Floor cleaner with full tank indicator

Abstract

A surface cleaner includes a suction source that generates a suction airflow to draw liquid-laden air along a fluid flow path from a dirty air inlet to a recovery tank. The recovery tank includes a chamber for storing liquid, an inlet along the fluid flow path, an outlet aperture along the fluid flow path, and a float having an indicator. An inflow path upstream of the inlet connects the dirty air inlet to the recovery tank. The float moves between a first position spaced away from the outlet aperture allowing air to exit the recovery tank along the fluid flow path, and a second position adjacent the outlet aperture obstructing the fluid flow path. The indicator is visible to a user when the float is in the second position.

Description

BACKGROUND

The present invention relates to floor cleaners.

SUMMARY

In one embodiment a floor cleaner is disclosed including a recovery tank with an inflow path allowing liquid-laden air to enter the recovery tank, an outflow path allowing air to exit the recovery tank, and a chamber for storing liquid. The chamber includes an inlet, an outlet, a separator that separates liquid from the liquid-laden air, and a float. The float includes a base and a valve with an indicator. The float is moveable between a first position with the valve spaced away from the air outlet, allowing air to exit the chamber, and a second position with the valve adjacent the outlet, impeding the air form exiting the chamber. In the second position the indicator is visible when the chamber is full.

In another embodiment, a floor cleaner is disclosed including an inlet, an outlet, a suction source operable to generate a suction airflow through the inlet and the outlet, a fluid flow path extending from the inlet to the outlet, a recovery tank positioned in the flow path and including a recovery tank inlet and a recovery tank outlet, and a float. The float obstructs the recovery tank outlet in a closed position in response to a fluid level in the recovery tank. The float includes an indicator visible when the float is in the closed position to indicate to the user that the float is in the closed position.

Other aspects of the invention will become apparent by consideration of the detailed description and accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a floor cleaner according to one embodiment shown with a handle in an upright storage position.

FIG. 2A is a perspective view of the floor cleaner of FIG. 1 with the handle in an inclined use position.

FIG. 2B is an alternative enlarged perspective view of the floor cleaner of FIG. 1 with the handle in the inclined use position.

FIG. 3 is a perspective view of a recovery tank of the floor cleaner of FIG. 1.

FIG. 4 is a perspective cross sectional view of the recovery tank of FIG. 3.

FIG. 5 is an alternative perspective cross sectional view of the recovery tank of FIG. 3.

FIG. 6 is a side cross sectional view of the recovery tank of FIG. 3 shown with a float in an open position.

FIG. 7 is a side cross sectional view of the recovery tank of FIG. 3 shown with the float in a closed position.

FIG. 8 is a perspective view of the recovery tank of FIG. 3 shown with an open lid.

FIG. 9 is a perspective cross sectional view of a recovery tank according to another embodiment.

FIG. 10 is a perspective cross sectional view of a recovery tank according to another embodiment.

Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways.

DETAILED DESCRIPTION

The disclosure relates to a floor cleaner having a liquid recovery system including a suction source that draws liquid-laden air from a dirty air inlet, such as a suction nozzle, along a fluid flow path to a recovery tank. The recovery tank includes an air/liquid separator that separates recovered liquid, such as water or other cleaning solution, from the liquid-laden air entering the recovery tank and retains the separated liquid in the in the recovery tank.

Referring to FIGS. 1 and 2A-2B, an illustrated embodiment of the floor cleaner 10 includes a base 14, a handle 18, and a recovery tank 22. The base 14 is coupled to the handle 18 and adapted for movement across a surface to be cleaned. The handle 18 is movable between an upright storage position (FIG. 1) and an inclined use position (FIG. 2A). The floor cleaner 10 includes a fluid flow path 26 extending from a dirty air inlet 30 to a clean air outlet (not shown) and a suction source in the form of a motor 34 positioned in the fluid flow path 26.

As illustrated in FIGS. 3-5, the recovery tank 22 is positioned in the fluid flow path 26 in communication with the dirty air inlet 30. As shown in FIG. 3, the recovery tank 22 includes a container 42 and an inner chamber 46. The recovery tank 22 receives liquid-laden air through a recovery tank inlet passageway 50 in fluid communication with the dirty air inlet 30. The recovery tank inlet passageway 50 connects a recovery tank inlet 54 to a chamber inlet 58. The inner chamber 46 includes an air/liquid separator 60 that separates liquid out from the liquid-laden air. The recovery tank 22 expels clean and relatively dry air through a recovery tank outlet passageway 62 in fluid communication with the clean air outlet. The recovery tank outlet passageway 62 connects a chamber outlet 66 to a recovery tank outlet 70. Adjacent the chamber outlet 66 is a viewing port 74 visible to the operator of the cleaner. In one embodiment, the viewing port 74 is viewable by the operator during operation of the cleaner when the cleaner and the operator are in use positions. The recovery tank 22 includes a lid 78 removably coupled to the container 42 covering an access opening 80 in the container 42 (FIG. 8). In the illustrated embodiment, the chamber outlet 66 is disposed in the lid 78 of the recovery tank 22 as well as a portion of the recovery tank outlet passageway 62. The viewing port 74 includes a translucent or transparent portion 82 of the recovery tank outlet passageway 62. In one embodiment, the viewing port 74 is a translucent or transparent portion 82 of the recovery tank outlet passageway 62. The viewing port 74 is positioned in the top of the recovery tank 22 viewable from an overhead position, such as positioned in the top of the lid 78. In one embodiment, the viewing port 74 is positioned in a side portion of the recovery tank 22 viewable from the side, such as positioned in a side portion of the lid 78. In other embodiments, the viewing port 74 may be realized in other ways.

Now referring to FIGS. 6 and 7, the recovery tank 22 has a float assembly 86 including a float 90 and a cage 94. The cage 94 is mounted to the lid 78 of the recovery tank 22 and is generally aligned with the chamber outlet 66. The cage 94 includes a plurality of ribs 98 forming air exhaust apertures between the ribs 98 and a lower rim 102 creating an aperture 106. The float 90 includes a base 110 and a valve 114 connected by a shaft 118. The valve 114 and the base 110 each have a width greater than a width of the aperture 106. The shaft 118 has a width smaller than the width of the aperture 106. The aperture 106 surrounds the shaft 118, thereby slideably retaining the float 90 in the cage 94. The float 90 is moveable between a first position (FIG. 6) and a second position (FIG. 7). In the first position, the valve 114 is spaced away from the chamber outlet 66. In the second position, or closed position, the valve 114 engages the chamber outlet 66.

During a cleaning operation, the motor 34 creates an air flow and pulls in liquid-laden air through the dirty air inlet 30. The liquid laden air travels through the recovery tank inlet passageway 50 to the chamber inlet 58. Liquid is then separated from the air by the air/liquid separator 60. Recovered liquid is stored in the inner chamber 46 and the cleaned air exits through the chamber outlet 66. The cleaned air travels through the recovery tank outlet passageway 62 and out the recovery tank outlet 70 on toward the motor 34 and out the clean air outlet. As the floor cleaner 10 continues its cleaning operation, a level of recovered liquid in the chamber increases. The rising liquid exerts a buoyant force on the base 110 of the float 90 causing it to rise from the first position. As the level of recovered liquid increases, the float 90 approaches the second position bringing the valve 114 adjacent the chamber outlet 66. The valve 114 aligns with and engages the chamber outlet 66, obstructing the fluid flow path 26. This obstruction halts the intake of liquid-laden air through the dirty air inlet 30 and therefore stops the level of recovered liquid from continuing to increase.

The valve 114 of the float 90 includes an indicator 130. This indicator 130 can include indicia 132 such as a colored surface, a shape, a graphic or logo, or an LED to enhance the noticeability of the indicator 130. The indicator 130 may formed by a surface or portion integral with or attached to the valve 114. The indicator 130 is configured to be visible through the viewing port 74 when the float rises to a predetermined level, such as indicating that the chamber 46 is full. The indicator 130 is arranged on the valve 114 to be visible through the viewing port 74 when the valve 114 is in the second, or closed, position engaging the chamber outlet 66. In one embodiment, the indicator 130 extends through the chamber outlet 66 into the recovery tank outlet passageway 62 when the valve 114 is in the second position. In one embodiment (FIG. 10), the valve 114 engages the underside of the chamber outlet 66 and the indicator 130 is viewable through the chamber outlet 66. The chamber outlet 66 has an aperture diameter or dimension sized to view the indicator 130 through the viewing port 74, such as greater than 12 mm, or between 12 and 150 mm. In one embodiment the dimension of the chamber outlet 66 is between 20 and 50 mm, and in one embodiment between 25 and 40 mm.

In the embodiment shown in FIGS. 1-2B, the recovery tank 22 is coupled to the base 14. In other embodiments, the recovery tank 22 may be operatively coupled to one or more other portions of the floor cleaner 10, such as the handle 18. FIG. 2B shows that the viewing port 74 is arranged such that the indicator 130 is visible to a user while the float 90 is in the second position and the floor cleaner 10 is in the inclined use position.

Referring to FIG. 8, the recovery tank 22 is removably coupled to the floor cleaner 10 to allow a user to remove the recovery tank 22 and empty the liquid contents. In operation, when the user is ready to empty the recovery tank 22, the user moves the lid 78 to expose the access opening 80. The user then may empty the dirty fluid from the container 42. Once the tank has been emptied, gravity causes the float 90 to return to the first position and the cleaning operation can continue. In other embodiments, the recovery tank 22 may not include a lid 78 and the liquid contents may be emptied in other ways.

FIG. 9 illustrates an embodiment including an LED 134 as the indicia 132 on the indicator 130. The LED 134 and a switch 138 are mounted in the valve 114 and connected to a battery 142 stored in the base 110. A magnet 146 is mounted to the in the lid 78 adjacent the chamber outlet 66. As the float 90 approaches the second position and the valve 114 engages the chamber outlet 66 the switch 138 senses the magnet 146 and activates the LED 134. In other embodiments, the LED might be activated by a contact switch or other appropriate alternatives.

Other floor cleaners within the scope of this disclosure may include a different type of base, such as including the recovery tank and a supply tank coupled to the base. In addition, other extractors may be different than the illustrated upright configuration. For example, other embodiments of the extractor may include canister extractors or portable extractors also known as spot cleaners.

Claims

1. A surface cleaner comprising: a suction source operable to generate a suction airflow to draw liquid-laden air along a fluid flow path from a dirty air inlet to a recovery tank;the recovery tank including a chamber for storing liquid,an inlet along the fluid flow path,an outlet aperture along the fluid flow path, anda float having an indicator; andan inflow path upstream of the inlet connecting the dirty air inlet to the recovery tank;wherein the float is movable between a first position spaced away from the outlet aperture allowing air to exit the recovery tank along the fluid flow path and a second position adjacent the outlet aperture obstructing the fluid flow path;wherein the indicator is visible to a user when the float is in the second position.

2. The surface cleaner of claim 1, wherein the inflow path is disposed in the recovery tank.

3. The surface cleaner of claim 2, the recovery tank further including a lid, wherein a portion of the inflow path is disposed in the lid.

4. The surface cleaner of claim 1, wherein the recovery tank further includes an outflow path downstream of the outlet aperture.

5. The surface cleaner of claim 4, the recovery tank further including a lid, wherein a portion of the outflow path is disposed in the lid.

6. The surface cleaner of claim 4, wherein the float engages the outlet aperture having the indicator visible through a portion of the outflow path.

7. The surface cleaner of claim 4, wherein the outflow path includes a translucent or transparent portion forming a viewing port through which the indicator is visible in the second position.

8. The surface cleaner of claim 7, wherein the viewing port is disposed in a top of the recovery tank.

9. The surface cleaner of claim 1, the recovery tank further including a lid, wherein the float is coupled to the lid.

10. The surface cleaner of claim 1, wherein the float is moved to the second position by a buoyant force of the liquid in the chamber acting on the float.

11. The surface cleaner of claim 1, wherein the float moves to the second position in response to a level of liquid in the chamber.

12. The surface cleaner of claim 1, further comprising a base, wherein the recovery tank is coupled to the base.

13. The surface cleaner of claim 1, wherein the indicator includes at least one of a colored surface, a shape, or a graphic.

14. The surface cleaner of claim 1, wherein the indicator extends through the outlet aperture into an outflow path downstream of the outlet aperture, and wherein the outlet aperture has an outlet aperture diameter of between 25 mm and 40 mm.

15. The surface cleaner of claim 1, wherein the indicator includes a light emitting diode that is activated by a contact switch.

16. The surface cleaner of claim 1, wherein the indicator includes a light emitting diode that is activated by a magnetic switch.

17. The surface cleaner of claim 16, wherein a magnet is mounted on or mounted within a lid of the recovery tank adjacent the outlet aperture, wherein the magnetic switch is mounted on or mounted within the float, wherein as the float approaches the second position, the magnetic switch senses the magnet and activates the light emitting diode.

18. The surface cleaner of claim 17, further comprising a base, wherein the magnetic switch is connected to a battery stored in the base.

19. The surface cleaner of claim 18, wherein the light emitting diode is connected to the battery stored in the base.

20. The surface cleaner of claim 19, wherein the light emitting diode is activated when the float engages the outlet aperture.