Metering nozzle for squeeze bottle

What we claim is: 1. A dispensing bottle for liquids comprising: a bottle having an open top and compressible by a user to expel a fluid from the bottle out of the open top; a fluid chamber defining an internal volume and having an upper opening surrounded by a first sealing surface and a lower opening surrounded by a second sealing surface, the lower opening communicating with the open top of the bottle; and a piston having a first end opposite a second end held within the internal volume and moveable within the internal volume of the fluid chamber between a retracted position and an extended position, whereby, in the retracted position, the second end is seated and seals against the second sealing surface of the lower opening to prevent flow through the lower opening and allow flow through the upper opening and, in the extended position, the first end is seated against the first sealing surface of the upper opening to prevent flow through the upper opening and allow flow through the lower opening; wherein the piston is shaped to provide an open, unsealed passage between the piston and the chamber about a circumference of the piston as the piston moves between the retracted position to the extended position to provide unobstructed free flow through the fluid chamber from the lower opening and out through the upper opening as the piston moves from the retracted position to the extended position; wherein the piston is biased toward the retracted position by a spring; wherein the fluid chamber has two halves moveable with respect to each other to change the internal volume; and wherein the halves comprise an outer shell and an inner shell, and wherein the outer shell and the inner shell are joined by screw threads at a lower end and an upper end of the outer shell and the inner shell, respectively, to change the internal volume. 2. The bottle of claim 1 wherein the piston provides a drag surface interacting with a liquid entering the internal volume to hold the piston along with the entering liquid against a biasing force of the spring. 3. The bottle of claim 2 wherein the first end and second end are joined by a connector having a smaller diameter than the opposed first and second ends. 4. The bottle of claim 3 wherein the first end and second end are seated against inner surfaces of the enclosed fluid chamber tapering upwards to the upper opening. 5. The bottle of claim 2 wherein a length of the piston is less than a distance between the upper opening and lower opening of the enclosed fluid chamber. 6. The bottle of claim 1 wherein the spring prevents opening of the lower opening under a force of gravity alone. 7. The bottle of claim 6 wherein the spring is an extension spring. 8. The bottle of claim 7 wherein the spring provides a first end opposite a second end and the first end of the spring is connected to the piston and a second end of the spring is connected to a fixed support bar. 9. The bottle of claim 8 wherein the fixed support bar is spaced from the piston and positioned within the bottle. 10. A method of dispensing a fluid from a bottle comprising: providing a bottle having an open top and compressible by a user to expel a fluid from the bottle out of the open top; a fluid chamber defining an internal volume and having an upper opening surrounded by a first sealing surface and a lower opening surrounded by a second sealing surface, the lower opening communicating with the open top of the bottle, the fluid chamber adjustable to change the internal volume; and a piston having a first end opposite a second end held within the internal volume and moveable within the internal volume of the fluid chamber between a retracted position and an extended position whereby, in the retracted position, the second end is seated and seals against the second sealing surface of the lower opening to prevent flow through the lower opening and allow flow through the upper opening and, in the extended position, the first end is seated against the first sealing surface of the upper opening to prevent flow through the upper opening and allow flow through the lower opening, wherein the piston is shaped to provide an open, unsealed passage between the piston and the chamber about a circumference of the piston as the piston moves between the retracted position to the extended position to provide unobstructed free flow through the fluid chamber from the lower opening and out through the upper opening as the piston moves from the retracted position to the extended position, wherein the piston is biased toward the retracted position by a spring, wherein the fluid chamber has two halves moveable with respect to each other to change the internal volume, wherein the halves comprise an outer shell and an inner shell, and wherein the outer shell and the inner shell are joined by screw threads at a lower end and an upper end of the outer shell and the inner shell, respectively, to change the internal volume; compressing the bottle to decrease a volume within the bottle thereby forcing the piston from the retracted position to the extended position and to cause fluid to flow into the enclosed chamber; releasing compression force on the bottle; and dispensing the fluid from the upper opening of the enclosed chamber.