KR20160067669A - Impeller - Google Patents

Abstract

The present invention relates to an impeller and, more specifically, to an impeller, which is used to be multipurpose for a vacuum cleaner and the like and compensating rotation balancing. The impeller includes: an upper plate including an air suction unit; a lower plate formed to correspond to the upper plate and including an air discharge unit in a circumferential direction between with the upper plate by being separated from the upper plate in an axial direction; and a blade installed between the upper plate and the lower plate. Multiple balancing grooves are installed on at least one of the upper plate and the lower plate on the outer side in a radial direction in the circumferential direction.

Description

Impeller {IMPELLER}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an impeller, and more particularly, an impeller used for a general purpose such as a vacuum cleaner is an impeller that complements rotational balancing.

The impeller is a device mounted on a rotating motor to suck and discharge air. Various types of impellers have been developed. In particular, in the case of an impeller requiring high-speed rotation, balancing is not performed in the circumferential direction during rotation, which may cause noise and vibration.

Thus, the prior art disclosed in Fig. 1 has attempted to solve this problem.

The impeller 10 shown in FIG. 1 is a high speed impeller used in a vacuum cleaner or the like and has an upper plate 11 provided with an air inlet 15 and a lower plate 11 provided in a shape corresponding to the upper plate 11, A lower plate 12 spaced apart from the upper plate 11 and having an air outlet 14 in a circumferential direction with respect to the upper plate 11 and a lower plate 12 disposed between the upper plate 11 and the lower plate 12, And at least one of the upper plate 11 and the lower plate 12 may be provided with a balancing groove 11a which is formed by cutting the rim of the radially outer side portion.

That is, in the conventional impeller 10, after the upper plate 11, the lower plate 12, and the blades 13 are assembled to form an impeller shape, the impeller is mounted on the motor and the rotation test is performed. A predetermined portion of the upper plate 11 or the lower plate 12 is cut to form a balancing groove 11a.

However, since the plastic impeller is entirely light in weight, excessive incision can be made in the process of forming the balancing grooves 11a, and incision for forming the balancing grooves 11a can be performed on the upper plate 11 or the lower plate 12 There is a problem in that it may affect the air flow during rotation of the impeller and may cause additional vibration or noise.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an impeller capable of easily completing the rotational balancing of an assembled impeller by considering the balancing of the impeller from the time of manufacturing the upper and lower plates.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impeller, and more particularly, to an impeller for use in a general purpose, such as a vacuum cleaner, for compensating rotational balance, comprising: an upper plate having an air inlet; A lower plate provided in a shape corresponding to the upper plate and spaced apart from the upper plate in an axial direction and having an air outlet in a circumferential direction between the lower plate and the upper plate; And at least one of the upper plate and the lower plate may be provided with a plurality of balancing grooves in a circumferential direction at a radially outer side portion thereof.

The balancing weight can be fitted and fixed when the rotational balance of the impeller does not fit in the balancing groove.

According to the present invention, it is possible to provide an impeller capable of simply completing the rotational balancing of the assembled impeller by designing the balancing of the impeller from the time of manufacturing the upper and lower plates.

1 is a perspective view showing an impeller according to the prior art,
FIG. 2 is a top plan view showing an impeller according to an embodiment of the present invention,
3 is a bottom perspective view showing an impeller according to an embodiment of the present invention,
4 is a cross-sectional perspective view of an impeller according to an embodiment of the present invention,
Fig. 5 is an enlarged view of a portion A in Fig. 4,
6 is an enlarged view of a portion B in Fig.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments which fall within the scope of the inventive concept may be easily suggested, but are also included within the scope of the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a top perspective view of an impeller according to an embodiment of the present invention, FIG. 3 is a bottom perspective view illustrating an impeller according to an embodiment of the present invention, FIG. 4 is a cross- Fig.

2 to 4, the impeller 100 according to an embodiment of the present invention may include an upper plate 110, a lower plate 120, and a wing 130.

2, the axial direction is a direction from the lower side to the upper side of the rotation shaft of the drive motor fixed to the upper and lower direction, that is, the rotation shaft mounting portion 12c, or from the upper side to the lower side The direction of the radial direction of the upper plate 110 or the lower plate 120 from the rotation axis of the driving motor to the outer end of the upper plate 110 or the lower plate 120, Means the direction from the outer end toward the rotation axis, and the circumferential direction means the direction that is rotated along the predetermined radius at the rotation axis which is the rotation center. For example, the direction of rotation along the outer surface of the upper plate 110 or the lower plate 120.

The upper plate 110 may have a round shape and an air inlet 150 may be provided at an intermediate portion thereof. The upper plate 110 may be made of a light plastic material. In addition, an upper balancing groove 110a for assisting rotational balance of the impeller 100 may be provided on the upper or lower surface of the upper plate 110 in the axial direction. Of course, the weight balance 110b may be fitted in the upper balancing groove 110a so that the rotation balancing of the impeller 100 can be matched.

The lower plate 120 has a round shape and a rotary shaft mounting portion 120c is provided at an intermediate portion thereof so that the rotary shaft of the driving motor can be fixedly mounted thereto. The lower plate 120 may be made of a light plastic material. In addition, a lower balancing groove 120a for assisting rotational balance of the impeller 100 may be provided on the upper or lower surface of the lower plate 120 in the axial direction. Of course, the balance balance (not shown) may be inserted into the lower balancing groove 120a so that rotational balancing of the impeller 100 can be matched.

The lower plate 120 has a shape corresponding to the upper plate 110 and is spaced apart from the upper plate 110 in the axial direction so that the air intake opening 150 of the upper plate 110 in the circumferential direction is interposed between the lower plate 120 and the upper plate 110 And an air outlet 140 for discharging the air sucked through the air outlet 140.

The wing 130 may be provided between the upper plate 110 and the lower plate 120. The vanes 130 serve as a spacer for maintaining the gap between the upper plate 110 and the lower plate 120 while allowing the air to be sucked into the air inlet 150 by the rotation of the impeller 100. The wing 130 may be made of a plastic material such as the upper plate 110 or the lower plate 120. The radially inner end of the vane 130 may be directed to a rotational axis, which is the rotational center of the impeller 110, the radially outer end may extend radially outward, and may be spirally shaped to facilitate air intake. In addition, the vanes 130 may be twisted with respect to the axial direction so as to facilitate air suction.

The balancing grooves 110a and 120a provided in the upper plate 110 or the lower plate 120 may be fitted with at least one wade balance 110a. Since the upper plate 110 or the lower plate 120 is made of a relatively light plastic material, the weight balance 110a may have various weights in view of this. For example, the weight balance 110a inserted into the respective balancing grooves 110a and 120a may have various weights such as 1 mg, 2 mg, and 3 mg. Accordingly, the user can conveniently select the weight balance 110a according to the amount of weighting required.

The balancing grooves 110a and 120a may be the upper balancing grooves 110a provided along the upper or lower surface in the axial direction of the upper plate 110 or the upper balancing grooves 110b may be formed in the axial upper or lower surface of the lower plate 120 along the rim And may be a lower balancing groove 120a.

Further, the balancing grooves 110a and 120a may be diagonal or round when viewed in the axial direction. Accordingly, the balancing weights that fit into the balancing grooves 110a and 120a may be polygonal columns or round columns.

While the present invention has been particularly shown and described with reference to particular embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims I would like to make it clear.

100: Impeller
110: top plate
120: lower plate
130: wing
110a, 120a: Balancing groove

Claims (5)

An upper plate having an air inlet;
A lower plate provided in a shape corresponding to the upper plate and spaced apart from the upper plate in an axial direction and having an air outlet in a circumferential direction between the lower plate and the upper plate; And
And a blade provided between the upper plate and the lower plate,
Wherein at least one of the upper plate and the lower plate is provided with a plurality of balancing grooves in a circumferential direction on a radially outer side thereof.
The method according to claim 1,
Wherein the balancing groove is filled with at least one weight balance.
The method according to claim 1,
Wherein at least one of the upper plate, the lower plate, and the wing is made of a plastic material.
The apparatus of claim 1,
An upper balancing groove provided along the rim on the upper axial surface of the upper plate,
And a lower balancing groove provided along the rim on the axial lower surface of the lower plate.
The method according to claim 1,
Wherein the balancing groove has a diagonal or rounded shape when viewed in the axial direction.

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