This application claims priority to Japanese patent application serial number 2018425897, filed on Jul. 2, 2018, the contents of which are incorporated herein by reference in their entirety;
The present invention generally relates to a cleaner, for instance a vacuum cleaner.
AC-powered cleaners, as well as rechargeable cleaners, have been known and widely used for years for cleaning purposes. In an AC-powered cleaner, it is required to connect a power cord thereof to a power outlet. This is not required for a rechargeable cleaner. Accordingly when cleaning is conducted in a vehicle cabin or in a vehicle cargo compartment by using the rechargeable cleaner; better usability can be achieved, compared to using the AC-powered cleaner. Furthermore, it is often easier to carry a rechargeable cleaner than an AC-powered cleaner. Japanese Laid-Open Patent Publication No. 2014476567 discloses a cleaner that is powered by a rechargeable battery.
In the cleaner disclosed in the above-described patent publication, which is one version of a cleaner powered by a rechargeable battery, a dust collection nozzle is configured to be integrally formed with a cleaner main body; the cleaner main body being provided with a battery attachment portion. Thus, when cleaning is conducted, it may be necessary to move an entire cleaner, including the main body in order to move the dust collection nozzle. In this respect, when this type of rechargeable cleaner, which is sometimes referred to as a stick-type cleaner or a nozzle-integrated-type cleaner; is used in a relatively small space, such as, for example, in the vehicle cabin or in the vehicle cargo compartment, usability may be decreased. Alternatively; in a rechargeable cleaner in which a dust collection nozzle is attached to a cleaner main body via a flexible hose, which is sometimes referred to as a nozzle-separation-type cleaner, cleaning can be conducted such that only the dust collection nozzle is moved, without the cleaner main body also being moved. Thus, improved usability can be achieved in a nozzle-separation-type cleaner, in comparison to the nozzle-integrated-type cleaner. However, nozzle-separation-type cleaners are bulky, thereby making it difficult to store. This can be especially problematic when storage space is limited, such as in a vehicle.
Therefore, there is a need for a rechargeable, nozzle-separation-type cleaner in which the dust collection nozzle is attached to the cleaner main body via the hose that has improved compactness.
In one exemplary embodiment of the present disclosure, a cleaner comprises a main body that houses a dust collection mechanism powered by an electric motor as a drive source, a hose that is connected to a hose connection port that is provided in the main body, and a dust collection nozzle that is connected to a tip end of the hose. Furthermore, the electric motor is housed in the main body so as to be tilted with regard to a base portion of the main body.
According to this embodiment, the cleaner is made to be compact in a direction of the base portion of the main body, in comparison to a configuration where the electric motor is disposed parallel to the base portion.
In another exemplary embodiment of the present disclosure, the main body includes a battery attachment portion to which a rechargeable battery is attached, and the rechargeable battery is attached to and detached from the battery attachment portion in a horizontal direction.
According to this embodiment, an attachment space for attaching the battery pack is made to be compact in the up-to-down direction, in comparison to a configuration where the battery pack is attached to and detached from the up-to-down direction.
In another exemplary embodiment of the present disclosure, the base portion of the main body includes a leg.
According to this embodiment, the main body can be placed in a stable manner. Furthermore, the leg may serve as a guard against surrounding objects.
In another exemplary embodiment of the present disclosure, the main body includes an exhaust port from which a dust collection airflow generated by driving of the dust collection mechanism is discharged. Furthermore, the main body also includes a protrusion that is provided in the main body such that when the exhaust port faces an installation surface, the protrusion contacts the installation surface and a gap is formed between the exhaust port and the installation surface.
According to this embodiment, when the main body is placed such that the exhaust ports face the installation surface, the protrusion contacts the installation surface, and thus the exhaust ports is not blocked by the installation surface. As a result, exhausting efficiency and suction power can be maintained.
In another exemplary embodiment of the present disclosure, the main body includes a dust bag housing portion that houses a dust bag that is connected to the hose connection port. The main body also includes a cover by which the dust bag housing portion is opened and closed. Furthermore, when the dust bag is not housed in the dust bag housing portion, the cover is configured not to be completely closed,
According to this embodiment, when the dust bag is not attached to the dust bag housing portion, the cover cannot be closed. Thus, a user can recognize a fact that that the dust bag is not attached to the bag housing portion.
In another exemplary embodiment of the present disclosure, a cleaner comprises a main body that houses a dust collection mechanism powered by an electric motor as a drive source, a hose connected to a hose connection port provided in the main body, and a dust collection nozzle connected to a tip end of the hose. Furthermore, the electric motor is housed in the main body so as to be tilted with regard to a base portion of the main body An intermediate portion of the hose is configured to be held at a front portion of the main body. Furthermore, a total length of the main body and the intermediate portion of the hose when held at the front portion of the main body is less than 360 mm, the total height thereof is less than 210 mm, and a total width thereof is less than 140 mm including the hose that is held at the front portion of the main body.
According to this embodiment, the cleaner is made to be compact.
In another exemplary embodiment, a cleaner comprises a main body, a dust bag housing portion located within the main body and being configured to receive a dust bag. The main body also comprises a stopper pivotably connected to a side wall of the main body, such that an engagement portion thereof is biased towards the side wall of the main body.
According to this embodiment, the stopper portion may interfere with the closing of a cover when the dust bag has not been received by the dust bag housing portion. Accordingly, a user array be able to determine if the dust bag has not been installed before using the cleaner.
The detailed description set forth below, when considered with the appended drawings, is intended to be a description of exemplary embodiments of the present invention and is not intended to be restrictive and/or to represent the only embodiments in which the present invention can be practiced. The term “exemplary” used throughout this description means “serving as an example, instance, or illustration,” and should not necessarily be construed as preferred or advantageous over other exemplary embodiments. The detailed description includes specific details for the purpose of providing a thorough understanding of the exemplary embodiments of the invention. It will be apparent to those skilled in the art that the exemplary embodiments of the invention may be practiced without these specific details. In some instances, these specific details refer to well-known structures, components and/or devices that are shown in block diagram form in order to avoid obscuring significant aspects of the exemplary embodiments present herein.
Representative, non-limiting embodiments according to the present disclosure will be described with reference to
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A stepped portion 16 that is recessed by a predetermined depth in the forward direction may be formed in the lower portion on the rear surface side of the main body case 11. A battery attachment portion 17 may be formed on the front side surface of the stepped portion 16. As shown in
The battery pack 18 may be attached to the battery attachment portion 17 by sliding the battery pack 18, for example, from the right to the left as shown in an outlined arrow in
The battery pack 18 may be, for example, a lithium-ion battery whose rated voltage is 10.8 volts and whose capacity is 1.5 Ah (ampere hour). By recharging the battery pack 18 with a separately-prepared dedicated charger, it can be repeatedly used. The battery pack 18 may be very versatile, and it can be utilized as a power source for a rechargeable electric power tool such as, for example, a screw driver.
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The dust collection mechanism 20 may be arranged behind the dust bag housing portion 22. The dust collection mechanism 20 may include an electric motor 21 serving as a drive source, a dust collection fan 24 that is rotated by the electric motor 21, and a fan case 25 that covers the dust collection fan 24. The electric motor 21 may be screw fixed to a base stand portion 11a that is integrally formed with an inner surface of the main body case 11. As shown in
As discussed above, the electric motor 21 may be disposed such that the motor axis line M thereof is non-parallel and/or non-perpendicular to a base portion 11B of the main body case 11. Instead, the motor axis line M may be tilted so as to be displaced in the upward direction, extending from the front to the rear. Because of this configuration, an adequate space can be obtained between the electric motor 21 and the base portion 11B. By utilizing this space, the above-mentioned stepped portion 16 may be provided below at least a portion of the electric motor 21. Accordingly, the tilted arrangement of the electric motor 21 allows the cleaner 1 to be made more compact in the front-to-rear direction. Furthermore, using a configuration where the battery pack 18 is attached to the stepped portion that may be obtained because of the tilted arrangement of the electric motor 21, the cleaner 1 can be made even more compact in the front-to-rear direction.
In some embodiments, the diameter of the fan case 25 may be larger than the length (e.g., the length along the motor axis line M) of the dust collection mechanism 20. Because of the tilting arrangement of the electric motor 21, the larger size of the fan case 25 affecting the size of the cleaner 1 in an up-to-down direction may be mitigated.
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The dust collection fan 24 may be attached to an output shaft of the electric motor 21. When the electric motor 21 runs, the dust collection fan 24 may rotate. A centrifugal fan may be used as the dust collection fan 24. When the dust collection fan 24 is rotated, a flow of dust collection air may be generated along the dust collection axis line S, extending from the hose 2 to the dust bag 23. Dust may be collected within the interior of the dust bag 23, having passed through the hose 2 by the flow of dust collection air. After the dust is collected in the dust bag 23, the flow of dust collection air may flow obliquely to the dust collection axis S, so as to change a flow direction towards the upward and rearward direction. For example, the direction of the flow of dust collection air may be changed to essentially the direction of a motor axis M of the electric motor 21. The dust collection air may then enter the interior of the fan case 25. In
The flow of the dust collection air introduced into the interior of the fan case 25 may be guided along the circumference of the fan case 25, so as to flow obliquely, in the upper and lower directions to the rear along the motor axis M of the electric motor 21. A plurality of exhaust ports 11b may be provided on the rear surface of the main body case 11 in the vicinity of an area where the axis M of the electric motor 21 intersects with the rear surface of the main body case 11. Dust collection air that flows along the motor axis M of the electric motor 21 may be discharged to the outside of the main body case 11 through the plurality of exhaust ports 11b.
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The configuration in which the plurality of exhaust ports 11b are provided in the large area, as discussed above, can be obtained by adopting a configuration in which the battery pack 18 (or 19) is attached to and removed from the battery attaching portion 17 by sliding in the left-to-right direction. For example, a lateral insertion configuration of the battery pack 18 (or 19) may be adopted. By adopting this lateral insertion configuration, the battery attachment portion 17 can be arranged in the stepped portion 16 provided on approximately the lower half portion of the rear surface of the main body case 11. In some instances, the battery pack 18 (or 19) may have a generally rectangular shape, thereby potentially necessitating a battery attachment portion 17 that has a dimension larger in one direction. By aligning the battery attachment portion 17 such that the battery pack 18 (or 19) may be slidably attached in the lateral direction, the battery attachment portion 17 may be positioned within stepped portion 16. In contrast, in a case where the battery pack 18 (or 19) is attached to and removed from the battery attachment portion 17 in the up-to-down direction (a vertical insertion configuration), the longer dimension of the battery attachment portion 17 may be required to encroach the rear surface of the main body case 11 above the stepped portion 16. This may result in an area for the exhaust ports 11b being smaller, thereby reducing the suction force.
A protrusion 27 may be formed below the exhaust ports 11b and above the stepped portion 16. The protrusion 27 may be formed so as to protrude in the rearward direction from the rear surface of the main body case 11. When the cleaner 1 is placed such that the rear surface of the main body case 11 is placed on and faces an installation surface, the protrusion 27 may contact the installation surface. Because the protrusion 27 contacts the installation surface, the exhaust ports 11b may not be substantially blocked by the installation surface. Because of this configuration, the cleaner 1 may be used in a manner such that the rear surface of the main body 10 faces a vehicle floor, a sheet surface, etc.
Elastic rubber legs 26 may be attached to the base portion 11B of the main body case 11. As shown in
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The cover 30 may be held by an opening of the dust bag housing portion 22 so as to be rotatable in generally the up-to-down direction about two hinges 30a disposed on the lower side of the cover 30. When the cover 30 is disengaged from the two hinges 30a, the cover 30 may be removed from the main body case 11. A closing claw 30b, which is used for locking a closed state of the cover 30 by engaging with the opening of the dust bag housing portion 22, may be formed in the upper portion of the cover 30. By the closing claw 30b being elastically engaged with the opening of the dust bag housing portion 22, the cover 30 may be held at a closed position.
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Dust collection air that is discharged from the plurality of the exhaust ports 11b may be ejected from a tip end of the blower duct 35. Mud that is attached to, for example, a floor mat or a tire of a vehicle may be blown away with the dust collection air ejected from the blower duct 35. In this way, the cleaner 1 may also be used for a blower, by attaching the blower duct 35 to the rear surface of the main body 10. When the cleaner 1 is used for the blower, the user may hold the handle 15 such that the blower duct 35 extends in the forward direction when viewed from the user's position.
According to the above-described cleaner 1 of the present embodiment, the electric motor 21 may be housed so as to be tilled with regard to the base portion 11B of the main body case 11. Because of this configuration, the main body 10 may be compact in the front-to-rear direction of the base portion 11B of the main body 10, in comparison to a configuration where an electric motor is disposed parallel or perpendicular to the base portion 11B.
Furthermore, the battery pack 18 (or 19) may be attached to and detached from the battery attachment portion 17 in the left-to-right direction (e.g., a lateral insertion configuration). Because of this configuration, the attachment space for the battery pack 18 (or 19) may be compact in the up-to-down direction, in comparison to a configuration where a battery pack is attached to and detached from in the up-to-down direction. Furthermore, because of the lateral insertion configuration of the battery pack, the space for the battery attachment portion 17 can be positioned in approximately the lower half of the rear surface of the main body 10. As a result, the exhaust ports 11b can be arranged in a larger area, thereby improving the exhaust efficiency and suction force of the cleaner 1.
Furthermore, in the exemplified cleaner 1, the main body 10 can be placed in a stable manner because the elastic rubber legs 26 may be disposed at the four corners of the base portion 11B. Furthermore, the legs 26 may serve as a guard against the surrounding objects, thereby preventing the main body case 11 m being flawed or damaged.
Furthermore, in the exemplified cleaner 1, the protrusion 27 may be formed on the rear surface of the main body 10. When the cleaner 1 is placed such that the rear surface of the main body 10 faces and is on the installation surface, the protrusion 27 may contact the installation surface to generate a gap between the cleaner 1 and the installation surface. As a result, the exhaust ports 11b can be prevented from being blocked by the installation surface. This allows the exhaust efficiency and suction force to be maintained.
Furthermore, in the exemplified cleaner 1, when the dust bag 23 is not attached to the dust bag housing portion 22, the stopper 31 may limit a closing movement of the cover 30. As a result, the user can recognize a fact that that the dust bag 23 is not attached to the cleaner 1.
In the cleaner 1 according to the embodiment of the present disclosure, the configuration may not be limited to the above-discussed embodiment, and variations and modifications may be effected without departing from the spirit and scope of the present teachings. In the present embodiment for instance, the stepped portion 16 may be provided on the rear side of the main body case 11, so as to position the battery attachment portion 17 on the front surface of the stepped portion 16. The battery pack 18 (or 19) may then be attached to the battery attachment portion 17, the battery attachment portion 17 being recessed with respect to the rear surface of the case in the forward direction. However, the battery attachment portion 17 may be arranged on the upper surface of the stepped portion 16. Alternatively, the stepped portion 16 may be omitted. Even if the stepped portion 16 is omitted, the tilting arrangement of the electric motor 21 may make the main body 10 more compact in the front-to-rear direction.
In the above-discussed embodiment, the battery pack may be slid in the left-to-right direction. However, the sliding direction of the battery pack may be in the up-to-down direction or alternatively in the front-to-rear direction, according to the desired configurations.
Furthermore, in the exemplified embodiment, the rechargeable battery pack 18 (or 19) may be attached to the cleaner 1. However, the above-discussed arrangement of the electric motor can be applied to embodiments where the rechargeable battery is housed within the cleaner 1.
Furthermore, in the above-discussed embodiment, the hose connection port 12 and the dust bag 23 may be arranged to be tilted along the dust collection axis line S with respect to the base portion 11B. However, the hose connection port 12 and the dust bag 23 may be disposed to be parallel or perpendicular to the base portion 11B.
Furthermore, in the above-discussed embodiment, the legs 26 may be provided at the four corners of the base portion 11B. Alternatively, the legs 26 may extend along the edge portions of the base portion 11B in the front-to-mar and left-to-right. Alternatively, a leg coveting an entirety of the base portion 11B may be used.
Furthermore, in the above-discussed embodiment, the rechargeable cleaner 1 is powered by the battery pack. But the above-discussed embodiment can be applied to an AC-powered cleaner that is powered by the mains power.
Number | Date | Country | Kind |
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2018-125897 | Jul 2018 | JP | national |