The disclosure relates to a vacuum cleaner with a drum brush.
A vacuum cleaner is equipped with a foreign object suctionor that has a drum brush to clean a floor where foreign objects are attached to a deep place such as a carpet. The drum brush hits targeted objects while rotating to separate foreign objects in the carpet or floor gap from the carpet or floor gap. The vacuum cleaner sucks the separated foreign objects through the foreign object suctionor. As described above, the drum brush is usefully used when suctioning foreign objects attached to a deep place between hairs of the carpet by making a suction port of the vacuum cleaner approach a surface of the carpet.
The foreign object suctionor includes a cleaning member having a cleaning brush wound around an outer circumference of the drum brush, for example, a flannel fabric and a scraper to remove foreign objects from the flannel fabric. Due to a rotating airflow generated when the drum brush rotates at high speed, dust and various foreign objects have characteristics of rotating along a rotation direction of the drum brush. The scraper provided on the outside of the drum brush is configured to minimize a gap with the drum brush. Such various foreign objects may be removed by the scraper, but hard foreign objects having a certain size may rotate along the outside of the drum brush while deforming the flannel fabric of the drum brush. These hard foreign objects that are not removed and rotate with the drum brush are introduced between the drum brush and the scraper and rotate, thereby abrading or damaging the drum brush or scraper.
An object of the disclosure is to provide a vacuum cleaner capable of not only improving durability of a drum brush and a scraper, but also improving cleaning efficiency.
In an aspect, provided is a vacuum cleaner. The vacuum cleaner includes: a cleaner body configured to generate suction power; and a foreign object suctionor configured to suck foreign objects by the suction power, in which the foreign object suctionor includes: a cylindrical drum brush; and a drum support configured to house a part of the drum brush and rotatably support the drum brush, and the drum support includes: a drum housing part configured to have a shape corresponding to an outer circumferential surface of the housed drum brush; a scraper configured to be provided in the drum housing part to remove foreign objects attached to the drum brush; and a foreign object stopper configured to be provided in one area of the drum housing part at a predetermined inflow blocking distance along a rotation direction of the drum brush from the scraper.
The drum brush may include a flannel fabric on an outer periphery thereof.
The foreign object stopper may include two or more foreign object stoppers spaced apart in a rotation direction.
The two or more foreign object stoppers may be configured to increase in height along the rotation direction.
The scraper may include a contact surface that contacts the outer circumferential surface of the drum brush.
A length of the contact surface in the rotation direction may be 2 to 3 mm.
The contact surface may be configured to extend in a direction parallel to the outer circumferential surface of the drum brush or outwardly of the outer circumferential surface.
The vacuum cleaner may further include: a foreign object housing part configured to be provided between the scraper and the foreign object stopper to house the foreign objects.
The inflow blocking distance may correspond to an outer diameter of the drum brush.
The inflow blocking distance may be 7 to 9 mm.
The foreign object stopper may include an inclined surface facing the scraper and extending toward the center of the drum brush.
The foreign object stopper or the scraper may be configured to extend along a longitudinal direction of the drum brush.
The scraper or the foreign object stopper may be integrally formed in the drum housing part.
The drum support may include a foreign object collector adjacent to the drum housing part and having a space that collects the foreign objects, and the scraper may be provided at a corner of the drum housing part adjacent to the foreign object collector.
The scraper or the foreign object stopper may be provided to overlap an outer circumferential surface of the drum brush.
According to the vacuum cleaner of the disclosure, the foreign object stopper may prevent some of the foreign objects from penetrating deeply between the drum brush and the scraper when many foreign objects are introduced simultaneously, thereby preventing the drum brush and the scraper from being abraded and damaged.
In addition, the conditions of the drum brush may be improved because the dust remaining in the drum brush without being sucked may be removed by the scraper and then removed by the foreign object stopper.
In addition, the scraper overlaps the outer periphery of the drum brush, and thus, it is possible to prevent the scraper from being damaged even when irregular and hard foreign objects are introduced through the surface contact, not through the line contact.
Hereinafter, a vacuum cleaner 1 according to the disclosure will be described in detail with reference to the accompanying drawings. Embodiments described below describe that the vacuum cleaner 1 is applied to a robot vacuum cleaner to aid understanding of the disclosure, which is illustrative. Unlike the embodiments described herein, it should be understood that the vacuum cleaner 1 may be implemented in various modifications such as a canister type vacuum cleaner, an upright type vacuum cleaner, and a stick type vacuum cleaner. However, when it is decided that a detailed description for the known functions or components related to the disclosure may obscure the gist of the disclosure, the detailed description and concrete illustration will be omitted.
The cleaner body 2 includes a suction motor (not illustrated) that generates suction power and a dust collector (not illustrated).
The suction motor generates a predetermined suction power to suck dirt on a cleaned surface.
The dust collector may collect dirt sucked into the cleaner body 2 through the foreign object suctionor 10 by the suction power. The dust collector may include a filter that filters foreign objects sucked by the suction power. The dust collector may include a cyclone structure that separates dirt from sucked air using a centrifugal force.
In the vacuum cleaner 1, when negative pressure is generated in a suction passage by the suction motor, the negative pressure is also formed in the foreign object suctionor 10. Therefore, foreign objects (foreign objects, dirt, hair, etc.) of the cleaned surface are sucked by a flow of air due to a pressure difference from an outer periphery of the foreign object suctionor 10. In general, when foreign objects are attached to a material such as a carpet (not illustrated), it is difficult to suck foreign objects deeply attached to an inside of the carpet only by suction of air. Therefore, the drum brush 11 scatters and sucks foreign objects to an upper portion of the carpet by removing foreign objects that are deeply attached between a plurality of hairs of the carpet.
Referring to
Referring to
The drum brush 11 includes a rotating body 112 and a nozzle 114 that is provided in a spiral shape along the longitudinal direction of the rotating body 112 to guide foreign objects.
The rotating body 112 includes a cylindrical drum core 1122 that rotates along a rotation shaft in the longitudinal direction, a cleaning brush 1124 that surrounds an outer circumferential surface of the drum core 1122 and is made of, for example, flannel fabric, a pair of foreign object collection groove parts 1126 that are provided at both end portions of the drum core 1122, and an intermediate foreign object collection groove part 1128 that is provided in the middle of the drum core 1122.
The nozzle 114 is made of a rubber material and is provided on the rotating body 112 in a spiral shape. The nozzle 114 separates foreign objects attached to the cleaned surface by friction that is generated by rotation.
The drum support 12 includes a drum housing part 122 that houses the drum brush 11, a scraper 124 that removes foreign objects attached to the drum brush 11, and a foreign object stopper 126 that prevents the inflow of foreign objects, and a foreign object collector 128.
The drum housing part 122 rotatably supports both end portions of the drum brush 11 while housing a part of the outer circumferential surface of the drum brush 11. The drum housing part 122 and the outer circumferential surface of the drum brush 11 have a gap 1222. Of course, the drum housing part 122 and the outer peripheral surface of the drum brush 11 may contact each other. The drum housing part 122 communicates with the foreign object collector 129 adjacent thereto.
The scraper 124 extends long along the longitudinal direction of the drum brush 11 at a corner of one side of the drum housing part 122 (adjacent to the foreign object collector). The scraper 124 protrudes from the drum housing part 122 toward the gap 1222 and is spaced apart from the outer circumferential surface of the drum brush 11 by a predetermined distance, contacts the outer circumferential surface thereof, or overlaps the outer circumferential surface thereof. As a result, the scraper 124 removes foreign objects attached to the rotating drum brush 11 to prevent the foreign objects from being introduced into the gap 1222 and suck the foreign objects into the foreign object collector 128 by the suction power. A detailed description of the scraper 124 will be described in detail later with reference to separate drawings.
The foreign object stopper 126 is provided in one area of the drum housing part 122 at a predetermined inflow blocking distance along the rotation direction (counterclockwise direction) of the drum brush 11 from the scraper 124. The foreign object stopper 126 extends long along the longitudinal direction of the drum brush 11. In the foreign object stopper 126, the foreign object stopper 126 is not formed in a central portion of the drum housing part 122. This is to prevent foreign objects from being trapped and accumulated between the scraper 124 and the foreign object stopper 126. A detailed description of the foreign object stopper 126 will be described in detail later with reference to separate drawings.
The foreign object collector 128 generates negative pressure by interlocking with the suction power of the cleaner body 2. The foreign object collector 128 collects various foreign objects blown in the rotation direction according to the high-speed rotation of the drum brush 11. The foreign object collector 128 collects foreign objects attached to the drum brush 11, which is removed by the scraper 124.
The base member 13 covers a lower portion of the foreign object suctionor 10. The base member 13 includes three grinders (132 in
The grinder 132 is disposed adjacent to the foreign objects collection groove part 1126 and the intermediate foreign object collection groove part 1128 of the rotating body 112 to crush the collected foreign objects.
In the lower drum housing part 134, a part of the rotating body 112 is exposed downward to contact the cleaned surface.
The drum support 12 includes the substantially semi-cylindrical drum housing part 122, the scraper 124 that protrudes toward the outer circumferential surface of the drum brush 11, the foreign object stopper 126 that protrudes toward the outer circumferential surface of the drum brush 11 at a position spaced apart by a predetermined inflow blocking distance L in the rotation direction of the drum brush 11 from the scraper 124, that is, in the counterclockwise direction, and the foreign object collector 128 adjacent to the scraper 124.
Referring to
The first inclined surface 1242 does not necessarily have to be perpendicular to the tangent line of the outer circumferential surface of the drum brush 11 and may extend at an angle of ±α based on the vertical. However, when +α is too large, the end portion is too sharp, so the efficiency of removing foreign objects is improved, but the durability of the scraper 124 or the drum brush 11 deteriorates. On the other hand, when −α is too large, the end portion is too smooth, so the efficiency of removing foreign objects deteriorates, but the durability of the scraper 124 or the drum brush 11 is improved.
The first contact surface 1244 contacts the foreign objects and guides the foreign objects to be caught on the second inclined surface 1262 of the foreign object stopper 126. The first contact surface 1244 need not be parallel to the outer circumferential surface of the drum brush 11 and may extend outward based on a tangent surface of the outer circumferential surface of the drum brush 11. When the first contact surface 1244 extends outward with respect to the outer circumferential surface, the foreign object housing part 129 is formed so that the foreign objects are easily caught on the foreign object stopper 126. That is, it is easy for the ends of the foreign objects extending in contact with the first contact surface 1244 to be caught on the second inclined surface 1262 of the foreign object stopper 126. When the first contact surface 1244 extends inward based on the tangent surface, foreign objects extending in contact with the first contact surface 1244 may be introduced without being caught by the foreign object stopper 126. The first contact surface 1244 may have a length R of 2.5 mm or more in the extending direction toward the foreign object stopper 126.
Similar to the first inclined surface 1242, the second inclined surface 1262 does not necessarily have to be vertical to the tangent line of the outer circumferential surface of the drum brush 11 and may extend obliquely based on the vertical. However, when the second inclined surface is inclined too inward, the end portion is too sharp and the durability of the scraper 124 or the drum brush 11 deteriorates. On the other hand, when the second inclined surface is too inclined outward, the end portion is too smooth and the efficiency of catching foreign objects deteriorates, but durability of the scraper 124 or the drum brush 11 is improved.
The second contact surface 1264 need not be parallel to the outer circumferential surface of the drum brush 11 and may extend outward based on the tangent surface of the outer circumferential surface of the drum brush 11. When the second contact surface 1264 extends outward from the outer circumferential surface of the drum brush 11, the amount of overlap with the outer circumferential surface of the drum brush 11 decreases to reduce the frictional force, so a rotational load of the drum brush 11 may decrease. On the other hand, when the second contact surface 1264 extends inward based on the outer circumferential surface of the drum brush 11, the amount of overlap with the outer circumferential surface of the drum brush 11 increases to increase the frictional force, so the rotational load of the drum brush 11 may increase and the abrasion of the drum brush 11 may increase. The length of the second contact surface 1264 is preferably as short as possible as long as there is no problem in durability.
The inflow blocking distance L formed by the scraper 124 and the foreign object stopper 126 is set corresponding to an outer diameter of the drum brush 11. As the outer diameter of the drum brush 11 increases, the size of foreign objects that may be introduced also increases, so the inflow blocking distance (L) needs to be set large as well. The inflow blocking distance L is 7 to 9 mm, preferably 8 mm.
In this way, according to the vacuum cleaner of the disclosure, it is possible to prevent the scraper or the drum brush from being damaged by rotating large and hard foreign objects together with the drum brush.
Although the preferred embodiments of the disclosure have been illustrated and described above, the disclosure is not limited to the specific embodiments described above, and can be variously modified by those skilled in the art to which the disclosure pertains without departing from the gist of the disclosure claimed in the claims, and these modifications should not be understood individually from the technical ideas or prospects of the disclosure.
Number | Date | Country | Kind |
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10-2018-0170866 | Dec 2018 | KR | national |
This application is a 371 of International Application No. PCT/KR2019/017734 filed on Dec. 13, 2019, which claims priority to Korean Patent Application No. 10-2018-0170866 filed on Dec. 27, 2018, the disclosures of which are herein incorporated by reference in their entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/KR2019/017734 | 12/13/2019 | WO | 00 |