JP2020204275A - Blower - Google Patents

Abstract

To reduce the noise of a blower.SOLUTION: A blower includes: a volute case defining a suction port, a volute chamber, and a delivery port; an impeller rotatably supported in the volute chamber; a motor connected with the impeller so as to drive the impeller; an outer case for storing the volute case and the motor; and a sound absorbing member positioned between the volute case and the outer case and on an extension line of a rotation axis of the motor.SELECTED DRAWING: Figure 7

Description

The present disclosure relates to a blower, which is a type of working machine.

A blower, which is a type of working machine, is known. The blower is held or worn by the user in a predetermined position and blows out air to collect scattered matter such as fallen leaves and mowed grass. As this type of blower, a hand-held blower and a backpack type blower are widely used.

Patent Document 1 discloses a backpack type blower. The blower includes a volute case, an impeller rotatably supported in the volute chamber of the volute case, a motor connected to the impeller to drive the impeller, and an outer case for accommodating the volute case and the motor.

JP-A-2016-204930

In the blower described above, since the motor is arranged in the outer case, the noise of the motor is suppressed from being dissipated to the surroundings. The present specification provides a technique capable of further suppressing the noise of the motor from diverging to the surroundings by further improving it.

The techniques disclosed herein are embodied in blowers held or worn by the user (eg, handheld blowers or backpack blowers). This blower is connected to a volute case that defines a suction port, a volute chamber, and a discharge port, an impeller that is rotatably supported in the volute chamber, and a motor that drives the impeller, and a volute case and a motor. It is provided with a sound absorbing member located between the outer case to be accommodated and the volute case and the outer case and located on an extension line of the rotation axis of the motor.

In the blower described above, the sound absorbing member is arranged on the extension line of the rotation shaft of the motor. According to such a configuration, the noise of the motor is not only confined in the outer case but also absorbed by the sound absorbing member. As a result, it is possible to effectively suppress the noise of the motor from diverging to the surroundings.

The perspective view which shows the appearance of the blower 10 of an Example. It is an exploded perspective view of a blower 10. It is sectional drawing which shows the internal structure of a blower 10. Arrow F in the figure schematically shows the flow of air in the air path 42. It is a figure which shows the internal structure of a blower 10 by removing a part of an outer case 14. Arrow F in the figure schematically shows the flow of air in the air paths 42, 42a, 42b. It is sectional drawing of the volute case. It is an exploded perspective view of a volute case. It is an exploded perspective view of a part of a blower 10, and is the figure which shows the sound absorbing member 62, 64, 66, 68.

In one embodiment of the present technology, the sound absorbing member is also located on an extension of the rotation axis of the impeller. According to such a configuration, the noise of the impeller can also be effectively absorbed.

In one embodiment of the present technology, the sound absorbing member may face the suction port of the volute case. According to such a configuration, the wind noise of the air generated from the volute case can also be effectively absorbed.

In one embodiment of the present technology, the sound absorbing member may be attached to the inner surface of the outer case. According to such a configuration, it is easy to arrange the sound absorbing member at an appropriate position when manufacturing the blower.

In one embodiment of the present technology, the sound absorbing member may be made of a sponge. The sponge referred to here broadly means a spongy (or porous) material, and the material constituting the sponge is not particularly limited. The sound absorbing member can be made of various materials such as a resin material and a rubber material.

In one embodiment of the present technology, the sound absorbing member may have a first sound absorbing member and a second sound absorbing member facing each other via a motor. According to such a configuration, the noise of the motor can be effectively absorbed.

In one embodiment of the present technology, the blower may further include a tubular third sound absorbing member that surrounds the motor in a radial direction perpendicular to the rotation axis of the motor. With such a configuration, the noise of the motor can be further absorbed.

In one embodiment of the present technology, the volute case may have a discharge duct that projects outward from the outer case. In this case, the outer case may have a duct opening through which the discharge duct passes. Then, the blower may further include a fourth sound absorbing member provided in the gap between the duct opening and the discharge duct. With such a configuration, it is possible to effectively suppress the noise of the motor from leaking from the duct opening.

In the above-described embodiment, since the fourth sound absorbing member is provided, a relatively wide gap can be provided between the duct opening and the discharge duct. Therefore, the outer case may support the volute case via at least one anti-vibration member. According to such a configuration, it is possible to suppress the vibration of the volute case and the motor from being transmitted to the user.

In one embodiment of the present technology, the blower may be a backpack type blower mounted on the back of the user. Alternatively, in another embodiment, the blower may be a handheld blower that has a grip for the user to grip and is held in a predetermined position by the user.

Hereinafter, typical and non-limiting specific examples of the present invention will be described in detail with reference to the drawings. This detailed description is intended to provide those skilled in the art with details for implementing the preferred examples of the invention and is not intended to limit the scope of the invention. In addition, the additional features and inventions disclosed below can be used separately or together with other features and inventions to provide a further improved blower.

In addition, the combination of features and processes disclosed in the following detailed description is not essential for carrying out the present invention in the broadest sense, and is particularly for explaining a typical specific example of the present invention. It is to be described. In addition, the various features of the above and below representative examples, as well as the various features of those described in the independent and dependent claims, are described herein in providing additional and useful embodiments of the invention. It does not have to be combined according to the specific examples given or in the order listed.

All features described herein and / or claims are, apart from the constitution of the features described in the examples and / or claims, as a limitation to the disclosure at the time of filing and the specific matters claimed. It is intended to be disclosed individually and independently of each other. In addition, all numerical ranges and statements relating to groups or groups are made with the intention of disclosing their intermediate composition as a limitation to the disclosure at the time of filing and the specific matters claimed.

The blower 10 of the embodiment will be described with reference to the drawings. The blower 10 of this embodiment is a backpack type blower, and is a kind of working machine mainly used outdoors. The blower 10 is mounted on the back surface of the user in a predetermined posture, and blows out air to collect scattered substances such as fallen leaves and cut grass. The blower 10 is a work machine using the battery pack 2 as a power source, and the two battery packs 2 are detachably configured. The number of battery packs 2 is not limited to two.

As shown in FIGS. 1 to 4, the blower 10 includes a volute pump 12, an outer case 14 accommodating the volute pump 12, and a pair of shoulder straps 16. The pair of shoulder straps 16 are fixed to the outer case 14, and the outer case 14 is fixed to the back of the user. The outer case 14 supports the volute pump 12 via a plurality of anti-vibration members 13. The anti-vibration member 13 is an elastic member such as a spring or rubber. As an example, the outer case 14 in this embodiment is composed of a plurality of segments (parts) including a base member 14a and a cover member 14b. The cover member 14b is assembled to the base member 14a, and the base member 14a and the cover member 14b face each other via the volute pump 12.

The outer case 14 is provided with two battery interfaces 18. One battery pack 2 is detachably attached to each battery interface 18. Each battery interface 18 is provided with a battery terminal 18a. The battery terminal 18a is electrically connected to the battery pack 2 attached to the battery interface 18. The battery terminal 18a includes a pair of power terminals and a plurality of communication terminals. The number of battery interfaces 18 is not limited to two, and the blower 10 may include at least one battery interface 18.

The blower 10 includes a discharge nozzle 20 connected to the volute pump 12 and an operation grip 22 provided on the discharge nozzle 20. The operation grip 22 is provided with a plurality of switches operated by the user, such as a trigger 24. When the user operates the trigger 24, power is supplied from one or two battery packs 2 to the volute pump 12, and the volute pump 12 is activated. As a result, the blower 10 discharges air from the discharge nozzle 20.

The volute pump 12 includes a volute case 26, an impeller 28 located in the volute case 26, and a motor 30 connected to the impeller 28. The volute case 26 defines a suction port 26a, a volute chamber 26b, and a discharge port 26c. The volute chamber 26b extends in a spiral shape between the suction port 26a and the discharge port 26c. The impeller 28 is fixed to the rotating shaft 30a of the motor 30 and is rotatably supported in the volute chamber 26b. The motor 30 receives power from the battery pack 2 and rotationally drives the impeller 28. When the impeller 28 is rotationally driven, the air sucked from the suction port 26a is accelerated by the volute chamber 26b and then discharged from the discharge port 26c. A discharge nozzle 20 is connected to the discharge port 26c of the volute case 26. Although not particularly limited, in the blower 10 of the present embodiment, when the user mounts the blower 10 in a predetermined posture, the motor 30 is located between the user and the volute case 26, and the suction port 26a of the volute case 26 is , Open toward the back of the user (ie, the anti-user side).

Here, the discharge port 26c of the volute case 26 is located outside the outer case 14. The volute case 26 has a discharge duct 26d protruding from the outer case 14, and the discharge port 26c is located at the tip of the discharge duct 26d. The outer case 14 is provided with a duct opening 14c through which the discharge duct 26d passes. As described above, the outer case 14 supports the volute pump 12 via a plurality of anti-vibration members 13. Therefore, a gap is provided between the discharge duct 26d and the duct opening 14c, which allows the volute case 26 to be displaced relative to the outer case 14.

On the other hand, most of the volute pump 12 including the motor 30 is located in the outer case 14. In particular, since the suction port 26a of the volute case 26 is located inside the outer case 14, the outer case 14 is provided with external suction ports 40a and 40b. The external suction ports 40a and 40b are one or more openings formed in the outer case 14. Air paths 42, 42a, 42b extending from the external suction ports 40a, 40b to the suction ports 26a of the volute case 26 are defined inside the outer case 14.

The blower 10 further includes a motor controller 32. The motor controller 32 is electrically connected to the battery terminal 18a and the motor 30. As a result, the discharge power of the battery pack 2 is supplied to the motor 30 via the motor controller 32. The motor controller 32 has one or more power switching elements built-in, and controls the electric power supplied to the motor 30. Although not particularly limited, the motor 30 in this embodiment is a brushless DC motor, and the motor controller 32 has an inverter circuit built-in. The motor controller 32 faces the air path 42 in the outer case 14. As a result, the temperature rise of the motor controller 32 can be suppressed by the air flowing through the air path 42.

The motor controller 32 is assembled to the unit holder 34. The unit holder 34 is located inside the outer case 14, and is assembled to the outer case 14. In addition to the motor controller 32, a battery terminal 18a is also assembled to the unit holder 34. With such a configuration, in the manufacturing process of the blower 10, the motor controller 32 and the battery terminal 18a are first assembled to the unit holder 34. Next, the unit holder 34 is assembled to the base member 14a of the outer case 14 together with the motor controller 32 and the battery terminal 18a. Since it is not necessary to individually assemble the motor controller 32 and the battery terminal 18a to the outer case 14, the motor controller 32 and the battery terminal 18a can be easily assembled.

The specific configuration of the unit holder 34 is not particularly limited. However, in the blower 10 of this embodiment, the unit holder 34 is assembled over both the base member 14a (first segment) and the cover member 14b (second segment). According to such a configuration, the rigidity of the outer case 14 can be increased by the unit holder 34. Further, since the unit holder 34 is stably fixed to the outer case 14, vibration of the motor controller 32 and the battery terminal 18a can be suppressed. As a result, it is possible to prevent electrical defects (for example, poor contact).

As described above, since the motor 30 is arranged in the outer case 14, the noise of the motor 30 is suppressed from being emitted to the surroundings. However, the outer case 14 is formed with external suction ports 40a and 40b, and it is inevitable that the noise of the motor 30 leaks to the outside from the external suction ports 40a and 40b. In this regard, in the blower 10 of this embodiment, the external suction ports 40a and 40b are provided on the bottom portion 14d of the outer case 14. When the user wears the blower 10 in a predetermined posture, the bottom portion 14d of the outer case 14 faces the ground, and the external suction ports 40a and 40b open vertically downward. That is, when the user uses the blower 10, the external suction ports 40a and 40b of the outer case 14 are opened toward the ground. As a result, the noise leaking from the external suction ports 40a and 40b is mainly emitted toward the ground and is suppressed from being emitted to the surroundings.

Here, in the above-mentioned predetermined posture (that is, the posture when mounted on the back surface of the user), the suction port 26a of the volute case 26 opens in the horizontal direction. That is, the direction in which the suction port 26a of the volute case 26 opens and the direction in which the external suction ports 40a and 40b of the outer case 14 open are orthogonal to each other. The direction in which the suction port 26a of the volute case 26 opens is parallel to the rotation axis 30a of the motor 30, that is, parallel to the rotation axis of the impeller 28.

The positions of the external suction ports 40a and 40b are not limited to the bottom portion 14d of the outer case 14. However, if the external suction ports 40a and 40b are located at the bottom 14d of the outer case 14, the external suction ports 40a and 40b will be at relatively low positions when the user attaches the blower 10 in a predetermined posture. Be placed. Therefore, it is possible to effectively suppress the noise leaking from the external suction ports 40a and 40b from being emitted to the surroundings. From this viewpoint, the positions of the external suction ports 40a and 40b are preferably closer to the bottom portion 14d of the outer case 14. Therefore, the external suction ports 40a and 40b may be located below the rotation shaft 30a of the motor 30, for example, or may be located below the volute case 26.

In the blower 10 of this embodiment, the bottom portion 14d of the outer case 14 has a ground contact surface 44 that comes into contact with the ground when the user places the blower 10 on the ground. However, the external suction ports 40a and 40b are provided at positions different from the ground plane 44. If the external suction ports 40a and 40b are provided on the ground plane 44, when the user places the blower 10 on the ground, the external suction ports 40a and 40b are completely blocked by the ground, for example, the motor 30. It becomes a problem when it keeps rotating due to inertia. Therefore, at least a part of the external suction ports 40a and 40b can be provided at a position different from the ground contact surface 44.

As shown in FIG. 4, in the blower 10 of this embodiment, the external suction ports 40a and 40b have a first external suction port 40a and a second external suction port 40b. The air paths 42, 42a, and 42b have a first air path 42a extending upward from the first external suction port 40a and a second air path 42b extending upward from the second external suction port 40b. The first air path 42a and the second air path 42b are provided along the battery interface 18 and are adjacent to the battery pack 2 attached to the battery interface 18. According to such a configuration, the temperature rise of the battery pack 2 can be suppressed by the air flowing through the air paths 42a and 42b.

In particular, in the blower 10 of this embodiment, the battery interface 18 is provided between the first air path 42a and the second air path 42b. The first air path 42a is adjacent to the battery pack 2 attached to one battery interface 18, and the second air path 42b is adjacent to the battery pack 2 attached to the other battery interface 18. Thereby, the temperature rise of each battery pack 2 can be effectively suppressed.

In the blower 10 of this embodiment, the amount of air passing through the external suction ports 40a and 40b of the outer case 14 is 95% or more of the amount of air passing through the suction ports 26a of the volute case 26. In other words, the outer case 14 has substantially no other open openings except for the external suction ports 40a and 40b. As a result, the noise of the motor 30 is prevented from leaking to the outside of the outer case 14 from other than the external suction ports 40a and 40b.

Next, the structure of the volute case 26 will be described with reference to FIGS. 5 and 6. As shown in FIGS. 5 and 6, the volute case 26 has a case body 52 that defines the volute chamber 26b, and a bell mouth 54 that protrudes from the case body 52 and defines the suction port 26a. The bell mouth 54 has a frustum shape in which the cross-sectional area expands from the suction port 26a toward the volute chamber 26b. The volute case 26 is made of a resin material, and is formed by combining a plurality of parts. Although not particularly limited, each part is manufactured by mold molding.

In the volute case 26, the thickness required for the bell mouth 54 (particularly, the end portion of the bell mouth 54) is larger than the thickness required for the case body 52. Therefore, if the bell mouth 54 is integrally formed with the case body 52, the component in which they are integrated has an uneven thickness structure. In order to accurately mold such a part with a mold, it is conceivable to provide a so-called meat steal on the thick bell mouth 54. However, when meat stealing is provided on the portion of the bell mouth 54, a large number of holes and grooves are formed on the surface of the bell mouth 54, and the generation of wind noise due to the formation becomes a problem.

With respect to the above points, the volute case 26 in this embodiment is configured by combining a plurality of parts. In particular, the plurality of parts constituting the volute case 26 include a first part 56 and a second part 58. The first component 56 constitutes at least a part of the case body 52. The second component 58 is assembled to the first component 56 and constitutes at least a part of the bell mouth 54. As described above, when at least a part of the bell mouth 54 is composed of a component different from the case body 52, the uneven thickness structure of the first component 56 constituting the case body 52 is eliminated or suppressed, and the bell mouth It is possible to eliminate the need to provide meat stealing on the surface of 54. As a result, the surface of the bell mouth 54 (particularly, the surface of the tip portion of the bell mouth 54) can be smoothed.

Although it is an example, in this embodiment, the first component 56 also constitutes a part of the bell mouth 54, and the second component 58 is an annular member and constitutes a tip portion of the bell mouth 54. There is. When the second component 58 is an annular member, the suction port 26a of the volute case 26 can be formed with high accuracy and a smooth surface.

In this embodiment, the first component 56 is provided with a plurality of recesses 56a. This is a meat theft provided on the first component 56. Similarly, the second component 58 is also provided with a plurality of recesses 58a. This is also a meat theft provided in the second component 58. However, these recesses 56a and 58a are located on the mating surface of the first component 56 and the second component 58. Therefore, when the first component 56 and the second component 58 are combined, these recesses 56a and 58a are located between the first component 56 and the second component 58 and are not exposed to the outside. Therefore, the surface (inner surface) of the bell mouth 54 can be formed smoothly while providing meat stealing on the respective parts 56 and 58.

As shown in FIGS. 3, 4, and 7, the blower 10 includes a plurality of sound absorbing members 62, 64, 66, 68. The plurality of sound absorbing members 62, 64, 66, 68 are located inside the outer case 14. The plurality of sound absorbing members 62, 64, 66, 68 include a first sound absorbing member 62, a second sound absorbing member 64, a third sound absorbing member 66, and a fourth sound absorbing member 68. Each of the sound absorbing members 62, 64, 66, 68 is composed of a sponge. The sponge referred to here broadly means a spongy (or porous) material, and the material constituting the sponge is not particularly limited. The sound absorbing members 62, 64, 66, 68 can be made of various materials such as a resin material and a rubber material.

The first sound absorbing member 62 is attached to the inner surface of the cover member 14b of the outer case 14 and faces the suction port 26a of the volute case 26. The first sound absorbing member 62 is located on an extension line of the rotation shaft 30a of the motor 30, and can effectively absorb the noise of the motor 30. As described above, the impeller 28 is fixed to the rotating shaft 30a of the motor 30. Therefore, the first sound absorbing member 62 is also located on the extension line of the rotation axis of the impeller 28. The first sound absorbing member 62 generally has a disc shape.

The second sound absorbing member 64 is attached to the inner surface of the base member 14a of the outer case 14, and is located between the base member 14a and the motor 30. The second sound absorbing member 64 is also located on the extension line of the rotation shaft 30a of the motor 30, and can effectively absorb the noise of the motor 30. The second sound absorbing member 64 is also located on an extension line of the rotation axis of the impeller 28. The second sound absorbing member 64 faces the first sound absorbing member 62 with the motor 30 interposed therebetween. By arranging the motor 30 between the two sound absorbing members 62 and 64, the noise of the motor 30 can be effectively absorbed.

The third sound absorbing member 66 is attached to the base member 14a of the outer case 14. The third sound absorbing member 66 has a tubular shape, and is arranged so as to surround the motor 30 from the radial direction perpendicular to the rotation shaft 30a of the motor 30. Here, at least a part of the third sound absorbing member 66 may be integrally formed with the second sound absorbing member 64. Further, the third sound absorbing member 66 does not necessarily have a tubular shape, but may have a simple plate shape and may be provided only in a part in the circumferential direction centered on the motor 30. ..

The fourth sound absorbing member 68 is attached to the discharge duct 26d of the volute case 26, and is provided in the gap between the discharge duct 26d of the volute case 26 and the duct opening 14c of the outer case 14. As described above, the outer case 14 supports the volute case 26 via a plurality of anti-vibration members 13. Therefore, the volute case 26 can be displaced with respect to the outer case 14, and in order to allow the displacement, it is necessary to provide a gap between the discharge duct 26d and the duct opening 14c. However, if a gap is provided between the discharge duct 26d and the duct opening 14c, the noise of the motor 30 may leak to the outside of the outer case 14 through the duct opening 14c. Since the fourth sound absorbing member 68 is made of a flexible sponge while suppressing the leakage of such noise, the relative displacement of the volute case 26 can be allowed.

2: Battery pack 10: Blower 12: Volute pump 13: Anti-vibration member 14: Outer case 14a: Base member 14b: Cover member 14c: Duct opening 14d: Bottom 16: Shoulder strap 18: Battery interface 18a: Battery terminal 20: Discharge Nozzle 22: Operation grip 24: Trigger 26: Volute case 26a: Suction port 26b: Volute chamber 26c: Discharge port 26d: Discharge duct 28: Impeller 30: Motor 32: Motor controller 34: Unit holder 40a, 40b: External suction port 42 , 42a, 42b: Air path 44: Ground plane 52: Case body 54: Bell mouth 56: First member of the volute case 58: Second member of the volute case 62, 64, 66, 68: Sound absorbing member

Claims (10)

A blower held or worn by the user
A volute case that defines the suction port, volute chamber, and discharge port,
An impeller rotatably supported in the volute chamber and
A motor connected to the impeller and driving the impeller,
An outer case that houses the volute case and the motor,
A sound absorbing member located between the volute case and the outer case and located on an extension of the rotation axis of the motor,
Blower with. The blower according to claim 1, wherein the sound absorbing member is also located on an extension line of the rotation axis of the impeller. The blower according to claim 1 or 2, wherein the sound absorbing member faces the suction port of the volute case. The blower according to any one of claims 1 to 3, wherein the sound absorbing member is attached to an inner surface of the outer case. The blower according to any one of claims 1 to 4, wherein the sound absorbing member is made of a sponge. The blower according to any one of claims 1 to 5, wherein the sound absorbing member has a first sound absorbing member and a second sound absorbing member facing each other via the motor. The blower according to any one of claims 1 to 6, further comprising a tubular third sound absorbing member that surrounds the motor in a radial direction perpendicular to the rotation axis of the motor. The volute case has a discharge duct that projects to the outside of the outer case.
The outer case has a duct opening through which the discharge duct passes.
The blower according to any one of claims 1 to 7, further comprising a fourth sound absorbing member provided in a gap between the duct opening and the discharge duct. The blower according to claim 8, wherein the outer case supports the volute case via at least one anti-vibration member. The blower according to any one of claims 1 to 9, wherein the blower is a backpack type blower mounted on the back surface of a user.

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