KR100236012B1 - Device for decreasing the noise of vacuum cleaner - Google Patents

Abstract

The present invention relates to a noise reduction device of a vacuum cleaner, and by installing a noise reduction tube serving as a silencer around the fan motor, the exhaust noise generated from the fan motor can be reduced, and a plurality of wide area spaces are provided. By reducing the flow velocity, the turbulent flow noise is also minimized, which greatly reduces the noise energy, thereby improving the efficiency and reliability of the vacuum cleaner.

To this end, the present invention is a vacuum cleaner having a dust collecting filter for collecting the foreign matter in the outer case, and a fan motor for generating a suction force; A noise reduction tube (10) having at least one shaft (10a) and an expansion (10b) around the fan motor (6) and having an inlet (8) and an outlet (12) to allow air to pass therethrough. ) Is installed, the noise reduction device of the vacuum cleaner to reduce the discharge noise as the flow rate is reduced as the drive noise generated from the fan motor passes through the shaft tube and the expansion tube of the noise reduction tube.

Description

Noise reduction device of vacuum cleaner

1 is a longitudinal sectional view showing a conventional vacuum cleaner.

2 is a longitudinal sectional view showing the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a schematic configuration diagram of a muffler (silencer).

* Explanation of symbols for main parts of the drawings

1: main body 6: fan motor

8: suction hole 10: noise reduction tube

11: sound absorbing member 12: discharge hole

13: first exhaust hole 15: the first space part

16: the second space part 18: the second exhaust hole

The present invention relates to a noise reduction device of a vacuum cleaner, and more particularly, to significantly reduce noise by insulating and absorbing driving noise generated from a fan motor of a vacuum cleaner. In general, a vacuum cleaner is a generalized vacuum cleaner which draws external air and the dust contained therein by a strong suction force and then collects the dust in the vacuum cleaner and discharges only the filtered air to the outside.

As the performance of the vacuum cleaner depends on the cleaning function and the noise reduction rate, the research and development of this vacuum cleaner is continuously performed.

Meanwhile, as shown in FIG. 1, a conventional vacuum cleaner is connected to a cleaner head (not shown) in front of the main body 1, and a dust inlet 2 including air is provided. A dust collecting filter 3 is installed at the rear of the suction port 2 to collect dust, which is sucked through the suction port 2, and a fan motor 6 is provided at the main body 1 at the rear of the dust collecting filter 3. The motor suction hole 4 through which air flows is formed.

In addition, a rubber packing 5 on which the fan motor 6 is supported is mounted on a circumferential surface of the main body 1 behind the motor suction hole 4, and the rear side of the main body 1 is discharged from the fan motor 6. An exhaust hole 16 through which air is discharged is formed, and an exhaust filter 17 is attached to the main body 1 inside the exhaust hole 16.

However, such a conventional vacuum cleaner has the exhaust hole 16 behind the main body 1 directly connected to the installation space of the fan motor 6, so that the rear side of the fan motor 6 is operated according to the operation of the fan motor 6. Not only does the vortex noise coming out immediately be transmitted, but also the noise generated from the fan motor 6 is reduced only by the main body 1 of the vacuum cleaner. I had a big drop.

The present invention is to solve the above-mentioned problems, the present invention is to provide a noise reduction device for a vacuum cleaner that can significantly reduce the noise by insulating and absorbing the noise generated when driving in the fan motor of the vacuum cleaner. There is this.

The present invention for achieving the above object is a vacuum cleaner having a dust collecting filter for collecting the foreign matter in the outer case, and a fan motor for generating a suction force; A noise reduction tube having at least one shaft portion and an expansion portion and having an inlet and an outlet for allowing air to pass around the fan motor is installed, and the driving noise generated from the fan motor is reduced. It is a noise reduction device of the vacuum cleaner that reduces the discharge noise as the flow rate decreases as it passes through the part and the expansion pipe.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings 2 to 4 as follows.

FIG. 2 is a longitudinal sectional view showing the present invention, FIG. 3 is a cross-sectional view taken along the line AA of FIG. 2, and FIG. 4 is a flowchart showing the noise reduction state of the present invention, wherein the outer case 1a constituting the outer shape of the main body 1 is shown. In the front of the inside of the dust collecting filter (3) for collecting large dust contained in the air flowing through the inlet (2) is installed, the dust collecting filter in the outer case (1a) behind the dust collecting filter (3) A motor suction hole 4 is formed to allow air to pass through, and a rubber packing 5 for airtightness is installed around the inner side of the motor suction hole 4.

In addition, the rubber packing (5) is fixed to the noise reduction tube 10 having a muffler shape of the automobile in order to reduce the noise energy, the noise reduction tube 10 in the front of the motor suction hole (4) In addition to the suction hole 8 is formed in communication with the discharge hole 12 is formed in the lower air is discharged.

On the other hand, the front of the inside of the noise reduction tube 10 is provided with a fan motor 6 for generating a suction force, the vibration preventing member 9 is interposed between the fan motor 6 and the noise reduction tube 10. As a result, vibrations caused by the driving of the fan motor 6 can be attenuated.

In addition, a sound absorbing member 11 is provided on the inner surface of the noise reduction tube 10 to absorb sound of high frequency components.

In addition, the noise reduction tube 10 generates noise by forming at least one shaft tube portion 10a and the expansion tube 10b to the rear of the fan motor 6 to reduce mechanical noise generated from the fan motor 6. In the process of passing energy through the noise reduction tube 10, the shaft tube portion 10a proceeds at a high flow rate, and as the flow rate is drastically reduced as it reaches the expansion portion 10b, the noise of the discharge noise and the noise of the ongoing noise energy are reduced. The noise is reduced by the tradeoff between the reflected noise energy and the ongoing noise energy while colliding with the inner wall of the reduction tube 10.

On the other hand, as the first partition 14 is formed around the discharge hole 12 formed in the lower portion of the noise reduction tube 10, the first space portion 15 having a wide and shallow space volume inside the first partition wall 15. ) Was formed.

In addition, a plurality of first exhaust holes 13 are formed in the first partition 14 so that air in the first space 15 formed by the first partition 14 is discharged to another space.

In addition, the inner surface of the first exhaust hole 13 forming portion of the first partition 14 serves to filter the fine dust not filtered by the dust collecting filter 3 once more, and to absorb excess noise. At the same time, a first exhaust filter 17 is provided.

On the other hand, as the second partition 20 is formed round the outer side of the first partition 14, the second space portion 16 between the second partition 20 and the first partition 14 is formed. To form.

In addition, a plurality of second exhaust holes 18 are formed in the second partition wall 20 so that air in the second space part 16 formed by the second partition wall is discharged to another space. A second exhaust filter 19 is provided on the inner surface of the formation portion of the second exhaust hole 18 at 20 to simultaneously filter air and absorb excess noise.

In the present invention configured as described above, the noise energy generated by the fan motor 6 is absorbed by the sound absorbing member 11 installed on the inner surface of the noise reduction tube 10, and thus a part of the noise energy is removed.

In this case, the material of the sound absorbing member 11 may be any material as long as it can absorb sound. Examples of the sound absorbing member 11 include sponge, styrofoam, felt, and the like.

On the other hand, the surplus noise energy not removed by the sound absorbing member 11 is expanded while passing through the shaft tube portion 10a and the expansion tube 10b of the noise reduction tube 10 having the same shape as a muffler of an automobile. The flow rate is significantly reduced.

In addition, some of the noise energy collides with the inner wall of the noise reduction tube 10 and is reflected in the opposite direction of the traveling direction, and thus it is possible to remove a considerable amount of noise by offsetting with the normal noise energy.

On the other hand, the noise generated by the vacuum cleaner is white noise over a wide frequency band (white noise), the noise generated by the fan motor (6) in the case of the vacuum cleaner rotates at about 30,000rpm peak noise of 500Hz and harmonic components (integer multiple) Noise), and the peak noise of a specific frequency that is the product of the number of fan blades.

Among these, the noise flow can be reduced by the flow rate reduction by the shaft portion 10a and the expansion portion 10b of the noise reduction tube 10, and the remaining peak noise is about 500 Hz when the operation noise is generated. By controlling the length of the expanded portion of the noise reduction tube 10, if the transmission loss at a frequency increased by an integral multiple of 500 Hz, 1000 Hz, 1500 Hz, etc., the effect of noise reduction can be obtained.

At this time, the transmission loss is 10 log {1 + 1/4 (m-1 / m) when the sound passes in the direction of the arrow in the muffler structure as shown in FIG. 2 sin2 (KL)} [dB], where the transmission loss (TL) is determined by m and L (m is the cross-sectional area ratio of the inlet / outlet and expansion tubes: S ₂ / S ₁ , where L is the expansion tube length and k is the number of waves per unit length).

That is, since the transmission loss (TL) is proportional to the m value and the L value, when the m and L values are designed to be large, the transmission loss is increased to reduce the peak noise.

On the other hand, the first space around the lower portion of the discharge hole 12 of the noise reduction tube 10 is installed around the first partition 14, the first space portion 15 in communication with the discharge hole 12 and having a large space volume Since the flow rate is reduced by the volume change is expanded flow noise that is not extinguished by the noise reduction tube (10).

Therefore, it is possible to reduce the flow noise in proportion to the reduced flow rate.

In addition, as the second partition 20 is installed around the first partition 14, a wide second space part 16 is formed between the first partition and the second partition, so that the first space part is formed. In the same manner as in (15), the flow velocity of the air can be further reduced, thereby minimizing the flow noise.

On the other hand, the first exhaust filter 17 and the second exhaust filter 19 provided in close contact with the inner peripheral surfaces of the first partition 14 and the second partition 20, the first exhaust hole 13 and the first By acting to filter the fine dust contained in the air discharged through the two exhaust holes (18) and at the same time to absorb the noise, this also contributes to noise reduction.

As described above, the present invention can reduce the mechanical noise generated from the fan motor by the noise reduction tube, and the noise generated by the turbulent flow is stabilized by the first and second space parts, thereby greatly reducing the exhaust noise of the cleaner. The effect which can be reduced can be acquired.

Claims (4)

A vacuum cleaner having a dust collecting filter for collecting foreign matter in an outer case and a fan motor for generating a suction force; A noise reduction tube having at least one shaft portion and an expansion portion and having an inlet and an outlet for air to pass around the fan motor is installed so that driving noise generated from the fan motor is reduced. Noise reduction device for a vacuum cleaner, characterized in that the discharge noise is reduced as the flow rate is reduced while passing through the portion and expansion pipe. The noise reduction device of the vacuum cleaner according to claim 1, wherein a sound absorbing member is provided along the inner surface of the noise reducing tube so that the noise in the noise reducing tube is absorbed by the sound absorbing member. The air conditioner of claim 1, wherein a first partition is installed roundly around the outlet of the noise reduction tube, and a plurality of exhaust holes are provided in the first partition so that air in the space formed by the first partition is discharged. Noise reduction device of the vacuum cleaner, characterized in that formed. The method of claim 3, wherein the second partition is installed around the first partition so as to form a space, and the second partition is formed with a plurality of exhaust holes so that the air in the space formed by the second partition is discharged Noise reduction device of the vacuum cleaner, characterized in that.