This invention relates to a cleaner head for a vacuum cleaner, and particularly, although not exclusively, relates to a cleaner head for a hand-held vacuum cleaner. The invention also relates to a brush bar for a cleaner head and to a method of manufacture of the brush bar.
Cleaner heads for vacuum cleaners typically comprise a brush bar located within a housing. A suction opening is provided in a lower surface of the housing, which is commonly known as a sole plate, through which dirt bearing air is drawn into the cleaner head.
A problem associated with conventional cleaner heads is that the close proximity required between the sole plate and the surface being cleaned in order to maintain pick-up performance means that large debris tends to be pushed across the surface being cleaned by the cleaner head rather than being drawn through the suction opening into the cleaner head.
Brush bars have been developed which try to rectify this problem. Such brush bars have a plurality of radially extending bristles and a sealing material disposed between the bristles. The sealing material is typically a “fleece” type material and extends over substantially the entire circumferential and axial extent of the regions of the brush bar between the bristles. The sealing material is locally deformable so that debris pressed into the material is at least partially enveloped by the material. The sealing material may also be resilient so that once debris has been extracted, the material returns to a nominal shape.
These brush bars have a core in the form of a rigid tube. The brush bar has a number of bristle strips spaced circumferentially about the core. Each bristle strip has a row of radially extending bristles which are held by an overmoulded locating strip. The overmoulding locating strip of each bristle strip is secured to the core within a corresponding groove provided in the outer surface of the core. Each groove has opposing lips along each edge of the groove which interlock with the locating strip to secure the bristle strip to the core.
Strips of a sealing material are secured to the outer surface of the core between the bristle strips.
Whilst these brush bars have helped to solve the problem mentioned above, they have the disadvantage that they are expensive and difficult to manufacture. The materials and manufacture method used also result in a brush bar with a circumference which is larger than desirable. Any brush bar or method of manufacture which helped to solve these problems would therefore be desirable.
According to an aspect of the present invention there is provided a brush bar comprising a central core, in the form of a rigid tube, a plurality of outwardly extending bristles in the form of at least one bristle strip, and a sealing material extending over substantially the entire remaining circumferential and axial extent of the brush bar, characterised in that the at least one bristle strip has a root portion which is sandwiched between the sealing material and the central core, or which is attached on top of the sealing material. In an embodiment the root portion is fixed to the underside of the sealing material and the sealing material is fixed to an outer surface on the central core.
As used herein the term “rigid” means that the tube retains its tubular shape during normal use. It is preferably self-supporting. It may however have some ability to flex, give or compress.
Sandwiching a root portion between the sealing material and the central core (for example by fixing the root portion of the bristles directly to the underside of the sealing material and the sealing material directly to the central core) or fixing the root portion on top of the sealing material can be advantageous for several reasons. Firstly with the bristle strip(s) being secured using the sealing material, the brush bar may be simpler and cheaper to make as it does not require overmoulding a plastic locating strip onto the bristles or forming a channel in the surface of the central core into which the locating strip is placed. In addition, the brush bar can have a smaller wall thickness than the prior art brush bar (since it does not need to have sufficient depth to accommodate a channel for a locating strip). This means that the inner circumference of the central core can be increased if desired to house larger components inside it. A motor for powering rotation of the brush bar could for example be placed inside the central core. Alternatively the small wall thickness can be utilised to make smaller floor tools. This is particularly advantageous in some territories where there is a consumer demand for smaller, lighter machines.
The radial extent of the bristles may be equal to or greater than the radial extent of the sealing material. The bristles may tangential to the outer surface of the central core. They may for example, be arranged at an angle to the surface of the central core such that they point towards or away from the direction of travel of the brush bar during use. The bristles may be arranged perpendicular to the longitudinal axis of the central core. The radial extent of the bristles may be equal to or greater than the radial extent of the sealing material.
The sealing material may be a deformable material. In particular, the sealing material may be a resiliently deformable material. The sealing material may comprise a tufted material. The sealing material may be a fleece material. The sealing material may be a felt material. The sealing material may be formed from a polymer for example Nylon. The sealing material may have a backing material. The backing material may be made from a woven fabric, for example it may be formed from woven polyester or nylon. In an embodiment a layer of adhesive may be located on the underside of the sealing material and/or on the underside of the backing material. The underside of the sealing material and/or the underside of the backing material may have a coating which helps the adhesive to bond to it. In such as embodiment the adhesive can fix the sealing material to the central core. In an alternative embodiment the central core may have a layer of adhesive on its outer surface to which the sealing material is fixed. The sealing material could alternatively be fused to the central core by any other suitable method.
Any suitable adhesive may be used, for example a modified acrylic or acrylic adhesive tape.
The bristle strips may comprise bristles which have a stiffness which is greater than the stiffness of the sealing material in a radial direction. Suitable examples are glass fibre, basalt, Vectran™, nylon, or any suitable synthetic fibre. In an embodiment the bristles are carbon fibre bristles.
The diameter of each bristle may be not more than 0.5 mm, preferably not greater than 10 μm. The bristles may be arranged in a plurality of rows extending longitudinally with respect to the brush bar. The width of each row may be not greater than 5 mm, for example not greater than 2 mm. The rows of bristles may be arranged in a generally helical configuration extending around, or partially around, the brush bar. There may be 1, 2, 3, 4 or 5 bristle strips. The length of each bristle may be between 5 mm and 15 mm
In an embodiment the sealing material may be formed from a plurality of strips with a bristle strip being attached to each sealing member. These pre-fabricated sealing member and bristle strip sections can then be fixed to the central core to effectively cover the entire surface of the central core.
In an alternative embodiment, neighbouring sealing members may be fixed together with a bristle strip fixed between them. Such pre-fabricated sealing member and bristle strip sections can then be fixed to the central core.
The root portion of the bristle strip(s) may be fixed to the sealing member by bonding, sewing, gluing, ultrasonic welding or any other suitable means. In a particular embodiment the root portion of the bristle strip is glued to the underside of the sealing member. In an alternative embodiment the root portion of the bristle strip(s) may be sewn to the sealing member. In a particular embodiment the root portion may extend under the sealing member. The root portion may extend only a short distance under the sealing member, for example from 0.1, or, 0.2, or 0.5, or 1 mm to 3, or 4, or 5, or 8, or 10 mm In an alternative embodiment the root portion of the bristle strip may extend the full width of the sealing member. In an embodiment where the root portion of the bristle strip extends the full width of the sealing material, the upper surface of the root of the bristle strip is fixed to the lower surface of the sealing member and thus the root portion becomes a layer of the sealing material. In such an embodiment the upper surface of the root portion is fixed to the lower surface of the sealing material and the lower surface of the root portion is fixed to the central core such that the root portion conforms to the outer surface of the central core. The root portion and the bristles of the bristle strip(s) do not project into the central core. The outer surface of the central core is preferably smooth. In an embodiment the central core has no channels on its outer surface. In an embodiment the outer surface of the central core is smooth. The ends of the central core may have location features, such as notches or cut outs which can be used during manufacture of the brush bar, for example for drive dog fitment. Such location features may also be used for mounting the brush bar within a cleaner head. Additionally the central core may have end formed features for example, flanges and flares.
In an embodiment the central core is formed from a metal, for example from Aluminium. In an alternative embodiment the central core may be formed from a composite material such as carbon fibre, or a plastics material. The inner surface of the central core may be smooth and featureless or may have added, extruded or moulded features if desired.
According to a further aspect of the invention there is provided a cleaner head for a vacuum cleaner, comprising an agitator in the form of a brush bar as described above. The cleaner head may further comprise a housing defining a chamber which at least partially surrounds the brush bar and a dirty air inlet in a lower part of the chamber, the brush bar being supported for rotation with respect to the housing.
The cleaner head may be provided with a support for supporting the cleaner head on a surface being cleaned, the brush bar being arranged such that, in use, the bristles contact the surface being cleaned. The bristles may extend below the support.
The sealing material may be arranged such that, in use, the sealing material is spaced away from the surface being cleaned by the support.
The cleaner head may comprise a rear roller.
According to a further aspect of the invention there is provided a vacuum cleaner comprising a cleaner head as described above.
According to a further aspect of the invention there is provided a vacuum cleaner comprising a brush bar as described above.
According to a further aspect of the invention there is provided a method for making a brush bar, the method comprising the steps of;
1) providing a rigid tube;
2) providing a strip of sealing material;
3) providing a bristle strip having a root portion; and
4) fixing the strip of sealing material to the rigid tube,
wherein that the root portion of the bristle strip is sandwiched between the underside of the sealing material and the outer surface of the rigid tube, or is attached on top of the strip of sealing material.
Accordingly, in this aspect of the invention either the strip of sealing material is fixed to the rigid tube such that the root portion of the bristle strip is sandwiched between the underside of the sealing material and the outer surface of the rigid tube, or the root portion of the bristle strip is attached on top of the strip of sealing material before, during or after the strip of sealing material is fixed to the rigid tube. In other words, according to this aspect of the invention, step 4 may comprise fixing the strip of sealing material to the rigid tube such that the root portion of the bristle strip is sandwiched between the underside of the sealing material and the outer surface of the rigid tube; or the method may comprise step 3a which comprises attaching the root portion of the bristle strip on top of the strip of sealing material, and step 4 may comprise fixing the strip of sealing material, to which the root portion of the bristle strip has been attached, to the rigid tube; or step 4 may comprise fixing the strip of sealing material to the rigid tube and the method may further comprise step 5 which comprises attaching the root portion of the bristle strip on top of the sealing material once the sealing material has been fixed to the rigid tube; or step 4 may comprise fixing the strip of sealing material to the rigid tube while simultaneously attaching the root portion of the bristle strip on top of the strip of sealing material.
As explained above, existing brush bars are manufactured by overmoulding the base of a bristle strip with a plastics or rubber material to form a locating strip. This locating strip is then secured into a corresponding groove provided in the outer surface of the rigid tube. Each groove has opposing lips along each edge of the groove which interlock with the locating strip to secure the bristle strip to the rigid tube. Strips of a sealing material are secured to the outer surface of the rigid tube between the bristle strips.
These brush bars are expensive and difficult to manufacture. The materials and manufacture method used also result in a brush bar with a circumference which is larger than desirable.
The method used in the present invention is advantageous as it can be much simpler and/or cheaper than the existing method, and/or can produce a brush bar which is lighter and has a thinner wall thickness. This means that the inner circumference of the central core can be increased if desired to house larger components inside it. A motor for powering rotation of the brush bar could for example be placed inside the central core. Alternatively the smaller wall thickness could be utilised to make smaller floor tools. This is particularly advantageous in some territories where there is a consumer demand for smaller, lighter machines.
In an embodiment the method further comprises the step of forming the rigid tube, for example by forming a rigid tube from a metal or plastics material. The method may comprise the step of forming the rigid tube from Aluminium.
The method may also further comprise the step of forming or cutting a strip of sealing material. In a particular embodiment the method involves the step of forming the sealing material from a deformable material, in particular, a resiliently deformable material. The sealing material may comprise a tufted material. The sealing material may be a fleece material. The sealing material may be a felt material. The sealing material may be formed from Nylon.
The method may further comprise the step of forming the sealing material with a backing material. The backing material may be made from a woven fabric, for example it may be formed from woven polyester or woven nylon. In an embodiment the method may also include the step of locating a layer of adhesive on the underside of the sealing material and/or on the underside of the backing material. Any suitable adhesive may be used, for example a modified acrylic. The adhesive may be in the form of a double sided adhesive tape.
The method may further comprise the step of applying a coating to the backing material before application of the adhesive. The coating may help the adhesive to bond to the backing material.
The method may also include the step of fixing the sealing material to the rigid tube using the adhesive. The adhesive may be applied to the underside of the sealing material, to the underside of the backing material or to the rigid tube. The adhesive can therefore be used to bond the sealing material to the rigid tube. Alternatively the sealing material could be fixed to the rigid tube in any suitable way, for example by fusing, melting or ultrasonic welding.
The method may further comprise the step of forming the bristle strip with a root portion, for example forming the bristle strip from carbon fibre. The method may include the step of forming the root portion of the bristle strip by weaving ends of the carbon fibre together.
In a particular embodiment the method comprises the step of fixing the root portion of the bristle strip to the sealing material before the sealing material is fixed to the outer surface of the rigid tube. This fixing may be carried out by gluing, adhering, fusing, bonding or sewing the root portion of the bristle strip to the underside of or the top of the sealing material. This fixing together forms a sealing material and bristle strip sheet.
The method may comprise the steps of 1) laying the sealing material and bristle strip sheet onto a jig, for example a vacuum bed having location detail; 2) attaching a drive dog to one or both ends of the rigid tube; and 3) rolling the rigid tube over the sealing material and bristle strip sheet to fix the sealing material and bristle strip sheet to the rigid tube.
Alternatively the method may comprise the steps of 1) attaching a drive dog to one or both ends of the rigid tube; and 2) bringing one end of the sealing material and bristle strip sheet into contact with the rigid tube; and 3) rotating the rigid tube to fix the sealing material and bristle strip sheet to the rigid tube.
Alternatively, the method may comprise the step of applying the sealing material and bristle strip sheet starting at one end of the rigid tube and fixing it along the length of the tube. The method may comprise the step of turning the rigid tube as the sealing material and bristle strip sheet is applied to the rigid tube. The sealing material and bristle strip sheet may be held, for example in a roll and the sheet may be applied by moving the rigid tube in the direction of its longitudinal axis to fix the sealing material and bristle strip sheet along the length of the rigid tube.
In any of these embodiments the one or more sealing material and bristle strip sheets may be applied to the rigid tube such that substantially the entire circumferential and axial extent of the rigid tube is covered.
It is also possible that the method may comprise the step of joining two or more sealing material and bristle strip sheets together before they are fixed to the rigid tube. In this embodiment two or more sealing material and bristle strip sheets may be joined together by gluing, stitching, adhering, fusing or bonding them together such that sealing material is located between each bristle strip. In a particular method an adhesive, for example an adhesive backing tape is used to join sealing material and bristle strip sheets together by applying the adhesive tape to the underside of a backing material of the sealing members. In an alternative embodiment the backing material of two strips of sealing material can be sewn together with the root portion of a bristle strip being located between the two pieces of backing material. In a particular method the backing material that is stitched together protrudes outwardly from the edge of the sealing material. The method therefore comprises the step of forming the sealing material with a backing material having an edge which protrudes outwardly from the remainder of the sealing material. The root potion of the bristle strip can then be fixed to the underside or to the top of this protruding portion.
As an alternative to joining two or more sealing material and bristle strip sheets together before fixing them to the rigid tube, the method may include forming a sealing material and bristle strip sheet which comprises more than one bristle strip and/or more than one strip of sealing material. Such a sealing material and bristle strip sheet may comprise, for example, two or three strips of sealing material and two bristle strips.
The step of forming the sealing material and bristle strip sheet may include forming a sealing material and bristle strip sheet which has a strip of sealing material at each end thereof. Accordingly, when the sealing material and bristle strip sheet is wrapped around a core, the gap or join between ends of the sealing material and bristle strip sheet has sealing material on both sides of it. The gap or joint may therefore be partially or completely visually obscured by the sealing material.
Where a sealing material and bristle strip sheet comprises more than one strip of sealing material, the step of forming the sealing material and bristle strip sheet may include providing at least two strips of sealing material on a communal piece of backing material. In such a case, the communal piece of backing material may sandwich a root portion of a bristle strip between it and the core, or one or more bristle strips may have their root portions attached on top of the communal piece of backing material.
Optional or preferred features described in relation to one aspect of the invention may be applied to other aspects of the invention, where appropriate.
In order to better understand the present invention, and to show more clearly how the invention may be put into effect, the invention will now be described, by way of example, with reference to the following drawings:
The main body 4 comprises a separating system 10, in the form of a cyclonic separator, a motor and impeller (not visible) arranged to draw air through the separating system 10, and a power supply 12, in the form of a battery, for powering the motor. The main body 4 has a handle 14 which is gripped by a user, and a clean air outlet 16 through which air that has passed through the separating system 10 is discharged.
The wand 6 is attached at one end to the main body 4 and at the other end to the cleaner head 8. The wand 6 provides fluid communication between the cleaner head 8 and the separating system 10, and supports the cleaner head 8 during use.
The housing 22 is connected to the wand 6 by a pivoting arrangement 26 comprising upper and lower pivotal joints 28, 30 which enable the cleaner head 8 to be pivoted in yaw and pitch with respect to the wand 6. A flexible hose 32 extends from a connecting portion 34 of the pivoting arrangement 26 into an upper region of the chamber 24. The end of the hose 32 that extends into the chamber 24 defines a dirty air outlet 36 (shown in
The brush bar 18 and the rear roller 20 are supported at each of their respective ends by side walls 38, 40 of the housing 22. The brush bar 18 and the rear roller 20 are each rotatably supported by the side walls 38, 40 so that they can rotate with respect to the housing 22.
With reference to
Each bristle strip 46 extends both longitudinally and circumferentially with respect to the brush bar 18 in a generally helical configuration. Each bristle strip 46 extends circumferentially through an angle of 120 degrees over the length of the brush bar 18.
The sealing material 48 is locally deformable so that debris pressed into the material is at least partially enveloped by the material. The sealing material 48 may also be resilient so that once debris has been extracted, the material returns to a nominal shape. However, it will be appreciated that centrifugal forces acting on the brush bar 18 during use may return the sealing material 48 to its nominal shape.
In the embodiment shown, the sealing material 48 is a tufted material. The sealing material 48 may, for example, be a tufted material having a short dense pile and may be formed by filaments woven to a fabric substrate. The filaments of the pile may be made from nylon, or other suitable material having a relatively low stiffness. The stiffness of a tufted sealing material will depend on the elastic properties of the material, the filament diameter, filament length and pile density. In the embodiment shown, the tufted material is made from nylon and has a filament diameter of between 30 μm and 50 μm (preferably 30 μm), a filament length of 0.005m and a pile density of 60,000 filaments/25 mm2. The sealing material need not be a tufted material, but could be a foam material such as a closed cell foam material or other suitable material that provides adequate flow restriction. It will be appreciated that although a deformable sealing material is preferred, this is not essential. The thickness (i.e. radial depth) of each strip of sealing material 48 is substantially constant, and the sealing strips 48 are substantially identical.
The bristles of each bristle strip 46 are arranged at an angle to the surface of the core 42 such that they point towards or away from the direction of travel of the brush bar 18 during use. The bristle strips 46 are all angled in the same direction. Preferably they point away from the direction of travel. The bristles are arranged perpendicular to the longitudinal axis of the core 42. The radial extent of the bristle strips 46 is greater than the radial extent of the strips of sealing material 48. That is, the radial distance between the tips of the bristle strips 46 and the rotational axis of the brush bar 18 is greater than the radial distance between the periphery of the strips of sealing material 48 and the rotational axis of the brush bar 18. The radius of the brush bar 18 is defined as the distance between the axis of the brush bar 18 and the tips of the bristle strips 46. The bristle strips 46 may be angled to the extent that they make contact with a neighbouring strip of sealing material 48.
Each strip of sealing material 48 may extend over an angle of 100 to 120 degrees, preferably 110 to 120 degrees of the circumferential extent of the brush bar 18. A gap may be formed between one or more of the bristle strips 46 and an adjacent strip of sealing material 48. Alternatively the strips of sealing material 48 may abut the bristle strips 46 so that no gaps are provided between the strips of sealing material 48 and the bristles.
Fewer or more bristle strips 46 may be provided, in which case a corresponding number of strips of sealing material 48 are used. For example, two or four bristle strips 46 may be provided.
The bristles of the bristle strips 46 are preferably made from a material which is stiffer than the sealing material 48 disposed between the bristle strips 46. The bristle strips 46 may comprise carbon fibre filaments having a thickness of between 5 μm and 10 μm, preferably 7 μm. In the embodiment shown, the carbon fibre filaments are 8 mm in length and the bristle density (i.e. the number of filaments per millimetre in length of the bristle strips 46) of the bristle strips 46 is 12 000 bristles per 10 mm. The bristles are arranged in bundles that are spaced apart from each other in the longitudinal direction of each bristle strip 46. There are 6 bundles per 10 mm of the length of each bristle strip 46.
The rear roller 20 comprises a core 56 in the form of a solid shaft wrapped in a strip of a tufted material. The tufted material may be the same as the tufted material of the brush bar 18.
The underside of the housing 22 is open. In the embodiment shown, the housing 22 comprises a rear sole plate 58 which extends transversely with respect to the cleaner head 8 from one of the side walls 38, 40 of the housing 22 to the other. A support in the form of wheels 60 are supported by the sole plate 58. The wheels 60 are set into the sole plate 58 so that only a lower portion of each wheel 60 protrudes from the sole plate 58.
The wheels 60 support the cleaner head 8 on a surface being cleaned such that the sole plate 58, the side walls 38, 40 and the strips of sealing material 48 are spaced from the surface. In the embodiment shown, the brush bar 18 is arranged such that strips of sealing material 48 are spaced from the surface being cleaned by an amount that provides clearance of the strips of sealing material 48 from the surface, but which does not impair the sealing effectiveness between the strips of sealing material 48 and the surface.
The sole plate 58 and the side walls 38, 40 are spaced further from the surface being cleaned than the strips of sealing material 48. A rear sealing strip 70 is therefore provided along the underside of the sole plate 58. Side sealing strips (not shown) are also provided along the lower edges of the side walls 38, 40. The sealing strips are arranged to seal against the surface being cleaned during use. The sealing strips 70 may comprise a material having a pile, for example a tufted fabric/brush-like fabric having filaments made of a suitable material, such as nylon.
The housing 22 has an upper front edge 74 which extends transversely with respect to the cleaner head 8. The upper front edge 74 is above the rotational axis of the brush bar 18 and below the top of the brush bar 18. The brush bar 18 extends forwards of the upper front edge 74. The upper front edge 74 and the front edges of the side walls 38, 40 define a front opening of the chamber 24.
The inner surface of a front region of the housing 22 which defines part of the chamber 24 curves over the top of the brush bar 18. The radius of curvature of the inner surface of the chamber 24 corresponds to the radius of the tips of the bristle strips 46. The front region of the housing 22 adjacent the front edge 74 provides a guard which prevents debris from being flung upwardly and/or forwardly by the brush bar 18 during use. However, it will be appreciated that in alternative embodiments the housing need not be arranged as a guard and need not extend forwardly of the top of the brush bar 18. It will be appreciated that a small clearance may be provided to prevent interference between the tips of the bristles and the housing 22. The brush bar 18 is arranged so that the sealing material 48 restricts flow between the brush bar 18 and the inner surface of the housing adjacent the front edge 74.
In use, the cleaner head 8 of the vacuum cleaner 2 is placed on a floor, for example a floor having a hard surface. The cleaner head 8 is supported on the surface by the rollers 60 so that the sealing strips 70 together with the lower periphery of the sealing material 48 of the brush bar 18, seal against the surface being cleaned. The chamber 24 is therefore sealed around the periphery of the dirty air inlet 68 by the sealing strips 70, and the sealing material 48 of the brush bar 18. In addition, the brush bar 18 seals against the upper inner surface of the housing 22 adjacent the front edge 74.
In the context of the specification, the term “seal” should be understood to mean capable of maintaining a predetermined pressure difference during use of the vacuum cleaner 2. For example, the chamber 24 can be regarded as being sealed provided that the flow of air through the chamber 24 is restricted to an amount that is sufficient to maintain a pressure difference of at least 0.65 kPa between the inside of chamber 24 and ambient during normal use (e.g. when used to clean a hard/firm surface). Similarly, the brush bar 18 can be considered to be sealed against the housing 22 if the flow of air through the front opening is restricted by the brush bar 18 such that a pressure difference of at least 0.65 kPa between the inside of chamber 24 and ambient is maintained during normal use.
The motor and the impeller draw air into the chamber 24 through the dirty air inlet 68 in the housing 22 and upwardly through the dirty air outlet 36, through the wand 6 and into the separating system 10. Dirt is extracted from the air by the separating system 10 before being exhausted through the clean air outlet 16.
The brush bar 18 is driven in a forward direction which is the counter-clockwise direction in
As the cleaner head 8 is moved across the surface being cleaned, the tips of the bristles of the bristle strips 46 contact the surface and sweep debris rearwardly towards the dirty air inlet 68. The bristles are particularly effective at removing fine dust from crevices and agitating dust that has been compacted on the surface being cleaned.
As the cleaner head 8 is moved over large debris (i.e. debris that is larger than the clearance between the periphery of the sealing material 48 and the floor), for example grains of rice, oats, pasta, cereals or similar, the sealing material 48 is deformed locally by the debris.
Local deformation of the sealing material 48 ensures that, for most large debris, the cleaner head 8 does not ride-up over the debris, which would reduce sealing effectiveness between the sealing strips 70, the sealing material 48 on the brush bar 18 and the floor surface. Sealing between the brush bar 18 and the surface being cleaned is therefore not adversely affected, and so effective pick-up performance is maintained. The large debris, which has been substantially enveloped by the sealing material 48, is then released rearwardly to be picked up by the dirty air inlet 68 and passed through the dirty air outlet 36 to the separating system 10, as described above.
It will be appreciated that the sealing material 48 also deforms to accommodate small variations in the surface being cleaned without causing scratching of the surface.
The cleaner head 8 is effective at picking up both small and large debris as well as dust that has been compacted. The cleaner head 8 is particularly effective on hard floors in which large debris stands proud of the surface, or on which dust has been compacted.
The method of manufacture of the brush bar shown in
In a particular embodiment the method comprises the step of fixing the root portion 50 of the bristle strip 46 to the sealing material 48 before the sealing material 48 is fixed to the outer surface of the core 42. This fixing of the bristle strip 46 to the sealing material 48 may be carried out by gluing, adhering, fusing, bonding or sewing the root portion of a bristle strip 46 to the underside of a strip of the sealing material 48. The fixing together of these components forms a sealing material and bristle strip sheet.
One or more sealing material and bristle strip sheets may then be applied to the core 42 such that substantially the entire circumferential and axial extent of the core 42 is covered.
In
It is also possible that the method may comprise the step of joining two or more sealing material and bristle strip sheets together before they are fixed to the core 42. This results in larger sheets having multiple strips of sealing material and multiple bristle strips. Examples of these embodiments are shown in
In an alternative embodiment, as shown in
The core 42 may be formed by moulding, for example by machining, casting, extruding or moulding from a metal or plastics material.
The sealing material 48 may formed by any suitable method and once made is preferably cut or formed into strips, for example rectangular or parallelogram shaped strips. The sealing material 48 is preferably formed from a tufted material, for example a fleece or felt material, for example nylon.
The method may further comprise the step of forming the bristle strip 46 with a root portion 50, for example forming the bristle strip 46 from carbon fibre. The method may include the step of forming the root portion 50 of the bristle strip 46 by weaving ends of the carbon fibre together.
The method may also include the step of fixing the sealing material 48 to the core 42 using an adhesive. The adhesive may be applied to the underside of the sealing material 48, to the underside of the backing material 78 or to the core 42. The adhesive can therefore be used to bond the sealing material and bristle strip sheets to the core 42.
The method may comprise the steps of 1) laying the sealing material 48 and bristle strip 46 sheet onto a jig, for example a vacuum bed having location detail (not shown); 2) attaching a drive dog (not shown) to one or both ends of the core 42; and 3) rolling the core 42 over the sealing material and bristle strip sheet to fix the sealing material and bristle strip sheet to the core.
Alternatively the method may comprise the steps of 1) attaching a drive dog to one or both ends of the core 42; and 2) bringing one end of the sealing material and bristle strip sheet into contact with the core; and 3) rotating the core to fix the sealing material and bristle strip sheet to the core 42.
Alternatively the method may comprise the step of applying the sealing material and bristle strip sheet starting at one end of the core 42 and fixing it along the length of the core 42. The method may comprise the step of rotating the core as the sealing material and bristle strip sheet is applied to the core 42. The sealing material and bristle strip sheet may be held, for example in a roll and the sheet may be applied by moving the core 42 in the direction of its longitudinal axis to fix the sealing material and bristle strip sheet along the length of the core. Once the sealing material and bristle strip sheet has been fixed to the core 42 it will be as shown in
It is noteworthy that in each of the above embodiments, the root portions of the bristle strips are sandwiched beneath the sealing material. However, in other embodiments the bristle strips may be attached on top of the sealing material.
In this embodiment, two sealing material and bristle strip sheets are provided separately on a continuous piece of adhesive tape 80. Each sealing material and bristle strip sheet has a strip of sealing material 48 with a piece of backing material 78, and a bristle strip 46 the root portion 50 of which is secured on top of a backing material projection 84 of the backing material 78 (and thus on top of the sealing material as a whole) by stitching 82.
In this embodiment, the bristle strips 46 are attached to their respective strips of sealing material 48, and to form a brush bar the complete sealing material and bristle strip sheets are then attached to a rigid core in generally the same manner as described above. In some other embodiments, however, the same structure of brush bar could be achieved by first fixing the strips of sealing material 48 to the core and then stitching the root portions 50 of the bristle strips 46 on top (for instance using a curved needle).
In this case, all three strips of sealing material 48 share a communal piece of backing material 78, with the two bristle strips 46 having their root portions 50 stitched to the backing material 78 in the gaps between the three strips of sealing material 48. A brush bar according to this embodiment may be considered a further example of a brush bar in which neighbouring strips of sealing material are fixed together with a bristle strip fixed between them.
It is noteworthy that in this embodiment the sealing material and bristle strip sheet has a strip of sealing material at each end (i.e. the upper and lower ends from the perspective of
Number | Date | Country | Kind |
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1815655.4 | Sep 2018 | GB | national |
This application is a national phase application under 35 USC 371 of International Application No. PCT/GB2019/052724, filed Sep. 26, 2019, which claims the priority of United Kingdom Application No. 1815655.4, filed Sep. 26, 2018, the entire contents of each of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/GB2019/052724 | 9/26/2019 | WO | 00 |