JP2508256B2 - Inverter protection device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a protection device for a power supply phase loss of an inverter.

(Prior Art) Conventionally, in an inverter, a smoothing circuit having a smoothing capacitor is provided between a forward conversion circuit and an inverse conversion circuit, as disclosed in Japanese Utility Model Laid-Open No. 58-37793, for example.
When the power is turned on, the smoothing capacitor suppresses the inrush current to prevent the forward conversion circuit from being destroyed.

(Problems to be Solved by the Invention) However, in the above-described conventional device, even if there is a one-phase open phase in the connection between the inverter and the three-phase power supply, if the power is turned on, the inverter operates in the single phase. Therefore, after that, a trip occurs due to an undervoltage due to the open phase, causing an abnormal stop.

The present invention has been made in view of such a point, and an object thereof is to operate an inverter in a single phase when the power supply is out of phase by taking measures against the power supply out of phase with a low number of additional equipment and a low price. Is prohibited in advance to take measures to prevent the inverter from abnormally stopping due to an undervoltage.

(Means for Solving the Problem) In order to achieve the above object, in the present invention, a countermeasure against a power supply phase loss is implemented by using the internal power supply unit of the inverter and the above-mentioned smoothing capacitor.

That is, the concrete solving means of the present invention is as follows.
As shown in the figure, a power source phase failure of an inverter (3) that is connected to a three-phase power source (1) and includes a forward conversion circuit unit (5) and an inverse conversion circuit (6) to convert the power supply frequency to another frequency. As a premise of a protection device against the above, the internal power supply section (20), which is an operating power supply for the internal equipment of the inverter (3), is supplied with power from a predetermined two phases (for example, R phase and S phase) of the three phase power supply (1). The inverter (3)
A smoothing capacitor (C1) is connected between the forward conversion circuit unit (5) and the inverse conversion circuit unit (6) and between the DC output terminals of the forward conversion circuit unit (5), and the smoothing capacitor (C1) is connected. Is provided with a voltage detection unit (30) for detecting the terminal voltage of, and when the terminal voltage of the smoothing capacitor (C1) detected by the voltage detection unit (30) is less than a set value, the inverse conversion circuit unit (6). The control prohibiting section (40) for prohibiting the control of is provided.

(Operation) With the above configuration, in the present invention, the R of the three-phase power source (1) is
When the phase or the S phase is lost, the internal power supply section (20) does not supply power to the internal equipment, and thus the inverse conversion circuit section (6) is not controlled, and the inverter (3) is Since it does not operate originally, it is possible to reliably prevent the trip stop of the inverter (3) due to the open phase of the R phase or the S phase.

Further, when the T-phase is out of phase, the internal power supply section (20) operates normally and the inverse conversion circuit section (6) can be controlled, but between the DC output terminals of the forward conversion circuit section (5). Voltage, that is, the terminal voltage of the smoothing capacitor (C1) is less than the normal value, and the control of the inverse conversion circuit unit (6) is prohibited by the control prohibiting unit (40). The trip stop due to the phase can be reliably prevented. In this case, if the power supply open phase of the T phase is displayed by the control prohibiting section (40), the open phase of the T phase can be easily confirmed.

In that case, as a measure against the power supply phase loss, since the only devices to be additionally connected are the voltage detection section (30) and the control prohibition section (40), the power supply phase loss can be dealt with at a low cost.

(Effects of the Invention) As described above, according to the inverter protection device of the present invention, it becomes impossible to supply power from the internal power supply unit of the inverter to the internal device for a predetermined two-phase open phase. The remaining one phase loss is detected by the terminal voltage of the smoothing capacitor.Therefore, the number of additional equipment is reduced and the start of the single phase operation of the inverter when the power source is open By doing so, it is possible to reliably prevent the trip stop of the inverter due to the undervoltage.

In this case, when a predetermined one-phase open phase is detected due to a shortage of the terminal voltage of the smoothing capacitor, the predetermined one-phase open phase can be displayed to easily confirm the open phase.

(Example) Hereinafter, the Example of this invention is described based on drawing. First
The figure shows a control circuit of a refrigeration system that controls the capacity of a compressor by an inverter. In the figure, (1) is a three-phase power supply, (2) is an outdoor control board provided in the outdoor unit,
(3) is an inverter. The inverter (3) includes a diode module (5) as a forward conversion circuit section and a transistor module (6) as an inverse conversion circuit section for converting a power supply frequency to another frequency, and the outdoor control board ( Pulse width modulation (PWM) of the transistor module (6) by receiving the frequency command signal from 2)
And a microcomputer (7) for controlling, the PWM signal of the microcomputer (7) is output to the transistor module (6) via the waveform synthesizing circuit (9), the phase sequence switching circuit (10) and the driver (11). To be done.

In the inverter (3), the diode module (5) is connected to the R phase of the three-phase power source through the three wires (15),
A compressor motor (MC) is connected to the transistor module (6) while being connected to the S and T phases. Further, the two DC output terminals (+) and (-) of the diode module (5) are connected to the transistor module (6) via wirings (16) and (16), respectively.

The inverter (3) is provided with a DC-DC converter (20) as an internal power supply unit of a built-in device such as the microcomputer (7), and the DC-DC converter (20).
Are connected to predetermined two phases (R phase and S phase in the figure) of the three-phase power source (1) by wirings (21) and (21).

A smoothing capacitor (C1) and a resistor (R2) connected to both ends of the smoothing capacitor (C1) are arranged between the diode module (5) and the transistor module (6). This smoothing capacitor (C1) has wirings (16), (16) for connecting both the modules (5), (6).
Is connected between the two DC output terminals (+) and (-) of the diode module (5).

In addition, the three wires (15) connecting the three-phase power supply (1) and the diode module (5) have a relay (52
C) three normally open contacts (52C-1) ... are respectively interposed, and the relay (52C) is turned on by the closing operation of the normally open contact (3X) controlled by the microcomputer (7). To do.

Further, the wirings (15) and (15) on the R-phase and S-phase sides have normally-open contacts (52C-1) and (52C-) of the relay (52C).
Other wirings (23) and (23) are connected in parallel with 1), and a current limiting resistance (R1) is interposed in the wiring (23) on the R-phase side. In addition, the normally open contacts (8) are connected to the wirings (23), (23).
4) and (84) are installed.

In addition, inside the inverter (3), a voltage detection unit (30) for detecting the terminal voltage of the smoothing capacitor (C1) by the terminal voltage of the resistor (R2) connected in parallel with the smoothing capacitor (C1) is provided. And the voltage detector (3
The terminal voltage signal of the smoothing capacitor (C1) detected in (0) is input to the protection circuit (31).

The protection circuit (31) has a function of comparing the terminal voltage of the smoothing capacitor (C1) with the terminal voltage in a normal state where there is no power supply phase loss, and judging that it is an undervoltage when it is less than the normal value. Is input to the control prohibiting section (40) in the microcomputer (7) via the latch circuit (35) and the abnormality processing circuit (36).

The control prohibition unit (4
0) prohibits the PWM control of the transistor module (6) at the time of input of the undervoltage determination signal from the protection circuit (31), and at the same time, the four service monitors (D1) to (D1)-( Undervoltage in D4) (in other words,
It has a function of displaying a code indicating that the power supply of the T phase is out of phase.

Next, the control when the microcomputer (7) is turned on will be described based on the control flow of FIG.

And started, it is determined whether the operation instruction of the compressor at step S _1, the normally open contact of the relay at Step S ₂ If there is operation command (84), and the ON (closed) Control (84), step S _{At 3} , the timer TM1 (for example, 5 seconds) is started. As a result, current flows from the R phase and T phase of the three-phase power supply (1) to the diode module (5) through the current limiting resistance (R1). At this time, the rise of the terminal voltage of the diode module (5) is suppressed by the smoothing capacitor (C1).

Then, to determine the presence or absence of the reception of the determination signal when the undervoltage from the protection circuit in step S ₄ (31), whether the timeout of the timer TM1 determined in the step S ₅ during undervoltage being received , If it is ON, the process returns to step S ₄ , but when the time is up, it is determined in step S ₆ that the undervoltage has occurred, the PWM control of the transistor module (6) is not performed, and Service monitors (D
Indicate the undervoltage in 1) to (D4) with a code.

On the other hand, if it is not a time of undervoltage in step S _4, the timer is started TM2 (e.g. 2 seconds) at step S _7, TM2 in step S ₈ is if time is up, at step S ₉ of the ON control the relay Normally open contacts (84), (84) OFF
(Open) after controlling, the timer TM3 (e.g. 20 in Step S ₁₀
msec), and if TM3 times out in step S ₁₁ , it is judged that no current flows in the normally open contacts (84), (84), and the normally open contact (3X) is first opened in step S _12. It is oN a relay (52C) and closing control, which by transition to the normal operation mode based on the frequency command signal from the first outdoor control board in step S ₁₃ (2).

Therefore, the in step S ₄ to S ₆ of the control flow of FIG. 2, when the terminal voltage of the detected smoothing capacitor (C1) of less than the set value by the voltage detector (30), the transistor by a microcomputer (7) Module (6)
And a PWM control for prohibiting, and a control prohibiting section (40) for displaying the T-phase power failure phase on the four service monitors (D1) to (D4) of the display section (37). .

Therefore, in the above embodiment, when the R phase or the S phase is missing in the inverter (3), the DC-DC converter (20) is supplied with power from the three-phase electrode (1) even if there is an operation command. Therefore, the DC-DC converter (20) does not supply power to the microcomputer (7), and the microcomputer (7) is inoperable. Therefore, the transistor module (6) is not PWM controlled and the inverter In (3), the stopped state is maintained. Therefore,
When the R or S phase is open, the open phase can be easily confirmed by performing a trial run of the refrigeration system when installing the inverter (3). Therefore, the inverter (3) caused by the open phase of the R or S phase The trip stop can be eliminated.

When the T-phase is open, the DC-DC converter (2
Since 0) receives power supply, the microcomputer (7) is in a situation where it can perform PWM control of the transistor module (6). However, since the terminal voltage of the smoothing capacitor (C1) is less than the normal value, the microcomputer (7) receives the undervoltage determination signal from the protection circuit (31), and the control prohibiting unit (40) causes the transistor module ( PWM control of 6) is prohibited. As a result, since the inverter (3) maintains the stopped state similarly to the above, it is possible to eliminate the trip stoppage of the inverter (3) after installation due to the open phase. Moreover, in this case, the open phase of the T phase is displayed on the service monitors (D1) to (D4) of the display section (37), so that the open phase of the T phase can be easily confirmed.

[Brief description of drawings]

The drawings show an embodiment of the present invention, FIG. 1 is an electric circuit diagram, and FIG. 2 is a flow chart showing control at the time of operation command. (1) ... Three-phase power supply, (3) ... Inverter, (5) ...
… Diode module (forward conversion circuit), (6) ……
Transistor module (inverse conversion circuit), (7) ……
Microcomputer, (C1) ... Smoothing capacitor,
(R1) …… Current limiting resistance, (R2) …… Resistance, (20) …… DC−
DC converter (internal power supply), (30) ... Voltage detector,
(31) …… Protection circuit, (37) …… Display section, (40) …… Control prohibition section.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-60-190121 (JP, A) Actually opened 63-51591 (JP, U) Actually opened 61-123693 (JP, U)

Claims (2)

(57) [Claims] 1. A power source open phase of an inverter (3), which is connected to a three-phase power source (1) and comprises a forward conversion circuit section (5) and an inverse conversion circuit section (6) for converting a power supply frequency to another frequency. Is a protection device against the three-phase power source (1), which is supplied with power from predetermined two phases,
It is arranged between an internal power supply section (20) which is a power supply for operating the internal equipment of the inverter (3) and the forward conversion circuit section (5) and the inverse conversion circuit section (6) of the inverter (3), and A smoothing capacitor (C1) connected between the DC output terminals of the forward conversion circuit unit (5), a voltage detection unit (30) for detecting the terminal voltage of the smoothing capacitor (C1), and the voltage detection unit (30) Smoothing capacitor (C
An inverter protection device comprising: a control prohibition unit (40) for prohibiting control of the inverse conversion circuit unit (6) when the terminal voltage of 1) is less than a set value. 2. The control inhibiting section (40) has a function of displaying a power failure phase when the terminal voltage of the smoothing capacitor (C1) detected by the voltage detecting section (30) is less than a set value. ) Inverter protection device described.