal is sent to the indoor microcomputer 6.
The operation state is switched according to the new setting of the user.

On the other hand, the outdoor unit 2 is also provided with an outdoor control board 17 on which an outdoor control unit (hereinafter, referred to as an outdoor microcomputer) 16 comprising a microcomputer is mounted in substantially the same manner as described above. The compressor 18 and the refrigerant pipes connected to the outdoor power supply lines L _O1 and L _{O2 each} having one end connected to the power supply connection wirings L _A1 and L _A2 via the outdoor connection terminal board 4. Four-way switching valve 1
9, outdoor actuators such as an electric expansion valve 20, an electromagnetic valve 21, and an outdoor fan motor 22 connected to an outdoor fan (not shown) are connected via the outdoor control board 17, respectively. Although not shown, various sensors such as an outside air temperature sensor for detecting the outside air temperature and a temperature sensor for detecting the temperature of the refrigerant flowing through the outdoor heat exchanger are also connected via the outdoor side control board 17, respectively. ing.

In the same figure, the compressor 18 is connected to the outdoor power supply lines L _O1 and L _O2 via the rectifier 23 and the inverter 24.
The outdoor microcomputer 16 and the like are also connected to the outdoor power lines L _O1 and L _O2 via a constant voltage DC power supply circuit (not shown). During the air-conditioning operation, the operation of the actuators is controlled by the outdoor microcomputer 16 while monitoring the detection signals from the sensors on the outdoor side.

Similarly, the outdoor control board 17 is provided with an outdoor signal transmission circuit 25 and an outdoor signal reception circuit 26 connected in series to each other, and these series circuits are connected to the outdoor power line L. It is connected between _O1 and L _O2 .
The site between these signal transmitting circuit 25 and the signal receiving circuit 26 is connected to the signal transmission contact lines L _CS via the outdoor transmission line L _OS and the outdoor side connection terminal board 4.

FIG. 1 shows the signal transmission circuit 1 on the indoor side described above.
1 and a signal receiving circuit 12 and an outdoor signal transmitting circuit 2
5 and a detailed diagram of the signal receiving circuit 26. Each signal transmission circuit 11, 25 are each formed of a series circuit of a photo-TRIAC T _A and the resistor R _1, the signal receiving circuit 12, 26, respectively, a pair of light-emitting diodes D connected in reverse parallel to each other and _O · D _O, and a resistor R ₂ connected in series thereto.

In the following, each of the signal receiving circuits 12 and 26
There the indoor power line L _I1 and the outdoor-side power supply line L _O1 side connected respectively, a reference power supply line L ₁ across the power contact wires (reference side power contact lines) L _A1 for connecting these to each other Each signal transmission circuit 11
25 is connected to the indoor power supply line L _I2 and the outdoor power supply line L _O2, and the power supply connection line L _A2 connecting the power supply wiring L _A2 to the indoor power supply line L ₂ . Line L _IS and outdoor transmission line L
And _OS, also will be referred to respectively as the entire signal transmission line L _S of the signal transmission contact lines L _CS to interconnect these.

When the phototriacs T _A and T _A on the indoor side and the outdoor side are in the off state, respectively, the signal transmission line L _S is held at the same potential as the reference side power supply line L ₁ ,
No current flows through each light emitting diode D _O. From this state, for example, signal transmission from the indoor microcomputer 6 to the outdoor microcomputer 16 is performed as follows. That is, first the indoor side of the photo-triac T _A light-emitting device is arranged opposite to the (not shown), energization control corresponding to the transmission signal by the indoor microcomputer 6 is performed, light emission of the light emitting device associated therewith every time, the above photo-tRIAC T _a is turned on, current flows through the photo-triac T _a of the indoor side and the light emitting diode D _O.

At this time, the voltage between the signal transmission line L _S and the reference side power supply line L ₁ rises, whereby a current also flows through the signal transmission line L _{S to} the outdoor light emitting diode D _O. emitting diode D _O of the outdoor side emits light. The light emission state of the light emitting diode D _O of the outdoor side is detected by the photo diode, a detection signal is taken into the outdoor microcomputer 16, transmitted from the indoor microcomputer 22 to the outdoor microcomputer 16 is performed.

On the other hand, the signal transmission from the outdoor microcomputer 16 to the indoor microcomputer 6 is performed by the outdoor photo triac T _A.
On the other hand, by performing on / off switching in the same manner as described above according to the content of the signal to be transmitted, the indoor side light emitting diode D _O
A light emission corresponding to the on / off occurs in the
The above signal content is taken into the indoor microcomputer 6.

[0034] Note that when either one of the photo triac T _A between the indoor side and the outdoor side as described above is ON, the signal transmission line relative to the reference power supply line L ₁ L
Voltage _S is approximately half the voltage of the voltage-side power supply line L _2,
For example, the resistance values of the resistors R ₁ and R ₂ are set such that the voltage of the power supply line L ₂ rises to about 50 V when the AC voltage is 100 V.

On the other hand, the outdoor power supply lines L _O1 and L _O2 in the outdoor unit 2 are connected to the various actuators and sensors (hereinafter, these are referred to as control devices 27).
And the power supply line L _EQ equipment but connected, is branched into two lines of the power line L _MC microcomputer the outdoor microcomputer power supply circuit 28 is connected to the respective line L _EQ · L _MC, respectively, first Normally open contacts of relays and normally open contacts of second relays (hereinafter simply referred to as first and second relays, respectively)
MR1 and MR2 are interposed.

[0036] The outdoor microcomputer power supply circuit 28, when the AC100V (or 200V) is input through the power line L _MC microcomputer to supply power to the outdoor microcomputer 16 and converts it to a predetermined DC voltage I do. The outdoor microcomputer 16 controls the first relay MR.
1 is controlled to open and close. Further, when the second relay MR2 is closed, the outdoor microcomputer 16 operates the drive coil MR of the second relay MR2 to be described later.
By stopping the current supply to _2C , the second relay MR2
Is controlled to open.

[0037] More in the outdoor unit 2, the outdoor-side power supply line L _O1 and the outdoor-side transmission line L _OS and the relay driving power source 29 of the reference side is connected. This relay drive power supply 29 is a rated voltage (for example, 12 V) of the second relay MR2.
Is generated between the power supply line L _O1 and the outdoor transmission line L _OS , the voltage is reduced to 12 V and supplied to the drive coil MR _2C of the second relay MR2. The second relay MR2 is configured to close.

Next, the respective operating states of the air conditioner having the above configuration when the air conditioning operation is stopped and when the air conditioner is restarted thereafter will be described with reference to FIG. FIG. 3 shows a processing procedure at the start and stop of the air conditioning operation programmed by the indoor microcomputer 6 and the outdoor microcomputer 16, respectively.

As shown in FIG.
Then, determination of entry into the standby state, that is, determination of whether or not the user has performed an operation of stopping operation with the wireless remote controller 14 during the air-conditioning operation (step S1),
A process of alternately repeating the determination of the end of the standby state, that is, the determination (step S2) of whether or not an operation for starting operation has been performed by the wireless remote controller 14 during the standby, for example, is performed. On the other hand, as shown in FIG. 3B, while the outdoor microcomputer 16 is operating, it is determined whether or not a stop signal has been transmitted from the indoor microcomputer 6 (step S11).

First, the operation of stopping the operation is performed by the user during the air-conditioning operation. When the operation is received by the wireless receiving unit 13 and sent to the indoor microcomputer 6, the indoor microcomputer 6 proceeds from step S1 to step S3. As described above, a process of transmitting a stop signal to the outdoor unit 2 through the signal transmission line L _S is performed. At this time, this indoor microcomputer 6
Simultaneously stops indoor-side actuators,
Power supply to each sensor is also stopped, and control is performed to shift to a standby state. In this standby state, on the indoor side, only the indoor microcomputer 6 and the wireless receiving unit 13 maintain the operation state, and the processing of repeating the above steps S1 and S2 alternately until a new operation start operation is performed. I do.

On the other hand, when the stop signal from the indoor microcomputer 6 is received by the outdoor microcomputer 16, the outdoor microcomputer 16 proceeds from step S 11 to S 12 and cuts off the power input to the outdoor microcomputer power supply circuit 28. Perform control. That is, when the outdoor microcomputer 16 receives the above stop signal, the outdoor microcomputer 16 first performs stop control of various outdoor actuators, and then performs control to stop energization of the drive coil of the first relay MR1. The relay MR1 is opened, thereby stopping the power supply to the outdoor control devices 27. And thereafter, the outdoor microcomputer 16 performs control for stopping the energization of the drive coil MR _2C of the second relay MR2.

As a result, the second relay MR2 switches from the previously closed state to the open state, and as a result, the power input to the outdoor microcomputer power circuit 28 is cut off.
As a result, the outdoor side is in a standby state in which power supply to all devices including the outdoor microcomputer 16 is stopped.

On the other hand, in the standby state described above, when a new operation for starting operation is performed by the wireless remote controller 14, the operation is received by the wireless receiver 13 and sent to the indoor microcomputer 6, and at this time, the indoor microcomputer 6 The process shifts from step S2 to S4 to perform a process of transmitting a start signal to the outdoor unit. Transmission processing of the activation signal is performed by the photo-TRIAC T _A of the indoor side of the signal transmission circuit 11 for a predetermined time on state.

As a result, the voltage of the signal transmission line L _{S with} respect to the reference power supply line L ₁ shown in FIG. 1 rises in the same manner as described above, and accordingly, a voltage of, for example, 12 V AC is output from the relay driving power supply 29. Te, energization of the drive coil MR _2C of the second relay MR2 occurs. As a result, the second relay MR2 is closed was open until then, the power supply voltage through the power line L _MC microcomputer to the outdoor microcomputer power supply circuit 28 is input, the operation from the power supply circuit 28 to the outdoor microcomputer 16 Power is supplied.

The outdoor microcomputer 16 thus activated
First performs the control to maintain the turn-on states of the drive coil MR _2C of the second relay MR2, thereby, even after the activation signal from the indoor side is stopped, the operating state of the outdoor microcomputer 16 is continued . Thereafter, a signal necessary for starting an air-conditioning operation such as a cooling / heating operation mode is received by communicating with the indoor microcomputer 6, the first relay MR1 is closed, and the control devices 27 on the outdoor side are activated to air-condition. Start driving.

At the same time, on the indoor microcomputer 6 side, each of the outdoor control devices 2 is controlled according to the contents of communication with the outdoor microcomputer 16.
The drive control of each of the actuators on the indoor side is started in synchronization with the start-up of the actuator 7. Thereafter, for example, the compressor 1
And a temperature difference signal between the set temperature on the indoor side and the detected room temperature for sequentially setting the driving frequency of the indoor 8 on the outdoor side.
The N / OFF signal is transmitted to the indoor microcomputer 6 and the outdoor microcomputer 1
The air conditioning operation is continued while sequentially communicating with the air conditioner 6.

As described above, in the present embodiment, when the vehicle enters the standby state, the outdoor microcomputer 16 opens the second relay (opening / closing means) MR2, thereby shutting off the supply of operating power to the outdoor microcomputer 16 as well. . And during release standby state, using a signal transmission contact lines L _CS, which is provided for performing signal communication with the indoor microcomputer 6 and the outdoor microcomputer 16 during air conditioning operation, through which the outdoor unit from the indoor unit 1 side 2 start side power (in this case, the excitation power of the driving coil MR _2C of the second relay MR2) activates the outdoor microcomputer 16 supplies.

[0048] Accordingly, in the above, if it is supplied with its operating power even during standby indoors microcomputer 6, be of a type power supply wires L _AC from the outside is connected to any of the indoor unit 1 and the outdoor unit 2 During standby, the power supply to the outdoor microcomputer 16 is also shut off on the outdoor side to reduce standby power, and the number of communication wires is increased to activate the outdoor microcomputer 16. Since no changes need to be made, the overall manufacturing costs can be lower.

In the above-described embodiment, the control from the indoor microcomputer 6 to the outdoor unit 16 is substantially the same as the control at the time of signal transmission from the indoor microcomputer 6 to the outdoor microcomputer 16 during the air-conditioning operation.
The outdoor microcomputer 16 can be activated by performing control to transmit an outdoor activation signal to the side. Therefore,
There is no need to provide special control devices for performing this start-up control on the indoor side, and the start-up control procedure and the like in the indoor microcomputer 6 are almost the same as the control procedure at the time of signal transmission during air-conditioning operation. Can be configured as
This also allows the production cost to be lower.

The communication wiring for connecting the indoor unit 1 and the outdoor unit 2 to each other may be, for example, two or three power communication wirings corresponding to a single-phase or three-phase commercial power supply. However, as described above, the reference-side power supply communication line L _A1 of the at least two power supply connection lines L _A1 and L _A2 may be provided. and by sharing a reference side signal transmission contact lines with respect to the signal transmission contact lines L _CS, which is also of the whole constituted by it has become something more simple.

[0051] In the above embodiment, the driving coil MR _2C of the second relay MR2, the voltage rises to a signal transmission contact lines L _CS is the outdoor side starting circuit means for activating the outdoor microcomputer 16 is configured when produced. In this way, the outdoor start circuit means can also be constituted by simple electric components,
Moreover, in this case, since one relay serves as both the opening / closing means for shutting off the power supply to the outdoor microcomputer 16 when entering the standby state and the outdoor start circuit means,
Changes in the number of additional components, circuit specifications, and the like can be reduced as much as possible, thereby also making it possible to lower the overall manufacturing cost.

It should be noted in the above, the signal transmission line L _S which rises when you turn on the triac T _A of the indoor side
The drive coil MR _2C is connected to the outdoor transmission line L _OS via a relay drive power supply 29 for reducing the voltage of the drive coil MR _{2C to} the rated voltage of the drive coil MR _2C of the second relay MR2. When the second relay MR2 can be selected so that the rated voltage of the MR _2C substantially matches the rising voltage of the signal transmission line L _S , the relay drive power supply 29 is omitted, and the drive coil MR _2C is installed in the room. It is also possible to directly connect between the outer transmission line L _OS and the outdoor power supply line L _O1 .

FIG. 4 is a circuit block diagram showing a configuration of a main part in another embodiment of the present invention. Note that members having the same functions as those of the above-described embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted. As shown, in this embodiment, the series circuit of the phototriac T _A in the signal transmission circuit 11 of the indoor side and the resistor R _1, further normally open contact of the first relay outdoor start (hereinafter,
RY1 (hereinafter simply referred to as an outdoor start-up first relay) is connected in parallel. On the other hand, the outdoor microcomputer power supply circuit 28 in the outdoor unit 2, the same manner, the second relay MR2 is connected interposed to power supply line L _MC microcomputer and the in the line L _MC second relay MR2 and a portion between the outdoor microcomputer power supply circuit 28 is provided a bypass line L _BP which connects to the outdoor side transmission line L _OS, in the bypass run Lee L _BP, the normally closed contact of the second relay outdoor activation (hereinafter RY2) is simply provided as an outdoor start-up circuit means.

In this configuration, first, in a standby state in which operating power is supplied only to the indoor microcomputer 6 and the wireless receiving unit 13, the outdoor start-up second relay RY2 is held in a closed state. I have. At this time, when a new operation start operation is performed by the wireless remote controller 14, the indoor microcomputer 6 transmits a start signal to the outdoor unit 2 to close the outdoor start first relay RY1 for a predetermined time. Done by As a result, the signal transmission line L _S changes from the same potential state as the reference side power supply line L ₁ to the same voltage state as the voltage side power supply line L ₂ . As a result, the outdoor microcomputer power supply circuit 28 includes:
The reference power supply line L ₁ and the voltage power supply line L ₂ via the signal transmission line L _S and the outdoor start second relay RY _2.
For example, a voltage of 100 V AC (or 200 V) is input between the power supply and the power supply circuit 28 to supply operating power to the indoor microcomputer 16, and the control by the outdoor microcomputer 16 is started in the same manner as described above. You.

The outdoor microcomputer 16 that has started the control operation as described above performs control to first close the second relay MR2 and then to open the second outdoor start-up relay RY2. Hold until the next standby state entry. On the other hand, the first outdoor start-up relay RY1 on the indoor side is opened by the indoor microcomputer 6 after a lapse of a predetermined time, and thereafter, communication of signals between the indoor microcomputer 6 and the outdoor microcomputer 16 is performed in the same manner as described above. conducted through a signal transmission line L _S, air-conditioning operation under a predetermined condition is started.

On the other hand, the wireless remote controller 1 during air-conditioning operation
When the operation stop operation is performed in step 4 and the vehicle enters the standby state, the indoor microcomputer 6 controls the indoor signal transmission circuit 11.
Is operating the photo-TRIAC T _A in the same manner as described above stop signal is transmitted. The outdoor microcomputer 16 that has received the stop signal performs control to sequentially open the first relay MR1 and the second relay MR2 in the same manner as described above. As a result, power supply to the outdoor microcomputer power supply circuit 28 is also stopped, and power supply to all devices including the outdoor microcomputer 16 is stopped outside. Along with this, the outdoor start second relay RY2 of the normally closed contact is closed from the previously opened state, and this closed state is maintained even during standby. This allows
When a start signal is newly transmitted from the indoor microcomputer 6, the start operation is started outside the room.

As described above, also in this embodiment, the power supply to the outdoor microcomputer 16 is cut off during the standby state as described above, so that the standby power can be reduced.
In addition, since there is no need to change specifications so as to increase the number of contact wirings in order to activate the outdoor microcomputer 16, the overall manufacturing cost can be reduced.

When the photo triac T _A in the signal transmission circuit 11 on the indoor side is turned on, the voltage of the signal transmission line L _S rises to substantially the same voltage as the voltage side power supply line L ₂ . When the resistance values of the resistors R ₁ and R ₂ are set, the outdoor start first relay R in FIG.
Y1 is then omitted, the outdoor side of the activation control by an indoor microcomputer 22, it is possible to perform in the same control to turn on the triac T _A of the indoor-side signal transmission circuit 11.

Although the specific embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various changes can be made within the scope of the present invention. For example, in each of the above embodiments, the opening / closing means and the outdoor start-up circuit means are each configured by contact relays MR2 and RY2, but may be configured by using other circuit components such as non-contact relays such as transistors and thyristors. is there.

Further, in each of the above embodiments, a separate type air conditioner having a configuration in which the power supply line L _AC is connected to the outdoor unit 2 is described as an example, but a separate type air conditioner in which the power supply line L _AC is connected to the indoor unit 1 side. The present invention can also be applied to an air conditioner.

In each of the above embodiments, one indoor unit 1 is provided.
A pair-type separate air conditioner in which the air conditioner and the outdoor unit 2 are interconnected has been described as an example, but a multi-type air conditioner configured by connecting a plurality of indoor units to one outdoor unit is described. The present invention can also be applied to the present invention. In such a case, in claim 1 of the present invention, for example, a power supply cable is connected to both the outdoor unit and the specific indoor unit, and therefore, the outdoor unit and the indoor unit are paired with each other for signal transmission. The configuration may be such that they are connected to each other only by the connection wiring.

[0062]

As described above, in the separate type air conditioner according to the first aspect of the present invention, the outdoor control unit is connected to the power supply line in the outdoor unit via the opening / closing means, and the opening / closing means is opened. When the outdoor control unit is stopped, the start control is supplied from the indoor unit side to the outdoor unit side through the signal transmission connection wiring to start the outdoor control unit by the start control by the indoor control unit. Therefore, as long as the operating power is supplied to the indoor control unit even during standby, the power supply line from the outside is connected to either the indoor unit or the outdoor unit. The standby power can be reduced while the power supply to the outdoor unit is also shut off, and there is no need to change the specifications to increase the number of connecting wires in order to activate the outdoor control unit. It can be cheaper.

In the separate type air conditioner of the present invention, the start-up control in the indoor control unit is substantially the same as the control when the signal is transmitted from the indoor control unit to the outdoor control unit during the air-conditioning operation. Therefore, the control procedure and the like of this start control can be configured to be substantially the same as that at the time of signal transmission during air-conditioning operation. Thereby, the above claim 1
In addition to the effects described above, the start control in the indoor control unit does not need to be specially controlled, so that the production cost can be further reduced.

In the separate type air conditioner of the third aspect, since the reference side power supply connection line of the power supply connection line is shared with one of the paired signal transmission connection lines, the whole air conditioner is constructed. The configuration can be made simpler.

In the separate type air conditioner of the present invention, the driving coil of the relay is connected to the signal transmission connection wiring, or the normally open contact of the relay is provided on the bypass line, and the outdoor start circuit is provided. Means are constituted,
As a result, the number of additional components, changes in circuit specifications, and the like can be minimized, so that the overall manufacturing cost can be further reduced.

[Brief description of the drawings]

FIG. 1 is a main circuit block diagram showing a connection configuration between an indoor unit and an outdoor unit in a separate type air conditioner according to an embodiment of the present invention.

FIG. 2 is a control flowchart showing a control procedure at the time of entry and termination of a standby state between an indoor microcomputer and an outdoor microcomputer in the air conditioner.

FIG. 3 is a circuit block diagram illustrating an overall configuration of the air conditioner.

FIG. 4 is a main circuit block diagram showing a connection configuration between an indoor unit and an outdoor unit in a separate type air conditioner according to another embodiment of the present invention.

FIG. 5 is a main part circuit block diagram showing a connection configuration between an indoor unit and an outdoor unit in a conventional separate type air conditioner.

FIG. 6 is a main part circuit block diagram for explaining an operation when an outdoor unit opening / closing relay is provided in a model in which a power supply wire is connected to the outdoor unit side.

[Explanation of symbols]

Reference Signs List 1 indoor unit 2 outdoor unit 6 indoor microcomputer (indoor control unit) 16 outdoor microcomputer (outdoor control unit) MR2 second relay (opening / closing means) _MR2C driving coil (outdoor start-up circuit means) RY2 outdoor start second relay (room) Outside starting circuit means) L _A1・ L _A2 power supply connection wiring L _CS signal transmission connection wiring L _O1 / L _O2 outdoor power supply line L _BP bypass line

────────────────────────────────────────────────── ─── Continuing on the front page (72) Eiji Kiriyama, Inventor 1000 Oya, Okamotocho, Kusatsu-shi, Shiga 2 Daikin Industries, Ltd. Shiga Works (56) References JP-A-11-311436 (JP, A) JP-A-6-94289 (JP, A) JP-A-2-21153 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) F24F 11/02 F24F 11/02 102 F24F 11/02 103

Claims (5)

(57) [Claims] A signal transmission between an indoor control unit (6) in an indoor unit (1) and an outdoor control unit (16) in an outdoor unit (2) is performed by signal transmission connection wiring (L _CS ) (L _A1 ) is a separate type air conditioner formed so as to be operated through an outdoor control unit (16) in a power supply line (L _O1 ) (L _O2 ) in the outdoor unit ( ₂ ). The outdoor control unit (16) is connected via the MR2), and when the outdoor control unit (16) is stopped by opening the opening / closing means (MR2), the start-up control by the indoor control unit (6) is performed. The outdoor control unit (16) is configured to start by supplying starting power from the indoor unit (1) side to the outdoor unit (2) side through the signal transmission connection wiring (L _CS ) ( _LA1 ). A separate type air conditioner characterized by the following. 2. An indoor unit (1) and an outdoor unit (2) interconnected by a power supply connection line ( _LA1 ) ( _LA2 ) and a signal transmission connection line ( _LCS ) ( _LA1 ). The indoor control unit (6) in the indoor unit (1) and the outdoor control unit (16) in the outdoor unit (2)
Signal communication between the above and the signal transmission connection wiring (L _CS )
A (L _A1) separate type air conditioner which is formed as performed by causing a predetermined voltage rise during, the power contact lines (L _A1) (L _A2) connected to the the outdoor unit (2) in The outdoor control unit (16) is connected to the power supply lines (L _O1 ) and (L _O2 ) via an opening / closing means (MR2) controlled to be opened and closed by the outdoor control unit (16), and the signal transmission connection wiring ( _LCS ) is provided in the outdoor unit (2), and when the opening / closing means (MR2) is opened and the outdoor control unit (16) is stopped, the indoor control unit (16) is stopped. In the start control according to 6), an outdoor start signal is transmitted from the indoor control unit (6) to the outdoor unit (2) through the signal transmission connection line (L _CS ) ( _LA1 ), and this signal is transmitted. Transmission line for signal transmission during transmission (L _CS )
A separate type air conditioner characterized in that an operation of activating the outdoor control section (16) is generated in the outdoor activating circuit means with an increase in the voltage during ( _LA1 ). 3. At least two power supply connection lines ( _LA1 )
Claims reference power supply connection wiring (L _A1), characterized in that one to be shared among the signal transmission contact lines of the pair (L _CS) (L _A1) of the (L _A2) 2 separate type air conditioner. 4. The switching means (MR2) comprises a normally open contact of a relay, and the outdoor starting circuit means is energized with a rise in voltage between signal transmission connection wirings (L _CS ) and (LA ₁ ). The separate type air conditioner according to claim 2 or 3, wherein a drive coil ( _MR2C ) of the relay is excited. 5. The normally open contact (RY) of a relay provided on a bypass line (L _BP ) connecting the outdoor control section (16) to a signal transmission communication line (L _CS ).
The separate type air conditioner according to claim 2 or 3, wherein (2).