APPARATUS FOR CLEANING SWIMMING POOL SURFACES

Abstract

An underwater pool surface cleaning apparatus is provided comprising a suction head, a driving component spaced apart from the suction head, the driving component being arranged to move the apparatus underwater along a surface, and a first flexible hose to connect the suction head and the driving component together. In an example embodiment, a second flexible hose may be fitted to the driving component so as to join the driving component to a swimming pool filtration system. According to another aspect of the invention there is provided a driving component for an underwater cleaning apparatus. The driving component may comprise a body defining a chamber, a first end and a second end, with a valve arrangement being housed within the body. The valve arrangement is arranged to close and open so as to cause the apparatus to move.

Description

FIELD OF THE INVENTION

This invention relates to an underwater cleaning apparatus, and in particular to an apparatus for cleaning the surfaces of swimming pools and the like.

BACKGROUND TO THE INVENTION

Typical pool cleaners for cleaning the surfaces of swimming pools comprise a suction head and a working mechanism that are both housed within a body. The body is in turn connected to an inlet of a swimming pool filtration system by means of a flexible hose, with the working mechanism being arranged to move the body of the pool cleaner, in a well known manner, across the surface to be cleaned.

However, a problem associated with such pool cleaners is that the body of the cleaner tends to be relatively bulky, which makes it difficult for them to access certain areas or regions of the pool, such as steps and corners. Previous attempts to address this 3D problem have typically involved reducing the overall size of the apparatus, so as to make them less bulky and therefore more flexible in Its movements. These attempts have been limited in their success, since, to operate properly and efficiently, pool cleaners with the above general configuration can only be reduced to a certain extent.

OBJECT OF THE INVENTION

It is therefore an object of this invention to provide a cleaning apparatus that is smaller, less bulky and more flexible, when compared to existing pool cleaners, so as to address the problems outlined above.

SUMMARY OF THE INVENTION

According to a first aspect of the invention there is provided an underwater cleaning apparatus comprising:

• • a suction head;
  • a driving component spaced apart from the suction head, the driving component being arranged to move the apparatus underwater along a surface; and
  • a first flexible hose to connect the suction head and the driving component together.

In an example embodiment, a second flexible hose may be fitted to the driving component so as to join the driving component to a filtration system.

In an example embodiment, the suction head comprises a flexible footplate that can glide along an underwater surface, with an aperture being defined by the footplate that in turn defines an inlet for allowing water to be sucked into and through the apparatus.

In an example embodiment, the suction head further comprises a connector that is fitted to the footplate, the connector comprising a first end that is arranged to be in fluid communication with the aperture defined in the footplate.

In an example embodiment, the connector comprises a second end that is arranged to be connected to a first end of the first flexible hose.

In an example embodiment, the second end of the connector is angled relative to the flexible footplate.

According to a second aspect of the invention there is provided a driving component for an underwater cleaning apparatus, the driving component comprising:

• • a body defining a chamber, a first end and a second end, the first end being connectable to a first flexible hose that in turn is connectable to a suction head so as to separate, in use, the driving component from the suction head, the second end being connectable to a second flexible hose, the second flexible hose in turn being connectable to a filtration system; and
  • a valve arrangement housed within the body, the valve arrangement being arranged to close and open so as to cause the apparatus, when connected, to move.

In an example embodiment, the valve arrangement comprises a diaphragm.

BRIEF DESCRIPTION OF THE DRAWINGS

One embodiment of the invention will be described, by way of example only, with reference to the drawings in which:

FIG. 1 shows a sectional elevation of an underwater pool surface cleaning apparatus according to an example embodiment; and

FIG. 2 shows a cross-sectional view of a driving component used in the apparatus shown in FIG. 1, the driving component extending between two flexible hoses and being arranged to move the apparatus underwater.

DETAILED DESCRIPTION OF THE DRAWINGS

Referring to the attached figures, an underwater pool surface cleaning apparatus 10 comprises a suction head 12 and a spaced apart driving component 14. The driving component 14 is arranged to move the apparatus 10 underwater along a surface 16 of a pool. The driving component 14 will be described in more detail further below with reference to FIG. 2.

The suction head 12 and the spaced apart driving component 14 are joined together by a first flexible hose 18. A second flexible hose 20 may be fitted to the driving component 14 so as to join the driving component 14 to a swimming pool filtration system 21. The second flexible hose 20 thus acts as a conduit between the apparatus 10 and the filter 21.

The suction head 12 comprises a flexible footplate 22 that can glide along the pool's surface 16. An aperture (not shown) is defined by the footplate 22, the aperture defining an inlet for allowing water to be sucked into and through the apparatus 10, as indicated by arrows 24.

The suction head 12 further comprises a connector 26 that is fitted to the footplate 22, the connector 26 terminating in a first end that is arranged to be in fluid communication with the aperture defined in the footplate 22. The connector 26 terminates in a second end that is arranged to be connected to a first end of the first flexible hose 18. In an example embodiment, the second end of the connector 26 is angled relative to the flexible footplate 22, as clearly shown in FIG. 1.

The first flexible hose 18 may be made from a conventional ribbed hose and may have varying lengths. However, in an example embodiment, the first flexible hose 18 may range between 20 and 30 cm.

Similarly, a second end of the first flexible hose 18 may be fitted to a first end 28 of the driving component 14, with a second end 30 of the driving component 14 being connected to a first end 32 of the second flexible hose 20. As indicated above, a second end 33 of the second flexible hose 20 may be fitted to the swimming pool filter 21.

Turning now specifically to FIG. 2, the driving component 14 defines a chamber 34 that can accommodate a valve arrangement 36. In the illustrated example embodiment, the valve arrangement 36 takes the form of a diaphragm 36 that can rapidly, alternately close and open when suction is applied to the flexible hose 20 by the pool filter. This causes the apparatus 10 to move, in a well known manner, and will thus not be described in more detail. As will be readily appreciated by a person skilled in the art, the valve arrangement 36 may take a number of different configurations, with a diaphragm being used merely as one example.

The disclosed invention thus provides a cleaning apparatus for automatically cleaning a submerged surface. Significantly, the suction head of the apparatus is separated from the driving component by a flexible hose so as to make the overall apparatus less bulky, smaller and able to access and exit areas not previously accessible with conventional pool cleaner apparatuses.

Claims

1. An underwater cleaning apparatus comprising: a suction head;a driving component spaced apart from the suction head, the driving component being arranged to move the apparatus underwater along a surface; anda first flexible hose to connect the suction head and the driving component together.

2. The underwater cleaning apparatus of claim 1, wherein a second flexible hose can be fitted to the driving component so as to join the driving component to a filtration system.

3. The underwater cleaning apparatus of claim 1, wherein the suction head comprises a flexible footplate that can glide along an underwater surface, with an aperture being define by the footplate that in turn defines an inlet for allowing water to be sucked into and through the apparatus.

4. The underwater cleaning apparatus of claim 3, wherein the suction head further comprises a connector that is fitted to the footplate, the connector comprising a first end that is arranged to be in fluid communication with the aperture defined in the footplate.

5. The underwater cleaning apparatus of claim 4, wherein the connector comprises a second end that is arranged to be connected to a first end of the first flexible hose.

6. The underwater cleaning apparatus of claim 4, wherein the second end of the connector is angled relative to the flexible footplate.

7. A driving component for an underwater cleaning apparatus, the driving component comprising: a body defining a chamber, a first end and a second end, the first end being connectable to a first flexible hose that in turn is connectable to a suction head so as to separate, in use, the driving component from the suction head, the second end being connectable to a second flexible hose, the second flexible hose in turn being connectable to a filtration system; anda valve arrangement housed within the body, the valve arrangement being arranged to close and open so as to cause the apparatus, when connected, to move.

8. The driving component of claim 7, wherein the valve arrangement comprises a diaphragm.

9. (canceled)

10. (canceled)