JPH0666293A - Impeller of motor-driven blower - Google Patents

Abstract

PURPOSE:To provide an impeller of a motor-driven blower which has high blowing efficiency and reduces noise. CONSTITUTION:An impeller has front and rear shrouds 11, 12 and a plurality of blades 14 provided between the shrouds, one of the shrouds being curved so that its opening area is gradually enlarged relative to the other shroud, from the inner to outer peripheral portions of the impeller.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impeller used for an electric blower using vacuum pressure used for a vacuum cleaner or the like.

[0002]

2. Description of the Related Art A conventional impeller will be described with reference to FIGS. The impeller 1 includes a front shroud 2 having an umbrella-shaped curved surface, a flat plate-shaped rear shroud 3, and a plurality of blades 4 provided between the shrouds and curved in an arc shape when viewed from above. . The front shroud 2, the rear shroud 3, and the blade 4 are made of sheet metal, and the impeller 1 is formed by caulking integrally with a plurality of caulking projections 5 formed at the upper and lower ends of the blade 4. . Further, the umbrella-shaped curved surface shape of the front shroud 2 is set so that the passage areas surrounded by the front shroud 2 and the rear shroud 3 and the blade 4 are the same. In addition, 6 is a fan case, 7 is an air guide, 8 is a channel, 9
Indicates a motor.

[0003]

However, the above-mentioned conventional impeller has the following problems. That is, the front shroud 2 has a curved shape, and a minute gap 10 as shown in FIG. On the other hand, when the impeller 1 rotates at a high speed, the flow between the blades 4 is as shown in FIG.
Relative direction of rotation, so its downstream side of the flow of dense and good side coarse offset density flow, pressure differential P ₁ over P ₂
Is occurring. Therefore, the airflow flows around the circumference through the gap 10. This flow collides with the main stream flowing between the blades 4. Therefore, turbulence occurs in the mainstream, and the efficiency of the electric blower is reduced. Moreover, the flow of the coarse and dense air flow sent out from the impeller 1 when the air flow into the air guide 7
, And the channels 8 constituting the above are alternately collided. For this reason,
Pressure fluctuations in the flow occur, which also causes noise.

This gap is caused by the fact that the curved shape of the shroud 2 is complicated and the mold precision varies. That is, the plate thickness of the shroud 2 becomes uneven,
This is because the ductility becomes uneven during crimping and the front shroud 2 becomes a curved surface with distortion.

The flow that flows into the impeller 1 is turbulent because it has passed through a filter, a duct hose, etc. of the cleaner body. Therefore, a swirl flow is generated in the impeller 1, and the air flow cannot efficiently flow between the blades 4. Therefore, the efficiency of the electric blower is further reduced.

[0006] Therefore, the present invention solves the above-mentioned problems of the conventional structure, and a first object thereof is to obtain an impeller of an electric blower having a structure with high blowing efficiency and reduced noise. A second object is to obtain an impeller of an electric blower having a structure in which the blowing efficiency is higher and the noise is reduced.

[0007]

A first means of the present invention for achieving the first object has a front shroud, a rear shroud, and a plurality of blades provided between the both shrouds, The one shroud is an impeller of an electric blower curved with respect to the other shroud so as to gradually increase the opening area from the inner peripheral portion to the outer peripheral portion of the impeller.

A second means of the present invention for achieving the second object has a front shroud, a rear shroud, and a plurality of blades provided between the both shrouds,
The one shroud is parallel to the other shroud from the inner peripheral portion to the central portion of the impeller, and is curved so that the opening area is gradually increased from the central portion to the outer peripheral portion with respect to the other shroud. It is an impeller of an electric blower.

[0009]

The first means of the present invention operates as follows.
By making one shroud constituting the impeller curved so that the opening area gradually increases from the inner peripheral portion to the outer peripheral portion of the impeller, the flow velocity of the air flow passing therethrough can be reduced. By decelerating the air flow, velocity energy is efficiently replaced with pressure energy. Therefore, the blowing efficiency of the impeller becomes high. Moreover, since the air flow is decelerated, the flow of the coarse and dense air flow that collides with the channel of the air guide is decelerated, and the pressure fluctuation that occurs is small. Therefore, the generated noise can be reduced.

The second means of the present invention further enhances the action of the first means. That is, the opening area from the inner peripheral portion to the central portion of the impeller is smaller than in the conventional case, and the flow is accelerated. Therefore, the unevenness of the flow density is suppressed and the flow becomes uniform. For this reason, the pressure difference P ₁ -P ₂ between the blades becomes small, and the flow around the circumference that flows through the gap seen in the conventional example becomes small. Therefore, the blowing efficiency of the impeller is increased. Moreover, since the opening area is gradually enlarged from the central portion to the outer peripheral portion, the flow velocity of the air flow in this portion can be reduced. Therefore, the velocity energy can be efficiently replaced with the pressure energy, and the blowing efficiency of the impeller is further enhanced. The noise reduction is the same as the first means.

[0011]

EXAMPLE An example of the first means of the present invention is shown in FIG.
This will be described with reference to FIG. 11 is a front shroud, 12
Is a flat rear shroud. Both shrouds 1
A plurality of blades 13 curved in an arc shape when viewed from above are provided between 1 and 12. A plurality of fixing protrusions 14 are provided on the upper and lower sides of the blade 13, and the fixing protrusions 14 are caulked to form an impeller 15 by integrating the front shroud 11, the rear shroud 12, and the blade 13. In the present embodiment, the front shroud 11 is curved so that the opening area gradually increases from the inner peripheral portion to the outer peripheral portion of the impeller 15. In addition,
16 is a fan case, 17 is an air guide, 18 is a channel, and 19 is a motor.

The operation of this embodiment will be described below. Since the front shroud 11 has a shape that is gradually curved from the inner peripheral portion to the outer peripheral portion of the impeller 15 so that the opening area increases, the passing air flow is decelerated as it approaches the discharge port 20. By reducing the flow velocity of the airflow, the velocity energy of the airflow can be efficiently replaced with the pressure energy. Therefore, the blowing efficiency of the impeller 15 is increased.

Further, since the velocity of the air flow is reduced, the flow rate of the coarse and dense air flow colliding with the channel of the air guide 17 becomes low, and the pressure fluctuation caused by this is small. Become. Therefore, the noise generated from the impeller 15 is also reduced.

Next, an embodiment of the second means of the present invention will be described with reference to FIGS. In the present embodiment, the shape of the front shroud 21 forming the impeller 20 is made parallel to the rear shroud 22 from the inner peripheral portion to the central portion, and the opening area gradually increases from the central portion to the outer peripheral portion. The rear shroud 22 is curved so that The rest of the configuration is the same as that of the above-mentioned embodiment, so the explanation is omitted.

The operation of this embodiment will be described below. The front shroud 21 is parallel to the rear shroud 22 from the inner peripheral portion to the central portion of the impeller 20. Therefore, the opening area surrounded by the front shroud 21, the rear shroud 22, and the blade 23 in this portion is smaller than that of the conventional one. Therefore, the air flow passing through this portion is accelerated. As a result, the unevenness of the flow density is suppressed and a uniform flow is obtained, and the pressure difference P ₁ -P ₂ between the blades 23 is reduced. Therefore, the flow around the circumference that flows through the gap that has been generated conventionally is reduced. Therefore, the turbulence of the flow between the blades 23 is reduced, and the airflow efficiently flows. Therefore,
The blowing efficiency of the impeller 20 is increased.

The opening area gradually increases from the central portion to the outer peripheral portion. Therefore, the flow velocity of the air flow in this portion can be reduced, and the velocity energy can be efficiently replaced with the pressure energy. Therefore, the blowing efficiency of the impeller 20 is further enhanced.

Further, since the velocity of the air flow is reduced, the flow rate of the coarse and dense air flow colliding with the channel of the air guide becomes low, and the pressure fluctuation caused by this is also small. . Therefore impeller 1
The noise generated from No. 5 is also low.

[0018]

The first means of the present invention has a front shroud, a rear shroud, and a plurality of blades provided between the both shrouds, and one shroud impeller with respect to the other shroud. As the configuration is such that the opening area is gradually increased from the inner peripheral portion to the outer peripheral portion, an impeller of an electric blower with high ventilation efficiency and low noise level can be realized.

According to the second means of the present invention, the shroud has a front shroud, a rear shroud, and a plurality of blades provided between the both shrouds, and the one shroud extends from the inner peripheral portion of the impeller. The shroud is parallel to the central part and is curved so that the opening area gradually increases from the central part to the outer peripheral part with respect to the other shroud. It is possible to realize a low-level impeller of an electric blower.

[Brief description of drawings]

FIG. 1 is a partial side sectional view showing an embodiment of a first means of the present invention.

FIG. 2 is a plan view of the impeller viewed from the front shroud direction.

FIG. 3 is a partial side sectional view showing an embodiment of the second means of the present invention.

FIG. 4 is a plan view of the impeller viewed from the front shroud direction.

FIG. 5 is a partial side sectional view showing a conventional impeller.

FIG. 6 is a plan view seen from the front shroud direction.

[Explanation of symbols]

 11 ・ 21 Front shroud 12 ・ 22 Rear shroud 13 ・ 23 Blade

Claims (2)

[Claims] 1. A front shroud, a rear shroud, and a plurality of blades provided between the both shrouds,
The one shroud is an impeller for an electric blower in which the shroud is curved so as to gradually increase an opening area from an inner peripheral portion to an outer peripheral portion of the impeller with respect to the other shroud. 2. A front shroud, a rear shroud, and a plurality of blades provided between the both shrouds,
The one shroud is parallel to the other shroud from the inner peripheral portion to the central portion of the impeller, and is curved so that the opening area is gradually increased from the central portion to the outer peripheral portion with respect to the other shroud. Electric blower impeller.