JPH07123785A - Air conditioner - Google Patents

Abstract

(57) [Abstract] [Object] The present invention eliminates resonance current that causes electromagnetic wave interference, heat generation of a capacitor provided in a power supply line, voltage pulse of the power supply line, and deterioration of current detection accuracy of the power supply line. The purpose is to provide an electric compressor air conditioner. [Structure] DC power and power from DC power supply,
In an air conditioner equipped with an electric compressor driving device that drives an electric compressor for air conditioning, a capacitor that supplies a momentary current to the electric compressor driving device, and an inductance component in a current path of the electric compressor driving device, the inductance Connect a diode in parallel with the component.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner equipped with an electric compressor driven by a DC power source.

[0002]

2. Description of the Related Art In an air conditioner using an electric compressor, an electric compressor driving device for driving an electric compressor for air conditioning supplies a large current to the electric compressor, and therefore a recovery current countermeasure capacitor using a flywheel diode in a normal output section. Is provided in the power supply section. This will be described with reference to FIG. 3 which is an explanatory view of a recovery current countermeasure of the electric compressor air conditioner.

A battery 3 is connected to the electric compressor drive device 1. However, the stray inductance 8 formed by wiring or the like exists between them.
Further, the electric compressor drive device 1 is connected to the electric compressor 2.

The output portion of the electric compressor driving device 1 to the electric compressor 2 has a structure shown in the central portion of FIG. The recovery current is generated as follows.

The upper output transistor 4 and the lower output transistor 5 are turned on, and the electric current a is supplied to the electric compressor 2.
Is washed away. Next, when the lower output transistor 5 is turned off, a current b flows through the flywheel diode 6 due to the inductance of the motor coil of the electric compressor 2. This allows the flywheel diode 6
Since electric charges are accumulated in the electric current, the recovery current c of the flywheel diode 6 flows when the lower output transistor 5 is turned on next time.

Since the recovery current c also flows through the stray inductance 8, when the recovery current c is turned off, the stray inductance 8 causes a zircon voltage in the power supply input voltage v _p to the electric compressor drive device 1 as shown in the right figure. To do.

This surge voltage causes destruction of the upper output transistor 4, the lower output transistor 5 and the like. Therefore, normally, as shown in the figure below, a recovery current countermeasure capacitor 7 that serves as a supply source of the recovery current c of the flywheel diode 6 and prevents the current from flowing to the stray inductance 8 is provided in the power supply input section to the electric compressor drive device 1. There is.

[0008]

In the circuit configured as described above, the resonance current flows in the power supply line of the electric compressor drive device 1 as follows, electromagnetic wave interference occurs, and the capacitor provided in the power supply line is There are problems such as heat generation, generation of voltage pulse in the power supply line, and inaccurate detection of current in the power supply line.

As shown in FIG. 4 which illustrates the resonance current of the electric compressor air conditioner, in addition to the stray inductance 8 in the power supply line, there is a circuit inductance 9 such as a transformer of the current detection device due to the necessity of the circuit. There is.

[0010] the electric compressor driving device 1 the current i _m shown in FIG. 4 flows, the rise of the current, at the falling, the resonant current i _c flows by the recovery current measures capacitor 7 and the circuit inductance 9 and stray inductance 8 . Therefore, a voltage pulse is generated in the voltage v _p of the power supply line of the electric compressor drive device 1, and a component of the resonance current i _c flows in the current i _{LC of the} power supply line at the rising and falling of the current.

Therefore, the present invention is driven by a DC power supply that solves the problems of electromagnetic wave interference due to resonance current, heat generation of a capacitor provided in the power supply line, voltage pulse of the power supply line, and deterioration of current detection accuracy of the power supply line. The purpose is to provide an electric compressor air conditioner.

[0012]

In order to solve the above-mentioned problems, the present invention provides, as a first means, a DC power supply and an electric compressor drive device for driving an electric compressor for air conditioning supplied with electric power from the DC power supply. In an air conditioner including a capacitor that supplies an instantaneous current to the electric compressor drive device and an inductance component in a current flow path of the electric compressor drive device, a diode is connected in parallel with the inductance component.

In order to solve the above problems, the present invention provides, as a second means, a DC power supply, an electric compressor drive device that is supplied with electric power from the DC power supply, and drives an electric compressor for air conditioning, and an electric compressor drive device. In an air conditioner equipped with a capacitor for supplying an instantaneous current to the electric compressor and a current detecting device for detecting a current by an inductance component in a current flowing path of the electric compressor driving device, a diode is unidirectionally connected in parallel with the current detecting device. Connect.

In order to solve the above problems, the present invention provides, as a third means, a DC power supply, an electric compressor drive device for driving an electric compressor for air conditioning, which is supplied with electric power from the DC power supply, and an electric compressor drive device. In an air conditioner equipped with a capacitor for supplying a momentary current to the electric compressor and a current detecting device for detecting a current by an inductance component in a current flowing path of the electric compressor driving device, a diode is bidirectionally connected in parallel with the current detecting device. Connect.

[0015]

As a first means of the present invention, a DC power supply, an electric compressor drive device which is supplied with electric power from the DC power supply and drives an electric compressor for air conditioning, and an instantaneous current is supplied to the electric compressor drive device. In an air conditioner including a capacitor and an inductance component in a current path of an electric compressor drive device, a diode is connected in parallel with the inductance component.

As shown in FIG. 5, when a diode is connected in parallel with the circuit inductance 9 in the direction opposite to the path through which the direct current of the electric compressor drive device flows, this diode is used as the diode 10 against the reverse resonance current.

[0017] the electric compressor driving device 1 the current i _m shown in FIG. 5 flows, the rise of the current, at the falling, the recovery current measures capacitor 7 and the circuit inductance 9 and stray inductance 8,
The resonance current i _c shown in FIG. 4 is about to flow. However, the resonance energy is absorbed by the reverse resonance current countermeasure diode 10, and the current i _D shown in FIG. Therefore, the resonance current i _c shown in FIG. 5 becomes smaller than the resonance current i _c shown in FIG. Then, the voltage pulse generated in the voltage v _p also becomes small. On the other hand, the current i _{LC of the} power supply line is the current i _m as shown in FIG.
And the current i _D.

Therefore, the resonance current i _c is reduced, and accordingly, electromagnetic wave interference, heat generation of the capacitor provided in the power supply line, and voltage pulse of the power supply line are reduced.

As a second means of the present invention, a DC power supply, an electric compressor drive device which is supplied with electric power from the DC power supply and drives an electric compressor for air conditioning, and an instantaneous current is supplied to the electric compressor drive device. In an air conditioner including a capacitor and a current detection device that detects a current by an inductance component in a current flow path of an electric compressor drive device, a diode is connected in parallel with the current detection device in one direction.

As shown in FIG. 6, when a diode is connected in parallel with the circuit inductance 9 in the same direction as the direct current flow path of the electric compressor drive device, this diode is used as the forward resonance current countermeasure diode 11.

[0021] the electric compressor driving device 1 the current i _m shown in FIG. 6 flows, the rising of the current, at the falling, the recovery current measures capacitor 7 and the circuit inductance 9 and stray inductance 8,
The resonance current i _c shown in FIG. 4 is about to flow. However, the resonance energy is absorbed by the forward resonance current countermeasure diode 11, and the current i _D shown in FIG. 6 flows through the forward resonance current countermeasure diode 11. Therefore, the resonance current i _c shown in FIG. 6 becomes smaller than the resonance current i _c shown in FIG. Then, the voltage pulse generated in the voltage v _p also becomes small. On the other hand, the current i _{LC of the} power supply line is the current i _m as shown in FIG.
And the current i _D.

Therefore, the resonance current i _c is reduced, and thus electromagnetic wave interference, heat generation of the capacitor provided in the power supply line, and voltage pulse of the power supply line are reduced. Also,
To protect the electric compressor driving device 1 or the like it is necessary to monitor the maximum value of the current i _m to (A point in FIG. 6) by the current detection device. Current detected by the current detector is i _LC, the maximum value is equal to the maximum value of the current i _m the resonance current i _c does not flow. Therefore, the current detection of the power supply line becomes extremely accurate.

As a third means of the present invention, a DC power supply, an electric compressor drive device which is supplied with electric power from the DC power supply and drives an electric compressor for air conditioning, and an instantaneous current is supplied to the electric compressor drive device. In an air conditioner including a capacitor and a current detection device that detects a current by an inductance component in a current flow path of an electric compressor drive device, a diode is bidirectionally connected in parallel with the current detection device.

As shown in FIG. 7, both the reverse resonance current countermeasure diode 10 and the forward resonance current countermeasure diode 11 are connected in parallel with the circuit inductance 9.

[0025] the electric compressor driving device 1 the current i _m shown in FIG. 7 flows, the rise of the current, at the falling, the recovery current measures capacitor 7 and the circuit inductance 9 and stray inductance 8,
The resonance current i _c shown in FIG. 4 is about to flow. However, at the rising edge, the resonance energy is absorbed by the forward resonance current countermeasure diode 11, and the current i _DF shown in FIG. 7 flows through the forward resonance current countermeasure diode 11. At the fall, the resonance energy is absorbed by the reverse resonance current countermeasure diode 10, and the current i _DR shown in FIG. 7 flows through the reverse resonance current countermeasure diode 10.

Therefore, the resonance current i _c shown in FIG. 7 is smaller than the resonance current i _c shown in FIG. Then, the voltage pulse generated in the voltage v _p also becomes small. On the other hand, the power supply line current i _{L C} is a current i _m and current i _DF and i _DR as shown in FIG. 7
And the sum.

Therefore, the resonance current i_cIs reduced
Occurrence of electromagnetic interference, capacitors installed in the power line
The heat generation and the voltage pulse of the power supply line are reduced. Also,
To protect the electric compressor drive unit 1 etc.,
Flow i_mThe maximum value of A (point A in Fig. 7) is monitored by the current detection device.
You need to do it. The current detected by the current detector is
i_LCAnd its maximum value is the resonance current i_cDoes not flow
Current i_mEqual to the maximum value of. Therefore, the power line
The flow detection is very accurate. Furthermore, in this case i _LCTo
Since the current of INUS does not flow, the current detection device has a rectifier circuit.
It becomes easy because it is unnecessary.

[0028]

Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows a circuit diagram and a configuration diagram of an electric compressor air conditioner according to a first embodiment of the present invention.

A difference from the resonance current explanatory diagram of the electric compressor air-conditioning system of FIG. 4 is that the diode 1 for preventing the reverse resonance current is arranged in parallel with the wiring 14 corresponding to the circuit inductance 9.
0 is connected.

In an electric compressor driven by a DC power source, a large current of 20 A flows when the DC power source is as low as 100 V and the output is 2 KW in an electric vehicle, for example. Also, since it is direct current, the fuse 1
3. Since the energizing relay 16 and the like are special products to increase the breaking capacity, they are considerably large parts. Therefore, it cannot be mounted on the printed circuit board. Therefore, the wiring 14 is required for connection with the printed circuit board, and the wiring 14 contributes to the circuit inductance 9.

Therefore, by connecting the reverse resonance current countermeasure diode 10 in parallel with the wiring 14, the recovery current countermeasure capacitor 7 and the wiring 14 are provided at the rise and fall of the current of the electric compressor drive device 1.
The energy of the resonance current due to the (circuit inductance 9) and the stray inductance 8 is absorbed by the reverse resonance current countermeasure diode 10. Therefore, the resonance current is reduced, the occurrence of electromagnetic wave interference, the heat generation of the capacitor provided in the power supply line, and the voltage pulse of the power supply line are reduced, and the effect of the first means can be obtained.

In this case, the fuse 13 and the energizing relay 16
Since the diode is connected in the direction opposite to the direct current flowing in the circuit, it does not affect the operation of the electric circuit.

FIG. 2A shows a circuit diagram of an electric compressor air conditioner according to a second embodiment of the present invention.

The difference from the resonance current explanatory diagram of the electric compressor air-conditioning apparatus of FIG. 4 is that a forward resonance current countermeasure diode 11 is connected in parallel to the primary side of the current detection transformer 17 corresponding to the circuit inductance 9. Is. Here, the current waveform is transmitted from the primary side of the current detection transformer 17 to the secondary side, and the negative current is not detected by the rectifying diode 18 on the secondary side.

By connecting the forward resonance current countermeasure diode 11 in parallel to the primary side of the current detection transformer 17, the recovery current countermeasure capacitor 7 and the current detection transformer 17 are provided at the rise and fall of the current of the electric compressor drive device 1. The energy of the resonance current due to the primary side (circuit inductance 9) and the stray inductance 8 is absorbed by the forward resonance current countermeasure diode 11. Therefore, the resonance current is reduced, the occurrence of electromagnetic wave interference, the heat generation of the capacitor provided in the power supply line, the voltage pulse of the power supply line is reduced, and the effect of the second means can be obtained.

In this case, the voltage drop due to the direct current flowing through the primary side of the current detecting transformer 17 is sufficiently smaller than the forward voltage of the forward resonance current countermeasure diode 11, so that the operation of the electric circuit is not affected.

The maximum value of the current flowing through the electric compressor driving device is equal to the maximum value of the current flowing through the primary side of the current detecting transformer 17. Further, the negative current is not detected by the rectifier diode 18 on the secondary side. Therefore, the current detection of the power supply line becomes extremely accurate.

FIG. 2B shows a circuit diagram of an electric compressor air conditioner according to a third embodiment of the present invention.

The difference from the resonance current explanatory diagram of the electric compressor air-conditioning apparatus of FIG. 4 is that the forward resonance current countermeasure diode 11 and the reverse resonance current countermeasure are provided in parallel with the primary side of the current detection transformer 17 corresponding to the circuit inductance 9. That is, both of the diodes 10 are connected. Here, the current waveform is transmitted from the primary side of the current detection transformer 17 to the secondary side.

By connecting both the forward resonance current countermeasure diode 11 and the reverse resonance current countermeasure diode 10 in parallel to the primary side of the current detection transformer 17, recovery at the rise and fall of the current of the electric compressor drive device 1 is achieved. The energy of the resonance current by the current countermeasure capacitor 7, the primary side (circuit inductance 9) of the current detection transformer 17 and the stray inductance 8 is
Forward resonance current countermeasure diode 11 at the time of rising, and reverse resonance current countermeasure diode 10 at the time of falling
Is absorbed in. Therefore, the resonance current is reduced, the occurrence of electromagnetic wave interference, the heat generation of the capacitor provided in the power supply line, and the voltage pulse of the power supply line are reduced, and the effect of the third means can be obtained.

In this case, since the voltage drop due to the direct current flowing through the primary side of the current detection transformer 17 is sufficiently smaller than the forward voltage of the diode 11 for preventing the forward resonance current, it does not affect the operation of the electric circuit.

The maximum value of the current flowing through the electric compressor drive device is equal to the maximum value of the current flowing through the primary side of the current detecting transformer 17. Therefore, the current detection of the power supply line becomes extremely accurate.

Further, in this case, since a negative current does not flow, the rectifying diode 18 is unnecessary on the secondary side of the current detecting transformer 17.

Although the forward resonance current countermeasure diode 11 is used in the second embodiment, the reverse resonance current countermeasure diode 10 is used to include the primary side current of the current detection transformer 17 including the resonance current. It may be detected and used for a protection function or the like.

Other than the above, various applications are possible within a range satisfying the gist of the present invention.

[0047]

According to the first means of the present invention, the resonance current i _c is reduced, so that the occurrence of electromagnetic interference, the heat generation of the capacitor provided in the power supply line, and the voltage pulse of the power supply line are reduced.

According to the second means of the present invention, the resonance current i
_c is alleviated, so that the occurrence of electromagnetic interference, the heat generation of the capacitor provided in the power supply line, and the voltage pulse of the power supply line are alleviated. Further, the maximum value of the current detected by the current detection device is equal to the maximum value of the current flowing through the electric compressor drive device 1 because no resonance current flows. Therefore, the current detection of the power supply line becomes extremely accurate.

According to the third means of the present invention, the resonance current i
_c is alleviated, so that the occurrence of electromagnetic interference, the heat generation of the capacitor provided in the power supply line, and the voltage pulse of the power supply line are alleviated. Further, the maximum value of the current detected by the current detection device is equal to the maximum value of the current flowing through the electric compressor drive device 1 because no resonance current flows. Therefore, the current detection of the power supply line becomes extremely accurate. In addition, since a negative current does not flow in the current detection device, the current detection device is simple and does not require a rectifier circuit or the like.

[Brief description of drawings]

FIG. 1A is a circuit diagram of an air conditioner according to a first embodiment of the present invention, FIG. 1B is a configuration diagram of relevant parts, and FIG. 1C is a configuration diagram of relevant components.

2A is a circuit diagram of an air conditioner according to a second embodiment of the present invention, and FIG. 2B is a circuit diagram of an air conditioner according to a third embodiment of the present invention.

FIG. 3 (a) is an explanatory diagram of a recovery current countermeasure of the air conditioning system, (b) is an explanatory diagram thereof, and (c) is an explanatory diagram thereof.

FIG. 4A is an explanatory diagram of a resonance current of the air conditioner, and FIG. 4B is an explanatory diagram of the same.

FIG. 5A is an explanatory diagram of means for solving the problems of the present invention, and FIG. 5B is the same explanatory diagram.

FIG. 6A is an explanatory diagram of means for solving the problems of the present invention, and FIG. 6B is the same explanatory diagram.

FIG. 7A is an explanatory diagram of means for solving the problems of the present invention, and FIG. 7B is the same explanatory diagram.

[Explanation of symbols]

 1 Electric Compressor Drive Device 2 Electric Compressor 3 Battery 4 Upper Output Transistor 5 Lower Output Transistor 6 Flywheel Diode 7 Recovery Current Counter Capacitor 8 Floating Inductance 9 Circuit Inductance 10 Reverse Resonance Current Countermeasure Diode 11 Forward Resonance Current Countermeasure Diode 12 Missing 13 Fuse 14 Wiring 15 Circuit Printed Circuit Board 16 Energizing Relay 17 Current Detection Transformer 18 Rectifier Diode

Claims (3)

[Claims] 1. An air conditioner comprising: a DC power supply; an electric compressor drive device that is supplied with electric power from the DC power supply to drive an electric compressor for air conditioning; and a capacitor that supplies an instantaneous current to the electric compressor drive device. An air conditioner in which a diode is connected in parallel with an inductance component existing in a current path of the electric compressor drive device. 2. A DC power supply, an electric compressor drive device which is supplied with electric power from the DC power supply and drives an electric compressor for air conditioning, a capacitor which supplies an instantaneous current to the electric compressor drive device, and an electric compressor drive device. An air conditioner provided with a current detecting device for detecting a current by an inductance component in a current flowing path, wherein a diode is connected in one direction in parallel with the current detecting device. 3. A DC power supply, an electric compressor drive device which is supplied with electric power from the DC power supply and drives an electric compressor for air conditioning, a capacitor which supplies an instantaneous current to the electric compressor drive device, and an electric compressor drive device. An air conditioner provided with a current detection device for detecting a current by an inductance component in a current flow path, wherein an air conditioner is connected in parallel with the current detection device in a bidirectional manner.