DIRT COLLECTION CHAMBER FOR A CYCLONIC SURFACE CLEANING APPARATUS
A surface cleaning apparatus comprises a dirt chamber. The dirt chamber comprises a first portion and a second portion. The first portion of the dirt chamber is transparent and the second portion has an increased opacity compared to the first portion to simulate a dirt fill line.
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This application claims the benefit of the filing date of Canadian Patent Application. No. 2658159, filed Mar. 13, 2009, entitled DIRT COLLECTION CHAMBER FOR a CYCLONIC SURFACE CLEANING APPARATUS.
FIELDThe specification relates to the constructions of a dirt collection chamber for a surface cleaning apparatus. In a preferred embodiment, a dirt chamber for a cyclone comprises a portion that is transparent and a portion that is less transparent and, preferably, opaque.
INTRODUCTIONThe following is not an admission that anything discussed below is prior art or part of the common general knowledge of persons skilled in the art.
Cyclonic separators, including those used in vacuum cleaners are known in the art. Typically, a cyclonic separator has an inlet for fluid (air, liquid or and air and liquid mix) to be treated and an outlet for treated fluid. Dirt may be collected either in the cyclone chamber itself (e.g. in the bottom) or in a collection chamber in fluid communication with the cyclone separator. Various such constructions are known in the art.
Cyclonic hand vacuum cleaners have also been developed. These vacuum cleaners have typically used similar operating principles as full size cyclonic vacuum cleaners. See for example PCT publication WO 2008/009890; PCT publication WO 2008/009888; PCT publication WO 2008/009883; and U.S. Pat. No. 7,370,387.
Typically, a dirt chamber or a cyclone having a dirt chamber is transparent so that a user may view the interior of the chamber and, in particular, the amount of dirt that has accumulated in the collector.
SUMMARYThe following introduction is provided to introduce the reader to the more detailed discussion to follow. The introduction is not intended to limit or define the claims.
According to one broad aspect, a surface cleaning apparatus is provided that has a cyclone unit and a dirt chamber. Dirt is entrained in an air stream that is drawn into the cyclone, separated by the cyclonic action of the cyclone and then deposited in the dirt chamber. The dirt chamber comprises a fill line that defines two volumes within the dirt chamber. During operation, the volume below the fill line may be filled with dirt, whereas the volume above the fill line is preferably not filled with dirt for efficient operation of the surface cleaning device. In current designs, the entire dirt bin may be transparent or translucent. A fill line may be provided. However, a user will view that there is an open space above the fill line and may continue to operate the vacuum cleaner assuming that additional dirt may still be collected in the dirt chamber without affecting the performance of the vacuum cleaner. In accordance with this aspect, the dirt collection chamber is configured to inhibit a user viewing an open volume above the dirt fill line. For example, at least a portion of the dirt chamber walls that contain the volume below the fill line may be transparent. To deter a user from over filling the dirt chamber, at least a portion of the dirt chamber walls that contain the volume above the fill line may be relatively more opaque than the transparent walls to at least partially obscure the interior of the volume above the fill line. Preferably, all of the wall above the fill line may be more opaque. If, for example, the user does not see any open volume above the fill line, the user should be more likely to cease user of the surface cleaning apparatus and empty the dirt collection chamber.
In one embodiment, a surface cleaning apparatus may comprise an air flow passage extending from a dirty air inlet to a clean air outlet, a suction motor positioned in the air flow passage and a cyclone unit positioned in the air flow passage. The cyclone unit may comprise at least one cyclone and at least one dirt collection chamber and at least a portion of the dirt collection chamber may be exterior to the cyclone and may have an outer wall. At least a first portion of the outer wall may be transparent and may form part of an outer casing of the surface cleaning unit. The outer casing may have a second portion that abuts the first portion at a juncture and the second portion may have an increased opacity compared to the first portion. The juncture may be positioned proximate a dirt fill line of the dirt collection chamber.
The juncture may be the fill line or a separate fill line may be stenciled on the dirt collection chamber. The more opaque portion may be a separately molded piece, for example an openable door or lid of the dirt collection chamber. If the dirt collection chamber is oriented upwardly during use, e.g., the dirt collection chamber is on an upright portion of an upright vacuum cleaner, then the openable top of a dirt collection chamber may be referred to as a lid.
It will be appreciated that the dirt collection chamber may be transparent. However, the dirt collection chamber may be tinted and therefore be translucent. The second portion, e.g., the lid, is less transparent and is preferably opaque.
An advantage of this design is that a user may be more likely to not over fill the dirt collection chamber. A further advantage is that the fill line may be easily denoted on a dirt collection chamber merely by molding a lid from a plastic that is more opaque. Accordingly, no stencil or the like need be applied to the dirt collection chamber after the dirt collection chamber is molded.
In some examples the dirt collection chamber surrounds at least a portion of the cyclone.
In some examples the cyclone has an outer cyclone housing or casing that is positioned inwards of the transparent outer wall and that has increased opacity compared to the first portion.
In some examples the cyclone unit comprises a single cyclone.
In some examples the cyclone has a dirt outlet and the second portion comprises an outlet end wall of the cyclone unit proximate the dirt outlet.
In some examples, the outlet end wall comprises an openable door.
In some examples the dirt collection chamber and the outlet end wall are separately molded.
In some examples, the surface cleaning apparatus further comprises a plate facing the dirt outlet.
In some examples the plate is mounted to the outlet end wall.
In some examples a chamber is provided between the plate and the end wall and the chamber comprises part of the dirt collection chamber.
In some examples the surface cleaning apparatus comprises a portable vacuum cleaner.
In some examples the portable vacuum cleaner is removably mountable to an upright vacuum cleaner.
In some examples the suction motor is in airflow communication with a cleaning head of the upright vacuum cleaner when mounted to the upright vacuum cleaner.
In some examples the surface cleaning apparatus comprises a hand vacuum cleaner.
It will be appreciated that an embodiment may contain one or more of features set out in the examples,
In the detailed description, reference will be made to the following drawings, in which:
Various apparatuses or methods will be described below to provide an example of each claimed invention. No example described below limits any claimed invention and any claimed invention may cover processes or apparatuses that are not described below. The claimed inventions are not limited to apparatuses or processes having all of the features of any one apparatus or process described below or to features common to multiple or all of the apparatuses described below. It is possible that an apparatus or process described below is not an embodiment of any claimed invention.
Referring to
In the example shown, the handle 210 has an upper portion 214 and a lower portion 216 that are optionally pivotally connected by a hinge 218. The handle 210 is attached to the surface cleaning head 300 and a user can move the surface cleaning head 300 along a surface to be cleaned by gripping and maneuvering the handle 210. Optionally, the lower portion 216 of the handle 210 can be hingedly or pivotally attached to the surface cleaning head 300, so that the lower portion 216 of the handle 210 can move relative to the surface cleaning head 300 during use. This may enable the user to move the surface cleaning head 300 beneath cabinets, furniture or other obstacles.
The upper portion 214 of the handle optionally includes a grip 212 that is shaped to be gripped by a user. In the example shown, the grip 212 is at the top, or upper end of the upper portion 214 of the handle 210, and is formed in a closed loop-type shape having surfaces that are rounded to increase user comfort. In other examples, the grip 212 may be of a different configuration or may be located at a different position on the upper portion 214 of the handle 210.
In addition to the grip 212, the upper portion 214 of the handle 210 optionally includes a bracket 113 that supports an auxiliary, or accessory or supplemental cleaning tool 112. In the example shown, the bracket 113 is configured to hold a single auxiliary cleaning tool 112, but in other examples the bracket 113 may be configured to hold more than one auxiliary cleaning tool 112. Also, while shown attached to the upper portion 214, it is understood that the bracket 113 may be attached to other locations on the surface cleaning apparatus, including the lower portion 216, the surface cleaning head 300 and/or the hand vacuum 400.
In the example shown, the upper and lower portions 214, 216 have a generally cylindrical or tube-like shape. However, in other examples, the upper and lower portions 214, 216 may any other type of thin support members having suitable cross-sectional shape including square, rectangular or polygonal. In addition, the upper and lower portions 214, 216 may be solid or hollow and may be formed from any suitable material, including plastic and metal. In other embodiments, it will be appreciated that handle may be a single unit, e.g., a support rod such that upper and lower portions 214, 216 are part of the same element. Alternately, upright section 210 may comprise a frame for removably receiving a portable surface cleaning apparatus.
The upper and lower portions 214, 216 of the handle 210 are optionally pivotally joined by hinge 218. When the hinge 218 is in a first position, as shown in
In the example shown, the grip 212 comprises a hinge release 213 that can be activated by a user during use of vacuum cleaner 100 to unlock the hinge 218. When a user activates the hinge release 213, the retaining or locking means used to secure the hinge 218 in the first position is disengaged, allowing the hinge 218 to rotate or pivot, as shown in
In the example of the vacuum cleaner 100 shown, the lower portion 214 of the handle 210 extends from the hinge 218 to the surface cleaning head 300 and optionally comprises the portable surface cleaning apparatus mount 220 for receiving and supporting the hand vacuum 400. The lower portion 216 also optionally comprises a hose guide 230 for keeping the flexible hose 124 in close proximity to the backbone 200. When the portable surface cleaning apparatus 400 is detached or removed from the backbone 200 the flexible hose 124 may be removed from the hose guide 230, as shown in
The surface cleaning head 300 serves as a base portion of the vacuum cleaner 100 and is preferably in rolling contact with the surface to be cleaned. When the vacuum cleaner is 100 in an upright position (as exemplified in
The surface cleaning head 300 also comprises a dirty air inlet 310 that is connected in fluid communication with a dirty air outlet 312 by one or more dirty air conduits (not shown). Preferably, the dirty air conduit is an air flow chamber wherein at least a portion of the lower side is open.
If the upright section includes a suction motor and/or an air treatment unit, then the dirty air outlet 312 may, in turn, be coupled, optionally removably coupled, to the upstream end of the conduit, preferably a flexible hose 124, that extends from the dirty air outlet 312 of the surface cleaning head 300 to the upright section, such as the attachment member air inlet 126. The fluid pathway may continue through the attachment member passageway 128, which terminates in attachment portion air outlet 127, and through attachment portion air outlet 127 which mates with the opening 438 of the portable cleaning apparatus 400. The connection between the attachment portion 120 and the portable cleaning apparatus 400 is discussed in greater detail below.
Mount 220 is preferably configured to removably receive a portion of the portable surface cleaning apparatus and/or an attachment member removably mounted to the portable surface cleaning apparatus. The mount is preferably configured to retain portable surface cleaning apparatus therein under the influence of gravity. Accordingly, a mechanical lock need not be used. In particular, a user may lift the portable surface cleaning apparatus off of upright section 210 without having to press a button or otherwise release a mechanical lock.
As exemplified in
The mount 220 may be located in a variety of locations along the length of the second portion 216. Preferably, the mount 220 is positioned at approximately the waist height of the intended user (e.g., 2.5-3.5 feet above the floor) so that the user can attached or detach the hand vacuum 400 from the backbone 200 without bending over. This may decrease the stress and strain experienced by the user when the user removes the hand vacuum 400 from the backbone 200.
When attached to the portable surface cleaning apparatus 400 and seated in the mount 220 (as shown in
Loads placed on the mount 220 (via both the U-shaped opening and/or the mount bracket 224) are in turn transferred via the lower portion 216 of the handle 210 to the surface cleaning head 300 and ultimately to the floor or other type of surface being cleaned. The mount 220 may be made from any material that can support the weight of the hand vacuum 400, including plastic and metal.
In the example of the vacuum cleaner 100 shown, the optional rear wheel 480 of hand vacuum 400 and the attachment member 120 are each preferably freely received by the mount 220 and held in place by gravity. The protrusion 222 that seats within the channel 144 of the attachment member 120 also provides a degree of lateral support, restraining the movement of the attachment member 120 (and therefore the hand vacuum 400) when the handle 210 is moved from a vertical position to an angled position when in use. Further protrusion 222 may comprise a cam surface to assist in guiding protrusion 222 into channel 144 as the portable surface cleaning apparatus is lowered onto mount 220. Accordingly, the attachment member 120 and the optional rear wheel 480 are preferably not held in place by clips, straps or any other type of mechanical fastening means.
The absence of mechanical fasters, allows for simple, one-handed removal of the attachment member 120 and the hand vacuum 400 from the mount 220, without the need to unlock or undo any fasteners. One-handed detachment of the hand vacuum 400 may be advantageous as it allows a user to control and maneuver the backbone 200 with one hand while simultaneously removing the hand vacuum 400 from the mount 220 with the other hand. In use, this may allow a user to frequently attach and detach the portable surface cleaning apparatus 400 from the mount 220 in response to the user's needs, for example navigating around furniture, stairs or other obstacles on the surface to be cleaned.
While in the preferred example described above the mount 220 is free of fasteners, in another example the mount 220 may be outfitted with fastening devices for retaining the attachment member 120 and the additional wheel 480. Examples of possible fasteners include clips, snaps, and straps. Magnets may alternately or in addition be used. An advantage of using magnets may assist in holding the portable surface cleaning apparatus on the backbone but still permit one handed removal as no lock need be released.
Optionally, instead of removing the attachment portion 120 from the mount 220, the hand vacuum 400 may be decoupled from the attachment portion while the attachment portion is positioned in mount 220, as shown in
Referring to
In this description, an alternate structure for supporting an air treatment unit and/or a suction motor is provided. As exemplified, the second portion 216 may include a generally upside down U-shaped wishbone portion 250. The wishbone 250 is optionally provided with a hinge 218 at the centre of an upper portion of the wishbone 252, and each prong 254 of the wishbone extends downward, and connects to a rib 256. The ribs 256 are preferably substantially parallel and cooperate to define an optional mount for receiving a removable surface cleaning unit, such as the split saddle configuration that is exemplified. Optionally, the ribs 256 may be integrally formed with the prongs 254 of the wishbone portion 250, or they may be separate tubes or rods fastened to the prongs 254 of the wishbone 250, as shown.
A preferred mount comprises a pair of generally opposing saddle flanges 280 (one on each rib) that cooperate to provide a mount or a mounting location for the attachment member 120 that is connected to the hand vacuum 400. Due to the spacing of the ribs 256 and the general curvature of the hand vacuum 400, the hand vacuum 400 is preferably positioned in front of ribs 256. The attachment member 120 extends rearward of hand vacuum 400 and may be received on split saddle flanges 280 in a similar manner to mount 220. Alternately, it will be appreciated that hand vacuum 400 may be partially nest between, or be received between, the ribs 256.
As exemplified, to supportingly engage the attachment member 120, each saddle flange 280 preferably includes a projection or protrusion (not shown) that is received within the channel 142 of the collar 140 (as described in more detail with reference to
The lower ends of the ribs 256 may be attached to a bracket 260 having a generally opposite configuration than the wishbone. That is, the bracket may include two, upward facing projections 262, for attaching to the ribs 256, that are connected by a cross-member 264 to provide a single downward facing coupling point 266. The spaced apart ribs provide two mounting points. Various of such structure may be used.
Preferably, lower portion 216 is rotatably mounted to the cleaning head. Accordingly, a user may rotate grip 212 clockwise or counterclockwise to assist in steering the cleaning head. Accordingly an advantage of providing a single, downward facing coupling point may be the fact that a single coupling point can be pivotally and rotationally connected to the surface cleaning head 300. Another advantage is that a narrower rear end may be utilized for the floor cleaning unit.
Accordingly, as exemplified, the bracket 260 preferably also includes a housing 268, which is preferably hollow, having a lower opening 270 that connects to the surface cleaning head 300. As exemplified, housing 268 may be pivotally mounted to surface cleaning head, preferably at about the location of rear wheels 320, such as by having a portion pivotally mounted to the axle of rear wheels 320. Optionally, the connection between the lower opening 270 and the surface cleaning head 300 can be a rotatable and pivotal connection. The hollow housing 268 may extend from the lower opening 270, through the cross-member 264 to define an upper collar 272.
Optionally, as in this example, the surface cleaning head 300 includes a hollow conduit member 330 and a second air conduit 334. As exemplified in
The second flexible hose 335 forms part of the continuous airflow passageway that connects the dirty air outlet 312 of the surface cleaning head 300 to the opening 438 on the hand vacuum 400. To establish the continuous airflow passageway, the downstream end of the second upstream flexible hose 335 may be connected to the upstream end of the downstream flexible hose 124. The connection between the flexible hose 124 and the downstream end of the second flexible hose 335 is preferably a detachable connection so that the flexible hose 124 can be detached from the surface cleaning head 300 as described above.
Optionally, the second flexible hose 335 is also an extensible, or stretchable, hose that can extend when pulled on by the user. In some examples, the second flexible hose 335 is a stretch hose and may have a stretched length to non-stretched length ratio of between 2:1-6:1. In examples where the second flexible hose 335 is not stretchable, when a user removes the hand vacuum 400 from its mount during use, the maximum distance that the hand vacuum 400 can be separated from the backbone 200 and the surface cleaning head 300 is determined by the length of the flexible hose 124. However, in some instances, a user may wish to move the hand vacuum 400 a greater distance from the backbone 200, for example to pass the surface cleaning head 300 under a bed or other large piece of furniture. When a stretchable second flexible hose 335 is used, the downstream end of the second flexible hose 335 can unseat from the upper collar 272 and extend away from the bracket 260, whereby some of hose 335 may pass through housing 268 thereby lengthening the airflow conduit connecting the hand vacuum 400 to the surface cleaning head 300 and allowing the hand vacuum 400 to be moved further from the backbone 200 in use. Accordingly, it will be appreciated that some or all of the conduit that may be extended to provide additional length for an air flow passage may be stored on the surface cleaning head 300.
It will be appreciated that lower section 216 may be rotatably mounted on cleaning head 300 without hose 335 extending through a housing 268. Further, a housing 268 may be used even if lower section 216 is not rotatably mounted to cleaning head 300. Such a housing need not be pivotally mounted to surface cleaning head.
Preferably, the second flexible hose 335 is also resilient so that it will return to its original, un-stretched length when it is released by the user. The resilience of the second flexible hose 335 may tend to retract the second flexible hose 335 through the hollow housing 268 and the hollow conduit member 330 and may serve to re-seat the downstream end of the second flexible hose 335 on the upper collar 272. In this example, the second flexible hose 335 functions as a variable length air conduit and may reduce the need for a user to add extra hoses or conduit members to the vacuum 100 during use.
To allow for easy and repeated extension of the second flexible hose 335, the second flexible hose 335 may be sized to freely pass through both the hollow conduit member 330 of the surface cleaning head 300 and the hollow housing 268 of the bracket 260.
In the example shown in
As shown, the hollow housing 268 may be integral with the bracket 260 and provide both a hollow passageway and an attachment point. However, in other examples, the hollow housing 268 may be external the bracket 260 and may be formed from a separate conduit. Similarly, the air flow conduit 110 connecting the attachment member 120 to the second flexible hose 335 may be the flexible hose 124 or any other suitable conduit, including flexible conduits, rigid conduits, conduits integral with the handle and conduits external the handle.
Optionally, the ribs 256 (or another portion of the second portion 216) may be surrounded by a housing or shell. The housing may provide structural strength to the second portion 216 or it may merely provide an improved aesthetic appearance of the vacuum 100, or both. If a housing is formed around a section of the second portion 216 (or any other section of the handle 210 or backbone 200) the mount for supporting the hand vacuum (for example the mount 220 or the saddle flanges 260) may be within a recess in the housing. Providing a recess in the housing for receiving the hand vacuum may create a more integrated or seamless visual appearance when the hand vacuum is mounted to the backbone 200; it may also improve the rigidity of the backbone 200.
As exemplified, wishbone portion 250 preferably extends forwardly and provides a mount for upper portion 214 (i.e. the handle) at a forward point of the backbone. Further, passageway 268 extends rearwardly. Accordingly, when hand vacuum 400 is mounted to the backbone, the centre of gravity of the backbone and hand vacuum 400 combined is below a plane P extending from the axle of rear wheel 320 to the upper end of upper portion 214 (as exemplified in
It will be appreciated that the dual hose construction (i.e. the flexible hose 124 and the second flexible hose 335 of
Referring now to
The hand vacuum 400 can be operated as the vacuum suction supply for the vacuum 100 and it can be operated as a stand alone hand vacuum cleaner, that is movable along a surface to be cleaned by gripping and maneuvering handle 402, when it is removed from, or detached from the backbone 200. The hand vacuum 400 includes an upper portion 404, a lower portion 406, a front 408, and a rear 410. In the example shown, maneuvering handle 402 is provided at the upper portion 404. In alternate examples, maneuvering handle 402 may be provided elsewhere on the vacuum cleaner 400, for example at the rear 410.
In the example shown, the hand vacuum 400 comprises a nozzle 412 and a cyclone unit 414, which together preferably form a cleaning head portion 416 of the hand vacuum 400. In the example shown, the cleaning head portion 416 is provided at the front 408 of the hand vacuum 400.
Nozzle 412 comprises a dirty air inlet 418, through which dirty air is drawn into the portable cleaning apparatus 400, and when used as a hand vacuum cleaner the nozzle 412 directly engages a surface to be cleaned. An airflow passage extends from the dirty air inlet 418 to a clean air outlet 420 of the hand vacuum 400. In the example shown, clean air outlet 420 is at the rear 410 of the hand vacuum 400. It will be appreciated that clean air outlet may optionally be connected to a fluid conduit provided in the floor cleaning unit.
Cyclone unit 414 is provided in the airflow passage, downstream of the dirty air inlet 418. In the example shown, the cyclone unit 414 comprises one cyclone 422, and one dirt chamber 424. In alternate examples, the cyclone unit 410 may include more than one cyclone, and more than one dirt chamber. Further, the cyclones chambers may be arranged in stages, and may be provided in parallel or in sequence. Alternately, or in addition, one or more filters or other dirt separation members may be used.
Referring to
The air travels in a cyclonic path in the cyclone, and dirt in the air is separated from the air. The air exits the cyclone via an outlet passage 444. As exemplified in
Optionally, the dirt chamber may be internal or external to the cyclone chamber. Preferably, as exemplified in
In the example shown, the dirt chamber 424 comprises two volumes. A first volume 448 is provided immediately adjacent the dirt outlet 446, and above the top of the outer cyclone housing 442, when the hand vacuum 400 is mounted on the backbone 200. A second volume 450 is the generally annular space formed between the outer cyclone housing 442 and the first portion 425 of the dirt chamber outer wall 415.
A separation plate 454 may be provided in the dirt chamber 424, adjacent the dirt outlet 446. The separation plate 454 aids in preventing dirt in dirt chamber 424 from re-entering cyclone 422. Preferably, plate 454 is spaced from dirt outlet 446 and faces dirt outlet 446. Plate 454 may be mounted by any means to any component in cyclone unit 414. As exemplified, the separation plate is mounted on an arm, which extends from an inner surface of the front wall 458 of the hand vacuum 400.
When the vacuum 100 is used to clean a surface the dirt separated from the dirty air is collected in and retained in the dirt chamber 424. When the hand vacuum 400 is mounted on the backbone 200, gravity will urge the dirt toward the bottom the dirt chamber 424 as exemplified in
The position of the fill line F may be based on the performance characteristics of the cyclone 422 including the height of the cyclone outer surface 442 or other suitable factors. As exemplified in
In the example shown in
Due to the operation of the cyclone 422 and configuration of the dirt outlet 446, it may impede the operation of the vacuum 100 (and the hand vacuum 400) if the dirt outlet 446 is substantially blocked or occluded by the accumulated dirt in the dirt chamber 424. To reduce the chances of the dirt outlet 446 being blocked by dirt the fill line F may be located below the dirt outlet 446 as exemplified. The position of the fill line F may also be based on a maximum volume of the dirt chamber below the fill line F so that when the hand vacuum 400 is operated on its side, as a hand vacuum, the dirt in the dirt chamber 424 will not completely submerge the cyclone outer housing 442 and the dirt outlet 446. Optionally, the first portion 425 of the dirt chamber outer wall 415 may include a second fill line that is oriented to be read when the hand vacuum 400 is in a sideways orientation. The dirt chamber 424 may also include a plurality of additional indicator lines, such as a half-full line and a quarter-full line.
Despite the presence of the fill line F indicating the maximum intended capacity of the dirt chamber 424, a user may be tempted to continue to operate the vacuum 100 to collect additional dirt, particularly if it appears that there is additional dirt storage capacity within the dirt chamber 424 above the fill line F, for example dirt chamber volume 448. As described above, filling the dirt chamber 424 above the fill line F can impede the operation of the vacuum 100. Therefore, to deter users from over-filling the dirt chamber 424 (i.e. filling above the fill line F), the second portion 427 of the cyclone unit wall 415 is preferably opaque (or at least substantially opaque) to visually obscure portions of the dirt chamber 424 from the user, as exemplified in
The second portion 427 of the dirt chamber outer wall 415 abuts the first portion 425 at a joint or juncture. The position of the juncture may be such that the lowest portion of the juncture (when the hand vacuum 400 is vertically mounted on the backbone 200) is proximate the fill line F. Configuring the dirt chamber 424 in this manner may further deter the user from over-filling the dirt chamber 424 because the opaque second portion 427 may create the illusion that the dirt chamber 424 does not extend much above the fill line F.
This embodiment is particularly preferred. When a user approaches the vacuum cleaner, they may approach it from the front, as seen in
Cyclone unit 414 may be emptied by any means known in the art. For example, one of the ends of the cyclone unit 414 may be openable. The second portion 427 may be a pivotally mounted door to the first portion 425 of the cyclone unit wall 415, such that cyclone unit 414 may be opened, and dirt chamber 424 may be emptied. When second portion 427 is pivoted away from the remainder of the cyclone unit 414, separation plate 454 also preferably pivots away from the remainder of the cyclone unit 414. A securing member such as a latch 459, a screw mount or the like may be provided, which secures second portion 427 to the first portion 425 of the wall 415. In alternate examples, second portion 427 may be removable from cyclone unit wall 415 (As exemplified in
In the example shown, the nozzle 412 is positioned at the lower portion 406 of the portable cleaning apparatus 400. More preferably, as in the example shown, nozzle 412 is positioned at the bottom of the portable cleaning apparatus 400, and is preferably beneath the cyclone unit 414 when used as a hand vacuum cleaner and is between the cyclone unit 414 and the mount 220 when attached to the backbone 200. Further, as in the example shown, the nozzle 412 is preferably fixedly positioned at the lower portion 406 of the portable cleaning apparatus 400. That is, the nozzle 412 is not movable with respect to the remainder of the portable cleaning apparatus 400, and is fixed at the lower portion 106 of the portable cleaning apparatus 400. As shown in
Nozzle 112 exemplifies a particular design for an open sided nozzle. Open sided nozzle 112 has an open side that faces the surface to be cleaned when the nozzle is placed against a surface to be cleaned. Accordingly, nozzle 112 defines an air flow chamber that has an open lower side. In operation, air will flow longitudinally through the air flow chamber to an air exit. It will be appreciated that only part of the nozzle may have an open lower side. Alternately, all of the nozzle, from an air inlet end to the air outlet, may have an open lower side. It will be appreciated that various other design may be used.
Referring now to
In the example shown, the lower end 432 of the depending wall 428 defines an open lower end 434 of the nozzle 414. The open lower end 434 extends to the front 408 of the hand vacuum 400, and merges with the open side 430. In use, the open lower end 434 faces a surface to be cleaned. In the example shown, a plurality of wheels 435 are mounted to the depending wall 428, and extend below the lower end 432 of the depending wall 428. Accordingly, when in use as a hand vacuum, when wheels 435 are in contact with a surface, the lower end 432 of the depending wall 428 is spaced from a surface to be cleaned, and the space between the lower end of the depending wall 428 and the surface to be cleaned form a secondary dirty air inlet to the portable cleaning apparatus 400 when used as a hand vacuum.
The upper nozzle wall 426, depending wall 428, and open lower end 434 of the nozzle 412 define an airflow chamber 436 of the nozzle. An opening 438 is preferably provided in the upper nozzle wall 426, and is in communication with the airflow chamber 436. When in use as a hand vacuum, the wheels 435 are in contact with a surface, the opening 438 faces a surface to be cleaned, air enters the dirty air inlet 418, passes horizontally through the airflow chamber 436, and passes into the opening 438. Opening 438 is in communication with a cyclone inlet passage 439, which is in communication with a cyclone air inlet 440 of cyclone 422. In some embodiments, opening 438 need not be in upper wall 426.
Nozzle 412 and attachment member 120 are configured such that attachment member 120 may form part of the air flow conduit to opening 438 when attachment member 120 is mounted to hand vacuum 400. For example, when the portable cleaning apparatus 400 is used in combination with the backbone 200 and the surface cleaning head 300, the opening 438 in the nozzle 412 is in sealed, fluid communication with the air outlet 127 of the attachment member 120. By way of this connection, a continuous fluid pathway is established between the dirty air input 310 of the surface cleaning head 300 and the opening 438.
It will be appreciated that attachment member 120 may be removably mounted to nozzle 412 by any engagement means known in the connecting arts. Further, attachment member may be of any configuration. Attachment member may be part of, or may be connected to, an accessory cleaning tool by any means, such as a flexible hose. The flexible hose may be hose 110 if hose 110 is removably mounted to the floor cleaning unit.
As exemplified, attachment member 120 is removably engaged with nozzle 412 by the engagement of pivoting arms in slots provided on nozzle 412. Accordingly, for example, nozzle 412 may also include a slot 490 defining a recess in the depending wall 428 that is adjacent the upper nozzle wall 426. The slot 490 preferably extends continuously along the U-shaped portion of the nozzle depending wall 428 and may be bounded at each end by corners 492. The attachment member 120 includes two arms 150 each having a shoulder 154 and being pivotally connected to the coupling plate 123 using pins 156 (alternatively, the arms 150 could be resilient).
In order to assemble the mount on nozzle 412, coupling plate 123 may be slid into the open end of airflow chamber 436. Accordingly, when the coupling plate 123 of the attachment portion 120 is slid into the airflow chamber 436, the arms 150 are pressed together by the nozzle 412 walls until the point when arms 150 are aligned with slot 190 (i.e. when the shoulders 154 are advanced past the corners 192). When the arms 150 are aligned with the slot 190, the attachment member 120 is “clicked-in” or locked in place when the arms 150 spread apart and the shoulders 154 of the arms 150 become lodged behind the corners 192 of slot 190. The arms 150 may be manually separated or the attachment member may include a biasing means (not shown) that biases the arms 150 apart. With the arms 150 in the spread configuration the attachment member 120 cannot be slidingly removed from the nozzle 412. When a user wishes to detach the attachment means 120 from the nozzle 412 the user may squeeze upstanding tabs 152 together thereby allowing the shoulders 154 to slide past the corners 192. The mount may alternately be inserted by squeezing upstanding tabs 152 together so that plate 123 may be inserted in chamber 436.
When the hand vacuum 400 is coupled to the attachment member 120 the airflow chamber 436 may receive, and be partially filled with the coupling plate 123 of the attachment portion 120. The coupling plate 123 is preferably shaped to be slidingly received within the airflow chamber 436.
Insertion of the coupling plate 123 into the airflow chamber 436 serves to register the air outlet 127 with the nozzle opening 438. As shown, the air outlet 127 has a width Wo and a length Lo that are preferably the same as the width Wo and a length Lo of the opening 438. A sealing gasket 123 may provided at the juncture of the openings.
The attachment member 120 and the nozzle 412 may also include a plurality of magnets 158 that magnetically couple the attachment member 120 to the nozzle 412 to improve the connection between them and ensure that air outlet 127 is properly registered with opening 438. It will be appreciated that, in an alternate embodiment, only magnets maybe used. Other mounting means may be used. For example, a plurality of latches may be used or air outlet 127 may extend into opening 438.
Optionally, when the attachment member 120 is coupled to the portable cleaning apparatus 400, the upstream end of the air conduit 110 (for example hose 124) can be detached from the surface cleaning head 300 and the combination of the attachment member 120 and the flexible hose 124 (decoupled from the surface cleaning head 300) can serve as an auxiliary or accessory cleaning tool. The free end of the hose 124 may be maneuvered by the user to clean objects and surfaces that cannot be cleaned using the surface cleaning head 300. In some examples, the upstream end of the flexible hose 124 may be connected to the auxiliary cleaning tool 112. Alternatively, the flexible hose 124 may be removed from the attachment member 120 and the auxiliary cleaning tool 112 may be mounted directly to the air inlet 126 of the attachment member 120. It will be appreciated that tool 112 may have a plate 123 and arms 150 provided at the coupling end thereof.
Optionally, the attachment member 120 may be removed from the nozzle 412 and the auxiliary cleaning tool 112 may be fitted directly to the nozzle 412, without the use of a flexible hose 124 or other type intermediate air conduit. In addition to the auxiliary or accessory cleaning tool 112, the nozzle 412 may be directly connected to any one of a number of cleaning tools that have been provided with the an appropriate attachment member, including wands, brushes, crevasse tools and other hoses.
Clean air outlet 420 is provided downstream of the cyclone unit 414, suction motor and optional post-motor filter contained optionally within the cleaner body 460. Clean air outlet 420 may comprise a plurality of apertures formed in housing 461. The cleaner body 460 may also contain one or more of a separation plate, a dirt chamber a pre-motor filter and a plurality of connecting fluid conduits or passageways.
In the example shown, cleaner body 460 is removably mounted to head portion 416. For example, cleaner body 460 may be entirely removable from head portion 416, or pivotably mounted to head portion 416. Accordingly, cleaner body 460 and head portion 416 may be separated in order to provide access to the interior of cleaner body 460 or head portion 416. This may allow a pre-motor filter to be cleaned, changed, or serviced, or the motor to be cleaned, changed or serviced. Alternately, head portion 416 may be cleaned or serviced. For example, any dirt stuck in the enclosed passages portable cleaning apparatus 400 may be removed. Alternately, a replacement cleaner body 460 or head portion 416 may be provided, and may be mounted to an existing head portion 416 or cleaner body 460, respectively.
One or more additional rear wheels 480 may be mounted to housing 461 at lower portion 406, and may be used in conjunction with wheels 435 when the portable cleaning apparatus 400 is used as a hand vacuum. When the portable cleaning apparatus 400 is attached to the backbone 200 the additional wheel 480 preferably engages with the mount bracket 224 and partially supports the portable cleaning apparatus 400 on the handle 210 as described above.
Preferably, as exemplified, the portion of the attachment member 120 that is used to mount the attachment member to the backbone may also comprise part of the air flow path from surface cleaning head 300 to hand vacuum cleaner 400. For example, the attachment member 120 may include a mounting portion or collar 140 that includes a coupling 142 and defines a channel 144. The collar 140 is connected to the airflow passageway 128, or alternatively may be connected directly to the air conduit 110. Optionally, the coupling 142 is a rotatable coupling that allows the airflow passageway 128 to rotate relative to the collar 140. The upstream end of the airflow passageway 128 defines the air inlet 126. In operation, the air inlet 126 is preferably coupled to the airflow conduit 110 that extends to the surface cleaning head 300 (the flexible air hose 124 in the example shown). The air inlet 126 is releasably coupled to the flexible air hose by clips 160. Downstream of the coupling 142 an enclosed airflow passage connects the airflow passage 128 to the air outlet 127. It will be appreciated that the attachment member 120 need not comprise part of the air flow passage. For example, coupling 142 may be located out of the flow path defined by passageway 128. Alternately, plate 123 need not have opening 127. Accordingly, attachment member may have a first part that is secured to hand vacuum 400 and a second distinct part that completes that air flow passage from surface cleaning head 300 to opening 438.
The airflow passageway 128 may be flexible or rigid and may be generally straight or may have a curved shape, as shown. Preferably, the curved airflow passageway 128 subtends fewer than 45 degrees.
It will be appreciated that the construction of the dirt collection chamber to denote a fill line may be used by itself or with any other feature disclosed herein. In addition, any of the features disclosed herein may be used by themselves, or with any other feature, and may include the construction of the dirt collection chamber to denote a fill line.
What has been described above has been intended to be illustrative of the invention and non-limiting and it will be understood by persons skilled in the art that other variants and modifications may be made without departing from the scope of the invention as defined in the claims appended hereto.
Claims
1. A surface cleaning apparatus comprising:
- (a) an air flow passage extending from a dirty air inlet to a clean air outlet;
- (b) a suction motor positioned in the air flow passage; and,
- (c) a cyclone unit positioned in the air flow passage, the cyclone unit comprising at least one cyclone and at least one dirt collection chamber;
- (d) at least a portion of the dirt collection chamber is exterior to the cyclone and has an outer wall;
- (e) at least a first portion of the outer wall is transparent and forms part of an outer casing of the surface cleaning unit;
- (f) the outer casing having a second portion that abuts the first portion at a juncture, the second portion having increased opacity compared to the first portion, wherein the juncture is positioned proximate a dirt fill line of the dirt collection chamber.
2. The surface cleaning apparatus of claim 1 wherein the dirt collection chamber surrounds at least a portion of the cyclone.
3. The surface cleaning apparatus of claim 2 wherein the cyclone has an outer cyclone housing that is positioned inwards of the transparent outer wall and that has increased opacity compared to the first portion.
4. The surface cleaning apparatus of claim 1 wherein the cyclone unit comprises a single cyclone.
5. The surface cleaning apparatus of claim 1 wherein the cyclone has a dirt outlet and the second portion comprises an outlet end wall of the cyclone unit proximate the dirt outlet.
6. The surface cleaning apparatus of claim 5 wherein the outlet end wall comprises an openable door.
7. The surface cleaning apparatus of claim 5 wherein the dirt collection chamber and the outlet end wall are separately molded.
8. The surface cleaning apparatus of claim 5 further comprising a plate facing the dirt outlet.
9. The surface cleaning apparatus of claim 8 wherein the plate is mounted to the outlet end wall.
10. The surface cleaning apparatus of claim 8-9 wherein a chamber is provided between the plate and the end wall and the chamber comprises part of the dirt collection chamber.
11. The surface cleaning apparatus of claim 1 wherein the surface cleaning apparatus comprises a portable vacuum cleaner.
12. The surface cleaning apparatus of claim 11 wherein the portable vacuum cleaner is removably mountable to an upright vacuum cleaner.
13. The surface cleaning apparatus of claim 12 wherein the suction motor is in airflow communication with a cleaning head of the upright vacuum cleaner when mounted to the upright vacuum cleaner.
14. The surface cleaning apparatus of claim 1 wherein the surface cleaning apparatus comprises a hand vacuum cleaner.
Type: Application
Filed: Mar 9, 2010
Publication Date: Sep 16, 2010
Applicant: G.B.D. CORP. (Nassau)
Inventor: Wayne Ernest Conrad (Hampton)
Application Number: 12/720,625
International Classification: A47L 9/16 (20060101);