EP2773252A1 - Vacuum cleaner nozzle - Google Patents

Vacuum cleaner nozzle

Info

Publication number
EP2773252A1
EP2773252A1 EP13794937.6A EP13794937A EP2773252A1 EP 2773252 A1 EP2773252 A1 EP 2773252A1 EP 13794937 A EP13794937 A EP 13794937A EP 2773252 A1 EP2773252 A1 EP 2773252A1
Authority
EP
European Patent Office
Prior art keywords
wheel
nozzle
axis
suction
suction pipe
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP13794937.6A
Other languages
German (de)
French (fr)
Other versions
EP2773252B1 (en
Inventor
Wolferen Paulus Hermanus Van
Jeroen Herrewijnen
Bastian Cornelis Kleine-Doepke
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Koninklijke Philips NV
Original Assignee
Koninklijke Philips NV
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Family has litigation
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Application filed by Koninklijke Philips NV filed Critical Koninklijke Philips NV
Priority to EP13794937.6A priority Critical patent/EP2773252B1/en
Publication of EP2773252A1 publication Critical patent/EP2773252A1/en
Application granted granted Critical
Publication of EP2773252B1 publication Critical patent/EP2773252B1/en
Revoked legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/02Nozzles

Definitions

  • the present invention relates to a nozzle for a vacuum cleaner and to a vacuum cleaner having such a nozzle.
  • a good vacuum cleaner nozzle must have high cleaning performance, i.e. effective debris pick up, but at the same time be easy to handle and move across a surface to be cleaned, such as a carpet.
  • high cleaning performance is obtained only at the expense of an increased resistance to motion across a surface and so requires an increased application of force by the user to move the nozzle.
  • the nozzle may have unpleasant dynamic behaviour in the sense that it does not move
  • This invention describes a nozzle that seeks to overcome or substantially alleviate the problems referred to above and to provide a nozzle for a vacuum cleaner that combines optimum cleaning performance with minimal motion resistance and more desirable dynamic behaviour.
  • a nozzle for a vacuum cleaner comprising a soleplate with a suction channel slot therein for the suction of debris from a surface, a wheel mounted for rotation about an axis to support the nozzle on said surface, and a suction pipe connector for rotation about an axis that is coaxial with said wheel axis, wherein the wheel has a radius (h) of at least 25mm and a distance (X) across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot is no greater than 80mm.
  • the nozzle comprises a housing in which the soleplate and suction channel slot are formed and the wheel and suction pipe connector may be mounted to the housing for rotation about said wheel axis.
  • the nozzle may comprise a housing in which the soleplate and suction channel slot are formed, the wheel and suction pipe connector being mounted for rotation relative to each other about the wheel axis and the housing being mounted for rotation relative to the wheel and the suction pipe connector about a second axis parallel to and spaced from the first axis.
  • a link arm extends between said wheel axis and the second axis and is pivotally connected to each of the suction pipe connector and the housing.
  • the ratio of the radius of the wheel (h) to the sum of the distance X across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot and a distance (1/2 C) across the surface between the point midway between the leading and trailing edges of the suction channel slot and the leading edge of the suction channel slot is greater than 0.3.
  • a vacuum cleaner including a suction pipe and a nozzle according to the invention, the suction pipe being connected to the nozzle via the suction pipe connector.
  • Figure 1 illustrates a side cross-sectional elevation of a conventional vacuum cleaner nozzle
  • Figure 2 illustrates the same side cross-sectional elevation as shown in Figure 1 but annotated to show torque T and movement of the wheel caused by wheel lift;
  • Figure 3 illustrates a side cross-sectional elevation of a vacuum cleaner nozzle according to the present invention
  • Figure 4 illustrates a side cross-sectional elevation of a nozzle according to another embodiment of the invention in which the nozzle has a housing that is mounted for rotation about an axis that is spaced from the axis of rotation of the wheel axis; and
  • Figure 5 is a table to illustrate the performance of a nozzle having a ratio of greater than 0.3 compared to the performance of some conventional nozzles.
  • FIG. 1 A cross-sectional side elevation of a nozzle 1 for a vacuum cleaner (not shown) is illustrated in Figures 1 and 2.
  • the nozzle 1 comprises a main body or housing 2 having an elbow or suction pipe connector 3 attached to a rear end of the housing 2 for rotation relative to the housing 2 about an axis A.
  • a suction pipe 4, which does not form part of the nozzle 1, is attachable to and extends upwardly from the suction pipe connector 3.
  • the suction pipe 4 provides a conduit for the passage of dust and debris that has been sucked from a surface 'S' having been vacuumed through the nozzle 1.
  • the suction pipe 4 also acts as a handle to enable a user to push the nozzle in a forward ('F') direction and pull it in a rearward ('R') direction during use.
  • the wheel 5 is mounted to the housing 2. It is also mounted to the suction pipe connector 3 for rotation about the same axis 'A' as the suction pipe connector 3 to support and guide the nozzle 1 across the surface 'S'.
  • the underside of the housing 2 is provided with a soleplate 6 which contacts the surface 'S' being vacuumed.
  • An elongate suction channel slot 7 is formed in the soleplate 6 and extends across the width of the housing 2 substantially at right angles to the forward 'F' and rearward 'R' directions of movement.
  • the elongate suction channel slot 7 has parallel leading and trailing edges 7a, 7b that define the edges of the slot 7 in the soleplate 6. It will also be appreciated that the slot 7 may have a different shape.
  • Thread or debris pick-up strips 8 may be provided forwardly of the leading edge 7a and/or rearwardly of the trailing edge 7b to assist in releasing hair or threads from a surface S being vacuumed.
  • the main phenomenon behind dust pickup from a surface S such as a carpet is the opening of the pile.
  • a vertical force has to be applied on the leading edge 7a of the suction slot 7.
  • the only force that is generated in this direction apart from the force generated as a result of the weight of the nozzle 1 itself, is a horizontal friction force that is applied by the user via the suction pipe 4 to push the nozzle 1 across the carpet S.
  • distance h is important.
  • Distance h is the distance from the axis of rotation A of the wheel 5 to the surface S and is equivalent to the radius of the wheel 5.
  • distance q represents the length of a line that extends from the leading edge 7a of the suction slot 7 and intersects at right-angles with the line P along which the force is applied to the nozzle 1 which is generated by a user as a result of pulling the suction pipe 4 across the carpet S.
  • this tilting action is undesirable because the trailing edge 7a of the suction slot 7 is no longer in contact with the carpet S and so air will start seeping in through a bypass path, rather than through the carpet and so this is undesirable, and results in a reduction in suction performance.
  • the tilting action also causes unpleasant bouncing, irregular movements of the nozzle 1.
  • the distance q should be maintained as small as possible in order to minimise the undesirable tilting action explained in more detail above.
  • the distance h needs to be selected so as to maintain a vertical force V which will maintain the suction slot 7 against the pile when the nozzle is pushed in a forward direction (F).
  • the inventors have determined that to balance the requirement of preventing loss of suction when the nozzle is pushed in the forward direction (F), and the requirement to minimise or alleviate bouncing and irregular movement of the nozzle 1 (by maintaining a low distance q and to keep the aforementioned torque T at a minimum) when the nozzle is pulled in a rearward direction (R), a certain combination of wheel diameter and the distance of the wheel to the centre of the suction channel is important. By selecting these parameters carefully, it has been found that a good balance between effective dust pick up and the force required by a user to move the nozzle easily when it is pushed in the forward (F) direction and also when it is being pulled in the rearward direction (R) is achieved.
  • the inventors have found that the dimension q should be smaller than
  • the distance q is related to the distance of the wheel axle A above the surface
  • the inventors have found that by increasing the diameter of the wheel 5 and by positioning the wheel axle A closer to the suction slot 7 to reduce the distance X, the smaller q will become, thereby reducing the torque T and making it easier to pull the nozzle across the surface in the direction (R).
  • the suction channel slot 7 is ideally rectangular in shape and extends across the width of the nozzle in a direction at right angles to the forward and backward direction of movement of the nozzle F and R, and parallel to the wheel axis.
  • the suction channel slot may be shaped or extend at an angle in some way, in which case the measurement X referred to above should be taken from at a central point, midway between each end of the slot in a direction across the width of the nozzle 1.
  • this formula is derived assuming the suction slot width as 20mm.
  • the slot width is in the region of 18 to 21mm.
  • the inventors have found that by making distance X ⁇ 80mm and the wheel radius > 25mm, the best possible suction efficiency and dynamic response is obtained, when the nozzle is pushed in either the forward direction (F) or pulled in the rearward direction (R).
  • F forward direction
  • R rearward direction
  • a ratio of less than 0.3 is included within these parameters for some slot widths, parameters that provide a ratio of greater than 0.3 represents a preference as it further serves to improve the balance between dust pick up efficiency and movement of the nozzle.
  • the ratio is less than 0.3, the force required to push the nozzle in a forward direction (F) is smaller, as would be the vertical force V acting on the leading edge of the nozzle. Consequently, the dust pickup efficiency would reduce.
  • a ratio of less than 0.3 also results in a larger value for q and so the torque required to cause the nozzle to tilt increases when the nozzle is being pulled in a rearward direction (R).
  • the specified parameters are chosen so as to provide a ratio of greater than 0.3, the vertical force V on the leading edge of the nozzle for a given force applied by a user to push the nozzle forward is higher than whenever parameters are chosen which are smaller then the specified ratio.
  • q will be less resulting in less torque on the nozzle for the same friction force than whenever a setting is chosen outside the specified ratio.
  • a nozzle for a vacuum cleaner comprising a housing having a soleplate with a suction channel slot therein for the suction of debris from a surface, a wheel mounted to the housing for rotation about an axis that extends substantially parallel to leading and trailing edges of said suction channel slot to support the nozzle on said surface, and a suction pipe connector mounted to the housing for rotation about an axis that is coaxial with said wheel axis.
  • the ratio of the radius (h) of the wheel to a distance across a surface, between a point of contact (Y) of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot is greater than 0.3.
  • the parameters are selected so as to provide a ratio of greater than 0.3, when the width of the suction slot preferably lies in the range of 18 to 21mm.
  • FIG. 4 The embodiment shown in Figure 4 is the same as that shown in Figure 3, except that the wheel 5 is pivotally mounted to the suction pipe connector 3 and the housing 2 is pivotally mounted to the suction pipe connector 3 for rotation about a second axis B which is spaced from the wheel axis A.
  • a link arm 10 extends between the axes A and B and connects the housing 2 to the suction pipe connector 3. It will be appreciated that, in this embodiment, the housing 2 can pivot about axis B independently to movement of the suction pipe connector 3 and the wheel 5 about axis A and so the housing 2 can assume a different angle during the forward and backward strokes.
  • Figure 5 is a table that provides a number of ratios obtained from the equation identified above with different vacuum cleaner nozzles having differing values for distance X, wheel radius h and slot width C. It also demonstrates how dust pick up efficiency and motion resistance is optimised when the calculated ratio is greater than 0.3.
  • Nozzle 1 represents the nozzle according to the invention, whereas nozzles 2, 3 and 4 represent those of the prior art.
  • this table represents values obtained from a nozzle 1 having a double hinge arrangement, as described with reference to Figure 4, similar advantages are obtained with the nozzle described with reference to Figure 3 in which there is only one pivot point.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Nozzles For Electric Vacuum Cleaners (AREA)

Abstract

A nozzle (1) for a vacuum cleaner that comprises a soleplate (6) with a suction channel slot (7) therein for the suction of debris from a surface (S), a wheel (5) mounted for rotation about an axis (A) to support the soleplate on said surface, and a suction pipe connector (3) for rotation about an axis (A) that is coaxial with said wheel axis. The wheel has a radius (h) of at least 25 mm, and a distance across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and and a point midway between the leading and trailing edges (7a, 7b) of the suction channel slot which is no greater than 80mm.

Description

Vacuum cleaner nozzle
FIELD OF THE INVENTION
The present invention relates to a nozzle for a vacuum cleaner and to a vacuum cleaner having such a nozzle. BACKGROUND OF THE INVENTION
A good vacuum cleaner nozzle must have high cleaning performance, i.e. effective debris pick up, but at the same time be easy to handle and move across a surface to be cleaned, such as a carpet. In many conventional nozzles, high cleaning performance is obtained only at the expense of an increased resistance to motion across a surface and so requires an increased application of force by the user to move the nozzle. Furthermore, the nozzle may have unpleasant dynamic behaviour in the sense that it does not move
particularly well across a surface when it is pushed and/or pulled. These disadvantages can make the vacuum cleaner difficult and tiring to use for prolonged periods.
This invention describes a nozzle that seeks to overcome or substantially alleviate the problems referred to above and to provide a nozzle for a vacuum cleaner that combines optimum cleaning performance with minimal motion resistance and more desirable dynamic behaviour.
SUMMARY OF THE INVENTION
According to the present invention, there is provided a nozzle for a vacuum cleaner comprising a soleplate with a suction channel slot therein for the suction of debris from a surface, a wheel mounted for rotation about an axis to support the nozzle on said surface, and a suction pipe connector for rotation about an axis that is coaxial with said wheel axis, wherein the wheel has a radius (h) of at least 25mm and a distance (X) across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot is no greater than 80mm. In one embodiment, the nozzle comprises a housing in which the soleplate and suction channel slot are formed and the wheel and suction pipe connector may be mounted to the housing for rotation about said wheel axis.
In another embodiment, the nozzle may comprise a housing in which the soleplate and suction channel slot are formed, the wheel and suction pipe connector being mounted for rotation relative to each other about the wheel axis and the housing being mounted for rotation relative to the wheel and the suction pipe connector about a second axis parallel to and spaced from the first axis.
Preferably, a link arm extends between said wheel axis and the second axis and is pivotally connected to each of the suction pipe connector and the housing.
In a preferred embodiment, the ratio of the radius of the wheel (h) to the sum of the distance X across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot and a distance (1/2 C) across the surface between the point midway between the leading and trailing edges of the suction channel slot and the leading edge of the suction channel slot is greater than 0.3.
According to the invention, there is also provided a vacuum cleaner including a suction pipe and a nozzle according to the invention, the suction pipe being connected to the nozzle via the suction pipe connector.
BRIEF DESCRIPTION OF THE DRAWINGS
Embodiments of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
Figure 1 illustrates a side cross-sectional elevation of a conventional vacuum cleaner nozzle;
Figure 2 illustrates the same side cross-sectional elevation as shown in Figure 1 but annotated to show torque T and movement of the wheel caused by wheel lift; and
Figure 3 illustrates a side cross-sectional elevation of a vacuum cleaner nozzle according to the present invention;
Figure 4 illustrates a side cross-sectional elevation of a nozzle according to another embodiment of the invention in which the nozzle has a housing that is mounted for rotation about an axis that is spaced from the axis of rotation of the wheel axis; and Figure 5 is a table to illustrate the performance of a nozzle having a ratio of greater than 0.3 compared to the performance of some conventional nozzles.
DETAILED DESCRIPTION OF THE EMBODIMENTS
A cross-sectional side elevation of a nozzle 1 for a vacuum cleaner (not shown) is illustrated in Figures 1 and 2. The nozzle 1 comprises a main body or housing 2 having an elbow or suction pipe connector 3 attached to a rear end of the housing 2 for rotation relative to the housing 2 about an axis A. A suction pipe 4, which does not form part of the nozzle 1, is attachable to and extends upwardly from the suction pipe connector 3. The suction pipe 4 provides a conduit for the passage of dust and debris that has been sucked from a surface 'S' having been vacuumed through the nozzle 1. The suction pipe 4 also acts as a handle to enable a user to push the nozzle in a forward ('F') direction and pull it in a rearward ('R') direction during use.
In the first embodiment, the wheel 5 is mounted to the housing 2. It is also mounted to the suction pipe connector 3 for rotation about the same axis 'A' as the suction pipe connector 3 to support and guide the nozzle 1 across the surface 'S'.
The underside of the housing 2 is provided with a soleplate 6 which contacts the surface 'S' being vacuumed. An elongate suction channel slot 7 is formed in the soleplate 6 and extends across the width of the housing 2 substantially at right angles to the forward 'F' and rearward 'R' directions of movement. The elongate suction channel slot 7 has parallel leading and trailing edges 7a, 7b that define the edges of the slot 7 in the soleplate 6. It will also be appreciated that the slot 7 may have a different shape.
Thread or debris pick-up strips 8 may be provided forwardly of the leading edge 7a and/or rearwardly of the trailing edge 7b to assist in releasing hair or threads from a surface S being vacuumed.
To achieve high dust pickup levels, it is necessary to maintain the suction channel slot 7 in contact with the surface S, i.e. the leading and trailing edges 7a, 7b should remain in contact with the surface S. Therefore, the position of the suction slot 7, the wheel axis A and the direction in which force is applied to the housing 2 via the suction pipe 4 and suction pipe connector 3 are all important factors, as they determine the behavior and the forces acting on the nozzle 1.
The main phenomenon behind dust pickup from a surface S such as a carpet is the opening of the pile. To be able to open the pile during movement of the nozzle 1 in a forward direction 'F', a vertical force has to be applied on the leading edge 7a of the suction slot 7. However the only force that is generated in this direction, apart from the force generated as a result of the weight of the nozzle 1 itself, is a horizontal friction force that is applied by the user via the suction pipe 4 to push the nozzle 1 across the carpet S. To transform this frictional force into a vertical force on the leading edge 7a to open the pile, distance h (see Figure 2) is important. Distance h is the distance from the axis of rotation A of the wheel 5 to the surface S and is equivalent to the radius of the wheel 5. As distance h increases, the higher the downward vertical force V of the suction edge against the pile will be as the vacuum cleaner is pushed in a forward direction F along the surface by a user who applies a force to the nozzle via the suction pipe 4 in a direction that extends along line P.
However, in the rearward stroke 'R' of the nozzle 1, distance q (see Figure 2) is important. Distance q represents the length of a line that extends from the leading edge 7a of the suction slot 7 and intersects at right-angles with the line P along which the force is applied to the nozzle 1 which is generated by a user as a result of pulling the suction pipe 4 across the carpet S.
When the user pulls the nozzle 1 rearwardly, there is a tendency for the distance q to approach zero, i.e. a moment/torque is generated (as indicated by arrow T in Figure 2) that causes the nozzle to pivot on the carpet S about the leading edge 7a of the suction slot 7 that results in the nozzle 1 tilting and the wheel 5 lifting off the ground (as shown by dotted lines indicated as 5a in Figure 2) until the torque T is at zero, which occurs when the the leading edge 7a and the wheel axis A both lie on the same line as the applied force P. For attaining high dust pickup levels this tilting action is undesirable because the trailing edge 7a of the suction slot 7 is no longer in contact with the carpet S and so air will start seeping in through a bypass path, rather than through the carpet and so this is undesirable, and results in a reduction in suction performance. The tilting action also causes unpleasant bouncing, irregular movements of the nozzle 1.
Ideally, with the distance q should be maintained as small as possible in order to minimise the undesirable tilting action explained in more detail above. At the same time, the distance h needs to be selected so as to maintain a vertical force V which will maintain the suction slot 7 against the pile when the nozzle is pushed in a forward direction (F).
The inventors have determined that to balance the requirement of preventing loss of suction when the nozzle is pushed in the forward direction (F), and the requirement to minimise or alleviate bouncing and irregular movement of the nozzle 1 (by maintaining a low distance q and to keep the aforementioned torque T at a minimum) when the nozzle is pulled in a rearward direction (R), a certain combination of wheel diameter and the distance of the wheel to the centre of the suction channel is important. By selecting these parameters carefully, it has been found that a good balance between effective dust pick up and the force required by a user to move the nozzle easily when it is pushed in the forward (F) direction and also when it is being pulled in the rearward direction (R) is achieved.
Ideally, the inventors have found that the dimension q should be smaller than
24 mm to provide the best possible performance of the nozzle 1 when it is being pulled in a rearward direction (R).
The distance q is related to the distance of the wheel axle A above the surface
S (i.e. dimension h referred to above, which is equivalent to the radius of the wheel 5), and the dimension X (see Figure 3), which is the distance across the surface S between the point of contact Y of the wheel 5 with the surface S directly below the axis A, and a centre line M (see Figure 3) midway between the leading and trailing edges 7a, 7b of the suction channel slot 7, i.e. an imaginary centre line that is parallel to and equidistant from both the leading and the trailing edges 7a, 7b of the suction channel slot 7. If the suction channel slot has a width C, then the centre line is positioned at 1/2C from the leading and trailing edges 7a, 7b. The inventors have found that by increasing the diameter of the wheel 5 and by positioning the wheel axle A closer to the suction slot 7 to reduce the distance X, the smaller q will become, thereby reducing the torque T and making it easier to pull the nozzle across the surface in the direction (R).
It should be noted here that the suction channel slot 7 is ideally rectangular in shape and extends across the width of the nozzle in a direction at right angles to the forward and backward direction of movement of the nozzle F and R, and parallel to the wheel axis. However, it is possible that the suction channel slot may be shaped or extend at an angle in some way, in which case the measurement X referred to above should be taken from at a central point, midway between each end of the slot in a direction across the width of the nozzle 1.
In order to achieve q < 24, the relation between the wheel radius h and dimension X should be:
In an embodiment of the invention, this formula is derived assuming the suction slot width as 20mm. Preferably, the slot width is in the region of 18 to 21mm. The inventors have found that by making distance X < 80mm and the wheel radius > 25mm, the best possible suction efficiency and dynamic response is obtained, when the nozzle is pushed in either the forward direction (F) or pulled in the rearward direction (R). However, it will be appreciated that although a ratio of less than 0.3 is included within these parameters for some slot widths, parameters that provide a ratio of greater than 0.3 represents a preference as it further serves to improve the balance between dust pick up efficiency and movement of the nozzle.
By way of further explanation, if the ratio is less than 0.3, the force required to push the nozzle in a forward direction (F) is smaller, as would be the vertical force V acting on the leading edge of the nozzle. Consequently, the dust pickup efficiency would reduce.
However, a ratio of less than 0.3 also results in a larger value for q and so the torque required to cause the nozzle to tilt increases when the nozzle is being pulled in a rearward direction (R). When the specified parameters are chosen so as to provide a ratio of greater than 0.3, the vertical force V on the leading edge of the nozzle for a given force applied by a user to push the nozzle forward is higher than whenever parameters are chosen which are smaller then the specified ratio. Also, with a ratio greater than 0.3, q will be less resulting in less torque on the nozzle for the same friction force than whenever a setting is chosen outside the specified ratio.
In one embodiment of the invention, therefore, there is provided a nozzle for a vacuum cleaner comprising a housing having a soleplate with a suction channel slot therein for the suction of debris from a surface, a wheel mounted to the housing for rotation about an axis that extends substantially parallel to leading and trailing edges of said suction channel slot to support the nozzle on said surface, and a suction pipe connector mounted to the housing for rotation about an axis that is coaxial with said wheel axis. The ratio of the radius (h) of the wheel to a distance across a surface, between a point of contact (Y) of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot, is greater than 0.3. The parameters are selected so as to provide a ratio of greater than 0.3, when the width of the suction slot preferably lies in the range of 18 to 21mm.
The embodiment shown in Figure 4 is the same as that shown in Figure 3, except that the wheel 5 is pivotally mounted to the suction pipe connector 3 and the housing 2 is pivotally mounted to the suction pipe connector 3 for rotation about a second axis B which is spaced from the wheel axis A. A link arm 10 extends between the axes A and B and connects the housing 2 to the suction pipe connector 3. It will be appreciated that, in this embodiment, the housing 2 can pivot about axis B independently to movement of the suction pipe connector 3 and the wheel 5 about axis A and so the housing 2 can assume a different angle during the forward and backward strokes.
Figure 5 is a table that provides a number of ratios obtained from the equation identified above with different vacuum cleaner nozzles having differing values for distance X, wheel radius h and slot width C. It also demonstrates how dust pick up efficiency and motion resistance is optimised when the calculated ratio is greater than 0.3. Nozzle 1 represents the nozzle according to the invention, whereas nozzles 2, 3 and 4 represent those of the prior art. Although this table represents values obtained from a nozzle 1 having a double hinge arrangement, as described with reference to Figure 4, similar advantages are obtained with the nozzle described with reference to Figure 3 in which there is only one pivot point.
It will be appreciated that the term "comprising" does not exclude other elements or steps and that the indefinite article "a" or "an" does not exclude a plurality. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to an advantage. Any reference signs in the claims should not be construed as limiting the scope of the claims.
Although claims have been formulated in this application to particular combinations of features, it should be understood that the scope of the disclosure of the present invention also includes any novel features or any novel combinations of features disclosed herein either explicitly or implicitly or any generalisation thereof, whether or not it relates to the same invention as presently claimed in any claim and whether or not it mitigates any or all of the same technical problems as does the parent invention. The applicants hereby give notice that new claims may be formulated to such features and/or combinations of features during the prosecution of the present application or of any further application derived therefrom.

Claims

CLAIMS:
1. A nozzle for a vacuum cleaner comprising a soleplate with a suction channel slot therein for the suction of debris from a surface, a wheel mounted for rotation about an axis to support the nozzle on said surface, and a suction pipe connector for rotation about an axis that is coaxial with said wheel axis, wherein the wheel has a radius (h) of at least 25mm and a distance (X) across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot is no greater than 80mm.
2. A nozzle according to claim 1, comprising a housing in which the soleplate and suction channel slot are formed, the wheel and suction pipe connector being mounted to the housing for rotation about said wheel axis.
3. A nozzle according to claim 1, comprising a housing in which the soleplate and suction channel slot are formed, the wheel and suction pipe connector being mounted for rotation relative to each other about the wheel axis and the housing being mounted for rotation relative to the wheel and the suction pipe connector about a second axis parallel to and spaced from the first axis.
4. A nozzle according to claim 3, comprising a link arm extending between said wheel axis and the second axis and being pivotally connected to each of the suction pipe connector and the housing.
5. A nozzle according to any preceding claim, wherein the ratio of the radius of the wheel (h) to the sum of the distance (X) across the surface between a point of contact of the wheel with the surface that is directly beneath the wheel axis and a point midway between the leading and trailing edges of the suction channel slot, and a distance (1/2 C) across the surface between the point midway between the leading and trailing edges of the suction channel slot and the leading edge of the suction channel slot is greater than 0.3.
6. A vacuum cleaner including a suction pipe and a nozzle according to claim 1 or claim 2 connected to the suction pipe.
EP13794937.6A 2013-02-04 2013-11-22 Vacuum cleaner nozzle Revoked EP2773252B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP13794937.6A EP2773252B1 (en) 2013-02-04 2013-11-22 Vacuum cleaner nozzle

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
EP13153781 2013-02-04
PCT/EP2013/074521 WO2014117885A1 (en) 2013-02-04 2013-11-22 Vacuum cleaner nozzle
EP13794937.6A EP2773252B1 (en) 2013-02-04 2013-11-22 Vacuum cleaner nozzle

Publications (2)

Publication Number Publication Date
EP2773252A1 true EP2773252A1 (en) 2014-09-10
EP2773252B1 EP2773252B1 (en) 2014-11-05

Family

ID=47709933

Family Applications (1)

Application Number Title Priority Date Filing Date
EP13794937.6A Revoked EP2773252B1 (en) 2013-02-04 2013-11-22 Vacuum cleaner nozzle

Country Status (7)

Country Link
US (1) US20160324382A1 (en)
EP (1) EP2773252B1 (en)
JP (1) JP5752863B2 (en)
CN (2) CN203914782U (en)
DE (1) DE202014100473U1 (en)
RU (1) RU2014104495A (en)
WO (1) WO2014117885A1 (en)

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CN203914782U (en) 2014-11-05
DE202014100473U1 (en) 2014-02-27
WO2014117885A1 (en) 2014-08-07
JP2015511850A (en) 2015-04-23
US20160324382A1 (en) 2016-11-10
EP2773252B1 (en) 2014-11-05
CN103961024A (en) 2014-08-06
JP5752863B2 (en) 2015-07-22
RU2014104495A (en) 2015-08-20

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