US20160262587A1

US20160262587A1 - Surface cleaning apparatus

Info

Publication number: US20160262587A1
Application number: US15/033,468
Authority: US
Inventors: Simon Matthew Pougher; Darren David Holmes; Thomas Robert Harries; Daniel William Carter; Mark Barnsley
Original assignee: Individual
Current assignee: Techtronic Floor Care Technology Ltd
Priority date: 2013-11-01
Filing date: 2014-02-04
Publication date: 2016-09-15
Also published as: GB2520092A; GB2538643A; EP3062676A1; GB201612071D0; GB201612062D0; US20160249777A1; GB2538183A; AU2014343484A1; GB201612074D0; GB201612084D0; GB2538185A; GB201612088D0; GB201612070D0; GB201400998D0; GB2538185B; AU2014343483A1; EP3062675A1; WO2015063446A1; CN105848547B; GB2523304A

Abstract

A surface cleaning apparatus having a source of suction, a chamber for receiving dirt having an inlet and an outlet, a cable storage device for storing electrical cable for providing power to the source of suction, and a fluid flow path for providing fluid communication between the outlet of the chamber and the source of suction. At least a portion of the fluid flow path extends through the cable storage device.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a U.S. National Phase application of International Application PCT/GB2014/050312, filed Feb. 4, 2014, which claims priority to U.K. Patent Application No. 1319372.7, filed Nov. 1, 2013 and to U.K. Patent Application No. 1400998.9, filed Jan. 21, 2014, the entire contents all of which are hereby incorporated by reference herein.

BACKGROUND

The invention relates to a surface cleaning apparatus. In particular, this invention relates to a surface cleaning apparatus which utilises a source of suction to draw dirt etc. from a surface being cleaned and to store dirt in a chamber which can be emptied by a user. Such surface cleaning apparatus are often referred to as “vacuum cleaners”.

SUMMARY

According to According to a first aspect of the invention we provide a surface cleaning apparatus having:
a source of suction;
a chamber for receiving dirt having an inlet and an outlet;
a cable storage device for storing electrical cable for
providing power to the source of suction; and
a fluid flow path for providing fluid communication between the outlet of the chamber and the source of suction;
wherein at least a portion of the fluid flow path extends through the cable storage device.
According to a second aspect of the invention we provide a surface cleaning apparatus having:
a source of suction;
a chamber for receiving dirt having an inlet and an outlet;
a cable storage device for storing electrical cable for providing
power to the source of suction; and
a fluid flow path for providing fluid communication between the outlet of the chamber and the source of suction;
wherein the source of suction, the chamber for receiving dirt and the cable storage device are positioned in a generally side by side configuration.
According to a third aspect of the invention we provide a surface cleaning apparatus having:
a source of suction;
a chamber for receiving dirt having an inlet and an outlet;
a cable storage device for storing electrical cable for
providing power to the source of suction, including a space for storage of the cable;
a fluid flow path for providing fluid communication between the outlet of the chamber and the source of suction; and
an opening through which the cable extends/exits;
wherein the apparatus includes a valve for permitting fluid to flow from the cable storage device space to the source of suction.
According to a fourth aspect of the invention we provide a surface cleaning apparatus according to the third aspect of the invention including one or more or all of the features of any one of the first and second aspects of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the various aspects of the invention will now be described by way of example only, with reference to the accompany drawings, of which:

FIG. 1 is a perspective view of a first embodiment of an apparatus according to the invention;

FIG. 2 is a further perspective view of the apparatus of FIG. 1;

FIG. 3a is a perspective view of a main body of the apparatus of FIG. 1;

FIG. 3b is an alternative perspective view of the main body of the apparatus of FIG. 1;

FIG. 4 is a plan view of the main body of the apparatus of FIG. 1;

FIG. 5 is a side cross-sectional view of the main body with a valve in a closed position;

FIG. 6a is a side cross-sectional view of the main body with the valve in an open position; and

FIG. 6b is a side cross-sectional view of the main body with the valve in a closed position; and

FIG. 7 is a perspective cross-sectional view of the main body.

DETAILED DESCRIPTION

Referring to the figures, these show a first embodiment of a surface cleaning apparatus 10. In short, the apparatus 10 includes a main body 12, a first wheel 14 positioned at a first end of the main body 12 and a second wheel 16 positioned at an opposite, second, end of the main body 12. The wheels are rotatable about a respective wheel axis. The main body 12 is generally cylindrical and has a generally elongate axis A which extends lengthwise of the main body 12 between the wheels 14, 16.
The main body 12 is shaped such that an exterior surface thereof is generally concave, with the exterior surface extending circumferentially around the axis A. In more detail, in this particular embodiment the main body 12 has a central region C with respective side portions R, L which sit between the central region C and each of the wheels 14, 16. It can be seen from the figures that a radius Y of each of the portions R, L increases as the exterior surface of that portion extends from the central region C towards each wheel 14, 16. In other words, the portions R, L flare outwardly as they extend towards the wheels 14, 16.
It will be appreciated that the shape of the main body 12 ensures that there is a generally concave portion provided on a floor facing portion of the exterior surface of the main body 12, which provides a space S when the apparatus is positioned on a floor surface F with both wheels 14, 16 contacting the floor surface F.
Whilst in the present example the main body 12 is generally symmetrical about a plane which extends transversely through the central portion C and the axis A, it should be appreciated that other shapes of the main body 12 could be utilised without departing from the scope of the present invention. It need not be the case that the exterior surface of the main body 12 is generally symmetrical about the axis A. For example, the main body 12 could be shaped such that a space S is provided between the main body 12 and the floor surface F whilst an upwardly facing surface of the main body 12 is not provided with any concave portion or the like (it could be convex, for example). In this particular example it is beneficial for the radius of the ground engaging surfaces of the first and second wheels 14, 16 to be greater than the largest width of the main body 12 when measured transversely of the axis A. This ensures that the main body 12 does not foul the floor surface F when the apparatus is in use.
The main body 12 houses a source of suction 18, a chamber 20 for receiving dirt having an inlet 22 and an outlet 24, a cable storage device 26 for storing electrical cable 28 for providing power to the source of suction 18 and a fluid flow path 30 for providing fluid communication between the outlet 24 and the source of suction 18. The source of suction 18 includes a motor 18 a and a fan 18 b drivingly connected to the motor 18 a for providing the suction. The body also houses a cyclonic separator device 32 which is in communication with the chamber 20 in a manner known in the art and so will not be discussed in any further detail herein. The position and shape of these component parts and their interaction will be discussed in more detail later. The main body 12 is made out of a plastics material such as poly carbonate or acrylonitrile butadiene styrene (ABS). The material is opaque but it could also be made of a translucent or transparent material to permit a visual indication for the user of the level of dirt within the chamber 20. The wheels are made of a rubber material. Embodiments are envisaged where a further, second, or even third cyclonic separator device is provided. In addition, a multi-cyclonic device may be provided in the apparatus.
Each wheel is provided as an annular member which is supported for rotation by a generally circular exterior surface of a part 15, 17 of the main body 12. In other words, the parts 15, 17 of the main body 12 provide a race which supports the annular wheel member 14, 16 and permits it to rotate smoothly about its axis. Alternative configurations of the wheel could be utilised without departing from the scope of the present invention. For example, one or both wheels 14, 16 could be mounted for rotation on a common axle or respective axles which is/are connected to the main body 12.
Whilst in the present embodiment the wheels 14, 16 are rotatable about axes which are coaxial with each other and coaxial with the axis A of the main body 12, this need not be the case. For example, embodiments are envisaged where the rotational axes of the wheels are offset from the axis A. Embodiments are also envisaged where the rotational axes of the first and second wheels are neither coaxial with each other nor parallel with each other. For example, the rotational axes of the wheels 14, 16 maybe inclined relative to the axis A of the main body 12.
Furthermore, whilst in the present embodiment the wheels 14, 16 are positioned at opposite ends of the main body 12, embodiments of the invention are envisaged where the wheels are positioned closer towards each other. In such embodiments, it is also envisaged that a respective portion of the main body 12 may extend laterally past each wheel, such that each wheel is positioned inwardly from the opposite ends of the main body 12.
It can be seen from the figures that the apparatus 10 includes a handle 34 which is connected to the main body 12 at the end of the main body 12 which supports the wheel 16. The user graspable handle 34 is connected to the main body 12 through the opening provided by the configuration of the annular wheel member 16. This permits a user to move the apparatus 10 to a desired location. For example, the handle 34 permits the user to stand the apparatus 10 on the end of the apparatus 10 which supports the wheel 14 such that the axis A of the main body 12 is substantially vertical. For example, this configuration may be utilised when a user is using the apparatus for cleaning a flight of stairs, or when storing the apparatus.
As can be seen from the figures the handle 34 extends diametrically across the end of the body 12 through the axis A of the main body 12 and the handle 34 is smaller than a diameter of the exterior surface of the wheel 16. This ensures that the handle 34 does not foul the floor surface F when the apparatus is being moved along the floor surface F.
In the present example the handle 34 is moveable between stored (shown in FIG. 3) and operable positions. In the operable position the handle 34 is moved outwardly away from the wheel 16 against the biasing of springs 35.
Advantageously, the apparatus 10 includes a plurality of deflector members 36, 37 connected to the main body 12. The purpose of the deflector members 36, 37 is to provide protection to the main body 12 and also to assist a user in maneuvering the apparatus whilst cleaning. The deflector members 36, 37 advantageously assist the user in maneuvering the apparatus past fixed objects e.g. door frames, chairs, tables.
User operable controls 38-40 are provided in recesses within the deflector members 37. The positioning of the user operable controls 38-40 in this location ensures that they are somewhat protected from any damage as a result of collisions between the apparatus and fixed objects.
In the present example the user operable control 38 is pivotally moveable to control the opening of a lid 21 to the chamber 20. The user operable control 40 is the power button for providing electrical connection between a mains supply and the suction motor 18 a. The user operable control 39 controls activation of the cable storage device 26 to cause retraction of the cable 28 for storage in the main body 12. It should be appreciated that other user operable controls could be provided within the spaces or recesses in the deflective members 37. Whilst no user operable controls are provided in the corresponding spaces in the deflector members 36 they could be provided if desired as an alternative or addition to the controls 38-40.
As shown in FIG. 1 the apparatus 10 includes a tool 42 for engaging a floor surface and a conduit/hose 44 connecting the floor tool 42 to the main body 12. These components are well known in the art of such cleaners and thus will not be described in further detail.
The main body 12 includes a primary air inlet 46 which is positioned on the main body 12, midway between the first and second ends of the main body 12. The primary air inlet 46 extends through a generally upwardly facing exterior surface of the main body 12. The primary air inlet 46 is for connection to the conduit/hose 44. In this embodiment the primary are inlet 46 includes a formation having an electrical connection for providing power to the floor tool 42, although it is not essential. The main body 12 also includes an opening 48 through which the cable 28 can exit from or enter towards the cable storage device 26.
The chamber 20 is generally cylindrical and removably connected to the main body 12 such that it can be removed through the end of the main body 12 for emptying by the user. Inlet 22 is provided on a side wall of the chamber 20 and is in fluid communication with the primary air inlet 46. A pre-filter 50 is provided on the outlet 24 to remove any particulates present in the flow of air leaving the chamber 20 to prevent them from entering the fluid flow path 30 and causing any damage by coming into contact with the fan 18 b and motor 18 a.
The source of suction 18, chamber 20 and cyclonic separator device 32 are positioned along the axis A of the main body 12 and, when powered, provide a suitable source of suction in order to draw air through the primary air inlet 46, cyclonic separator device 32 and pre-filter 50. Positioned around the motor 18 a (near the wheel 16) is a post-motor filter 52. Air passes through this filter 52 and apertures 54 at the end of the main body 12 to atmosphere.
The source of suction 18, the cable storage device 26 and the chamber 20 are positioned in a generally side by side configuration within the main body 12. The fluid flow path 30 is a cylindrically shaped passage having one end in fluid communication with the outlet 24 and the other end of which is in fluid communication with the source of suction 18.
The cable storage device 26 is positioned substantially midway between the ends of the main body 12, between the source of suction 18 and the chamber 20 such that the component parts are sequentially aligned. In other embodiments the cable storage device 26 may be positioned in a different position away from the midway point and/or placed in a different sequential position with respect to the source of suction 18 and the chamber 20. The cable storage device 26 could be positioned elsewhere, for example between the motor 18 a and the filter 52, or between the filter 50 and the suction fan 18 b, or indeed in any other location within the interior of the main body 12.
Advantageously at least a portion of the fluid flow path 30 extends through the cable storage device 26. The cable storage device 26 is of an annular shape and has a space 60 within which the cable 28 is stored.
The cable storage device 26 includes an annular moveable part 62 which is rotatable about the axis A around the fluid flow path 30. In the present example the cable storage device 26 includes a means for biasing the cable 28 to be pulled into an interior of the main body 12 via the opening 48 provided on the main body 12 so that the cable 28 is coiled around the moveable part 62. A free end of the cable 28 is connected to a plug 56 which, when the cable 28 is fully stored, is at least partially received in a recess 58 in the main body 12. In other words, the moveable part 62 is rotatable around the portion of the fluid flow path 30 and extends circumferentially around a surface of the fluid flow path. The moveable part 62 is thus parallel and coaxial with the axis A of the main body 12. This provides for an optimum use of the interior space of the main body 12 allowing for a more compact configuration of the surface cleaning apparatus 10. In other embodiments the moveable part 62 may only extend partially around the fluid flow path 30.
In particular, the cable storage device 26 defines a space 64 into and through which the fluid flow path 30 extends and around which space 64 the cable storage device 26 follows a substantially annular path. The space 64 is formed substantially centrally of the cable storage device 26 so as to further minimise the space taken by the component parts and maximise the length of cable 28 which can be accommodated within the interior space of the main body 12. The space 64 is generally cylindrical and has an elongate axis which is substantially parallel and coaxial with the axis of the cable storage device 26.
It will be seen that the cable storage device 26 has an axis which is substantially parallel with an axis of the source of suction 18, an axis of the chamber 20 and the axis A of the main body 12 so as to provide a generally substantially coaxial arrangement. However, in other embodiments the components may not be co-axial and, instead, their respective axes may be offset from one another and/or the axis A of the main body 12.
The side by side configuration of the cable storage device 26, source of suction 18 and the chamber 20 means that the respective component parts are positioned along the axis A of the main body 12. In this way the component parts are in an end to end relationship by which it is meant that each component occupies a respective space which is separate from a space in which another component is positioned.
Although the example is described with respect to the surface cleaning apparatus 10 of the cylinder type, it will be appreciated that the present invention could equally be applied to that of an upright type cleaner. More particularly, the configuration of having a cable storage device 26 positioned such that the fluid flow path 30 that connects the source of suction 18 to the chamber 20 extends through the cable storage device 26 provides for space savings which can equally apply to upright cleaners and other types of shapes of the main body 12.
It will also be appreciated that in this embodiment there is a separate passage which provides the fluid flow path 30 between the chamber 20 and the source of suction 18. However, other embodiments are envisaged where the fluid flow path 30 may be provided by an integral portion of the cable storage device 26 such that the cable storage device 26 moves together with the portion of the fluid flow path 30 during use. In the present example the cable storage device 26 is supported on the fluid flow path 30 but it could, alternatively, be mounted and rotatable with the fluid flow path 30 in other embodiments.
Also, whilst the cable storage device 26 includes means for biasing the cable 28 to be drawn into the interior of the main body 12, embodiments are envisaged which include a manually operable means for winding the cable 28 into the main body 12. For example there could be a handle accessible outside of the main body 12 which a user moves so as to rotate the annular member 62 so as to wind the cable 28 into the interior of the main body 12.
With reference to the figures a second aspect of the present invention will now be described. The cable storage device 26 includes the space 60 for storage of the cable 28 and the apparatus 10 includes an opening 48 through which the cable 28 can exit and enter the cable storage device 26. The apparatus 10 also includes a valve 66, in the form of pressure relief valve, which provides for fluid communication between the cable storage device space 60 and the source of suction 18. The valve 66 includes an actuator having a seal 67 which is mechanically operable to move between a closed position in which air is not permitted to flow from the space 60 to the source of suction 18, and an open position in which air is permitted to flow from the space 60 to the source of suction 18. In the closed position, the seal 67 prevents air from flowing from the valve 66 to the source of suction 18. The space 60 in which the cable 28 is stored is substantially sealed from atmosphere apart from the opening 48.
The valve 66 is provided in a wall 68 between the cable storage device 26 and the space in which the source of suction 18 is positioned. The valve 66 is biased by a spring to the closed position (FIG. 6a ) and is configured to move to the open position (FIG. 6b ) in which it permits air to flow from the space 60 to the source of suction 18 when the pressure in the fluid flow path 30 reaches a predetermined threshold.
During normal operation of the apparatus 10, the source of suction 18 will provide suction to the chamber 20 and primary air inlet 46 causing a drop in pressure. This will cause air to flow through the primary air inlet 46, through the cyclonic separator device 32 which separates dirt entrailed in the air, and the substantially cleaned air passes through the outlet 24 of the chamber 20 and pre-filter 50. The air will follow the fluid flow path 30 through the motor housing and to atmosphere through the apertures 54 provided in the end of the main body 12. This has the effect of cooling the motor 18 a during operation and preventing overheating. This flow path is shown in FIG. 5.
However, if an obstruction occurs upstream of the source of suction 18, for example, within the chamber 20, there will be no air passing from the outlet 24 of the chamber 20 through the motor housing to atmosphere. The pressure will then drop as the source of suction 18 continues to draw suction on the fluid flow path 30. There is then little or no cooling of the motor 18 a as no air will pass through the motor housing and as a result the motor 18 a will begin to heat. However, once the pressure reaches a pre-determined threshold, the valve 66 will move to its open position and then air from atmosphere can pass through the cable opening 48 on the main body 12 and the valve 66 to the motor 18 a via the fan 18 b before being exhausted to atmosphere. This arrangement therefore allows for cooling of the motor 18 a in the event of an obstruction occurring in the flow path upstream of the motor 18 a. This flow path is shown in FIG. 6.
In this embodiment the valve 66 is a mechanical valve but in other embodiments it is envisaged that an automated valve is provided which is operated by electronic means. In such embodiments there may be a pressure sensor positioned, in, for example, the fluid flow path 30, which senses when the pressure reaches the pre-determined threshold and provides an output signal to a control means for moving the automated valve to the open position.
Embodiments of apparatus are envisaged which do not include a cyclonic separator device, but instead utilise a receptacle, bag or the like for collecting dirt which is supported within the chamber 20. In addition, embodiments are envisaged which do not include a cable storage device 26, although it is desirable for the apparatus to be provided with such a device in order to ensure compact storage of the electrical cable 28.
Whilst in the above examples a “dry” apparatus is taught, it should be appreciated that the apparatus could be modified to be a “wet” system, i.e. utilising a source of cleaning fluid within the apparatus which is applied to the floor surface before being sucked back in to a chamber within the main body.
In each of the embodiments the chamber 20 is capable of receiving dirt, which definition encompasses either directly receiving dirt or there being a bag or the like supported within the chamber 20 which itself collects dirt.
The axis of the main body is a generally elongate axis thereof which in this example extends lengthwise of the apparatus between the first and second wheels.
When used in this specification and claims, the terms “comprises” and “comprising” and variations thereof mean that the specified features, steps or integers are included. The terms are not to be interpreted to exclude the presence of other features, steps or components.
The features disclosed in the foregoing description, or the following claims, or the accompanying drawings, expressed in their specific forms or in terms of a means for performing the disclosed function, or a method or process for attaining the disclosed result, as appropriate, may, separately, or in any combination of such features, be utilised for realising the invention in diverse forms thereof.

Claims

1. A surface cleaning apparatus comprising:

a source of suction;

a chamber for receiving dirt having an inlet and an outlet;

a cable storage device for storing electrical cable for providing power to the source of suction; and

a fluid flow path for providing fluid communication between the outlet of the chamber and the source of suction;

wherein at least a portion of the fluid flow path extends through a space defined by the cable storage device and the cable storage device follows a substantially annular path around the space.

2. A surface cleaning apparatus according to claim 1 wherein the source of suction, the chamber for receiving dirt and the cable storage device are positioned in a generally side by side configuration.

3. A surface cleaning apparatus comprising:

a source of suction;

a chamber for receiving dirt having an inlet and an outlet;

wherein the source of suction, the chamber for receiving dirt and the cable storage device are positioned in a generally side by side configuration.

4. A surface cleaning apparatus according to claim 3 wherein at least a portion of the fluid flow path extends through the cable storage device.

5. A surface cleaning apparatus according to claim 1 including:

a body with an elongate axis;

wherein the body includes:

a first end which preferably includes a first wheel being preferably positioned at or near the first end of the body; and

a second end which preferably includes a second wheel being preferably positioned at or near the second of the body; and

wherein the body houses one or more of the source of suction, chamber and cable storage device.

6. A surface cleaning apparatus according to claim 5 wherein the axis of the main body is generally horizontal when both the first and second wheels are engaged with a surface to be cleaned.

7. A surface cleaning apparatus according to claim 1 wherein an axis of the cable storage device is substantially parallel with an axis of the source of suction and/or the axis of the chamber and/or the body.

8. A surface cleaning apparatus according to claim 1 wherein an axis of the cable storage device is substantially co-axial with an axis of the source of suction and/or axis of the chamber and/or the body.

9. A surface cleaning apparatus according to claim 5, wherein an axis of the cable storage device is substantially parallel with the axis of the body.

10. A surface cleaning apparatus according to claim 5 wherein an axis of the cable storage device is substantially co-axial with the axis of the body.

11.-12. (canceled)

13. A surface cleaning apparatus according to claim 1, the space being formed substantially centrally of the cable storage device.

14. A surface cleaning apparatus according to claim 13 wherein the space is generally cylindrical.

15. A surface cleaning apparatus according to claim 14 wherein the space has an elongate axis substantially parallel/coaxial with an axis of cable storage device.

16. A surface cleaning apparatus according to claim 1 wherein the cable storage device is positioned between the source of suction and the chamber for receiving dirt, preferably such that they are sequentially aligned.

17. A surface cleaning apparatus according to claim 16 when directly or indirectly dependent on claim 5 wherein the cable storage device is positioned substantially midway between the ends of the body.

18. A surface cleaning apparatus according to claim 1 wherein the cable storage device includes a moveable part which is rotatable around the portion of the fluid flow path.

19. A surface cleaning apparatus according to claim 18 wherein the moveable part is substantially annular and partially or wholly extends circumferentially around a surface of the fluid flow path.

20. A surface cleaning apparatus according to claim 19 wherein the moveable part is rotatable about the axis of the cable storage device.

21. A surface cleaning apparatus according to claim 20 wherein the axis of rotation is parallel with the axis of the body.

22. A surface cleaning apparatus according to claim 21 wherein the axis of rotation is co-axial with the axis of the body.

23.-51. (canceled)