JPS5915744A - Split type air conditioner - Google Patents

Abstract

PURPOSE:To detect the operational status of an outdoor unit by an indoor unit by a method wherein the conductive line on an indoor unit side circuit is insertedly provided with a photo coupler while the conductive line on an outdoor side circuit is also insertedly provided with a thyristor etc. CONSTITUTION:When an outdoor side heat exchanger 13 is frosted in case of heating operation, an outdoor controller 31 turns a switch SW2 OFF stopping a four way valve 12 to start defrosting operation. At this time, the outdoor controller 31 turns a thyristor SCR2 OFF by a thyristor firing circuit 35 at the receiving timing of a cooling transfer command to disconnect a conductive line A turning a photo coupler PHC2 on a circuit 18 OFF. Consequently, an indoor controller 25 may perceive the disconnection of the conductive line A despite turning a thyristor SCR1 ON for commanding heating operation to recognize the defrosting operational status of the outdoor unit.

Description

DETAILED DESCRIPTION OF THE INVENTION The invention relates to a split type air conditioner having a function of detecting the operating state of an outdoor unit on the indoor unit side.

[Technical background of the invention and its problems]

Generally, an air conditioner has a compressor 11 as shown in FIG.
, four-way valve 12 , outdoor heat exchanger 13 .

A heat pump type refrigeration cycle is provided in which a capillary tube 14 and an outdoor heat exchanger 15 are connected in sequence. An inner blower 17 is provided. The four-way valve 12 switches the flow of the refrigerant, and during cooling, it circulates the refrigerant in the direction of the solid arrow shown in the figure to form a cooling cycle 2, and during heating it operates to flow the refrigerant in the direction of the arrow shown in the figure. Switch to the broken line and turn on the heating. 1
It has become 8,1,).

No. 21×1 digit. It is an i control circuit. 18 is a circuit on the indoor unit side, and electricity is also connected to the circuit 23. = On the other hand, 19 is the outdoor unit side circuit, and terminal 〇1■l'u'! on the terminal board 20.21. , m. Connected to Ryo 2s. Additionally, circuit 18.
An energizing line A for supplying an operation command based on the output of the power source 23 is provided between the terminal boards 20 and 21 via a crossover wire between the terminals ■ and ■ and between the terminals ■ and ■. However,
In the circuit 18, a diode Dip is connected to the current carrying line A.
A series circuit of a resistor R1p thyristor 5CRI+ and a resistor R2 is inserted. Further, in the circuit 18, 24 is a synchronization signal generation circuit, 25 is an indoor control section, and these synchronization signal generation circuit 24 and indoor control section 25 are connected to a power source 23. The synchronization signal generation circuit 24 generates a synchronization signal corresponding to the power supply frequency. The indoor control section 25 operates in synchronization with the output of the synchronization signal generation circuit 24, and the operation section 2
6 operation status and room temperature sensor 27. The thyristor ignition circuit 29 is controlled according to the detected value of the indoor heat exchange sensor 28 and the like. This thyristor ignition circuit 29 is connected to the thyristor SC.
The on/off control of the current carrying line A is thereby carried out. The operation control command issued from the indoor control unit 25 is energized line A.
The power is supplied to the circuit 19 through conduction and cutoff control.

On the other hand, in the circuit 19, the current-carrying line A has a resistor R3+
Photocoupler PHC, light emitting diode.

A series circuit of a resistor R4 and a resistor R4 is inserted. Also, circuit 1
9, 3o is a synchronization signal generation circuit, 31 is an outdoor control section, and these are the synchronization signal generation circuit 30 and the outdoor control section 3.
1 is connected to a power supply line based on the crossover connection of terminal boards 20 and 21.

The synchronization signal generation circuit 3o generates a synchronization signal corresponding to the power supply frequency. The outdoor control unit 31 operates in synchronization with the output of the synchronization signal generation circuit 3o, and operates in synchronization with the output of the photocoupler PHC! The switch SWl is activated in response to a signal obtained from the phototransistor via the resistor RII (operation control command from the circuit 18) and a detected value of the outdoor heat exchange sensor 32.
, SW, are turned on and off, thereby controlling the supply of electricity to the compressor motor IIM and the four-way valve 12. Note that a photocoupler protection diode D2 is connected in parallel to the light emitting diode of 7 Otokazora PI (C).

The operation of the above configuration will be explained using the timing chart of FIG. When the operating state is set using the operation unit 26, the indoor control unit 25 activates the thyristor ignition circuit 29.
is controlled, thereby firing thyristor SCR1 (
b) Sequentially transmit a set of 5-bit operation control commands (start command, cooling/heating switching command, compressor control command, wait command, wait command) as shown in the figure to the circuit 19. Here, the (IL) diagram is a voltage waveform between terminals ■ and ■. circuit 19
Then, the photocoupler PHC1 is driven by the conduction or interruption of the current-carrying line A, and this photocoupler PHCl
The output (voltage across the resistor R6) is detected by the outdoor control unit 31 to obtain the data signal shown in FIG.

By the way, during heating operation, the outdoor heat exchanger 13
Since frost may adhere to the air conditioner, when the temperature detected by the outdoor heat exchanger sensor 32 reaches the frost adhesion temperature, the operation of the four-way valve 12 is stopped and a defrosting operation (cooling cycle) begins. When detecting such a defrosting operation on the circuit 1B side, conventionally, the temperature detected by the indoor heat exchange sensor 28 is monitored to detect the defrosting operation. However, with such a method, it is difficult to accurately determine defrosting operation.

Therefore, in order to accurately detect the defrosting operation, it may be possible to input the detected temperature value of the outdoor heat exchanger sensor 32 to the indoor control unit 25, but this would require an increase in the number of crossover wires. , leading to higher costs and larger terminal boards. Further, when the operation of the compressor motor IIM is stopped in the circuit 19, it is also impossible for the circuit 18 to know whether the operation of the compressor motor IIM has been stopped.

[Purpose of the invention]

This invention was made in view of the above circumstances,
The purpose is to provide an excellent sgerit type air conditioner that can detect the operating status of an outdoor unit without increasing the number of connecting wires connecting the indoor unit and the outdoor unit.

[Summary of the invention]

That is, in this invention, in addition to the circuit configuration shown in FIG.
Resistor R3 and photocoupler PHC in energizing line A,
A thyristor and a thyristor ignition circuit are inserted between the thyristor and the thyristor, and this thyristor is controlled on and off according to the operating state of the outdoor unit to control the conduction and cutoff of the energized line A, thereby controlling the operating state of the outdoor unit. It is configured to be detected and determined via a photocoupler provided in the indoor unit side circuit 18.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 4 shows its configuration. In addition to the circuit shown in FIG. At the same time, a thyristor SCR is inserted between the resistor R3 and the photocoupler P[(CI) in the energizing path A of the outdoor unit side circuit 19, and the output of the outdoor controller 31 is inserted into the outdoor unit side circuit. controlled by the thyristor SCR,
A cyrisk ignition circuit 35 is provided to control on and off.

Next, the operation of the above configuration will be explained with reference to the timing chart of FIG. 5. The circuit 18 controls the thyristor SCR on and off in synchronization with the power frequency, and issues a start command, a cooling/heating switching command, a compressor control command, and a wait command.

The circuit 19 transmits the operation control command of one set of 5 bits of the wait command.
Repeatedly send to. At this time, the ignition circuit 35 of the circuit 19
By sequentially turning on the thyristor 5CR2 in synchronization with the power supply frequency, the system is ready to receive the operation control command. In this case, in order to ensure that the reception is turned on, the on-timing of the thyristor SCR is the same as the on-off control timing of the thyristor SCR1 in the circuit 18. It only speeds up time. During the heating operation, the circuit 18 turns off the thyristor SCR1 at the timing of the second bit of the operation control command, and sets the cooling/heating switching command to logic "1". Then, at that timing, the photocoupler PHC of the circuit 19 is turned on, and as a result, the multicircuit 19 enters heating operation control I (the four-way valve 12 operates).

In this way, if frost forms on the outdoor heat exchanger 13 during the heating operation, the outdoor control unit 31 turns off the switch SW, stops the operation of the four-way valve 12, and performs the defrosting operation (cooling operation). cycle).

At this time, the outdoor control unit 31 turns off the thyristor 5CR2 using the thyristor ignition circuit 35 at the reception timing of the cooling/heating switching command. When the thyristor SCR2 is turned off, the current-carrying line A is cut off, and the photocoupler PHC2 in the circuit 18 is turned off. Therefore, the indoor control unit 25 detects that the energized path A-9= is cut off even though the thyristor SCR is turned on to give a heating operation command, and thereby indicates that the outdoor unit is in the defrosting operation state. Determine.

In addition, the compressor control command in the third bit of the operation control command is a logic “1” as a drive command for the compressor 11.
If the outdoor control unit 31 turns off the switch SW1 and stops the operation of the compressor motor IIM despite this drive command, the outdoor control unit 31 turns off the thyristor SCR at the timing of receiving the compressor control command. Seshime,
This cuts off the energized line A and connects the photocoupler PHC.
, turn on. Therefore, the indoor control unit 25 detects that the energization path A has been cut off even though the SIRISK SCR is turned on to give a compressor drive command, and accordingly is in a stopped state.

It should be noted that the present invention is not limited to the above-mentioned embodiments, and is not only applicable to, for example, a heating/cooling switching command or a compressor control command, but is similarly applicable to various other commands.

10- [Effects of the Invention] As explained above, according to the present invention, the operating status of the outdoor unit can be known without increasing the number of connecting wires connecting the indoor unit side circuit and the outdoor unit side circuit. A striped air conditioner having a control device is obtained.

[Brief explanation of the drawing]

Figure 1 is a schematic configuration diagram of a refrigeration cycle, Figure 2 is a configuration diagram of a conventional air conditioner control circuit, and Figures 3 (,) to (c) each explain the operation of the control circuit in Figure 2 above. FIG. 4 is a block diagram of a control circuit according to an embodiment of the present invention, and FIGS. 5 (,) to (,) are timing charts for explaining the operation of the same embodiment, respectively. 18... Indoor unit side circuit, 19... Outdoor unit side circuit, SCR, 5CR2... Thyristor, PH
Cl, PHC2...Photocazola, A...Electricity line.

Claims (1)

[Scope of Claims] Consisting of an indoor unit and an outdoor unit, each unit has an energizing line between the units, and by controlling conduction and interruption of this energizing line on the indoor unit side, it is possible to connect the indoor unit to the outdoor unit. In the strip-lit air conditioner that gives an operation control command, means is provided in the outdoor unit to perform conduction/cutoff control of the energized line according to the operating state of the outdoor unit, and means is provided in the indoor unit to control the conduction or disconnection of the energized line according to the operating state of the outdoor unit. Continuity. It is characterized by a means for detecting a cut-off state and determining the operating state of the outdoor unit by comparing the detection result with the continuity and simple control of the indoor unit. Sujirit type air conditioner 44] machine.