Variable cone flow meter

What is claimed is: 1. A flow meter for measuring a flow of fluid comprising: a housing; an obstacle suspended in the flow of fluid that is selectively changeable between configurations that occupy different percentages of a cross sectional area of the flow of fluid; and a pressure sensor in communication with the flow of fluid and that selectively monitors pressure in the flow of fluid. 2. The flow meter of claim 1 , wherein the pressure sensor comprises an upstream pressure sensor that is disposed upstream of the obstacle, the flow meter further comprising a downstream pressure sensor that is disposed downstream of the obstacle. 3. The flow meter of claim 2 , wherein the upstream pressure sensor comprises an upstream pressure tap formed through a sidewall of a tubular in which the flow of fluid is directed, and wherein the downstream pressure sensor comprises a downstream pressure tap formed through the sidewall of the tubular. 4. The flow meter of claim 2 , further comprising a differential pressure sensor that is in communication with the upstream and downstream pressure sensors. 5. The flow meter of claim 1 , wherein the obstacle comprises an upstream end that is conically shaped and that has an outer surface that converges to a point wherein a downstream end of the obstacle is conically shaped and has an outer surface that converges to a downstream point that is oriented in a direction away from the upstream point, and wherein the upstream and downstream ends are directly adjacent one another to define a ridge that circumscribes a mid-portion of the obstacle. 6. The flow meter of claim 5 , further comprising struts mounted to the upstream and downstream ends of the obstacle and that suspend the obstacle in the flow of fluid. 7. The flow meter of claim 1 , wherein the obstacle has a downstream end with a shape selected from the group consisting of a planar surface and a hemispherical surface. 8. The flow meter of claim 1 , further comprising a support that mounts to the obstacle and which can selectively exert a radial force onto the obstacle for changing configurations of the obstacle. 9. The flow meter of claim 8 , wherein the obstacle comprises a flexible frame. 10. The flow meter of claim 9 , further comprising a cover over the frame that is substantially fluid impermeable. 11. The flow meter of claim 8 , wherein the support comprises an upper support that includes a connecting rod that couples to the obstacle and a stud that extends from the connecting rod through a sidewall of the housing. 12. The flow meter of claim 11 , further comprising a lower support that includes a connecting rod that couples to the obstacle and a stud that extends from the connecting rod through a sidewall of the housing. 13. The flow meter of claim 8 , further comprising a spring coupled between the upstream end of the obstacle and a strut. 14. A flow meter for measuring a flow of fluid comprising: a tubular housing intersected by the flow of fluid, and that is set inline in a flow of fluid that handles the flow of fluid; an obstacle suspended in the tubular housing and in the path of the flow of fluid that is selectively changeable into multiple configurations that have varying diameters; and pressure taps formed through a sidewall of the tubular housing that are in communication with the flow of fluid. 15. The flow meter of claim 14 , further comprising a differential pressure sensor that is in communication with the pressure taps. 16. The flow meter of claim 14 , wherein changing the obstacle into different configurations changes a cross sectional percentage that the obstacle occupies in the flow of fluid. 17. The flow meter of claim 16 , further comprising an support that connects to the obstacle for selectively changing the obstacle into different configurations. 18. The flow meter of claim 17 , wherein the support comprises a connecting rod having an end coupled with the obstacle, a stud having an end connected to an end of the connecting rod distal from the obstacle, and wherein an end of the stud projects radially through a sidewall of the tubular housing. 19. A method of measuring a flow of fluid comprising: monitoring a flow of fluid across a conically shaped obstacle; changing a configuration of the obstacle to change a percentage of the cross sectional area of the flow of fluid occupied by the obstacle; and sensing a pressure in the flow of fluid proximate the obstacle. 20. The method of claim 19 , wherein the step of changing a configuration of the obstacle is based on a value of pressure sensed in the flow of fluid.