Patent ID: 6779341
Filing Date: 2004-08-24
Classification: F01B,F02G

Abstract:
An apparatus for generating kinetic energy from thermal energy, comprising:a thermal energy source; a first pneumatic cylinder including a first cylinder body having a heating section to be heated by said thermal energy source, and an operating section opposite to said heating section and formed with a first radial hole, a first piston disposed in said first cylinder body and cooperating with said heating section of said first cylinder body to form a first chamber that is filled with a working gas, said first piston being movable along length of said first cylinder body, and a first piston rod connected to said first piston and extending out of said first cylinder body through said operating section, said first piston sealing said first radial hole during a compression stroke of said first pneumatic cylinder, and unsealing said first radial hole at the end of an expansion stroke of said first pneumatic cylinder; a second pneumatic cylinder including a second cylinder body parallel to said first cylinder body, said second cylinder body having a chamber-connecting section formed with a second radial hole, and an operating section opposite to said chamber-connecting section, and a second piston disposed in said second cylinder body and cooperating with said chamber-connecting section to form a second chamber that is filled with the working gas, said second piston being movable along length of said second cylinder body; a fluid pipe having opposite ends connected to said first and second cylinder bodies at said first and second radial holes, respectively; and a flywheel assembly including a transmission axle having a first axle end and a second axle end, a first flywheel secured on said first axle end, a first connecting rod having a first end pivoted eccentrically on said first flywheel at a first pivot point, and a second end connected pivotally to said first piston rod, a second flywheel secured on said second axle end, and a second connecting rod having a first end pivoted eccentrically on said second flywheel at a second pivot point that is spaced apart angularly from the first pivot point with respect to said transmission axle, and a second end connected pivotally to said second piston and extendible into and out of said second cylinder body through said operating section of said second cylinder body and in a same direction as said first piston rod and said first connecting rod; wherein the thermal energy applied by said thermal energy source to said heating section of said first cylinder body initially results in the expansion stroke of said first pneumatic cylinder, thereby resulting in rotation of said first flywheel and said transmission axle, and in rotation of said second flywheel to result in a compression stroke of said second pneumatic cylinder; wherein, when said first piston reaches the end of the expansion stroke of said first pneumatic cylinder, said first and second chambers are in fluid communication through said first and second radial holes and said fluid pipe, thereby reducing the temperature of the working gas in said first chamber and increasing the temperature of the working gas in said second chamber, which results in an expansion stroke of said second pneumatic cylinder, continued rotation of said second flywheel and said transmission axle, and further rotation of said first flywheel to result in the compression stroke of said first pneumatic cylinder.