FLOOR TOOL FOR A VACUUM CLEANER

Description

[0001] The present invention relates to a floor tool for a vacuum cleaner.

[0002] Vacuum cleaners can be supplied with a variety of floor tools and accessories for cleaning different floor surfaces. Some floor tools are intended for use on a particular floor surface i.e. single-mode cleaning. Floor tools however can include adjustable parts to change cleaning mode when cleaning different surfaces, i.e. multi-mode cleaning. Mode adjustment is usually either triggered purposefully by the user via a physical switch or button or, more conveniently for the user, automatically triggered by the floor tool as it senses and adapts to changes in the floor surface to be cleaned.

[0003] A problem with conventional multi-mode floor tools that adjust automatically is that they often offer a compromise between user convenience and overall cleaning performance across all surfaces. In addition, conventional multi-mode floor tools generally have a large footprint as they need to accommodate the means necessary to automatically adjust the mode of the floor tool rapidly, smoothly and consistently without impeding the contact surface area of the floor tool.

[0004] DE8335356 discloses a suction nozzle for a vacuum cleaner, the suction nozzle having a suction chamber which is moveable relative to a housing via a flexible hose.

[0005] DE2004649 discloses a vacuum cleaner nozzle having brushes which are attached to flexible membranes, the flexible membranes being movable so as to move the brushes into and out of a body of the vacuum cleaner nozzle.

[0006] The present invention provides a floor tool for a vacuum cleaner, the floor tool comprising: a cleaner head having a main body, a sole plate with an inlet through which dirt-laden fluid enters the cleaner head, an outlet duct fluidly connected to the inlet through which the dirt-laden fluid exits the cleaner head, an inflatable support housed within and connected to the main body and the sole plate, and an actuator assembly for regulating the size of the inflatable support; wherein the sole plate is movable relative to the main body in a vertical direction between a first position and a second position, movement of the sole plate is controlled by the inflatable support, and the actuator assembly is positioned within a region bounded by the trailing and leading edges of the main body.

[0007] It has been found that by incorporating the actuator assembly within the periphery of the main body, that is to say within the bounds of the leading and trailing edge of the main body, the overall size and footprint of the floor tool is reduced without impeding the cleaning performance of the floor tool.

[0008] The inflatable support may comprise two cushions arranged either side of the inlet. The total size and footprint of the floor tool may then be reduced by positioning two inflatable support cushions either side of the suction inlet of the cleaner head. The suction inlet and the outlet duct can then be positioned centrally and towards the leading edge of the cleaner head.

[0009] The actuator assembly may comprise a single valve which closes to deflate the two cushions. The use of a single valve to deflate the cushions provides balance to the floor tool during mode change. In particular, the single valve ensures that the cushions are deflated more evenly. In addition, the suction that is used to draw the dirt laden fluid through the cleaner head can provide an additional airflow can be exploited to provide an additional airflow that deflates the cushions. The cushions can then be re-inflated by opening the single valve.

[0010] When the inflatable support comprises two cushions, the cushions may be symmetrically arranged either side of the suction inlet. Providing two symmetrically arranged cushions improves the balance of the sole plate and provides smoother movement of the sole plate between the first and second positions. By having two independent inflatable cushions, a more even force can be applied across the sole plate on each side of the suction inlet during their deflation to prevent the suction inlet from clamping to a smooth floor surface.

[0011] The inflatable support may be fluidly connected to the actuator assembly, and the actuator assembly may be fluidly connected to the outlet duct. By fluidly connecting the inflatable support, the actuator assembly and the outlet duct, the suction applied to the outlet duct by the vacuum cleaner can be employed to deflate the inflatable support.

[0012] The sole plate may further comprise a suction channel with two bleed valves, a bleed valve being located towards each side edge of the sole plate. The bleed valves can be manually or automatically operated to release the sole plate from a surface to be cleaned in the event that the suction inlet becomes clamped to flat and or smooth surface. A balanced and responsive floor tool is achieved by providing bleed valves on each side of the sole plate since the bleed valves can be opened to equalise any force from the inflatable support.

[0013] In order that the present invention may be more readily understood, an embodiment of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:

Figure 1 is a perspective view of a floor tool of the present invention;

Figure 2 is an exploded view of a cleaner head of the floor tool;

Figure 3 is an underside view of the cleaner head;

Figure 4 is a plan sectional view of the cleaner head, the section being taken in a horizontal plane;

Figure 5 is a perspective view of the cleaner head without the main body;

Figure 6 is a perspective view of the actuator assembly;

Figure 7 is a sectional view of the actuator assembly in the plane A-A shown in Fig 6 with the valve closed; and

Figure 8 is a sectional view of the actuator assembly in the plane A-A shown in Fig 6 with the valve open

[0014] Figure 1 illustrates a floor tool 1 for a vacuum cleaner, the floor tool 1 comprising a cleaner head 2 and a conduit assembly 3.

[0015] The cleaner head 2 is shown in more detail in Figures 2 to 5. The cleaner head 2 comprises a main body 4, a sole plate 5, an outlet duct 6, two inflatable supports 7,8, an actuator assembly 9 and cap 10.

[0016] The main body 4 comprises a carrier assembly 11, a cover 12 and a flexible skirt 13. The carrier assembly 11 and cover 12 are fixed together and form a cavity with two chambers 14. The cavity receives the sole plate 5 and the two chambers 14 accommodate the two inflatable supports 7,8.

[0017] The sole plate 5 comprises a suction inlet 15 and two bleed valves 16 disposed within a channel 17. The sole plate 5 is received within the main body 4 and is moveable in a substantially vertical direction between two positions. The channel 17 spans the width of the sole plate 5 with the suction 15 inlet being positioned in the middle of the channel 17. The two bleed valves 16 are positioned towards each side edge of the sole plate 5.

[0018] The outlet duct 6 comprises a main conduit 18 which is connected at one end to the inlet 15 of the sole plate 5 and at the opposite end to the conduit assembly 3. The main conduit 18 provides a fluid flow path through which dirt-laden fluid is carried from the inlet 15 to the conduit assembly 3. The outlet duct also has a secondary inlet 19 which is best shown in Figure 4. The secondary inlet 19 is fluidly connected to the two inflatable supports 7,8 via the actuator assembly 9. The secondary inlet 19 provides a secondary fluid flow path for an airflow to through the cleaner head 2. The full function of secondary inlet 19 will be described later. The cap 10 is used to cover the outlet duct 6.

[0019] The two inflatable supports 7,8 are secured to the main body 4 and the sole plate 5. The two inflatable supports 7,8 are symmetrically arranged either side of the suction inlet 15 of the sole plate 5. Each inflatable support 7,8 comprises a resilient cushion 20 having an air inlet 21 and an air outlet 22, which are perforations on the ceiling and floor of the cushion 20, respectively. The cushions 20 are inflated by ambient air which enters the cushions 20 through the inlets 21. The cushions 20 are deflated by suction applied to the air outlet 22. The cushions 20 contract to occupy a reduced volume during deflation. The inflatable supports 7,8 are shaped to collapse and fold in a concertina fashion, folding to provide a narrow and uniform profile under suction. Each inflatable support 7,8 has a spring 23 located within the cushion 20 which forces the floor and ceiling of the cushion 20 apart. Consequently, when the suction is removed from the air outlet, the spring 23 causes the cushion 20 to expand as ambient air re-enters the cushion 20 via the air inlet 21. As a result, the inflatable supports 7,8 can be deflated and re-inflated by applying and removing a suction to the air outlet 22. Since the inflatable supports 7,8 are attached to both the main body 4 and the sole plate 5 of the cleaner head 2, their collapse and expansion causes the sole plate 5 to move upwardly and downwardly within the main body 4.

[0020] The actuator assembly 9 comprises a sensor switch 24 and a valve assembly 25. The sensor switch 24 and the valve assembly 25 are shown in more detail in Figures 6 to 8. The sensor switch 24 is a paddle which rotates about an axis B-B. The sensor switch 24 is free to rotate about the axis B-B in either a clockwise and anti-clockwise motion. The sensor switch 24 is configured so that the paddle rotates when the floor tool 1 is manoeuvred on a carpeted floor surface, the direction of rotation of the sensor switch 24 being dictated by the direction of travel of the floor tool 1. The sensor switch 24 is also configured so that it does not rotate when the when the floor tool 1 is manoeuvred on a hard floor surface.

[0021] The valve assembly 25 comprises a valve 26, an ambient air inlet 27, a cushion air inlet 28 and a common outlet 29. The valve 26 is configured to control whether the flow of air exiting through the common outlet 29 has entered either through the ambient air inlet 27 or the cushion air inlet 28. The valve 26 is moveable between a closed position (shown in Figure 7) and an open position (shown in Figure 8). Springs (not shown) are used to bias the valve 26 in the closed position against the ambient air inlet 27. Air is allowed to flow through the ambient air inlet 27 to the common outlet 29 when the valve 26 is open. Conversely, air travels only through the cushion air inlet 28 to the common outlet 29 when the valve 26 is closed. Airflow drawn from the ambient air inlet 27 is thus prevented when the valve 25 is closed.

[0022] The cushion air inlet 28 of the valve assembly 25 is fluidly connected to both of the inflatable supports 7,8 via connected tubes (not shown). The common outlet 29 of the valve assembly 25 is fluidly connected to the secondary inlet 19 of the outlet duct 6 via a tube 30. Suction applied in the outlet duct 6 causes the secondary inlet 19 to draw a secondary airflow through either the ambient air inlet 27 or the cushion air inlet 28. The secondary airflow is admitted into the cleaner head 2 either through the air inlet 21 provided on each of the two inflatable supports 7,8, or through the ambient air inlet 29 of the actuator assembly 9 depending on the position of the valve 26.

[0023] When the valve 26 is in the closed position, the secondary airflow is drawn into the cleaner head 2 through the air inlets 21 provided on the two inflatable supports 7,8. The secondary airflow passes through the cushions 20 towards the air outlets 22 which are fluidly connected to the valve assembly 25 by the connected tubes. The secondary airflow enters the valve assembly 25 via the cushion air inlet 28 and exits through the common outlet 29. The tube 30 fluidly connects the common outlet 29 to the secondary inlet 19 of the outlet duct 6, such that the secondary airflow ultimately combines with the dirt-laden airflow as it travels through the outlet duct 6. As the secondary airflow is drawn through the cushions 20, they are caused to deflate due to the suction applied from the secondary inlet 19. The contraction of the cushions 20 causes the substantially vertical upward movement of the sole plate 5 within the main body 4. The outer perimeter and the flexible skirt 13 of the main body 4 are brought into contact with the floor surface to be cleaned.

[0024] When the valve 26 is in the open position, the secondary airflow enters the cleaner head 2 via the ambient air inlet 27 instead of entering through the air inlets 21 provided on the two inflatable supports 7,8. The airflow from the ambient air inlet 27 has a lower resistance path than that provided by the cushion air inlet 28. Since the suction applied to the two inflatable supports 7,8 is reduced, the internal springs 23 cause the cushions 20 to expand as ambient air re-enters via the air inlet 21. The expansion of the internal springs 23 causes the two inflatable supports 7,8 to inflate and push the sole plate 5 downwardly within the main body 4. The expansion of the cushions 20 causes the substantially vertical downward movement of the sole plate 5 within the main body 4. The outer perimeter and the flexible skirt 13 of the main body 4 appear to lift from the surface whilst the sole plate 5 maintains contact with the floor surface to be cleaned.

[0025] The valve 26 is opened and closed by the sensor switch 24 rotating about axis B-B. The sensor switch 24 rotates on axle 31 during rotation. The axle 31 is coupled to the valve 26 such that rotation of the axle 31 is transferred into lateral movement of the valve 26. Rotation of the axle 31 in either a clockwise or anti-clockwise direction causes the valve 26 to move to the open position against the bias of the springs, thereby opening the ambient air inlet 27.

[0026] The conduit assembly 3 is connected at one end to the cleaner head 2 via the outlet duct 6. The other end of the conduit assembly 3 is connectable to a wand or a hose of a vacuum cleaner (not shown). The conduit assembly 3 provides a fluid flow path through which dirt-laden fluid is carried from the cleaner head 2 to the vacuum cleaner via the wand or hose.

[0027] In use, the floor tool 1 is manoeuvred over a floor surface to be cleaned using the wand. The cleaner head 2 maintains a flat profile with the floor surface as the floor tool is manoeuvred backwards and forwards.

[0028] On a hard floor surface, the cleaner head 2 maintains constant contact with the surface to be cleaned via the wheels of the sole plate 5 and main body 4. The sensor switch 24 of the actuator assembly 9 avoids contact with the floor surface and is therefore kept stationary during forward and backward manoeuvring of the floor tool 1. The valve 26 is kept in a closed position to cause or maintain the substantially vertical upward movement of the sole plate 5 within the main body 4. The outer perimeter of the main body 4 and the flexible skirt 13 then contact the hard floor surface. The outer perimeter of the main body 4 may have felt or bristles to prevent the main body 4 from scratching the hard floor surface. Thus, the floor tool 1 is deployed in a hard floor cleaning mode.

[0029] On a carpet surface, the floor tool 1 is drawn down into the carpet fibres. As the floor tool 1 is manoeuvred backwards and forwards, carpet fibres push against the sensor switch 24. The force causes the sensor switch 24 to rotate about its axle 31 and open the valve 26. The sole plate 5 moves downward from the expansion of the two inflatable supports 7,8. The sole plate 5 maintains contacts the carpeted surface to be cleaned and the main body 4 appears to lift away from the carpeted surface. Thus, the floor tool 1 has automatically adjusted into a carpet floor cleaning mode.

[0030] The multi-mode floor tool 1 of the present invention is configured to provide a sole plate 5 which is balanced and efficiently engaged against different types of floor surface. In addition, an even contact across the whole of the sole plate 5 is achieved by positioning the two inflatable supports 7,8 either side of the suction inlet 15. During mode change, it has been surprisingly found that the movement of the sole plate 5 can be achieved without having to provide an inflatable support directly over the suction inlet 15, even if the floor tool 1 is operating on a smooth hard floor surface. By having the two inflatable supports 7,8 either side of the suction inlet 15 the overall footprint of the floor tool can be reduced. The suction inlet 15 and the actuator assembly 9 can all be brought forward on the cleaner head 2 so that they are all incorporated within the leading and trailing edges of the cleaner head 2. By positioning the actuator assembly 9 within a region bounded by the trailing and leading edges of the main body 4, the footprint of the cleaner head 2 is reduced because the actuator is incorporated within the shape of the cleaner head 2. The position of the inlet 15 and suction channel 17 can be moved forward on the sole plate 5 without compromising cleaning performance. The footprint size of the cleaner head 2 is thereby reduced without impacting on the performance or the mode changing ability of the floor tool 1.

Claims

1. A floor tool (1) for a vacuum cleaner, the floor tool (1) comprising:

a cleaner head (2) having a main body (4), a sole plate (5) with an inlet (15) through which dirt-laden fluid enters the cleaner head (2), an outlet duct (6) fluidly connected to the inlet (15) through which the dirt-laden fluid exits the cleaner head (2), the sole plate (5) being movable relative to the main body (4) in a vertical direction between a first position and a second position,

characterised in that the floor tool (1) comprises an inflatable support (7,8) housed within and connected to the main body (4) and the sole plate (5), and an actuator assembly (9) for regulating the size of the inflatable support (7,8);

wherein movement of the sole plate (5) is controlled by the inflatable support (7,8), and the actuator assembly (9) is positioned within a region bounded by the trailing and leading edges of the main body (4).

2. The floor tool (1) according to Claim 1, wherein the inflatable support (7,8) comprises two cushions (7,8) arranged either side of the inlet (15).

3. The floor tool (1) according to Claim 2, wherein the actuator assembly (9) comprises a single valve (25) which closes to deflate the two cushions (7,8).

4. The floor tool (1) according to Claim 2 or Claim 3, wherein the two cushions (7,8) are symmetrically arranged either side of the inlet (15).

5. The floor tool (1) according to any one of the previous claims, wherein the inflatable support (7,8) is fluidly connected to the actuator assembly (9), and the actuator assembly (9) is fluidly connected to the outlet duct (6).

6. The floor tool (1) according to any one of the previous claims, wherein the sole plate (5) further comprises a suction channel (17) with two bleed valves (16), a bleed valve (16) being located towards each side edge of the sole plate (5).

Ansprüche

1. Bodenwerkzeug (1) für einen Staubsauger, wobei das Bodenwerkzeug (1) aufweist: einen Reinigungskopf (2) mit einem Hauptkörper (4), eine Bodenplatte (5) mit einem Einlass (15), durch welchen schmutzbelastetes Fluid in den Reinigungskopf (2) eintritt, einen Auslasskanal (6), welcher fluidisch mit dem Einlass (15) verbunden ist, durch welchen schmutzbelastetes Fluid den Reinigungskopf (2) verlässt, wobei die Bodenplatte (5) in Bezug zu dem Hauptkörper (4) in einer vertikaler Richtung zwischen einer ersten Stellung und einer zweiten Stellung beweglich ist,
dadurch gekennzeichnet, dass das Bodenwerkzeug (1) einen aufblasbaren Träger (7, 8), welcher innerhalb des Hauptkörpers (4) untergebracht und mit diesem und der Grundplatte (5) verbunden ist, und eine Aktuatorbaugruppe (9) aufweist, um die Größe des aufblasbaren Trägers (7, 8) zu regulieren;
wobei die Bewegung der Grundplatte (5) durch den aufblasbaren Träger (7, 8) gesteuert wird, und die Aktuatorbaugruppe (9) innerhalb eines Bereiches angeordnet ist, welcher von der Hinter- und Vorderkante des Hauptkörpers (4) begrenzt wird.

2. Bodenwerkzeug (1) nach Anspruch 1, wobei der aufblasbare Träger (7, 8) zwei Kissen (7, 8) aufweist, welche beiderseits des Einlasses (15) angeordnet sind.

3. Bodenwerkzeug (1) nach Anspruch 2, wobei die Aktuatorbaugruppe (9) ein einzelnes Ventil (25) aufweist, welches schließt, um aus den beiden Kissen (7, 8) Luft abzulassen.

4. Bodenwerkzeug (1) nach Anspruch 2 oder Anspruch 3, wobei die beiden Kissen (7, 8) symmetrisch beiderseits des Einlasses (15) angeordnet sind.

5. Bodenwerkzeug (1) nach einem der vorhergehenden Ansprüche, wobei der aufblasbare Träger (7, 8) fluidisch mit der Aktuatorbaugruppe (9) verbunden ist, und die Aktuatorbaugruppe (9) fluidisch mit dem Auslasskanal (6) verbunden ist.

6. Bodenwerkzeug (1) nach einem der vorhergehenden Ansprüche, wobei die Bodenplatte (5) ferner einen Ansaugkanal (17) mit zwei Entlüftungsventilen (16) aufweist, wobei sich ein Entlüftungsventil (16) in Richtung zum jeweiligen Seitenrand der Bodenplatte (5) befindet.

Revendications

1. Outil de plancher (1) pour un aspirateur, l'outil de plancher (1) comprenant:

une tête de nettoyeur (2) comprenant un corps principal (4), une plaque de semelle (5) comportant une entrée (15) à travers laquelle un fluide chargé de crasse entre dans la tête de nettoyeur (2), un conduit de sortie (6) qui est connecté de façon fluidique à l'entrée (15) et à travers lequel le fluide chargé de crasse sort de la tête de nettoyeur (2), la plaque de semelle (5) étant déplaçable par rapport au corps principal (4) dans une direction verticale entre une première position et une seconde position,

caractérisé en ce que l'outil de plancher (1) comprend un support gonflable (7, 8) qui est logé à l'intérieur de et est connecté au corps principal (4) et à la plaque de semelle (5), et un ensemble d'actionneur (9) pour régler la taille du support gonflable (7, 8);

dans lequel la plaque de semelle (5) est commandée par le support gonflable (7, 8), et l'ensemble d'actionneur (9) est positionné à l'intérieur d'une région qui est délimitée par les bords arrière et avant du corps principal (4).

2. Outil de plancher (1) selon la revendication 1, dans lequel le support gonflable (7, 8) comprend deux coussinets (7, 8) agencés de part et d'autre de l'entrée (15) .

3. Outil de plancher (1) selon la revendication 2, dans lequel l'ensemble d'actionneur (9) comprend une seul clapet (25) qui se ferme pour dégonfler les deux coussinets (7, 8).

4. Outil de plancher (1) selon la revendication 2 ou la revendication 3, dans lequel les deux coussinets (7, 8) sont agencés de façon symétrique de part et d'autre de l'entrée (15).

5. Outil de plancher (1) selon l'une quelconque des revendications précédentes, dans lequel le support gonflable (7, 8) est connecté de façon fluidique à l'ensemble d'actionneur (9), et l'ensemble d'actionneur (9) est connecté de façon fluidique au conduit de sortie (6).

6. Outil de plancher (1) selon l'une quelconque des revendications précédentes, dans lequel la plaque de semelle (5) comprend en outre un canal d'aspiration (17) comportant deux soupapes de purge (16), une soupape de purge (16) étant située en direction de chaque bord latéral de la plaque de semelle (5).

Drawing