JP2002112550A - Power supply device of air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem of temperature rise concentration which is caused by using only a single rectifier (diode bridge) in a power supply device of an air conditioner and to reduce assembly man-hours. SOLUTION: This power supply circuit has a plurality of rectifiers connected to a single-phase AC power supply 3. Both one AC side connection terminal u and the other AC side connection terminal v of a rectifier a1 are connected to one end of the single-phase AC power supply 3. The positive pole output side of the rectifier a1 is connected to one end of a load 8 via a reactor 5 and a positive pole output side of a rectifier b2. Both one AC side connection terminal w and the other AC side connection terminal x of the rectifier b2 are connected to the other end of the single-phase AC power supply 3. The negative pole output side of the rectifier b2 is connected to the negative pole output side of the rectifier a1 and to the other end of the load 8. With this constitution, the problem of a temperature rise can be solved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for connecting a rectifier (diode bridge) for a power supply device of an air conditioner.

[0002]

2. Description of the Related Art Conventionally, a power supply for an air conditioner of this type uses a single rectifier (diode bridge) as shown in Japanese Patent Laid-Open Publication No. 9-266694.
The AC voltage had to be rectified, and a rectified waveform voltage had to be applied to the power supply line.

Next, the configuration of a power supply device for a conventional air conditioner will be described with reference to FIG.

As shown in FIG. 5, a power supply for an air conditioner includes a single-phase AC power supply 101, a noise filter section 102,
Rectifier 103, reactor 104, power factor improvement circuit (PF
C section) 105, smoothing capacitor 106, control section 10
7, an inverter unit 108, a load 109 (compressor, motor, etc.), and one AC side connection terminal 1 of the rectifier 103.
Reference numeral 03a is connected to the single-phase AC power supply 101 and the noise filter unit 102, and the rectifier 103
Of the single-phase AC power supply 10
1 and the other end of the noise filter unit 102.

[0005] Further, the positive output side of the rectifier 103 is connected to the reactor 104, and the other end of the reactor 104 is connected to the PFC section 105, the smoothing capacitor 106,
The control unit 107, the inverter unit 108, and the load 109 (such as a compressor) are connected. Further, the negative output side of the rectifier 103 is connected to the other end of the PFC section 105, and the other end of the smoothing capacitor 106, the other end of the control section 107, and the inverter section 1
08 and the other end of the load 109 (such as a compressor).

[0006]

However, in the above-mentioned conventional configuration, the rectifier of the power supply unit of the air conditioner is constituted by one, and the temperature rise is concentrated. It is necessary to use a good rectifier or to attach the rectifier to a large heat sink, which has been a factor leading to an increase in cost and an increase in the number of development steps.

Further, when a large faston terminal type rectifier is used, a large number of man-hours are required for routing lead wires during assembly.

An object of the present invention is to solve such a conventional problem and to disperse the concentration of temperature rise by using two rectifiers and equalizing the current flowing through the rectifiers. It is.

In addition, by using four rectifiers and equalizing the current flowing through the rectifiers, the concentration of temperature rise can be reduced by one.
/ 4.

[0010]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a power supply device for an air conditioner, comprising: a power supply circuit having a plurality of rectifiers connected to a single-phase AC power supply; Both the AC connection end u and the other AC connection end v are connected to one end of a single-phase AC power supply, and the positive output side of the rectifier a is connected to one end of the reactor (load side) and the rectifier b.
Of the rectifier b, one AC-side connection end w and the other AC-side connection end x of the rectifier b are both connected to the other end of the single-phase AC power supply. Are connected to the other end on the load side.

According to the method of connecting a plurality of rectifiers,
Since the currents flowing through the plurality of rectifiers are equalized, the temperature rise can be easily distributed evenly between the rectifiers, and the number of electronic control devices can be easily reduced to one. Work such as routing can be easily reduced.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS To solve the above-mentioned problems, the present invention relates to a power supply device for an air conditioner, comprising: a power supply circuit having a plurality of rectifiers connected to a single-phase AC power supply; The connection end u and the other AC connection end v are both connected to one end of a single-phase AC power supply, and the positive output of the rectifier a is connected to one end of the reactor (load side) and the positive output of the rectifier b. One AC side connection end w of the rectifier b
And the other AC side connection end x is connected to the other end of the single-phase AC power supply, the negative output side of the rectifier b and the negative output side of the rectifier a are connected, and connected to the other end of the load side. is there.

According to the first aspect of the present invention, the power supply device of the conventional air conditioner has a single rectifier, so that the temperature rise is concentrated, and a large rectifier having good heat radiation characteristics is used. This necessitates attachment to a large heat sink, which has led to an increase in cost and an increase in development man-hours. In addition, when using a large Faston terminal type rectifier, a large number of man-hours are required to route the lead wires during assembly, but by connecting two rectifiers so that the current flows evenly, it is easy. In addition, due to the dispersion of temperature rise and the use of a single electronic control unit,
It is possible to easily reduce man-hours such as routing of the lead wire.

In the power supply device for an air conditioner according to claim 2, in a power supply circuit having four rectifiers connected to a single-phase AC power supply, one AC connection terminal u of a rectifier a and another AC connection. One AC side connection end y and the other AC side connection end z of the terminal v and the rectifier c are connected to one end of a single-phase AC power supply, and the positive output side of the rectifier a and the positive output side of the rectifier d are connected, and Connect to one end on the load side through the reactor. Also, the AC side connection end w and the AC side connection end x of the rectifier b
The rectifier d has an AC connection terminal q and an AC connection terminal r connected to the other end of the single-phase AC power supply, and further has a negative output terminal of the rectifier b and a negative output terminal of the rectifier c connected to each other. Is connected to one end.

According to the second aspect of the present invention, the power supply device of the conventional air conditioner has a single rectifier, so that the temperature rise is concentrated and a large rectifier having good heat radiation characteristics is used. This necessitates attachment to a large heat sink, which has led to an increase in cost and an increase in development man-hours. Also, when a large Faston terminal type rectifier is used, it is easy to connect four rectifiers so that the current flows evenly, instead of requiring a lot of man-hours to route the lead wires during assembly. In addition, the temperature rise can be dispersed to one-fourth, and man-hours such as routing of lead wires at the time of assembly can be easily reduced by using one electronic control device.

[0016]

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

(Embodiment 1) FIG. 1 is a block diagram of a power supply device for an air conditioner according to a first embodiment of the present invention.
1 is a rectifier a for rectifying the AC power, and 2 is the rectifier a1
Similarly, a rectifier b for rectifying an AC power supply is a single-phase AC power supply for a power supply device of an air conditioner, 3 is a noise filter, 4 is a reactor for improving a power factor, and 6 is a power factor improving circuit (PFC). ) And 7 are smoothing condensers, and 8 is a load of an air conditioner such as a compressor and a motor.

Referring to FIG. 2, the flow of current through the rectifier a1 and the rectifier b2 will be described. (Here, a half-wave at the time of the positive polarity will be described.) The current I supplied from the single-phase AC power supply 3
And one AC side connection end u of the rectifier a1
A current Id1 flowing to the positive electrode output of the rectifier a1 through the more internal diode 1d1 and a current Id2 flowing to the positive electrode output of the rectifier a1 from the other AC side connection end v of the rectifier a1 to the rectifier a1. All current flows. Further, the current I
Passes through the reactor 5, the PFC section 6, the smoothing capacitor 7, and the load 8, and a current I flows from the negative output side of the rectifier b2 to one AC connection terminal w of the rectifier b2 through the internal diode 2d7. Flowing current Id7
And an internal diode 2d from the negative output side of the rectifier b2.
8, the current Id8 flows to the other AC side connection terminal x of the rectifier b2, and all the current flows to the rectifier b2. The current Id7 and the current Id8 merge to become the current I, pass through the other side of the noise filter 4, and return to the other end of the single-phase AC power supply 3.

As described above, in the case of this embodiment, since the power supply unit of the conventional air conditioner is composed of one rectifier, the temperature rise is concentrated and a large rectifier having good heat radiation characteristics is used. Alternatively, since it is necessary to attach to a large heat sink, this is a factor leading to an increase in cost and an increase in the number of development steps.

When a large faston terminal type rectifier is used, two rectifiers need to be connected in such a way that a large number of man-hours are required for routing the lead wires during assembly. As a result, the temperature rise can be easily dispersed and the number of electronic control units can be easily reduced to one, so that man-hours such as routing of lead wires during assembly can be easily reduced.

When the rectifiers are simply connected in parallel, current (power) concentration occurs due to the individual difference between the rectifiers connected in parallel, and a phenomenon occurs in which heat is generated differently in each rectifier. However, in the present invention, this can be easily avoided by connecting the two rectifiers so that the current flows evenly.

(Embodiment 2) FIG. 3 is a block diagram of a power supply unit for an air conditioner according to a second embodiment of the present invention.
The same contents as those in the first embodiment are given the same reference numerals, and the description is omitted.

9 and 10 are rectifier a1 and rectifier b
Rectifier c and rectifier d for rectifying AC power as in 2
It is.

In FIG. 4, each of the rectifiers 1, 2, 9,
The flow of current in 10 will be described. First, a half-wave at the time of the positive electrode will be described.

The current I supplied from the single-phase AC power supply 3 is
A current Id1 flowing through one side of the noise filter 4 and flowing from one AC side connection terminal u of the rectifier a1 to a positive electrode output of the rectifier a1 through a diode 1d1 inside the rectifier a1. The current Id2 flows to the positive electrode output of the rectifier a1 through the diode 1d2, and all the current flows to the rectifier a1. Further, the current I passes through the reactor 5, the PFC section 6, the smoothing capacitor 7, and the load 8, and the current I flows from the negative output side of the rectifier b2 to the one AC connection terminal w of the rectifier b2 through the internal diode 2d7. Flowing current Id
7 and a current Id8 flowing from the negative output side of the rectifier b2 to the other AC connection terminal x of the rectifier b2 through the internal diode 2d8, and all the current flows to the rectifier b2. The current Id7 and the current Id8 merge to become the current I, and the noise filter 4
And return to the other end of the single-phase AC power supply 3. That is, the half-wave current at the time of the positive polarity is
And flows only to the rectifier b2.

Next, the half-wave at the time of the negative electrode will be described. A current Io supplied from the single-phase AC power supply 3 passes through one side of the noise filter 4 and a current Id13 flowing from one AC side connection terminal q of the rectifier d10 to a positive electrode output of the rectifier d10 through an internal diode 10d13. And a current Id14 flowing from the other AC side connection end r of the rectifier d10 to the positive electrode output of the rectifier d10 through the internal diode 10d14, and all the current flows to the rectifier d10. Further, the current Io passes through the reactor 5, the PFC section 6, the smoothing capacitor 7, and the load 8, and flows from the negative output side of the rectifier c9 to the current Io.
Flows through the internal diode 9d11 to the rectifier c9.
The current Id11 flowing to one AC-side connection terminal y of the rectifier c9 and the current Io from the negative output side of the rectifier c9 are divided into a current Id12 flowing to the other AC-side connection terminal z of the rectifier c9 through the internal diode 9d12. All current flows. The current Id11 and the current Id
12 merges into the current Io, passes through the other side of the noise filter 4, and returns to the other end of the single-phase AC power supply 3. That is, the half-wave current at the time of the negative polarity flows only through the rectifier c9 and the rectifier d10. As a result, current flows evenly to the four rectifiers.

As described above, in the case of this embodiment, since the power supply unit of the conventional air conditioner is composed of one rectifier, the temperature rise is concentrated, and a large rectifier having good heat radiation characteristics is used. Alternatively, since it is necessary to attach to a large heat sink, this has been a factor leading to an increase in cost and an increase in the number of development steps.

When a large faston terminal type rectifier is used, four rectifiers need to be connected so that current can flow evenly, instead of requiring a lot of man-hours for routing lead wires during assembly. In this way, the temperature rise can be easily dispersed to one-fourth and the number of man-hours such as routing of lead wires during assembly can be reduced by easily integrating the electronic control unit, and the heat sink can be downsized. Can be.

When rectifiers are simply connected in parallel, current (power) concentration occurs due to individual differences between the rectifiers connected in parallel, and a phenomenon occurs in which heat is generated differently in each rectifier. However, in the present invention, this can be easily avoided by connecting the four rectifiers so that the current flows evenly.

[0030]

As is clear from the above embodiment, according to the first aspect of the present invention, since the power supply device of the conventional air conditioner is constituted by one rectifier, the temperature rise is concentrated, Use a large rectifier with good heat dissipation characteristics, or
The need to attach to a large radiator plate increases costs and increases development man-hours.In addition, when using a large Faston terminal type rectifier, it is necessary to route lead wires during assembly. It requires a lot of man-hours, but by connecting two rectifiers so that the currents flow evenly, it is easy to disperse the temperature rise and to easily integrate the electronic control unit into a single unit. It is possible to easily reduce the number of man-hours such as the routing of the work.

According to the second aspect of the present invention, the power supply device of the conventional air conditioner is composed of one rectifier, so that the temperature rise is concentrated and a large rectifier having good heat radiation characteristics is used. Or the need to attach to a large radiator plate, which may increase costs or increase the number of development steps. In addition, when using a large Faston terminal type rectifier, route the lead wires during assembly. By connecting four rectifiers in such a way that the currents flow evenly,
Easily disperse the temperature rise to 1/4 and reduce the man-hours such as routing of lead wires during assembly by easily integrating the electronic control unit, and further downsize the heat sink. Can be.

[Brief description of the drawings]

FIG. 1 is a block diagram of a power supply device of an air conditioner according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a current flow in the power supply device of the air conditioner according to the first embodiment of the present invention.

FIG. 3 is a block diagram of a power supply device of an air conditioner according to a second embodiment of the present invention.

FIG. 4 is a block diagram showing a current flow in a power supply device of an air conditioner according to a second embodiment of the present invention.

FIG. 5 is a block diagram of a power supply device of a conventional air conditioner.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 rectifier a 2 rectifier b 3 single-phase AC power supply 5 reactor 8 load 9 rectifier c 10 rectifier d

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yuji Tani 1006 Kazuma Kadoma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. 72) Inventor Gen Gate Kobayashi 1006 Kazuma Kadoma, Kadoma City, Osaka Prefecture F-term in Matsushita Electric Industrial Co., Ltd. 3L061 BA07 5H006 AA01 AA02 CA07 CB01 CC04 FA03

Claims (2)

[Claims] 1. A power supply circuit having a plurality of rectifiers connected to a single-phase AC power supply, wherein one of the AC-side connection terminals u and the other AC-side connection terminal v of the rectifier a are both connected to one end of the single-phase AC power supply. Further, the positive output side of the rectifier a is connected to one end on the load side through a reactor and the positive output side of the rectifier b, and one AC side connection end w and the other AC side connection end x of the rectifier b are connected. Are connected to the other end of the single-phase AC power supply, the negative output of the rectifier b is connected to the negative output of the rectifier a, and the other end of the load is connected to the air. Harmonic machine power supply. 2. In a power supply circuit having four rectifiers connected to a single-phase AC power supply, one AC side connection end u of a rectifier a and one AC side connection end of the other AC side connection end v and a rectifier c. The terminal y and the other AC side connection terminal z are connected to one end of the single-phase AC power supply, the positive output side of the rectifier a and the positive output side of the rectifier d are connected, and connected to one end on the load side through a reactor. . Also, one AC side connection end w and the other AC side connection end x of the rectifier b and one AC side connection end q and the other AC side connection end r of the rectifier d are connected to the other end of the single-phase AC power supply. 2. The power supply device for an air conditioner according to claim 1, wherein a negative output side of said rectifier b is connected to a negative output side of said rectifier c, and is connected to the other end of said load side.