JPH0710198B2 - Air conditioner - Google Patents

Description

TECHNICAL FIELD The present invention relates to an air conditioner that performs cooling by means of a refrigerant compression cycle, and more particularly to an air conditioner whose cooling capacity is regulated by imperter control. .

(B) Conventional technology In this type of conventional air conditioner, an AC / DC conversion circuit that converts the AC input from the AC power supply to DC and smoothes it, and a DC / AC conversion circuit that converts the DC to AC Inverter controls the rotation speed of the electric compressor steplessly,
Thereby, the cooling capacity is continuously adjusted and the room temperature is controlled accurately.

(C) Problems to be Solved by the Invention However, if the input power supply voltage drops during the operation of the electric compressor, a current corresponding to the load of the electric compressor can be supplied within the safe current range of the primary input current. However, there is a problem that the electric compressor breaks down (stops).

This invention was made in consideration of such circumstances.
By detecting the fluctuation of the power supply voltage and the fluctuation of the load in advance and operating the electric compressor at the maximum frequency corresponding to it,
(EN) An air conditioner in which an electric compressor does not break down.

(D) Means for Solving the Problems FIG. 1 is a block diagram showing the structure of the present invention.
Is an AC power supply, 102 is an AC / DC conversion circuit 103 that converts the AC input from the AC power supply 101 into DC and smoothes it, DC is a DC / AC conversion circuit that converts the DC output of the conversion circuit 102 into AC, and 104 is DC / AC An electric compressor driven by the AC output of the conversion circuit, 105
Is a current detecting means for detecting the input current of the conversion circuit 102, 106
Is a voltage detection means for detecting the DC output voltage of the conversion circuit 102, 107 is a setting means for setting the output frequency of the DC / AC conversion circuit 103, 108 is a comparison of the input current I and the first set value 110, and the current I is Comparing means for causing the setting means 107 to set the frequency so as to be less than or equal to the first setting 110 value, and 109 is a second setting value which is lower than the first setting value 110 when the output voltage V is lower than a predetermined voltage. It is a switching means for switching to 111.

(E) Action In FIG. 1, when the voltage of the AC power supply 101 is decreased or the load of the electric compressor 104 is increased, the voltage V is decreased in proportion thereto. Therefore, when the voltage V becomes a predetermined value or less, the switching means 10
9 switches the setting value of the comparing means 108 from the first setting position 110 to the second setting value 111 lower than that. Therefore, setting means 1
07 is DC / AC so that the input current I does not exceed the second set value 111.
The output frequency of the conversion circuit 103 is suppressed. Therefore, the rotation speed of the electric compressor 104 decreases, but sufficient electric power is output from the exchange circuit 103 within the safe current range of the input current from the AC power supply 101, so that the electric compressor breaks down (stops).
Does not occur.

(F) Embodiment Hereinafter, the present invention will be described in detail based on an embodiment shown in the drawings. This does not limit the present invention.

FIG. 2 is a system diagram showing an embodiment of the present invention. 1 is a compressor, 3 is an outdoor heat exchanger, 4 is an indoor heat exchanger, 5 is a pressure reducer, 6 is an outdoor blower, and 7 is an indoor blower. .

FIG. 3 is an electric circuit diagram showing the control circuit of the embodiment shown in FIG. 2, where 2 is a single-phase electric motor connected to the compressor 1 (FIG. 2), 8 is a commercial AC power supply, and 9 is a diode bridge. DB ₁
And a smoothing capacitor C ₁ , a rectifier circuit 9a detects a divided current voltage Vd from the output of the rectifier circuit, 10 is an inverter, and the inverter 10 is a transistor Tr _{1 to} Tr ₄ and a flyhole diode D ₁ It is composed of a bridge circuit composed of D _{4 to} D ₄ and receives the output of the rectifier circuit 9 to supply an AC output of variable frequency to the single-phase electric motor 2. C ₂ is an operating capacitor connected to the auxiliary winding of the single-phase motor 2, 11 is
ROM, ROM, one-chip microcomputer incorporating a CPU and the like (hereinafter referred to as microcomputer), 12 transistor drive circuit for controlling the transistor Tr ₁ to Tr ₄ receives the output of the microcomputer 11, CT primary input of the rectifier circuit 9 A current transformer that detects current, 13 is a microcomputer 11 that converts the output of the current transformer CT into direct current.
It is a rectifier circuit that inputs to.

The operation in such a configuration will be described with reference to the flowchart shown in FIG. First, when the microcomputer 11 drives the inverter 10 by the transistor drive circuit 12, the electric motor 2 rotates and the compressor 1 starts operating (step 21).
0). In the microcomputer 11, the set current Iref is Im
Is set (steps 202, 203), and the operating frequency is set to the set value (steps 204, 205). Then, the voltage Vd and the set voltage Vs are compared, and if Vd <Vs (step 20
6) The set current Iref is set to Is smaller than Im (steps 207 and 208), and the timer built in the microcomputer 11 starts time counting (step 209). Next, the primary current I and the set current Iref (= Is) are compared, and when the primary current I exceeds Iref, the output frequency lowering process of the inverter 10 is performed so as to be less than that (step 211). . Then, when the timer measures t minutes (steps 212 and 213),
When the timer is cleared and the voltage Vd does not reach the set voltage Vm larger than the set voltage Vs (step 215) and the operation is continued (step 216), the routine returns to step 206. At this time, if the voltage Vd has recovered to the set value Vm or more in step 215, the routine returns to step 202 and the current set value Iref is set to Im and the frequency is also set to the set value (steps 203, 204, 205). Furthermore,
If the voltage Vd is equal to or higher than the set value Vs in step 206, the routine proceeds to step 210. In this way, the operation control is performed, and when the operation stop is commanded, the output of the inverter 10 is stopped and the operation of the compressor 1 is stopped (step 216).
Note that Is is preferably 65 to 75% of Im.

In this way, by detecting the fluctuation of the power supply voltage or the load from the change of the output Vd of the rectifier circuit 9 and correspondingly decreasing the inverter frequency so that the primary input current decreases, the output of the inverter during operation is reduced. The situation in which the electric compressor breaks down due to lack of power consumption is stopped.

(G) Effect of the Invention According to the present invention, the breakdown of the electric compressor is prevented, and the air conditioner is not stopped during operation. Therefore, the operation efficiency of the air conditioner is improved.

[Brief description of drawings]

1 is a block diagram showing the configuration of the present invention, FIG. 2 is a system diagram showing an embodiment of the present invention, FIG. 3 is an electric circuit diagram showing a control circuit of the embodiment shown in FIG. 2, and FIG. The figure is a flow chart for explaining the operation of the embodiment shown in FIG. 1 ... compressor, 2 ... single-phase motor, 3 ... outdoor heat exchanger, 4 ... indoor heat exchanger, 5 ... decompressor, 6 ... outdoor blower, 7 ... indoor blower, 8 ... Commercial AC power supply, 9 ... rectifier circuit, 9a ... voltage divider circuit, 10 ... inverter, 11 ... microcomputer, 12 ... transistor drive circuit, 13 ... rectifier circuit.

Claims (1)

[Claims] 1. An electric compressor is operated by an inverter including an AC / DC conversion circuit that converts an AC input from an AC power supply into a DC and smoothes it, and a DC / AD conversion circuit that further converts the DC into an AC. In the air conditioner configured as described above, current detection means for detecting the input current of the AC / DC conversion circuit and A
A voltage detection circuit that detects the DC output voltage of the C / DC conversion circuit,
Setting means for setting the output frequency of the DC / AC converter circuit, comparing means for comparing the input current and the set current value, and the setting means for setting the frequency so that the input current is equal to or less than the set current value, and the An air conditioner comprising: switching means for setting the set current value to a lower set value when the DC output voltage drops below a predetermined voltage.