KR100279665B1 - Suction air induction structure of vacuum cleaner - Google Patents

Abstract

The present invention relates to a suction air induction structure of a vacuum cleaner, and more particularly, in order for the suction air to receive a minimum of resistance in the shape of a rubber packing connecting the dust collecting chamber and the electric motor of a vacuum cleaner for sucking dust. The purpose is.

The front end rubber 20 is formed with a funnel-shaped exhaust induction curve 21 around the motor inlet so that the incoming air does not hit the motor fan cover and flows directly into the motor inlet.

Description

Suction air induction structure of vacuum cleaner

The present invention relates to a suction air induction structure of a vacuum cleaner, and more particularly, a vacuum cleaner in which a suction air receives a minimum of resistance in a shape of a rubber packing connecting a dust collecting chamber and an electric motor of a vacuum cleaner that sucks dust. It relates to a suction air induction structure of the.

In general, as shown in FIG. 1, the vacuum cleaner 1 includes a main body 10 in which an induction motor and a dust collector are installed, a hose 2 installed in front of the main body 10, and a front of the hose 2. Handle (3) is installed in the portion, and the front portion of the handle (3) has a structure in which a plurality of extension pipes (4) can be combined and removed from each other and the inlet (5) is provided at the end of the extension pipe (4) On the other hand, the wheel 6 is installed for the convenience of movement of the main body 10.

Therefore, when the vacuum cleaner 1 configured as described above is operated, the vacuum pressure is transmitted to the suction port 5 through the extension pipe 4, and small dirt and dust at the bottom are sucked in and collected in the dust collecting part in the main body 10. .

Meanwhile, as shown in FIG. 2, the main body 10 of the vacuum cleaner includes a dust collecting chamber 11 that filters dust and air, an electric motor 12 that is an energy source of air flow, and the dust collecting chamber 11 and the electric motor. (12) A rubber front end portion supporting rubber (20) for sealing the gap between the dust collecting chamber and the motor and supporting the motor, and a flow path folding plate (30) provided for changing the flow path of air sucked by the electric motor. It is composed of

Therefore, the air flow path configured as described above is introduced into the dust collecting chamber 11 together with air and dust by the rotation of the motor fan, as shown in Figure 2, the dust filter bag 40 in the dust collecting chamber 11 The dust is filtered out and the air is introduced into the exhaust port 13 of the cleaner while passing through the front end of the motor support rubber 20 and the motor 12.

However, as described above, the shape of the motor inlet fan and the shape of the motor front end support rubber, when the suction air is introduced, generates a resistance and vortex, resulting in a slower flow rate, thereby lowering the cleaner suction performance.

The present invention is to solve the above drawbacks, in order to minimize the inlet air resistance of the front end of the motor by making the shape of the support rubber of the front end of the motor funnel shape, the incoming air does not hit the motor fan cover to the motor inlet It is to provide a suction air induction structure of the vacuum cleaner to be introduced immediately.

In order to achieve the above object, the present invention provides a dust collecting chamber for filtering dust and air and an electric power source of air flow, and sealing between the dust collecting chamber and the electric motor to prevent air leakage between the dust collecting chamber and the electric motor and to support the electric motor. A vacuum cleaner comprising a front end support rubber of a motor and a flow path folding plate provided to change a flow path of air sucked by the motor, wherein the front end support rubber has a funnel-shaped exhaust induction curve formed around the motor inlet. It is characterized in that the incoming air is introduced directly into the motor inlet without hitting the motor fan cover.

1 is a view showing a conventional vacuum cleaner,

Figure 2 is a side cross-sectional view showing a brief interior of a conventional vacuum cleaner,

3 is a view illustrating a front end support rubber and a motor, a rear end rubber, and a flow path bending plate for supporting a front end of a suction induction structure of an electric motor of a vacuum cleaner.

Figure 4 is a side cross-sectional view of the present invention showing a simplified interior of the vacuum cleaner.

<Description of Symbols for Main Parts of Drawings>

10: main body 11: dust collecting chamber

12 electric motor 13 exhaust port

20: support rubber for the front end of the motor 21: exhaust induction curve

22: extension 23: rib

30: Euro folding plate

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, the main body is installed with an induction motor and dust collector; A hose installed at the front of the main body; A handle installed at the front portion of the hose; The front portion of the handle has a structure in which a plurality of extension tubes are coupled to and removed from each other, and the inlet is installed at the end of the extension tube so that the reference numerals and description thereof are omitted.

According to the present invention, a dust collecting chamber (11) for filtering dust and air and an electric motor (12) as an energy source of air flow, and an air leakage prevention and electric motor between the dust collecting chamber and the electric motor are sealed between the dust collecting chamber (11) and the electric motor. A vacuum cleaner composed of a support motor front end supporting rubber 20 to support and a flow path bending plate 30 installed to change a flow path of air sucked by the motor 12, as shown in FIG. 3 or 4. As described above, the front end rubber 20 is formed with a funnel-shaped exhaust induction curve 21 centered on the motor inlet so that the incoming air is introduced directly into the motor inlet without hitting the motor fan cover. Features are given.

The front end portion of the support rubber 20 has a circular shape as shown in Figure 3 or 4, the induction curve portion 21 for inducing the flow of air toward the inlet of the electric motor in the center is formed, corresponding to The extension part 22 is formed in the side so that the outer peripheral surface of an electric motor may be enclosed, and the inside of this extension part 22 is provided with the several rib 23 which is fixedly fixed to the electric motor 12. As shown in FIG.

At this time, the exhaust induction curve portion 21 is installed so as to cover the fan cover of the electric motor 12 and exactly toward the inlet of the electric motor as shown in FIG.

50 in the figure is a rear end support rubber for supporting the back of the motor.

Therefore, the suction air induction structure of the vacuum cleaner configured as described above is introduced into the dust collecting chamber 11 together with air and dust by the rotation of the fan of the electric motor 12, as shown in FIG. 11) dust is filtered out by the dust filter bag 40 in the air, and the air introduced therein is discharged to the exhaust port 13 of the cleaner while passing through the front end of the motor support rubber 20 and the electric motor 12.

At this time, the dust is filtered in the air flows directly into the inlet of the motor without hitting the fan cover of the motor by the exhaust induction curve portion 21 formed in the front end support rubber (20).

As described above, in order to minimize the inflow air resistance of the front end of the motor, the shape of the front end of the motor supporting rubber is formed in a funnel shape, so that the incoming air does not hit the motor fan cover and flows directly into the inlet of the motor so that You can get less resistance.

In addition, as the speed of the incoming air is increased, the atmospheric pressure in the dust collecting chamber is lowered and the air volume is increased, so that the suction performance is improved.

That is, the suction efficiency is increased by passing the air receiving the vortex and the air resistance to the minimum at the front end of the motor.

Claims (1)

A dust collecting chamber for filtering dust and air and an electric source of air flow, an air shear supporting rubber for enclosing the dust collecting chamber and the motor to prevent air leakage between the dust collecting chamber and the motor, and supporting the motor; In the vacuum cleaner comprising a flow path folding plate installed to change the flow path of the air sucked by the air, the front support rubber is formed with a funnel-shaped exhaust induction curve around the motor inlet port so that the incoming air does not hit the motor fan cover Induction structure of the vacuum cleaner, characterized in that the flow directly into the intake of the motor.