Fuel dispenser flow meter having vapor pressure correction arrangement

The invention claimed is: 1. A meter for measuring the flow rate of fuel in a fuel dispenser, comprising: a housing with an axial bore extending therethrough and defining an inlet and an outlet; a flow indicating mechanism comprising at least one rotatable component mounted in the axial bore of the housing and configured to rotate as fuel flows from the inlet to the outlet; a pulse generating device configured to sense rotation of the rotatable components and generate an output signal indicative of fuel flow; and a vapor generating device configured to generate vapor bubbles that flow through the flow indicating mechanism. 2. The meter of claim 1 , wherein the flow indicating mechanism comprises two interlocking helically-shaped spindles. 3. The meter of claim 1 , wherein the vapor generating device comprises a mesh-like arrangement with multiple sharp-edge orifices. 4. The meter of claim 1 , wherein the vapor generating device is located in the inlet of the housing. 5. The meter of claim 1 , wherein the vapor generating device comprises a spring-loaded check valve with sharp vapor-generating edges. 6. The meter of claim 1 , wherein the meter comprises a bypass passage that routes fuel around a vapor generating mechanism when the fuel is above a certain temperature. 7. The meter of claim 5 , wherein the bypass passage is opened and closed by a valve actuated by a bimetallic temperature-responsive device. 8. The meter of claim 1 , wherein the vapor generating device comprises a cavitation machine. 9. A method of measuring the flow rate of fuel in a fuel dispenser comprising: providing a fuel flow meter that measures the flow rate of fuel through the meter; placing a vapor generating device configured to generate vapor in flowing fuel upstream of a flow indicating mechanism of the fuel flow meter; and measuring the flow rate through the meter. 10. A fuel dispenser comprising: a housing; internal piping located in said housing for fluid communication with a source of fuel; a flexible hose external to said housing, a proximal end of said hose being in fluid communication with said internal piping; a nozzle located at a distal end of the flexible hose; and a fuel flow meter for measuring the flow rate of fuel through said internal piping, said fuel flow meter including: a housing with an axial bore extending therethrough; a flow indicating mechanism comprising at least one rotatable component mounted in the axial bore of the housing; and a vapor generating device configured to generate vapor bubbles that flow through the flow indicating mechanism.