JP3597041B2 - Electric blower and vacuum cleaner - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electric blower that is used as a driving source for suctioning air in a vacuum cleaner body or the like of a vacuum cleaner, and a vacuum cleaner having the same.
[0002]
[Prior art]
Many electric blowers used in electric vacuum cleaners have a diffuser to reduce the dynamic pressure of the wind discharged from a centrifugal fan, and recently a diffuser base has been used to secure a long diffuser passage. Has a plurality of first diffuser passages on one surface and a plurality of second diffuser passages on the other surface. The first diffuser passage is provided so as to surround the fan, and is provided to guide wind discharged from the fan toward an inner peripheral surface of a fan cover that covers the fan and the diffuser. The second diffuser passage is provided to guide wind blown out through the first diffuser passage to a case internal air passage of the electric motor case to which the fan cover is attached.
[0003]
In a conventional electric blower using such a diffuser, a case exhaust provided in an electric motor case is provided on an electric motor case at a downstream side of the air passage from a first diffuser passage through a second diffuser passage through an air passage inside the case. To the mouth A series of airways, It is formed by a closed air path, and all of the air discharged from the fan through this series of air paths is discharged to the outside from the case exhaust port.
[0004]
[Problems to be solved by the invention]
Since the electric blower having the above configuration includes the first diffuser passage, the outlet of the air passage and the inner peripheral surface of the fan cover approach each other. Therefore, the wind sent from the first diffuser passage toward the inner circumferential surface of the fan cover through the narrow gap between the outlet and the inner circumferential surface changes its direction rapidly and blows the wind to the air passage in the case. It flows into the leading second diffuser passage. The narrow gap is provided between the outlet of the first diffuser passage, the inlet of the second diffuser passage, and the inner peripheral surface of the fan cover, and forms a wind direction changing portion.
[0005]
As described above, the direction change unit that changes the direction of the wind has a small air path volume, and the wind is suddenly changed direction by this change unit, so that the static pressure of the direction change unit increases and loss occurs. Easy to do. Therefore, there is a problem that the fan efficiency is low and the fan efficiency calculated by multiplying the fan efficiency and the motor efficiency is not good. Therefore, by the operation of the electric blower built in the cleaner body, air is sucked from the dust suction port of the cleaner body, and the sucked air is passed through a filter built in the cleaner body to capture dust and perform cleaning. Electric vacuum cleaner However, there is a problem that the suction power is low.
[0006]
Therefore, a first problem to be solved by the present invention is to obtain an electric blower that can improve the blower efficiency.
[0007]
A second problem to be solved by the present invention is to provide a vacuum cleaner capable of improving the suction power.
[0008]
[Means for Solving the Problems]
In order to solve the first problem, an invention according to claim 1 includes a centrifugal fan mounted on a rotor shaft protruding from a motor case accommodating a stator and a rotor, and a case provided in the motor case. A diffuser for guiding the wind discharged from the fan to the air passage in the case is arranged between the air passage and the air passage, and a fan cover is attached to the electric motor case so as to cover the diffuser and the fan, and the diffuser is provided with the diffuser. An electric blower having a passage that guides wind discharged from a fan in an inner peripheral surface direction of the fan cover located on an outer periphery of the fan, A notch provided on the outer peripheral projection in contact with the inner peripheral surface of the fan cover and opened to the outer periphery, while the fan cover is fitted and attached to an outer peripheral projection of one end opening edge of the motor case; With the fan cover, a discharge port was formed to release a part of the wind from the passage to the air passage in the case to the outside. It is characterized by the following.
According to the first aspect of the invention, a part of the wind from the diffuser passage for guiding the wind discharged from the fan toward the inner peripheral surface of the fan cover to the air passage in the motor case is released to the outside through the discharge port. Thus, it is possible to suppress an increase in the static pressure in the direction changing section, although the direction of the wind from the passage to the air path in the case is rapidly changed.
[0009]
Said In order to solve the first problem, an invention according to claim 2 provides a centrifugal fan mounted on a rotor shaft protruding from a motor case accommodating a stator and a rotor, and a case internal wind of the motor case. A diffuser is disposed between the road and the fan, and a fan cover is attached to the motor case so as to cover the diffuser and the fan, and the diffuser is discharged from the fan by surrounding the fan on one surface of a diffuser base. A plurality of first diffuser passages for guiding wind toward an inner peripheral surface of the fan cover, and a plurality of guides for guiding wind sent through the first diffuser passage to the other surface of the diffuser base to the air passage in the case; In the electric blower having the second diffuser passage, A notch provided on the outer peripheral projection in contact with the inner peripheral surface of the fan cover and opened to the outer periphery, while the fan cover is fitted and attached to an outer peripheral projection of one end opening edge of the motor case; With the fan cover, an exhaust port is formed to allow a part of the wind from the first diffuser passage to the second diffuser passage to escape to the outside of the motor case. It is characterized by the following.
[0010]
this Claim 2 In the present invention, the volume of the wind direction changing portion formed between the outlet of the first diffuser passage, the inlet of the second diffuser passage, and the inner peripheral surface of the fan cover is small, and furthermore, the wind is reduced by this converting portion. Although the direction is rapidly changed, Discharge port from direction change section By allowing some of the wind to escape to the outside of the motor case, it is possible to suppress an increase in the static pressure of the direction changing unit.
[0012]
Also, Claim 1 or 2 In practicing the invention of the present invention, as a means for further facilitating the outflow of wind from the discharge port and further suppressing an increase in the static pressure of the direction change portion, Claim 3 As described in the invention, the electric motor case has an extended portion extending in the axial direction from a cylindrical portion formed at one end opening edge portion, and between the extended portion and the opening edge portion of the fan cover opposed to the extended portion. In addition, an outflow guide air passage connected to the discharge port on the downstream side may be provided.
[0014]
Said In carrying out the invention of claim 2 or 3, the direction change unit To further suppress static pressure rise Claim 4 As in the invention, the respective outlets may be provided corresponding to the upstream inlet in the direction in which the air flows into the inlet of the second diffuser passage.
[0016]
Also, in order to solve the second problem, Claim 5 The invention has a built-in electric blower and a filter arranged on the upstream side of the blower in the main body of the cleaner, and the operation of the electric blower sucks air from a dust suction port of the main body of the cleaner, and removes the sucked air. In a vacuum cleaner that captures and cleans dust through the filter, the electric blower is Claims 1 to 4 The electric blower according to any one of the above.
[0017]
this Claim 5 In the invention of Claims 1 to 4 By employing any one of the electric blowers, the suction capacity can be improved with the improvement of the blower efficiency of the blower.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
[0019]
Reference numeral 1 in FIG. 1 exemplifying a canister type vacuum cleaner is a vacuum cleaner body, and a caster (not shown) is attached to a front lower surface thereof, and a pair of rear wheels 2 (only one is shown) is provided at a lower rear portion. ) Is installed. The inside space at the front of the cleaner body 1 is a dust collecting chamber, in which a dust collecting filter 3 such as a paper bag is accommodated. A lid 4 serving as a front upper side wall of the cleaner body 1 opens and closes the dust collection chamber from above, and the filter 3 is detachable with the lid 4 opened.
[0020]
A dust suction port 5 communicating with the dust collection chamber is provided at the front end face of the cleaner body 1, and a connection pipe 7 provided at one end of a dust suction hose 6 is detachably inserted and connected to the mouth 5. An operation handle 8 is provided at the other end of the dust suction hose 6, and various operation switches 9 are provided on the handle 8 to control the operation of an electric blower described later. A suction port (not shown) is detachably inserted into and connected to the operation handle 8 via an extension pipe 10 and the like, and air containing dust passes through the suction port, the extension pipe 10, the dust suction hose 6 and the like communicating with each other. It is configured to be sucked into the dust suction port 5.
[0021]
An electric blower 11 is built in the rear part of the cleaner body 1. As the blower 11 is operated, the air containing dust is sucked into the dust suction port 5 as described above, and the air is passed through the filter 3 arranged on the upstream side of the electric blower 11. The dust can be captured by the filter 3, and thereby the floor and the like can be cleaned. In FIG. 1, reference numeral 12 denotes a carrying handle that is attached to the upper surface of the cleaner body 1 so as to be able to be turned upside down.
[0022]
Next, the configuration of the electric blower 11 will be described with reference to FIGS. The blower 11 includes an electric motor case 15, a fan 16, a fan cover 17, a diffuser 18, and an outlet 19.
[0023]
As shown in FIG. 3, the metal motor case 15 is formed by connecting a case end face plate 22 to a case main body 21. As shown in FIGS. 3 and 4, the case main body 21 includes a cylindrical main body 23 having an opening at one end and a bottom wall at the other end facing the opening, and an edge 24 at one end. Have. A pair of case exhaust ports 25 are opened on the bottom wall side of the main body main part 23 so as to face in the radial direction, and a brush device 26 is inserted between these exhaust ports 25 in a radial direction to be attached. I have.
[0024]
The one-end opening edge portion 24 has an annular flat portion 27 integrally projecting outward from the one-end opening edge of the case main body 21, and a front end of the flat portion 27 facing the bottom wall side in parallel with the main body main portion 23. It is formed of a bent short cylindrical portion 28 and an outer peripheral projection 29 bent outward from the tip of the cylindrical portion 28. The case end face plate 22 having a substantially band-shaped planar shape is provided across the one end opening with both end portions fixed to the annular flat portion 27, and a bearing 30 is attached to a central portion in the longitudinal direction. I have. A bearing 31 is also attached to the center of the bottom wall of the case body 21 in correspondence with the bearing 30.
[0025]
In the case main body 21 having the above-described configuration, a stator 41 in which a stator winding is attached to a stator iron core having a substantially square outer shape when viewed from the axial direction is housed, and inside the stator 41, The arranged rotor 42 is accommodated. The stator 41 is accommodated with the four corners of the stator core pressed against the inner peripheral surface of the main body main portion 23, whereby the inner peripheral surface of the main body main portion 23 and the outer peripheral surface of the stator iron core facing the inner peripheral surface are fitted. Each is formed with an internal air passage 43 (only one is shown in FIG. 3). These in-case air passages 43 communicate with the one end opening on the upstream side and communicate with the case exhaust port 25 on the downstream side.
[0026]
The rotor shaft 44 of the rotor 41 is rotatably supported by the bearings 30 and 31 and protrudes out of the motor case 15 through the case end face plate 22. A commutator 45 is attached to the rotor shaft 44 on the bearing 31 side. A carbon brush 26a of the brush device 26 is elastically pressed and held on the peripheral surface of the commutator 45. The motor case 15, the brush device 26, the stator 41, the rotor 42, the commutator 45, and the like form a motor unit.
[0027]
As shown in FIGS. 3 and 4, the centrifugal metal fan 16 is attached to the rotor shaft 44 via a nut 46 screwed to the shaft 44 outside the motor case 15. The fan 16 is formed by connecting a disc-shaped base plate 48 fixed to the rotor shaft 44 and a cap-shaped cover plate 49 having a suction port 49a at the center with a plurality of arc-shaped blades 50. Have been. An outer peripheral portion of the fan 16 forms a wind discharge port 16a. A diffuser 18 made of synthetic resin is arranged between the fan 16 and the air passage 43 in the case. A metal fan cover 17 is attached to the motor case 15 so as to cover the fan 16 and the diffuser 18. I have. The fan cover 17 having a cup shape having an intake port 17c approaching and facing the intake port 49a has an opening edge 17d on the opposite side to the side where the intake port 17c is provided. It is attached by being fitted to the tip end surface slightly.
[0028]
As shown in FIGS. 3 to 5, the diffuser 18 has a plurality of first diffuser passages 52 provided on one surface of a diffuser base 51 provided close to the back surface of the base plate 48, and a plurality of second diffuser passages provided on the other surface. 53 are provided. The diffuser base 51 has a larger diameter than the base plate 48, the outer peripheral end thereof is close to the inner peripheral surface 17 a of the cylindrical portion of the fan cover 17, and the concave portion formed in the center is screwed to the case end plate 22. Has been stopped. Of course, the rotor shaft 44 passes through the recess.
[0029]
As shown in FIG. 4, each of the first diffuser passages 52 is formed between a plurality of arc-shaped first diffuser blades 54 integrally protruding from a surface of the peripheral portion of the diffuser base 51 on the side of the fan 16. The fan 16 is provided around the periphery of the fan 16. Each of the first diffuser blades 54 is in contact with an inner surface of an annular shoulder portion 17b which is continuous with the inner peripheral surface 17a of the fan cover 17 at right angles. The inlet of each diffuser passage 52 is close to and opposes the outlet 16 a of the fan 16, and the outlet wider than the inlet is close to and opposes the inner peripheral surface of the fan cover 17.
[0030]
As shown in FIG. 5 and the like, each of the second diffuser passages 53 is formed between a plurality of arc-shaped second diffuser blades 55 which are integrally provided on the surface of the diffuser base 51 on the motor case 15 side. The inlet-side portions of these blades 55 are in contact with the annular flat portion 27. The entrance of the second diffuser passage 53 also approaches and is opposed to the inner peripheral surface 17a of the fan cover 17, and the entrance is formed gradually wider from the upstream side to the downstream side in the direction of the flow of the air into it. For convenience, reference numeral A in FIGS. 4 and 5 indicates the region length of the upstream entrance portion, and B in FIG. 4 indicates the region length of the downstream entrance portion. The outlet side of the second diffuser passage 53 faces one end opening of the case body 21.
[0031]
As shown in FIG. 3, the air path between the outlet of the first diffuser passage 52, the inlet of the second diffuser passage 53, and the inner peripheral surface 17 a of the fan cover 17 approaching the air passage is formed by a wind direction changing unit 56. No. The volume of the air passage of the direction changing portion 56 is small, and the wind flow from the outlet of the first diffuser passage 52 to the inlet of the second diffuser passage 53 via the direction changing portion 56 is sharp.
[0032]
Next, the outlet 19 will be described. The discharge port 19 is provided to allow a part of the wind from the outlet of the first diffuser passage 52 to the inlet of the second diffuser passage 53 via the direction changing portion 56 to escape to the outside of the motor case 15. As shown in FIGS. 3 and 4 and the like, the outer peripheral projection 29 is formed with notches 57 provided at predetermined intervals and an opening edge 17 d of the fan cover 17. Since each notch 57 is provided to extend in the circumferential direction of the outer peripheral projection 29, each outlet 19 has an elongated hole extending along the inner peripheral surface 17a of the fan cover 17 as shown in FIG. I am doing. Each of the outlets 19 is provided in the same number as the number of the second diffuser passages 53, and is provided corresponding to the upstream inlet portion indicated by the reference symbol A.
[0033]
When assembling the electric blower 11 having the above configuration into the cleaner body 1, the blower 11 is provided with a rubber 61 for maintaining airtightness and support rubbers 62 and 63 as shown in FIG. A resin exhaust cover 64 is attached. The rubber 61 has a ring shape, is fitted to the outer peripheral surface of the fan cover 17 on the opening edge 17d side, and is fixed with an adhesive. The support rubber 62 is wider than the rubber 61 and is fitted from the outer surface of the annular shoulder 17a of the fan cover 17 to the outer surface of the fitting edge 49 to cover and hide the rubber 61. Airtightness between the support rubber 62 and the fan cover 17 is mainly achieved by the rubber 61. Reference numeral 62a denotes an opening provided in the support rubber 62 to expose the intake port 17c. The other support rubber 63 is fitted on the outer surface of the bottom wall of the main body 23. The electric blower 11 has the support rubbers 62 and 63 supported by support ribs (not shown) in the cleaner main body 1 and is built in the cleaner main body 1 in a vibration-proof manner.
[0034]
The exhaust cover 64 is formed in a cup shape, and is attached with its opening edge closely fitted to the support rubber 62. By this fitting, airtightness between the support rubber 62 and the exhaust cover 64 is maintained. The exhaust cover 64 covers the motor case 15 and has a hole 64a on the bottom wall thereof for projecting a portion covered by the support rubber 63. As shown in FIG. 2 (B), each of the outlets 19 faces the inside of the exhaust cover 64 along the peripheral wall thereof. Therefore, each of the outlets 19 extends through the internal space of the exhaust cover 64. And the case exhaust port 25 are communicated with each other. Although the illustrated exhaust cover 64 has a cylindrical shape, the present invention is not limited to this. When the cord reel is arranged adjacent to the internal structure of the cleaner body 1, for example, the side of the electric blower 11, In order to secure a space for installing the reel, it is possible to appropriately change the shape such as providing a recess for escaping a part of the reel, and to exhaust air to a part of the cleaner body instead of an independent exhaust cover as shown. It can also be implemented by providing a cover equivalent part.
[0035]
On the peripheral wall of the exhaust cover 64, for example, two cover exhaust ports 65 are opened. These exhaust ports 65 are provided at positions shifted in the circumferential direction without directly facing the case exhaust port 25 in the radial direction of the exhaust cover 64. The total area of the cover exhaust port 65 is preferably equal to or less than half the circumference of the peripheral wall of the exhaust cover 64. In particular, setting the number of the cover exhaust ports 65 to one is excellent in that a long air path length from the case exhaust port 25 to the cover exhaust port 65 can be ensured.
[0036]
When the electric blower 11 is operated, the fan 16 is rotated together with the rotation of the rotor 42, so that the fan 16 has a blowing action of discharging air from a peripheral discharge port 16a while sucking air from the suction port 49a. Run. The air discharged from the fan 16 by this blowing action is guided toward the inner peripheral surface 17a of the fan cover 17 through the first diffuser passage 52 having a gradually increasing air passage sectional area from the inlet to the outlet. I will be. Then, the wind that has flowed out of the outlet of the first diffuser passage 52 flows along the inner peripheral surface 17a of the fan cover 17 in the direction change portion 56 having a small air passage volume, while rapidly changing the flow direction in FIG. As shown by an arrow D, it flows into the inlet of the second diffuser passage 53, flows through the passage 53 in the direction of the rotor shaft 44 (centripetal direction), and is guided toward the air passage 43 in the motor case 15. I will be. After the air passing through the air passage 43 in the case cools the stator 41 and the like, the air is discharged to the outside of the motor case 15 through the case exhaust port 25 at a position downstream of the air passage 43.
[0037]
When the flow of the wind passing through the inside of the electric motor case 15 is generated as described above, the air including dust flows from the suction port (not shown) through the extension pipe 10 and the dust suction hose 6 to the dust suction port 5 of the cleaner body 1. The dust is sucked into the dust collection chamber, and the air containing the dust is passed through the filter 3. The air that has passed through the filter 3 is sucked into the fan 16 through the intake port 17c of the fan cover 17. Therefore, this vacuum cleaner can capture dust by the filter 3 and clean the floor and the like.
[0038]
By the way, because of the presence of the first diffuser passage 52 surrounding the fan 16, as described above, the wind volume of the direction changing portion 56 is small, and regardless of how the wind turns sharply, The windage loss in the direction changing unit 56 can be reduced.
[0039]
That is, since the plurality of outlets 19 facing the direction change portion 56 are provided in the outer peripheral projection 29 of the one end opening edge 24 provided in the motor case 15, the direction is changed as shown by the arrow D in FIG. A part of the wind that is going to flow into the inlet of the diffuser passage 53 passes through the plurality of outlets 19 as shown by arrow E in FIG. Is discharged to the back side. By such an exhaust, the excess static pressure in the direction changing unit 56 is released to the outside of the electric motor case 15, and the direction changing unit 56 Can be reduced, so that the loss in the direction changing unit 56 can be reduced. Therefore, since the fan efficiency can be improved, the fan efficiency represented by a value obtained by multiplying the fan efficiency by the motor efficiency can be improved.
[0040]
Moreover, as described above, the plurality of outlets 19 for releasing excess static pressure are formed by elongated holes extending along the inner peripheral surface 17a of the fan cover 17, so that the area of each outlet 19 is ensured to be large and more effective. The excess static pressure can be released. Further, since the number of the outlets 19 is the same as that of the second diffuser passage 53, the excess static pressure can be released from the corresponding outlet 19 on the inlet side of each diffuser passage 53. For this reason, the variation in the static pressure on the inlet side of each second diffuser passage 53 is prevented, and the variation in the pressure of the wind passing through each second diffuser passage 53 can be reduced. It is possible to suppress the occurrence of turbulence when the wind flows in, and it is possible to send the wind smoothly.
[0041]
Moreover, As above In the configuration using the diffuser 18, the upstream entrance portion at the entrance of the second diffuser passage 53 is the narrowest portion in the direction changing portion 56, and therefore the static pressure is easily increased. Since a plurality of outlets 19 are provided corresponding to each other, the wind flows out to the outside and the excess static pressure is released from the upstream inlet portion, so that the effect of suppressing the increase in the static pressure of the direction changing portion 56 is improved. Can be enhanced. By the way, the discharge port 19 is provided not in the upstream side inlet portion but in the downstream side inlet portion continuous to the downstream side thereof, and the static pressure of the direction changing portion 56 is reduced even when excess static pressure is released therefrom. Although it is possible, the static pressure at the upstream-side entrance portion is unlikely to drop significantly, so that the static pressure cannot be reduced sufficiently to the target as a whole of the direction changing section 56.
[0042]
Further, a notch 57 provided in an outer peripheral projection 29 of the transmitter case 15 projecting from the cylindrical portion 28 of the case main body 21 and a fan fitted to the outer peripheral projection 29 are provided at the outlets 19 for releasing excess static pressure. Since it was formed between the opening edge 17d of the cover 17 and the 56 Can be secured in accordance with the length of the cylindrical portion 28. Therefore, the direction change unit 56 The flow of the wind from the air to the discharge port 19 becomes gentle, and the loss in this flow path can be reduced, so that the effect of suppressing an increase in the static pressure of the direction changing portion 56 can be further enhanced.
[0043]
As described above, a part of the wind from the outlet of the first diffuser passage 52 to the inlet of the second diffuser passage 54 is supplied to the electric motor case. Fifteen It is confirmed that the blower efficiency of the electric blower 11 having the above-described configuration in which the discharge port 19 that escapes to the outside is provided and the static pressure of the direction changing unit 56 is suppressed increases over the entire air volume range as shown in the graph of FIG. Was done. In addition, the graph of FIG. 6 shows the amount of air flow at the tip of the extension pipe 10 using an electric vacuum cleaner in which the electric blower 11 having the above-described configuration is incorporated in the cleaner main body 1 in accordance with the evaluation method specified in JIS. Is measured (i.e., the suction power), and the blower efficiency is evaluated using this power.
[0044]
The vacuum cleaner including the electric blower 11 having the above-described configuration can improve the suction power as described above, but on the other hand, discharges a part of the wind to the outside of the motor case 11 through the discharge port 19. The noise is higher than a vacuum cleaner without one. By the way, generally, in order to reduce the noise of the vacuum cleaner, the periphery of the electric motor unit of the electric blower 11 is surrounded by a sound absorbing material such as an exhaust filter such as a porous sponge, a nonwoven fabric, or a paper, and the noise is reduced by the sound absorbing material. Countermeasures are adopted to attenuate this. Therefore, in order to muffle the sound with the discharge port 19, the silencer must be used in a larger amount, which may increase the size and cost of the cleaner body 1.
[0045]
However, as shown in FIG. 2, an exhaust cover 64 made of synthetic resin is attached to the electric blower 11 so as to cover the electric motor part. As described above, the exhaust air path is long, and the sound can be attenuated by the canceling action accompanying the mixing of different sounds.
[0046]
That is, as shown by an arrow F1 in FIG. 2B, the exhaust flowing out of the one case exhaust port 25 does not directly exit from the cover exhaust port 65, but is obstructed by the cover peripheral wall portion 64ba between these exhaust ports 65. Since the air flows to bypass this and flows out of the cover exhaust port 65, the exhaust air path can be lengthened. In particular, the exhaust gas that has flowed out of the other cover exhaust port 65 flows nearly half way around the inner peripheral surface of the exhaust cover 64 as shown by the arrow F2 in FIG. The exhaust air path can be made longer. Therefore, exhaust noise can be attenuated.
[0047]
Further, the speed of the wind flowing out of each outlet 19 near the fan 16 is high. On the other hand, the wind flowing out of the case exhaust port 25 through the first and second diffuser passages 52 and 53 and the in-case air passage 43 in the motor case 15 as shown by an arrow in FIG. The speed is slowed down by the flow path resistance before flowing out, and the sound quality is changed, which is different from the wind coming out of the outlet 19. Then, these mutually different winds, that is, the wind flowing into the exhaust cover 64 along the inner peripheral surface of the exhaust cover 64, and the wind from the case exhaust port 25 as shown by arrows F1 and F2 in FIG. The outflowing winds interfere with each other in the exhaust cover 64, so that the exhaust noise can be attenuated by the noise canceling effect accompanying the mixing.
[0048]
Since the exhaust noise can be reduced by using the exhaust cover 64 as described above, the amount of the silencer disposed around the motor unit can be reduced, and accordingly, the size and cost of the cleaner body 1 increase. Up can be suppressed.
[0049]
7 and 8 show a second embodiment of the present invention. This embodiment has basically the same configuration as that of the first embodiment. Therefore, the same components are denoted by the same reference numerals as those of the first embodiment, and description of the configuration and operation will be given. Are omitted, and different portions will be described below. The difference between the second embodiment and the first embodiment is the configuration around the discharge port.
[0050]
That is, in the second embodiment, the cylindrical portion 28 of the electric motor case 15 is formed with an extension portion 28 a extending from the discharge port 19 to the downstream side of each discharge port 19. In other words, the outer peripheral protruding portion 29 is cut and raised while leaving the extending portion 28a at intervals in the circumferential direction of the cylindrical portion 28. Then, the fan cover 17 is fitted and attached to the tip of the outer peripheral projection 29 projecting outward from the cylindrical portion 28, so that the opening edge 17d of the cover 17 is opposed to each extension portion 28a. An outflow guide air passage 35 is formed between the opposed extending portions 28a and the opening edge 17d so as to be continuous with the discharge port 19 on the downstream side. The configuration other than the above is the same as that of the first embodiment, including portions not shown in FIGS. 7 and 8.
[0051]
Also in the configuration of the second embodiment, a discharge port 19 for releasing a part of the wind from the outlet of the first diffuser passage 52 to the inlet of the second diffuser passage 53 to the outside of the motor case 1 is provided, and the direction changing unit is provided. Since the increase in static pressure at 56 can be suppressed, the first and second problems of the present invention can be solved similarly to the first embodiment. In addition, since the outflow guide air passages 35 connected to the downstream sides of the respective outlets 19 are provided, the air passing through the outlets 19 is guided by the air passages 35, so that the air can be easily emitted from the respective outlets 19. . Therefore, the static pressure rise of the direction changing unit 56 can be further suppressed, and the blowing efficiency of the electric blower 11 can be further improved, and the suction power of the vacuum cleaner including the electric blower 11 can be further improved.
[0052]
【The invention's effect】
The present invention is implemented in the form described above, and has the following effects.
[0053]
According to the electric blower according to the first aspect of the present invention, a part of the wind from the passage of the diffuser that guides the wind discharged from the fan in the direction of the inner peripheral surface of the fan cover to the air passage in the case of the motor case, Since the static pressure in the portion from the passage to the air passage in the case is suppressed by escaping to the outside through the discharge port, the blowing efficiency can be improved.
Claim 2 According to the electric blower according to the invention described in (1), a part of the wind from the first diffuser passage to the second diffuser passage escapes to the outside of the motor case through the discharge port, and a portion from the first diffuser passage to the second diffuser passage. Since the increase in the static pressure of the fan is suppressed, the efficiency of the blower can be improved.
[0054]
Claim 5 According to the vacuum cleaner according to the invention described in the above, Claims 1 to 4 Since the electric blower according to the invention described in (1) is used, the suction power can be improved with the improvement of the blower efficiency of the electric blower.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a configuration of an electric vacuum cleaner having an electric blower according to a first embodiment of the present invention.
FIG. 2A is a longitudinal sectional view showing a configuration of an electric blower according to a first embodiment to which various rubbers and an exhaust cover are attached. FIG. 2B is a cross-sectional view taken along line ZZ in FIG.
FIG. 3 is a side view partially showing the configuration of the electric blower according to the first embodiment;
FIG. 4 is an exploded perspective view showing a configuration of the electric blower according to the first embodiment with a part cut away.
FIG. 5 is a perspective view showing a configuration of a diffuser included in the electric blower according to the first embodiment, as viewed from a second diffuser passage side.
FIG. 6 is a graph comparing the relationship between the air flow rate and the fan efficiency of the electric blower according to the first embodiment and the electric blower according to the related art.
FIG. 7 is a sectional view showing a partial structure of an electric blower according to a second embodiment of the present invention.
FIG. 8 is an exemplary perspective view showing an electric motor case of an electric blower according to a second embodiment, together with a diffuser attached to the electric motor case;
[Explanation of symbols]
1 ... vacuum cleaner body,
3 ... Filter,
5 ... Dust port,
11 ... electric blower,
15 ... motor case,
16 ... Fan,
16a: fan outlet,
17 ... Fan cover,
17a: inner circumferential surface of the fan cover,
17d: Opening edge of fan cover,
18 ... diffuser,
19 ... outlet,
24 ... one end opening of the motor case,
25 ... case exhaust port,
27 ... annular flat part (one end opening part),
28 ... cylindrical part (one end opening part),
28a: Extension part of cylindrical part,
29 ... outer peripheral projection,
35 ... outflow guide part,
41 ... stator,
42 ... rotor
43 ... air passage in the case,
44 ... rotor shaft,
51 ... diffuser base,
52 ... first diffuser passage,
53 ... second diffuser passage,
56 ... direction conversion unit,
57 ... Notch,
64 ... exhaust cover,
65 Cover exhaust port.

Claims (5)

The air discharged from the fan is blown between the centrifugal fan attached to the rotor shaft protruding from the motor case containing the stator and the rotor and the air passage in the case of the motor case. A diffuser that guides a road, a fan cover that covers the diffuser and the fan, and a fan cover that is attached to the motor case, and the diffuser guides wind that is discharged from the fan toward an inner circumferential surface of the fan cover. In the electric blower having located on the outer periphery of the fan,
A notch provided on the outer peripheral projection in contact with the inner peripheral surface of the fan cover and opened to the outer periphery, while the fan cover is fitted and attached to an outer peripheral projection of one end opening edge of the motor case; An electric blower , wherein the fan cover and a fan cover form an exhaust port for releasing part of the wind from the passage to the air passage in the case to the outside . A diffuser is arranged between a centrifugal fan attached to a rotor shaft protruding from a motor case containing a stator and a rotor and a case internal air path of the motor case, and covers the diffuser and the fan. A plurality of first diffusers that attach a fan cover to the electric motor case, and wherein the diffuser surrounds the fan on one surface of a diffuser base and guides air discharged from the fan toward an inner peripheral surface of the fan cover. An electric blower having a passage, and having a plurality of second diffuser passages for guiding wind sent through the first diffuser passage to the other surface of the diffuser base to the air passage in the case,
A notch provided on the outer peripheral projection in contact with the inner peripheral surface of the fan cover and opened to the outer periphery, while the fan cover is fitted and attached to an outer peripheral projection of one end opening edge of the motor case; An electric blower , wherein the fan cover and a fan cover form an exhaust port that allows a part of the wind from the first diffuser passage to the second diffuser passage to escape to the outside of the motor case . The motor case has an extended portion extending in the axial direction from a cylindrical portion formed at an opening edge of one end thereof, and between the extended portion and the opening edge of the fan cover facing the discharge port, The electric blower according to claim 1, wherein an outflow guide air passage is provided downstream of the electric blower. The electric blower according to claim 2, wherein each of the outlets is provided so as to correspond to an upstream inlet portion in a direction in which air flows into an inlet of the second diffuser passage . An electric blower and a filter disposed upstream of the blower are incorporated in the cleaner body, and the operation of the electric blower sucks air from a dust suction port of the cleaner body, and passes the sucked air through the filter. 5. A vacuum cleaner that captures dust and performs cleaning, wherein the electric blower is the electric blower according to claim 1. 6.

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