KR101309678B1 - a decrease Device for noise and vibrate of vacuum cleaner impeller - Google Patents

Abstract

The air drawn through the air inlet of the impeller is an impeller between the sound wave of the air flowing into the cylindrical support and the plate on the plate installed in the longitudinal center portion of the support via the air hole of the support The noise waveform of the air downward while staying instantaneously is canceled by causing mutual resonance, thereby significantly reducing the occurrence of extreme noise and vibration caused by the air rapidly sucked into the impeller, and accordingly the vacuum It is possible to prevent the noise pollution of the surrounding environment due to the extreme noise of the vacuum cleaner impeller and to change the air volume between the blades due to the increase of the air flowing into the vacuum cleaner impeller. In addition to reducing the noise of the impeller drive motor, The present invention relates to an impeller noise and vibration reduction device of a vacuum cleaner that can further extend the life of the scavenging and impeller.
In the technical configuration, a cylindrical support 150 on which a plurality of air holes 140 are formed is provided on the inner surface of the main body 110 of the impeller 100, and the cylindrical support 150 is provided. At the central portion in the longitudinal direction, a disk-shaped diaphragm 160 having a plurality of air holes 140 'and a cylindrical support plate 170 are installed under the cylindrical support 150, respectively. In the support 150, a plurality of blades 130 having an air passage hole 180 formed in the center thereof are installed in the vertical direction, and a plurality of blades 130 are installed, and each of the blades 130 has a plate 160 and a support plate (plate). 170) are to be integrally fixed to each other.

Description

{A decrease Device for noise and vibrate of vacuum cleaner impeller}

The present invention relates to a device for reducing the impeller noise and vibration of a vacuum cleaner, which can significantly reduce the occurrence of extreme noise and vibration generated in the impeller of a vacuum cleaner. In particular, a plurality of air holes are formed inside the impeller of the vacuum cleaner. After the cylindrical support is built in, the disk-shaped diaphragm having a plurality of air holes is formed in the longitudinal center portion of the support, and the support plate on the plate is installed integrally under the support, so that it is sucked through the air inlet of the impeller. The air to be introduced is the noise waveform of the air flowing into the cylindrical support and the air downward toward the air while temporarily staying through the impeller between the diaphragm mounted on the longitudinal center of the support via the air hole of the support. Noise waveforms are canceled by causing mutual resonance, which impinges on the interior of the impeller. It is possible to significantly reduce the occurrence of extreme noise and vibration due to the ingress of air rapidly, thereby preventing the noise pollution of the surrounding environment due to the extreme noise of the vacuum cleaner impeller in advance, and to the cylindrical support A plurality of air passage holes having small diameters are formed in the center in the center of the blade and placed at regular intervals, and the plurality of blades installed in the longitudinal direction are formed in accordance with the increase of the air flowing into the impeller of the vacuum cleaner. It is possible to change the air volume between the blades, thereby reducing the noise of the impeller drive motor, as well as the impeller noise of the vacuum cleaner to further extend the life of the vacuum cleaner and the impeller. It relates to a vibration reduction device.

In general, a vacuum cleaner rapidly sucks external air into the impeller by driving a driving motor. At this time, by adsorbing the foreign matter by the suction force of the air introduced into the impeller, for this purpose to form a curved wing of the impeller, or to perform a structural change of the inlet and outlet of the impeller to improve the suction force to some extent However, the strength of the entire impeller is greatly reduced, there is a big disadvantage that the extreme noise occurs.

On the other hand, the impeller of the vacuum cleaner that can increase the structural strength of the impeller by improving the disadvantage that the strength of the impeller is reduced to form a reinforcement on the lower plate of the impeller is known in the Republic of Korea Utility Model Publication No. 1993-0003935 .

That is, in the technical configuration, as shown in FIG. 1, an air inlet 2 is formed in the center of the upper plate 1, and a plurality of blades (between the upper plate 1 and the lower plate 3 which are installed opposite to each other). 4) is disposed in the radial direction, wherein the blade 4 is curved with a predetermined curvature, the inner end is installed in a shape concentrated in the vicinity toward the air inlet (2), while the lower plate (3) The reinforcement part 5 is formed, and the reinforcement part 5 is positioned between the blades 4 and extends from the outer circumference of the lower plate 3 to the inner circumferential side so as to increase the strength.

Therefore, in the state where the blades 4 are bent at a predetermined curvature in the radial direction between the lower plates 3 of the impeller, the lower plates 3 are simply formed with a reinforcing portion 5, thereby providing a large number of the same conditions. While it can suck in a positive amount of air, it is possible to increase the structural strength.

However, in the case of the vacuum cleaner impeller as described above, the blade 4 is simply bent in the radial direction between the lower plate (3) of the impeller, the suction air flows along the trajectory of the blade 4, the extreme noise And it causes vibration, according to the severe noise of the impeller greatly harm the surrounding environment, as well as the impeller has a lot of problems such as shortening the life of the vacuum cleaner.

The present invention has been made in order to solve the various problems as described above, the object of the present invention is that, after the cylindrical support formed with a plurality of air holes inside the impeller of the vacuum cleaner is built in, The disk-shaped diaphragm formed with the air hole of the support plate and the disk-shaped support plate are respectively installed integrally, the air sucked through the air inlet of the impeller is the noise waveform of the air flowing into the cylindrical support, The noise waveform of the air downwards is canceled by causing mutual resonance, as it stays instantaneously through the impeller between the diaphragms installed in the longitudinal center of the support via the air hole of the support. To significantly reduce the occurrence of extreme noise and vibration caused by the aspirated air Accordingly, in order to prevent noise pollution of the surrounding environment due to the extreme noise of the vacuum cleaner impeller, and to be installed in the longitudinal direction on the cylindrical support vertically installed in a plurality of predetermined intervals in the center air passage hole And forming a plurality of small diameter air passage holes at the periphery to change the air volume between the blades due to the increase of the air drawn into the impeller of the vacuum cleaner, thereby driving the impeller. In addition to reducing the noise of the motor, as well as to provide a vacuum cleaner and impeller noise and vibration reduction device that can further extend the life of the impeller.

As a technical configuration for achieving the above object, the present invention, the air inlet is formed in the center of the main body of the impeller, the interior of the main body in the impeller noise and vibration reduction device of a plurality of blades to be installed inside In

A cylindrical support having a plurality of air holes as a main surface is installed in the main body, and a plate-shaped plate having a plurality of air holes formed at a longitudinal center portion of the cylindrical support, and a lower side of the support. The disk-shaped support plates are integrally installed, and a plurality of blades in which the air passage holes are formed in the center are installed in the cylindrical support, and a plurality of blades are installed in the cylindrical supports, wherein each blade is disposed between the plate and the support plate on the disk. By providing an impeller noise and vibration reduction device of the vacuum cleaner, characterized in that the configuration is made to be integrally fixed to.

In addition, the present invention is a plurality of air holes formed in the cylindrical support main surface, and a plurality of air holes formed in the disk-shaped diaphragm are formed at regular intervals between the blades installed in the longitudinal direction, respectively, the blade It is characterized in that a plurality of small diameter through-holes are formed in the periphery of the through-holes formed in the center of the.

In addition, the present invention is characterized in that the sound absorbing material is filled in the space between the disk-shaped diaphragm mounted on the longitudinal center portion of the cylindrical support and the blade mounted in the longitudinal direction on the diaphragm upper side.

According to the impeller noise and vibration reduction device of the vacuum cleaner according to the present invention, the noise waveform of the air introduced into the cylindrical support installed inside the impeller, the air drawn through the air inlet of the vacuum cleaner impeller, and the cylindrical support The noise waveform of the air downwards is canceled by causing mutual resonance, while temporarily staying through the impeller between the diaphragms installed on the longitudinal center of the support via the air hole of the support. It is possible to significantly reduce the occurrence of extreme noise and vibration caused by the air, thereby preventing the noise pollution of the surrounding environment due to the extreme noise of the vacuum cleaner impeller, and in the longitudinal direction to the cylindrical support The blades that are placed and installed at regular intervals are By forming a plurality of air passage holes of small diameter with the air passage hole and the periphery in the hem, it is possible to change the air volume between the blades due to the increase of air drawn into the impeller of the vacuum cleaner. In this way, the noise of the impeller driving motor may be reduced, as well as an excellent effect of further extending the life of the vacuum cleaner and the impeller.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the following claims. It will be appreciated that those skilled in the art can easily know.

1 is a schematic perspective view showing an impeller of a conventional vacuum cleaner.
Figure 2 is a schematic perspective view showing the internal structure of the blade is installed on the cylindrical support for reducing the impeller noise and vibration of the vacuum cleaner according to the present invention.
Figure 3 is an exploded perspective view showing an impeller body portion of the present invention, a blade and a disk-shaped diaphragm respectively installed therein.
Figures 4a and 4b is a flow chart of the air flowing into the impeller of the present invention and the waveform curve diagram of the air flowing into the impeller.
5 is a schematic perspective view of an impeller filled with a sound absorbing material according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic perspective view showing the internal structure of the blade is installed on the cylindrical support for reducing the impeller noise and vibration of the vacuum cleaner according to the present invention, Figure 3 is an impeller main body of the present invention and installed therein An exploded perspective view showing a blade and a disk-shaped diaphragm, respectively, and FIGS. 4A and 4B are flow charts of air flowing into the impeller of the present invention and waveform curves of air flowing into the impeller, respectively, the main body of the impeller 100. An air inlet 120 is formed at the center 110, and a plurality of blades 130 are installed inside the main body 110.

In addition, a cylindrical support 150 having a plurality of air holes 140 formed therein as a main surface is installed inside the main body 110, and a plurality of cylindrical supports 150 are located at a central portion in the longitudinal direction of the cylindrical support 150. A disk diaphragm 160 having an air hole 140 'formed thereon, and a disk-shaped support plate 170 underneath the cylindrical support 150, respectively. A plurality of blades 130 having an air passage hole 180 formed therein are installed in a vertical direction, and a plurality of blades 130 are installed, and each blade 130 is integrally formed between the diaphragm 160 and the support plate 170 on the disc. It is fixed to be installed.

The plurality of air holes 140 formed on the main surface of the cylindrical support 150 and the plurality of air holes 140 'formed on the diaphragm 160 are between the blades 130 installed in the longitudinal direction. It is formed to be spaced apart at a predetermined interval (t) in each of the blades 130 formed in the center of the air passage hole 180 is formed in a configuration in which a plurality of small diameter air passage holes 180 'are formed Is done.

The operation and effect of the present invention having such a structure will be described as follows.

As illustrated in FIGS. 2 to 4, outside air may be sucked through the air inlet 120 formed in the upper center of the main body 110 of the vacuum cleaner impeller 100.

At this time, in the state in which the cylindrical support 150 is formed with a plurality of air holes 140 as the main surface inside the main body portion 110, the cylindrical support 150 in the longitudinal center portion of the longitudinal direction On the disk plate 160 formed with a plurality of air holes 140 'and the support plate 170 of the plate is installed under the cylindrical support 150, respectively, the cylindrical support 150 In the center there is a plurality of blades 130 is formed in the longitudinal direction is installed in the air passage hole 180 in the longitudinal direction, the driving motor through the air inlet 120 formed in the body portion 110 of the impeller 100 The air sucked in by the operation of (not shown) is, through the noise waveform of the air ① sucked into the cylindrical support 150 and the air hole 140 of the support 150, as shown in Figure 4a Impeller between disc 160 of the disk mounted on the longitudinal center portion of the support 150 The noise waveform of the air ② directed downward while staying instantaneously through the phase is canceled by causing mutual resonance as shown in FIG. 4B, resulting in extreme noise and vibration caused by the air rapidly flowing into the impeller 100. It is possible to significantly reduce, thereby preventing the noise pollution of the surrounding environment due to the extreme noise of the vacuum cleaner impeller 100 in advance.

In addition, the plurality of air holes 140 formed in the main surface of the cylindrical support 150 and the plurality of air holes 140 'formed in the diaphragm 160, the blade 130 is installed in the longitudinal direction ) Is formed to be spaced apart from each other by a predetermined interval (t), it is not drawn out directly through a plurality of air holes 140 ′ formed in the diaphragm 160 on the disc, respectively, the predetermined interval (t) between the blades 130 ) It can stay as far as it is formed to cause resonance phenomenon.

In addition, as shown in the periphery of the air passage hole 180 formed at the center of the blade 130, a plurality of air passage holes 180 'having a diameter smaller than that of the air passage hole 180 are formed. By doing so, the air passage hole 180 formed in the center of the blade 130 and the circumference of the air volume (cavity) between the blades 130 according to the increase of the air flowing into the impeller 100 In order to sequentially change through the small diameter air passage hole 180 '), thereby reducing the noise of the impeller drive motor, it is possible to further extend the life of the vacuum cleaner and the impeller.

On the other hand, Figure 5 is a schematic perspective view of an impeller filled with sound absorbing material according to another embodiment of the present invention, the disk-shaped diaphragm 160 and the disk-shaped diaphragm mounted on the longitudinal center portion of the cylindrical support 150 The air inlet formed in the center of the upper portion of the main body 110 of the impeller 100 is filled with the sound absorbing material 190 made of a polyurethane material in the space between the blades 130 installed in the vertical direction on the upper side. 120, it is possible to significantly reduce the noise of the air sucked through.

100.Impeller 110.Main unit
120 ... air inlet 130 ... blade
140,140 '... air hole 150 ... support
160 ... plate 170 ... support plate
180,180 ... Air pass-through hole 190 ... Absorber

Claims (4)

An air inlet 120 is formed in the center of the main body 110 of the impeller 100, and in the impeller noise and vibration reduction device of the vacuum cleaner in which a plurality of blades 130 are installed inside the main body 110. In
A cylindrical support 150 having a plurality of air holes 140 formed as a main surface inside the main body 110 is installed, and a plurality of air is provided in the longitudinal center portion of the cylindrical support 150. The disk-shaped diaphragm 160 with the hole 140 'and the disk-shaped support plate 170 underneath the cylindrical support 150 are respectively integrally installed, and the cylindrical support 150 has air in the center. A plurality of blades 130 are formed in the longitudinal direction are installed in a plurality of blades 130 are formed in the through-hole 180, each of the blades 130 to be fixed integrally between the disk plate 160 and the support plate 170 on the disc. Impeller noise and vibration reduction device of the vacuum cleaner, characterized in that consisting of a configuration that is installed.
The plurality of air holes 140 formed in the main surface of the cylindrical support 150, and the plurality of air holes 140 'formed in the diaphragm 160 is installed in the longitudinal direction. Impeller noise and vibration reduction device for a vacuum cleaner, characterized in that formed between the blades 130 are spaced apart a predetermined interval (t).
According to claim 1, A plurality of air passage hole 180 'of smaller diameter than the air passage hole 180 is formed around the air passage hole 180 formed in the center of the blade 130 Impeller noise and vibration reduction device of the vacuum cleaner, characterized in that.
According to claim 1, wherein in the space between the disc plate 160 installed in the longitudinal center portion of the cylindrical support 150 and the blade 130 installed in the longitudinal direction above the disc plate 160 in the longitudinal direction Impeller noise and vibration reduction device of the vacuum cleaner, characterized in that the sound absorbing material 190 is filled.

Images