Contamination resistant liquid level sensor

What is claimed is: 1. A liquid level sensor for determining a level of a volume of liquid in an appliance reservoir, the liquid level sensor comprising: an elongate float; a sensor head providing a sealed compartment, wherein the sensor head: is adapted to be received at an opening in an upper wall of an appliance reservoir; includes a collar that engages the upper wall of the appliance reservoir to provide a sealed engagement between the collar and the upper wall of the appliance reservoir; provides downwardly extending guides for supporting the elongate float for motion along a vertical axis beneath the sensor head; a sensor mounted within the sealed compartment to sense a height of the elongate float with respect to the sensor head; and a spring extending between the sensor head and the elongate float to bias the elongate float downward against buoyant forces on the elongate float. 2. The liquid level sensor of claim 1 wherein: the elongate float is defined by an elongate bottle with an outwardly extending rim; and the downwardly extending guides are defined by fingers having inwardly extending teeth for engaging the outwardly extending rim on the elongate bottle. 3. The liquid level sensor of claim 2 wherein the outwardly extending rim and inwardly extending teeth have opposed sloped surfaces providing an upward snap engagement with upward movement of the bottle with respect to the fingers. 4. The liquid level sensor of claim 2 wherein the inwardly extending teeth and outwardly extending rim contact when the elongate float is in the lowermost engaged position over less than 25% of the circumferential length of the rim. 5. The liquid level sensor of claim 1 wherein the elongate float extends by a first distance beneath a lowermost extent of the downwardly extending guides greater than a second distance above the lowermost extent of the downwardly extending guides. 6. The liquid level sensor of claim 1 wherein the spring is polymer material. 7. The liquid level sensor of claim 1 wherein the spring is mounted above a lowermost extent of the downwardly extending guides. 8. The liquid level sensor of claim 1 wherein the sensor is an inductive sensor and an upper portion of the elongate float provides an upwardly extending inductive element at the top of the elongate float. 9. The liquid level sensor of claim 8 wherein the sealed compartment includes an inwardly extending pocket for receiving the upwardly extending inductive element. 10. The liquid level sensor of claim 9 wherein the inductive sensor provides an antenna formed as a spiral on cladding of a printed circuit board having a hole fitting around the inwardly extending pocket. 11. The liquid level sensor of claim 10 wherein the spiral is formed on the bottom of the printed circuit board toward the elongate float. 12. The liquid level sensor of claim 8 wherein the inductive element is a ferrite element. 13. The liquid level sensor of claim 1 wherein the elongate float is a polymer container having an enclosed air pocket sealed within the container and wherein the container has a substantially constant cross-sectional area in portions of the container that extend below the downwardly extending guides. 14. The liquid level sensor of claim 1 further including the reservoir wherein the reservoir has a fill height mark indicating a maximum fill level of the reservoir and wherein the downwardly extending guides are above the fill line mark when the sensor head is installed on the reservoir. 15. The liquid level sensor of claim 1 wherein the sensor head includes an O-ring for sealing the sensor head to the opening in the reservoir. 16. A liquid level sensor comprising: an elongate float; a sensor head providing a sealed compartment, the sensor head adapted to be received at an opening in an upper wall of a reservoir and providing downwardly extending guides for supporting the elongate float for motion along a vertical axis beneath the sensor head; a sensor mounted within the sealed compartment to sense a height of the elongate float with respect to the sensor head; a spring extending between the sensor head and the elongate float to bias the elongate float downward against buoyant forces on the elongate float; and wherein the spring is planar sheets of material having a spiral slot and a central opening attached to the elongate float to extend perpendicularly to the vertical axis and an outer periphery attached to surrounding walls of the sensor head. 17. The liquid level sensor of claim 16 wherein the outer periphery provides radially extending tabs that flex downward to pass upwardly past a lower edge of the surrounding walls and then to flex outward to engage corresponding holes in the surrounding walls when aligned with those holes. 18. The liquid level sensor of claim 17 wherein the tabs engage the corresponding openings at a relative location between the elongate float in the sensor head before an engagement between the downwardly extending guides in the elongate float.