SQUEEZE MOP

Abstract

A squeeze mop comprises a mop head having a central head region secured relative to a handle and a pair of cleaning pad supports which are pivotally located relative to the central head region and movable towards one another to compress the cleaning pad material therebetween, the mop head further comprising biasing means to rotate the two pad supports away from the position at which the cleaning pad material is compressed between the pad supports, said biasing means comprising an elongate elastomeric element the two ends of which are secured to a respective one of the two cleaning pad supports and wherein the head region comprises a platform section for engagement by the elastomeric element, said platform section being located closer to the handle than the at least one position about which the pad supports are pivotally located relative to the head region.

Claims

1. A squeeze mop comprising a handle and a mop head located at the one end of the handle, the mop head comprising a central head region secured relative to handle and a pair of cleaning pad supports pivotally located relative to the central head region for the support of at least one cleaning pad, the two pad supports being movable towards one another to compress the cleaning pad material therebetween and the mop head further comprising biasing means to rotate the two pad supports away from the position at which the material of the cleaning pad is compressed between the pad supports, said biasing means comprising an elongate elastomeric element the two ends of which are secured to a respective one of the two cleaning pad supports and wherein the head region comprises a platform section for engagement by the elastomeric element, said platform section being provided at a position closer to the handle than the at least one position about which the pad supports are pivotally located relative to the head region.

2. A mop according to claim 1 wherein the elastomeric element is provided with at least one aperture and at least one of the pad supports is provided with a retention protrusion for location of the elastomeric element.

3. A mop according to claim 2 wherein the elastomeric element comprises a second location aperture for location with a retention protrusion provided either by the other of the two pad supports or the central head region of the mop head.

4. A mop according to claim 2 wherein an end region of the elastomeric element is provided with two spaced apart location apertures for securing said end region of the elastomeric element to one of the support pads.

5. A mop according to claim 2 wherein the pad supports are plastic mouldings.

6. A mop according to claim 5 wherein the pad supports are each moulded integrally with at least one retention protrusion.

7. A mop according to claim 6 wherein said at least one of the retention protrusions is of a L shape having a distal end which extends in a direction away from the position at which the pad support is pivotally located relative to the head region.

8. A mop according to claim 1 wherein each pad support is individually pivotally located relative to the central head region whereby in use the pad supports are pivotable about positions spaced apart.

9. A mop according to claim 8 wherein each pad support is moulded integrally with the head region and is connected to the head region by a relatively thin and flexible section which permits pivotal movement.

10. A mop according to claim 1 wherein the pad supports are pivotally located for pivotal movement about a common axis.

11. A mop according to claim 1 and comprising a compression mechanism manually operable to move the two pad supports towards one another thereby to compress the cleaning pad material.

12. A mop according to claim 11 wherein the compression mechanism comprises a biasing means additional to said elongate elastomeric element whereby the compression mechanism is inherently biased to a position at which it does not compress the cleaning pad material.

13. A mop according to claim 11 wherein the compression mechanism is adapted to slidingly bear against the pad supports to move the pad supports towards one another.

14. A mop according to claim 1 wherein the elastomeric element extends continuously over the head region from location with one of the pad supports to location with the other of the two pad supports.

15. A mop according to claim 14 wherein the head portion defines a platform section surface which is contacted by the elastomeric element when deflected as the pad supports move to a position at which the cleaning pad material is compressed and wherein the elastomeric element is undeflected when the pad supports are at a retracted position at which the cleaning pad material is not subject to compression.

16. A mop according to claim 1 wherein each pad support defines a cavity in which the elongate elastomeric element is located and secured in position.

17. A mop according to claim 16 wherein the cavity is substantially wholly covered at least in part by the support backing of a cleaning pad of a type comprising compressible cleaning pad material secured to a support backing whereby the support backing isolates the cleaning pad material from frictional contact with the elongate elastomeric element.

Description

[0029] One embodiment of the present invention will now be described, by way of example, with reference to the accompanying drawings in which:—

[0030] FIG. 1 is a perspective view of part of a mop in accordance with the present invention, with a cleaning pad and associated support backing shown slightly separated from the mop head;

[0031] FIG. 1A is a view of part of the mop of FIG. 1 in a second direction and with the cleaning pad removed to reveal the elastomeric element;

[0032] FIGS. 2A, 2B and 2C show stages in operation of the mop of FIG. 1 to compress the cleaning pad;

[0033] FIG. 3 shows in diagrammatic form, in a part cut away perspective view, a part of the mop of FIGS. 1 and 2;

[0034] FIG. 4 shows half of the assembly of FIG. 3;

[0035] FIG. 5 is a view in the direction of arrow X of FIG. 4;

[0036] FIGS. 6 to 9 show variations of FIG. 5 in successive positions of the pad supports up to the closed condition of FIG. 9, and

[0037] FIG. 10 is a diagrammatic perspective view of part of the mop head when in the closed condition.

[0038] A squeeze mop 10 (see FIGS. 1 and 1A) comprises a handle 11 in the form of a pole to which is secured a mop head 12.

[0039] The mop head comprises a head portion 13 to which a pair of cleaning pad supports 14 are pivotally mounted about respective hinge pin axes 15.

[0040] The pad supports 14 have secured thereto a cleaning pad unit 16 comprising a single compressible hydrophilic sponge 17 secured to a pair of relatively rigid support backings 18.

[0041] The sponge backings 18 are provided with protrusions 18a which enable the cleaning pad unit 16 to be secured to the pad supports 14 and also be to removed and replaced in a click-fit manner. The cleaning pad may be of a simple construction of a layer of the aforedescribed sponge 17 secured to the substantially rigid support backings 18 or it may incorporate a strip of scourer material 40 which may be embedded in the sponge material as shown in FIG. 1 or which may, in common with the foam, be secure directly to the sponge support backings 18.

[0042] Accordingly the facility for ease of replacement of the cleaning pad unit allows the optional use of different types of cleaning pads.

[0043] The head portion 13 additionally has secured thereto a pair of deflector components 20 of a compression mechanism 21 for pivotal movement of the pad supports to move them towards one another for compression therebetween of the sponge 17.

[0044] One end region 22 of the deflector component 20 is pivotally mounted on the head portion 13 for pivotal movement about an axis 23 which lies perpendicular to pad support axes 15 and perpendicular to the length of the handle 11.

[0045] The other end region 24 of the deflector is pivotally secured to an operating arm 25 that is slidably secured by means of a sleeve 26 to a mid-length section 27 of the handle. Movement of the operating arm in a downwards direction towards the mop head 12 results in the deflector component 20 progressively bearing against and rotating the pad supports in a manner shown in FIGS. 2A and 2B until coming to rest at the position shown in FIG. 2C with the pad supports substantially parallel with one another and the sponge 17 firmly compressed therebetween.

[0046] When the operating arm is moved upwards from the position of FIG. 2C to that of FIG. 1 the pad supports are returned to the orientation of FIG. 1 under the action of a biasing component which is located within the mop head.

[0047] For clarity in description of the biasing component and functioning thereof reference is now made to the diagrammatic views of FIGS. 3 to 10, these being devoid of certain constructional features shown in FIGS. 1 to 3 but focusing on details related to functioning of the biasing component.

[0048] In this embodiment of the invention the biasing component is an elongate elastomeric band 30 of silicone rubber. Each end region 31 of the band is formed with a pair of location apertures 32 which locate with respective L shaped projections 33 that are formed integrally with the pad supports, positioned in the cavities 34 defined by the pad supports. The spacing of the pairs of apertures in the two pad supports is greater than that of the apertures 32 at the respective end regions of the band when the band is unstretched. Thus when the band is fitted to the projections it is in a stretched condition that, in the absence of externally applied force, inherently tends to retain the pad supports in the relative position shown in FIG. 4.

[0049] The head portion 13 of the mop head is shaped to provide a recess 35 which, when the supports are in the position shown in FIG. 4, allows the elastomeric band to extend in a straight line, undeflected, between the locating projections 33.

[0050] A feature of the head portion recess 35 is that it defines a platform section surface 36 which is positioned closer than the pivot axes 15 to the part 37 of the head portion that is attached to the handle 11.

[0051] When the compression mechanism 21 is operated to move the two pad supports 14 closer together, the elastomeric band moves downwards to sit on the platform surface 36 as shown in FIGS. 6 to 10. Because the platform surface is spaced from the pivot axes 15 the band is progressively stretched resulting in the band storing additional energy.

[0052] Accordingly when the compression mechanism 21 is lifted or automatically moves in a direction away from the mop head the energy stored in the elastomeric band is able to return the pad supports to the original, undeflected position as shown in FIG. 1 and FIGS. 3 to 5.

[0053] In consequence of providing biasing means comprising an elongate elastomeric element there is achieved the provision of a squeeze mop which is both economic to produce and reliable and effective in operation. Furthermore the elastomeric element advantageously provides the further feature of corrosion resistance.