JPH0730758B2 - Blower - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a blower that is used, for example, in an electric vacuum cleaner or the like and is drive-controlled by an inverter control device.

[Conventional technology]

FIG. 3 is a view showing a conventional blower disclosed in, for example, Japanese Patent Laid-Open No. 63-95882. In FIG. 3, (1) is a device in which a blower, which will be described later, is incorporated and which is, for example, an electric vacuum cleaner. (2) is a suction part of the device, (3) is a filter provided inside the suction part, and (4) is a discharge part that faces the filter and communicates with the suction part (2).
The blower (5) is composed of the blades (6) and the electric motor (7), and forms an air intake / exhaust passage. (8) is an inverter control device connected to the blower via a line, and (9) is a power cord connected to the inverter control device.

The conventional blower is configured as described above, the power is input through the power cord (9), the blower (5) is operated by the inverter control device (8), and the filter (3) is driven by the suction unit (2). A function as a vacuum cleaner is provided in which air is blown to the discharge part (4) through the air.

[Problems to be Solved by the Invention]

In the conventional blower as described above, the inverter control device (8) is separately installed from the blower (5), a large installation space is required, the device (1) becomes large, and the inverter control device (8) has a cooling device. However, there is a problem that a dedicated cooling device must be provided when the heat generated by the inverter control device (8) becomes high.

The present invention has been made to solve the above problems,
It is an object of the present invention to provide a blower in which an inverter control device and a blower are integrally configured so that a built-in device is downsized and a cooling device dedicated to the inverter control device is unnecessary.

[Means for Solving the Problems]

In order to achieve the above object, in the blower of the present invention, an inverter control device, an electric motor driven and controlled by the inverter control device, and driven by the electric motor,
And a blade forming an intake air passage and an exhaust air passage, one of which forms a duct on the side of the intake air passage and the other of which has a blade cover attached to the electric motor, and the inverter control device on the side wall of the blade cover. Is attached.

Further, the blade cover is provided with a circuit cover for covering the inverter control device.

Also, the circuit cover is made of metal.

Further, the circuit cover is formed of a resin molded product whose surface is metal-plated.

[Action]

In the present invention, the inverter control device is forcibly cooled by the suction action in the blade cover and protected by the circuit cover.

〔Example〕

FIG. 1 is a structural sectional view showing an embodiment of the present invention, and FIG. 2 is an electric circuit diagram of the same. (10) is an electric motor, which is, for example, a permanent magnet type synchronous electric motor. (11) is a coil of the electric motor, (12) is a rotor of the electric motor, and (13) is a magnetic pole position detector for detecting the magnetic pole position of the rotor, which is composed of, for example, a Hall IC. (14) is a blade attached to a rotating shaft (not shown) of the electric motor (10), which is rotated by the electric motor (10) to form an intake air passage (15) and an exhaust air passage (16). Reference numeral (17) is a blade cover for covering the blade, which is made of, for example, an aluminum material, is provided on the intake air passage (15) side so as to face the blade (14), and one of the blade covers protrudes forward from the blade (14). The duct (18) is formed, and the other is attached to the electric motor (10), so that the contact area between the intake flow and the blade cover is wide. (19) is an inverter control device provided on the side wall (20) of the blade cover, (21) is a printed wiring board of the inverter control device, and includes a diode (22), a transistor (23), an IC and a resistor. Control circuit parts are installed.

Similarly, (24) is a control circuit of the inverter control device (19), which receives a signal from the magnetic pole position detector (13) and controls the base current of the transistor (23) to flow through the coil (11). The current is controlled, and finally the rotation of the rotor (12) is controlled to control the input / output state of the blower. (25) is a condenser for voltage smoothing. (26) is a power cord connected to the printed wiring board (21), (27) is a lead wire for electrically connecting the electric motor (10) and the inverter control device (19),
Reference numeral (28) is a circuit cover, which is made of metal such as iron or copper and is provided on the blade cover (17) so as to cover the inverter control device (19). Make a noise shield. further,
This mechanically protects the inverter control device (19) from external force and facilitates installation of the blower body. (29) is an AC power supply, (30) is a hot air flow, and (31) is an electrode position signal.

In the blower configured as described above, the inverter control device (1
The electric motor (10) is driven via 9), the blade (14) rotates, and the duct (18) blows air from the intake air passage (15) to the exhaust air passage (16). Further electric motors (10)
The operation as a blower is controlled by the magnetic pole position detector (13) provided in the rotor (12) and the control circuit (24) in the inverter control device (19). In this case, the hot air flow (30) from the inverter control device (19) provided on the side wall (20) of the blade cover (17) is sucked toward the blade (14) by the intake action of the blade (14) and is forcibly cooled. It In this manner, the blade cover (17) provided in the intake air passage (15) is provided with the inverter control device (19) and the circuit cover (28) and cooled by the intake action of the blade (14), thereby Forced air cooling by a cooling device or natural air cooling by a large heat sink is not required, the blower can be downsized, and the product cost can be reduced. Then, for example, if the air blowing capacity is improved, the heat generation amount of the inverter control device (19) resulting from the increase in the current flowing through the diode (22) and the transistor (23) can be dealt with by improving the cooling effect. The ability is improved. Further, since the electric motor (10), the blades (14) and the inverter control device (19) are integrally formed, the structure and the work to be incorporated in a device such as an electric vacuum cleaner can be simplified.

Although the circuit cover (28) is made of metal in the present invention, the same effect as that of the above embodiment can be expected even if a resin molded product having a metal-plated surface is used.

[Advantages of the Invention] Since the present invention is configured as described above, it has the effects described below.

In the first aspect, the inverter control device is formed integrally with the blower, so that it can be easily incorporated into the device, and a cooling device dedicated to the inverter control device is not required, so that the blower can be made inexpensive.

According to the second aspect, the cooling action of the inverter control device can be further enhanced.

According to the third and fourth aspects, the electromagnetic noise of the inverter control device can be shielded.

[Brief description of drawings]

FIG. 1 is a structural sectional view showing an embodiment of the present invention, FIG. 2 is a similar electric circuit diagram, and FIG. 3 is a structural sectional view showing a conventional blower. In addition, (10) is an electric motor, (14) is a blade, (15) is an intake air passage, (16) is an exhaust air passage, (18) is a duct, (19) is an inverter control device, and (28) is a circuit cover. Is.

Claims (4)

[Claims] 1. An inverter control device, an electric motor driven and controlled by the inverter control device, and blades that are driven by the electric motor to form an intake air passage and an exhaust air passage, one of which is provided on the intake air passage side. A blower comprising a duct cover, the other side of which is provided with a blade cover adsorbed to the electric motor, and the inverter control device is mounted on a side wall of the blade cover. 2. The blade cover is provided with a circuit cover for covering the inverter control device.
Blower according to the paragraph. 3. The blower according to claim 2, wherein the circuit cover is made of metal. 4. The blower according to claim 2, wherein the circuit cover is formed of a resin molded product whose surface is plated with metal.