The present invention relates generally to floor scrubbing devices, and more particularly, to scrubbing devices of the type that direct pressurized liquid flow streams onto the floor during a cleaning operation.
Floor scrubbers are known of the type which have a cleaning head or housing that is moveable along the floor and which have a plurality of downwardly directed liquid spray nozzles that communicate with a pressurized liquid supply, such as through a liquid flow passageway in a handle of the scrubber. Conventional scrubbers suffer from a number of drawbacks that detract from their widespread efficient usage. Most significantly, while such floor scrubbers can be effective in cleaning floor surfaces, considerable water is directed onto the floor which must later be mopped up or otherwise disposed of to complete the cleaning task. For that purpose, the user of the floor scrubber, often a homeowner, must employ additional means, such as mops squeegees, or the like.
It is an object of the present invention to provide a floor scrubber that is adapted for easier and more efficient usage in cleaning floors.
Another object is to provide a floor scrubber as characterized above which is adapted to eliminate the necessity for later mopping of water directed onto the floor during cleaning.
A further object is to provide a floor scrubber of the foregoing type which is operable for effectively cleaning floors through the direction of pressurized liquid flow streams onto the floor, while simultaneously and/or subsequently removing dispensed liquid from the floor surface following cleaning.
Yet another object is to provide such a floor scrubber that is adaptable for easy and efficient usage with other cleaning items a homeowner or commercial establishment may possess, such as pressure washers and wet/dry vacuums.
A related object is to provide a floor scrubber that is adaptable for use with different sized liquid and/or air conduits of other equipment a homeowner or other user may utilize with the floor scrubber.
Still a further object is to provide a floor scrubber of the above type which is effective for permitting simultaneous application of separately monitored chemicals onto the floor surface during a cleaning operation.
Yet another object is to provide a floor scrubber of such type that has a cleaning head adapted for easy movement and manipulation on the floor surface to be cleaned and which is effective for maintaining a predetermined spatial separation with the floor for optimized simultaneous and/or subsequent vacuum removal of the dispensed liquid.
Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings, in which:
While the invention is susceptible of various modifications and alternative constructions, certain illustrated embodiments thereof have been shown in the drawings and will be described below in detail. It should be understood, however, that there is no intention to limit the invention to the specific forms disclosed, but on the contrary, the intention is to cover all modifications, alternative constructions and equivalents falling within the spirit and scope of the invention.
Referring now more particularly to the drawings, there is shown an illustrative floor scrubber 10 in accordance with the invention which comprises a spray or cleaning head 11 having a housing 12, preferably molded of rigid plastic material, that defines a downwardly opening spray or cleaning chamber 14, a spray nozzle assembly 15 disposed within the cleaning chamber 14, and a pivotably adjustable adaptor 16 for connection to a pressurized liquid supply for directing a cleaning fluid, typically water, to the spray nozzle assembly 15 for pressurized direction onto the floor surface during a cleaning operation. The spray nozzle assembly 15 in this case includes a pair of spray nozzles 18 disposed at diametrically opposed ends of a rotary arm 19. The rotary arm 19 is in the form of a pair of radial wings 21 extending from diametrically opposed sides of a central hub 20 parallel to the floor surface to be cleaned for preventing splash back of the sprayed liquid into the spray header housing 12 during a cleaning operation, as will become apparent. Each wing 21 in this instance has a respective integrally liquid supply passage or line 24 communicating between the hub 20 and a respective one of the spray nozzles 18. The nozzles 18, which are removably mounted at opposite radial ends of the wings 21, may be of a conventional type for directing a flat spray pattern in impinging relation to the floor surface to be cleaned.
For supporting the spray nozzle assembly 15 for rotational movement as an incident to direction of pressurized liquid to the spray nozzles 18, a stationary shaft support assembly 25 secured in the housing includes a non-circular head 26 supported within a correspondingly configured cavity 28 of the housing 12 and a downwardly extending shaft portion 29. The spray nozzle assembly hub 20 is supported for relative rotational movement on a retaining stem 30 positioned into an underside of the shaft portion 29 and secured in mounted position by a clip 31 (
For permitting communication of pressurized liquid to the spray nozzle assembly 15, the adaptor 16 has a central flow passageway 38 communicating through the hub 39 with a flow passageway 40 in the head and shaft portion 26, 29. The shaft portion passage 40 in turn communicates through radial passages in the stem 30, bushing 32, and hub 20 with the liquid supply passages 24 in the arms 19 to the respective spray nozzles 18. The spray nozzles 18 are oriented in angled relation to the floor surface such that the direction of pressurized liquid through the nozzles 18 imparts tangential forces for rotating the spray nozzle assembly 15 relative to the shaft portion 29 of the assembly 25.
For enabling vertical adjustment in the spray assembly 15 relative to the floor surface to be cleaned, the shaft support head 25 has a ribbed construction which defines a plurality of horizontal retention slots 45 each adapted for receiving the locking ledge 46 of a latching member 48 mounted for horizontal movement relative to the housing 12. Manual retraction of the latching member 48 against a force of a biasing spring 49, as depicted in
For directing a cleaning liquid to the floor scrubber 10, the adaptor 16 may be connected to a suitable pressurized liquid supply source, such as a pressure washer pump 50 of a conventional type, as depicted in
In accordance with an important aspect of the invention, the floor scrubber is operable for removing liquid directed onto the floor surface during a cleaning operation, either simultaneously with the cleaning operation or subsequent thereto. To this end, the floor scrubber head has a suction chamber or zone that may be coupled to a suitable suction pressure source. In the illustrated embodiment, as shown in
In keeping with the invention, the floor scrubber 10 can be used with a conventional wet/dry vacuums 65, such as a canister type wet/dry vacuums commercially sold under the name Shop Vac. It will be understood that any suitable wet/dry vacuum could be used that is operable for vacuuming and receiving liquids. To that end, the adaptor 62 is inwardly tapered in an outward direction from the housing 12 for receiving different size vacuum lines or hoses 64 of a wet/dry vacuum 65 that might be possessed by the user. The adaptor 62 in this case has a stepped configuration with three different sized cylindrical hose mounting surface 66, 67, 68, each for receiving in sealed relation a different sized standard vacuum hose 65, such as a 1¼, 1½, 2 inch hose. Each cylindrical mounting surface in this case has an annular sealing ring 69 to facilitate sealed engagement and retention of the particular sized hose. Alternatively, as depicted in
In carrying out the invention, the spray head 11 is supported for movement over the floor by a plurality of rotatable balls 75 which enable the spray head to be easily moved in random 360° directions over the floor during a cleaning operation and which maintain the vacuum opening 61 in predetermined close relation to the floor surface for effective removal of liquid that has been directed onto the floor surface. In the illustrated embodiment, the spray head housing 12 is supported by three roller balls 75, with one ball 75 being disposed forwardly of the cleaning chamber 14 and two balls 75 being disposed rearwardly of the washing chamber 14 adjacent opposite elongated ends of the suction opening 61.
For receiving and retaining the balls 75 for rolling movement in the underside of the spray head housing 12, the housing 12 is formed with respective downwardly opening ball containing sockets 76 in the underside thereof. The balls 75 are retained within the sockets 76 for relative rotational movement by respective retaining plates 78 screwed or otherwise fixed to the underside of the housing 12. The plates 78 each are formed with a respective opening sized less than the diameter of the balls 75 for retaining the balls within the sockets 76 with a predetermined relatively small portion thereof protruding through the plate for supporting the housing 12 in closely spaced predetermined relation to the floor surface. It has been found that the rolling ball support for the spray header 11 permits the housing to be maintained in close relation to even slightly irregular or rough surfaced floors, such as asphalt, for enhancing cleaning and liquid removal.
For sealing the vacuum chamber 60 with the floor surface while simultaneously enhancing scrubbing action with the floor, the outer lower perimeter of the housing 12 has depending brush bristles 80 that define a flexible sealing wall for sliding engagement with the floor surface. It can be seen that such bristles 80 effectively seal the lower outer perimeter of the housing 12 with the floor surface from the outside environment, while at the same time positively engaging in scrubbing the floor surface as an incident to movement of the scrubber over the floor. The bristles 80 further effectively accommodate and seal irregularities in the floor surface for enhanced vacuum removal of the liquid. Alternatively, a rubber squeegee blade 81, as depicted in
In carrying out still a further aspect of the invention, the floor scrubber 10 is operable for directing pressurized air onto the floor following vacuum removal of the liquid from a cleaning operation for enhancing quicker drying of the floor surface. To this end, the wet/dry vacuum 65 may be a conventional type that further is operable for directing a positive pressure air discharge through the vacuum line 64. In that case, following a cleaning operation and vacuum removal of the liquid directed onto the floor during a cleaning operation, the wet/dry vacuum 65 may be operated to direct a positive air flow into the vacuum chamber 60 of the housing and through the vacuum opening 61 onto the floor surface for enhanced drying of the floor surface as shown in
Referring now to
A spray nozzle assembly 15a in this case is fixedly supported in the underside of the housing 12a and comprises a multi-legged support 19a which each defines a liquid flow passageway communicating between the liquid supply adaptor 16a and a spray nozzle 18a supported at the outer end of the leg. The spray nozzles 18a again preferably are fan spray nozzles, such as fan spray nozzles commercially available from Arrow Line SrL, Rubiera (RE) Italy, which have adjustable parallel blades 85, as depicted in
In carrying out this embodiment of the invention, a separate chemical supply line 86 is provided for connection with a chemical inlet 88 communicating with the cleaning chamber 14a. Hence, simultaneous with the supply of water to the spray nozzles 18a, a chemical may be introduced into the cleaning chamber 14a and onto the floor surface during the cleaning operation.
Referring now more to
From the foregoing, it can be seen that the floor scrubber of the present invention is adapted for easier and more efficient usage in cleaning floors. The scrubber eliminates the necessity for later mopping of water directed onto the floor during the cleaning operation by effecting vacuum removal of the applied liquid, either simultaneously or subsequent to a cleaning operation. The liquid floor scrubber, which is adapted for versatile usage with pressure washers and wet/dry vacuums that may be available on the users premises, further can be operated with monitored supply of chemicals during cleaning, and for the direction of positive pressurized air onto the floor surface for enhanced drying.