Claims
- 1. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said crankshaft extending in a longitudinal direction; wherein said journal portion of said crankshaft extends in a direction that is non-perpendicular with respect to said movement axis of said piston such that when said crankshaft is moved in said longitudinal direction, said stroke length of said piston is adjusted.
- 2. The engine of claim 1, wherein a bearing is disposed between said connecting rod and said journal portion.
- 3. The engine of claim 2, wherein said bearing has a substantially spherical configuration.
- 4. The engine of claim 2, wherein said bearing has an opening for receiving said journal portion therethrough.
- 5. The engine of claim 1, further comprising an engine block for receiving said piston.
- 6. The engine of claim 1, further comprising a cylinder for receiving said piston.
- 7. The engine of claim 6, further comprising a head for covering said cylinder.
- 8. The engine of claim 1, wherein said crankshaft further comprises a first end portion.
- 9. The engine of claim 8, wherein said first end portion has a first axis of rotation.
- 10. The engine of claim 8, further comprising a first side support for supporting said first end portion.
- 11. The engine of claim 9, wherein said crankshaft further comprises a second end portion.
- 12. The engine of claim 11, wherein said second end portion has a second axis of rotation.
- 13. The engine of claim 11, further comprising a second side support for supporting said second end portion.
- 14. The engine of claim 12, wherein said first axis of rotation is parallel to said second axis of rotation.
- 15. The engine of claim 12, wherein said first axis of rotation is coaxial with said second-axis of rotation.
- 16. The engine of claim 12, wherein said journal portion of said crankshaft is disposed on an angled segment.
- 17. The engine of claim 16, wherein said angled segment has an angled segment axis of rotation.
- 18. The engine of claim 17, wherein said angled segment axis of rotation is non parallel with said first axis of rotation and said second axis of rotation.
- 19. The engine of claim 16, wherein said angled segment comprises an angled segment first end and an angled segment second end.
- 20. The engine of claim 19, wherein said angled segment first end comprises a counterweight.
- 21. The engine of claim 20, wherein said counterweight comprises a segmented disc shape.
- 22. The engine of claim 19, wherein said angled segment second end comprises a collar.
- 23. The engine of claim 16, wherein said first end portion is attached to said angled segment through a universal connection.
- 24. The engine of claim 16, wherein said second end portion is attached to said angled segment through a universal connection.
- 25. The engine of claim 23, wherein said universal connection comprises a first span fixedly attached to the first end portion.
- 26. The engine of claim 25, wherein said first span comprises spaced apart walls.
- 27. The engine of claim 26, further comprising a pivot supported by said spaced apart walls.
- 28. The engine of claim 27, wherein said pivot comprises two intersecting rods.
- 29. The engine of claim 28, wherein a first end of said angled segment comprises a second span.
- 30. The engine of claim 29, wherein said second span comprises complementary spaced apart walls.
- 31. The engine of claim 30, wherein one of said rods is pivotally attached to said first span and another of said rods is pivotally attached to said second span.
- 32. The engine of claim 1, further comprising a second piston disposed on said journal portion.
- 33. The engine of claim 16, wherein said angled segment comprises a plurality of counterweights.
- 34. The engine of claim 16, wherein said angled segment comprises a first counterweight disposed on a first end of said angled segment, and a second counterweight disposed on a second end of said angled segment.
- 35. The engine of claim 1, wherein said journal portion of said crankshaft is disposed on an angled segment, and wherein said angled segment comprises a second journal portion.
- 36. The engine of claim 35, wherein said second journal portion extends in a direction that is non-parallel with said journal portion.
- 37. The engine of claim 35, wherein said engine further comprises a second piston.
- 38. The engine of claim 37, wherein said engine further comprises a third piston and a fourth piston.
- 39. The engine of claim 38, wherein said third piston and said fourth piston are supported on said second journal portion.
- 40. The engine of claim 1, further comprising an engine block having a polygonal shape.
- 41. The engine of claim 40, wherein said polygonal shape is hexagonal.
- 42. The engine of claim 1, further comprising a second piston configured in an opposing orientation with said piston.
- 43. The engine of claim 1, wherein said engine comprises a block having four cylinders configured such that two of said cylinders are positioned on one side of said block and the other two of said cylinders are positioned on an opposite side of said block.
- 44. The engine of claim 1, further comprising a plurality of cylinders oriented on an engine block so as to form a substantial “V” configuration.
- 45. The engine of claim 44, wherein said plurality of cylinders comprises two cylinders.
- 46. The engine of claim 44, wherein said plurality of cylinders comprises four cylinders.
- 47. The engine of claim 1, further comprising a plurality of cylinders.
- 48. The engine of claim 47, wherein said plurality of cylinders comprises two cylinders.
- 49. The engine of claim 47, wherein said plurality of cylinders comprises four cylinders.
- 50. The engine of claim 47, wherein said plurality of cylinders comprises six cylinders.
- 51. The engine of claim 47, wherein said plurality of cylinders comprises eight cylinders.
- 52. The engine of claim 47, wherein said plurality of cylinders comprises ten cylinders.
- 53. The engine of claim 47, wherein said plurality of cylinders comprises twelve cylinders.
- 54. The engine of claim 1, wherein said journal portion of said crankshaft is disposed on an angled segment, said angled segment having an axis of rotation, and wherein said journal portion extends at an angle a with respect to said axis of rotation.
- 55. The engine of claim 54, wherein said angle α is within a range of between approximately 0 degrees and approximately 90 degrees.
- 56. The engine of claim 55, wherein said angle α is within a range of between approximately 5 degrees and approximately 20 degrees.
- 57. The engine of claim 56, wherein said angle α is approximately 12 degrees.
- 58. The engine of claim 54, wherein said angle α is within a range of between approximately 0 degrees and approximately 10 degrees.
- 59. The engine of claim 58, wherein said angle α is approximately 5 degrees.
- 60. The engine of claim 54, wherein said angle α is within a range of between approximately 10 degrees and approximately 20 degrees.
- 61. The engine of claim 60, wherein said angle α is approximately 15 degrees.
- 62. The engine of claim 54, wherein said angle α is within a range of between approximately 20 degrees and approximately 30 degrees.
- 63. The engine of claim 62, wherein said angle α is approximately 25 degrees.
- 64. The engine of claim 54, wherein said angle α is within a range of between approximately 30 degrees and approximately 40 degrees.
- 65. The engine of claim 64, wherein said angle α is approximately 35 degrees.
- 66. The engine of claim 54, wherein said angle α is within a range of between approximately 40 degrees and approximately 50 degrees.
- 67. The engine of claim 66, wherein said angle α is approximately 45 degrees.
- 68. The engine of claim 54, wherein said angle α is within a range of between approximately 50 degrees and approximately 60 degrees.
- 69. The engine of claim 68, wherein said angle α is approximately 55 degrees.
- 70. The engine of claim 54, wherein said angle α is within a range of between approximately 60 degrees and approximately 70 degrees.
- 71. The engine of claim 70, wherein said angle α is approximately 65 degrees.
- 72. The engine of claim 54, wherein said angle α is within a range of between approximately 70 degrees and approximately 80 degrees.
- 73. The engine of claim 72, wherein said angle α is approximately 75 degrees.
- 74. The engine of claim 54, wherein said angle α is within a range of between approximately 80 degrees and approximately 90 degrees.
- 75. The engine of claim 74, wherein said angle α is approximately 85 degrees.
- 76. The engine of claim 1, wherein said piston has a round cross-sectional shape.
- 77. The engine of claim 1, wherein said piston has an oval cross-sectional shape.
- 78. The engine of claim 32, wherein said journal portion is configured to be movable with respect to said second piston such that said second piston can be adjusted to be turned off and have substantially no stroke length.
- 79. The engine of claim 1, wherein said journal portion of said crankshaft is disposed on an angled segment, said angled segment having an axis of rotation, and wherein said axis of rotation extends at an angle θ with respect to a line that is perpendicular with respect to said movement axis.
- 80. The engine of claim 79, wherein said angle θ is within a range of between approximately 0 degrees and approximately 90 degrees.
- 81. The engine of claim 80, wherein said angle θ is within a range of between approximately 5 degrees and approximately 25 degrees.
- 82. The engine of claim 81, wherein said angle θ is approximately 15 degrees.
- 83. The engine of claim 79 wherein said angle θ is within a range of between approximately 0 degrees and approximately 10 degrees.
- 84. The engine of claim 83, wherein said angle θ is approximately 5 degrees.
- 85. The engine of claim 79, wherein said angle θ is within a range of between approximately 10 degrees and approximately 20 degrees.
- 86. The engine of claim 85, wherein said angle θ is approximately 15 degrees.
- 87. The engine of claim 79, wherein said angle θ is within a range of between approximately 20 degrees and approximately 30 degrees.
- 88. The engine of claim 87, wherein said angle θ is approximately 25 degrees.
- 89. The engine of claim 79, wherein said angle θ is within a range of between approximately 30 degrees and approximately 40 degrees.
- 90. The engine of claim 89, wherein said angle θ is approximately 35 degrees.
- 91. The engine of claim 79, wherein said angle θ is within a range of between approximately 40 degrees and approximately 50 degrees.
- 92. The engine of claim 91, wherein said angle θ is approximately 45 degrees.
- 93. The engine of claim 79, wherein said angle θ is within a range of between approximately 50 degrees and approximately 60 degrees.
- 94. The engine of claim 93, wherein said angle θ is approximately 55 degrees.
- 95. The engine of claim 79, wherein said angle θ is within a range of between approximately 60 degrees and approximately 70 degrees.
- 96. The engine of claim 95, wherein said angle θ is approximately 65 degrees.
- 97. The engine of claim 79, wherein said angle θ is within a range of between approximately 70 degrees and approximately 80 degrees.
- 98. The engine of claim 97, wherein said angle θ is approximately 75 degrees.
- 99. The engine of claim 79, wherein said angle θ is within a range of between approximately 80 degrees and approximately 90 degrees.
- 100. The engine of claim 99, wherein said angle θ is approximately 85 degrees.
- 101. The engine of claim 1, wherein said journal portion has a round cross-sectional shape.
- 102. The engine of claim 1, wherein said journal portion has an oblong cross-sectional shape.
- 103. The engine of claim 1, wherein said journal portion has a triangular cross-sectional shape.
- 104. The engine of claim 1, wherein said journal portion has a square cross-sectional shape.
- 105. The engine of claim 1, wherein said journal portion has a rectangular cross-sectional shape.
- 106. The engine of claim 1, wherein said journal portion has an “I” shaped cross-section.
- 107. The engine of claim 1, wherein said journal portion has an “I” shaped cross-section.
- 108. The engine of claim 1, wherein said journal portion comprises a curved configuration along a length of said journal portion.
- 109. The engine of claim 1, further comprising at least one additional piston disposed on said journal portion.
- 110. The engine of claim 1, further comprising means for moving said crankshaft in said longitudinal direction with respect to said piston.
- 111. The engine of claim 1, wherein said crankshaft further comprises multiple segments including a first end portion and an angled segment disposed at a non-zero angle with respect to said first end portion, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 112. The engine of claim 1, wherein said journal portion of said crankshaft is disposed at a non-zero angle beneath and with respect to a line that is perpendicular with the movement axis of the piston, when said piston resides in a top dead center position.
- 113. The engine of claim 1, wherein a top dead center position of the piston is identical for multiple stroke length positions of said piston when said stroke length is adjusted by movement of said crankshaft in said longitudinal direction.
- 114. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said journal portion having an axis of rotation; wherein said axis of rotation of said journal portion extends in a direction that is non-perpendicular with respect to said movement axis of said piston such that when said crankshaft is moved in a longitudinal direction, said stroke length of said piston is adjusted.
- 115. The engine of claim 114, wherein said journal portion of said crankshaft comprises a portion of an angled segment, and wherein said journal portion extends at an angle with respect to said axis of rotation.
- 116. The engine of claim 114, wherein said crankshaft further comprises multiple segments including an angled segment and a first end portion, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 117. The engine of claim 114, wherein said journal portion of-said crankshaft comprises a portion of an angled segment, and wherein said axis of rotation extends at an angle θ with respect to a line that is perpendicular with respect to said movement axis.
- 118. The engine of claim 114, wherein said engine further comprises a means for moving said crankshaft in said longitudinal direction with respect to said piston such that movement of said crankshaft is configured for adjusting the stroke length of said piston.
- 119. An engine comprising:
a piston; a connecting rod attached to said piston; and a rotational crankshaft attached to said connecting rod, said crankshaft comprising a first end portion having a first axis of rotation and an angled segment having an angled segment axis of rotation; wherein said first axis of rotation and said angled segment axis of rotation are non-parallel.
- 120. The engine of claim 119, wherein said angled segment further comprises a journal portion, and wherein said journal portion extends at an angle with respect to said angled segment axis of rotation.
- 121. The engine of claim 119, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 122. The engine of claim 119, wherein said piston is movable through a stroke length along a movement axis, and wherein said angled segment axis of rotation extends at an angle θ with respect to a line that is perpendicular with respect to said movement axis.
- 123. The engine of claim 119, wherein said engine further comprises a means for moving said crankshaft in a longitudinal direction with respect to said piston such that movement of said crankshaft is configured for adjusting a stroke length of said piston.
- 124. An engine comprising:
a piston; a connecting rod attached to said piston; and a rotational crankshaft, said crankshaft comprising an angled segment having an angled segment axis of rotation, said angled segment further comprising a journal portion attached to said connecting rod; wherein said journal portion extends at an angle with respect to said angled segment axis of rotation.
- 125. The engine of claim 124, wherein said crankshaft further comprises a counterweight.
- 126. The engine of claim 124, wherein said crankshaft further comprises multiple segments including a first end portion, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 127. The engine of claim 124, wherein said piston is movable through a stroke length along a movement axis, and wherein said angled segment axis of rotation extends at an angle θ with respect to a line that is perpendicular with respect to said movement axis.
- 128. The engine of claim 124, wherein said engine further comprises a means for moving said crankshaft in a longitudinal direction with respect to said piston such that movement of said crankshaft is configured for adjusting a stroke length of said piston.
- 129. An engine comprising:
a piston; a connecting rod attached to said piston; a rotational crankshaft comprising a journal portion attached to said connecting rod, said crankshaft having a length extending in a longitudinal direction; and means for moving said crankshaft in said longitudinal direction with respect to said piston such that movement of said crankshaft is configured for adjusting a stroke length of said piston.
- 130. The engine of claim 129, wherein said journal portion of said crankshaft comprises an axis of rotation, and said journal portion further comprises a portion of an angled segment, and wherein said journal portion extends at an angle with respect to said axis of rotation.
- 131. The engine of claim 129, wherein said crankshaft further comprises multiple segments including an angled segment and a first end portion, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 132. The engine of claim 129, wherein said journal portion of said crankshaft comprises a portion of an angled segment, and further comprises an axis of rotation, wherein said piston is movable through a stroke length along a movement axis, and wherein said axis of rotation extends at an angle θ with respect to a line that is perpendicular with respect to said movement axis.
- 133. The engine of claim 129, wherein a bearing is disposed between said connecting rod and said journal portion.
- 134. A method of adjusting a stroke length of a piston in an internal combustion engine, said piston having an axis of movement, said method comprising the steps of:
(a) extending a journal portion of a rotational crankshaft at a non-perpendicular angle with respect to said axis of movement of said piston; and (b) moving the crankshaft in a longitudinal direction with respect to said piston.
- 135. The method of claim 134, further comprising attaching a connecting rod to said journal portion and said piston.
- 136. The method of claim 135, further comprising placing a bearing between said connecting rod and said journal portion.
- 137. The method of claim 134, further comprising rotating said journal portion about an axis of rotation.
- 138. The method of claim 137, further comprising forming said journal portion at an angle with respect to said axis of rotation.
- 139. The method of claim 137, further comprising forming said axis of rotation at an angle that is non perpendicular with respect to said axis of movement.
- 140. The method of claim 137, further comprising selecting said axis of rotation such that operational characteristics of the engine are optimized.
- 141. The method of claim 134, further comprising adjusting a compression ratio of said engine as said stroke length is adjusted.
- 142. The method of claim 134, further comprising maintaining a compression ratio of said engine constant as said stroke length is adjusted.
- 143. A method of adjusting a stroke length of a piston in an internal combustion engine, said method comprising the steps of:
(a) attaching a connecting rod to said piston and a rotational crankshaft; and (b) moving the crankshaft in three dimensions.
- 144. The method of claim 143, wherein part (b) further comprises rotating a journal portion of said crankshaft about an axis of rotation.
- 145. The method of claim 144, further comprising forming said journal portion at an angle α with respect to said axis of rotation.
- 146. The method of claim 144, further comprising forming said axis of rotation at an angle θ that is non perpendicular with respect to an axis of movement of said piston.
- 147. The method of claim 143, wherein part (b) further comprises moving said crankshaft in a longitudinal direction with respect to said piston.
- 148. A method of adjusting a stroke length of a piston in an internal combustion engine, said method comprising the steps of:
(a) attaching a connecting rod to said piston and a rotational crankshaft; and (b) moving the crankshaft in a direction along the length of said crankshaft.
- 149. The method of claim 148, further comprising rotating a journal portion of said crankshaft about an axis of rotation.
- 150. The method of claim 149, further comprising forming said journal portion at an angle α with respect to said axis of rotation.
- 151. The method of claim 149, further comprising forming said axis of rotation at an angle θ that is non perpendicular with respect to an axis of movement of said piston.
- 152. An engine comprising:
an engine block comprising a cylinder; a piston movable in said cylinder through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft extending in a longitudinal direction, said crankshaft comprising a first end portion having a first axis of rotation, a second end portion having a second axis of rotation, and an angled segment having an angled segment axis of rotation, said angled segment being positioned between said first end portion and said second end portion, said angled segment having at least one journal portion for supporting said connecting rod; wherein said first axis of rotation and said second axis of rotation are parallel, and wherein said angled segment axis of rotation is non parallel with said first axis of rotation and said second axis of rotation; wherein said journal portion of said crankshaft extends in a direction that is non-perpendicular with respect to said movement axis of said piston such that when said crankshaft is moved in said longitudinal direction, said stroke length of said piston is adjusted.
- 153. An engine comprising:
an engine block having a cylinder; a piston movable in said cylinder through a stroke length along a movement axis; a connecting rod pivotally attached to said piston; a rotational crankshaft extending in a longitudinal direction, said crankshaft comprising a first end portion having a first axis of rotation, a second end portion having a second axis of rotation, and an angled segment having an angled segment axis of rotation, said angled segment being positioned between said first end portion and said second end portion, said angled segment having at least one journal portion for supporting said connecting rod; means for moving said crankshaft in said longitudinal direction with respect to said piston; wherein said first axis of rotation and said second axis of rotation are parallel, and wherein said angled segment axis of rotation is non parallel with said first axis of rotation and said second axis of rotation; wherein said angled segment axis of rotation extends at an angle θ with respect to a line perpendicular to said movement axis of said piston; wherein said angle θ extends in range of between approximately 5 degrees and approximately 25 degrees; wherein said journal portion of said crankshaft extends at an angle α with respect to said angled segment axis of rotation; wherein said angle α extends in range of between approximately 5 degrees and approximately 20 degrees; wherein a bearing is disposed between said connecting rod and said journal portion; wherein said bearing has a substantially spherical configuration; wherein said bearing has an opening for receiving said journal portion therethrough; wherein said engine further comprises an engine head for covering said cylinder; wherein said engine further comprises a first side support for supporting said first end portion; wherein said engine further comprises a second side support for supporting said second end portion; wherein said angled segment comprises an angled segment first end and an angled segment second end; wherein said angled segment first end comprises a counterweight; wherein said counterweight comprises a segmented disc shape; wherein said angled segment second end comprises a collar; wherein said first end portion is attached to said angled segment through a first universal connection; wherein said second end portion is attached to said angled segment through a second universal connection; and wherein when said crankshaft is moved in said longitudinal direction, said stroke length of said piston is adjusted.
- 154. An engine comprising:
a piston movable through a stroke length; a connecting rod attached to said piston; a first link member attached to said connecting rod; and a fulcrum slidably attached to said first link member such that said first link member is configured to pivot about said fulcrum; wherein said fulcrum is configured to be adjusted along a length of said first link member to adjust said stroke length.
- 155. The engine of clam 154, further comprising a cylinder for receiving said piston.
- 156. The engine of clam 154, further comprising a base for supporting said cylinder.
- 157. The engine of clam 154, further comprising an angular support for supporting said fulcrum.
- 158. The engine of claim 157, wherein said angular support is fixed with respect to said base.
- 159. The engine of clam 157, wherein said angular support forms an angle β with respect to said base.
- 160. The engine of clam 159, wherein said angle β of said angular support with respect to said base is within a range of between approximately 0 and 90 degrees.
- 161. The engine of clam 160, wherein said angle β of said angular support with respect to said base is within a range of between approximately 5 and 20 degrees.
- 162. The engine of clam 161, wherein said angle β of said angular support with respect to said base is approximately 12 degrees.
- 163. The engine of claim 159, wherein said angle β is within a range of between approximately 0 degrees and approximately 10 degrees.
- 164 The engine of claim 163, wherein said angle β is approximately 5 degrees.
- 165. The engine of claim 159, wherein said angle β is within a range of between approximately 10 degrees and approximately 20 degrees.
- 166. The engine of claim 165, wherein said angle β is approximately 15 degrees.
- 167. The engine of claim 159, wherein said angle β is within a range of between approximately 20 degrees and approximately 30 degrees.
- 168. The engine of claim 167, wherein said angle β is approximately 25 degrees.
- 169. The engine of claim 159, wherein said angle β is within a range of between approximately 30 degrees and approximately 40 degrees.
- 170. The engine of claim 169, wherein said angle β is approximately 35 degrees.
- 171. The engine of claim 159, wherein said angle β is within a range of between approximately 40 degrees and approximately 50 degrees.
- 172. The engine of claim 171, wherein said angle β is approximately 45 degrees.
- 173. The engine of claim 159, wherein said angle β is within a range of between approximately 50 degrees and approximately 60 degrees.
- 174. The engine of claim 173, wherein said angle β is approximately 55 degrees.
- 175. The engine of claim 159, wherein said angle β is within a range of between approximately 60 degrees and approximately 70 degrees.
- 176. The engine of claim 175, wherein said angle β is approximately 65 degrees.
- 177. The engine of claim 159, wherein said angle β is within a range of between approximately 70 degrees and approximately 80 degrees.
- 178. The engine of claim 177, wherein said angle β is approximately 75 degrees.
- 179. The engine of claim 159, wherein said angle β is within a range of between approximately 80 degrees and approximately 90 degrees.
- 180. The engine of claim 179, wherein said angle β is approximately 85 degrees.
- 181. The engine of clam 154, wherein said fulcrum comprises a slider for attaching said fulcrum to said angular support.
- 182. The engine of clam 181, wherein said slider comprises a groove for receiving an angular support member.
- 183. The engine of clam 154, wherein said fulcrum comprises a sleeve for receiving said first link member.
- 184. The engine of clam 183, wherein said sleeve is pivotally attached to a slider at a shaft.
- 185. The engine of clam 154, further comprising means for adjusting the fulcrum along the angular support.
- 186. The engine of clam 154, further comprising a second link member pivotally attached to said first link member.
- 187. The engine of clam 154, wherein said first link member comprises a first pair of flanges for receiving said connecting rod therebetween.
- 188. The engine of clam 186, wherein said first link member comprises a second pair of flanges for receiving said second link member therebetween.
- 189. The engine of clam 186, further comprising a counterweight connected to said second link member.
- 190. The engine of clam 189, wherein said counterweight is supported by a brace member.
- 191. The engine of clam 190, wherein said counterweight is rotatable about an output member.
- 192. The engine of clam 191, wherein the output member is a shaft.
- 193. The engine of clam 154, wherein the base member comprises a base slot for passing a second link member therethrough.
- 194. The engine of clam 154, wherein the angular support further comprises a support slot for passing a second link member therethrough.
- 195. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a first link member attached to said connecting rod; and an angular support fixed to extend at an angle that is non perpendicular with respect to said movement axis, said angular support configured for supporting said first link member.
- 196. The engine of clam 195, further comprising a fulcrum for supporting said first link member.
- 197. The engine of clam 195, further comprising a base for supporting a cylinder, and wherein said piston is received in said cylinder.
- 198. The engine of clam 197, wherein said angular support forms an angle β with respect to said base.
- 199. The engine of claim 196, wherein said fulcrum comprises a slider for attaching said fulcrum to said angular support.
- 200. An engine comprising:
a piston movable through a stroke length; a connecting rod attached to said piston; a first link member pivotally attached to said connecting rod; a second link member pivotally attached to said first link member; and a counterweight pivotally attached to said second link member, said counterweight being rotatable about an output member.
- 201. The engine of clam 200, further comprising a fulcrum for supporting said first link member.
- 202. The engine of clam 201, further comprising a base for supporting a cylinder, and wherein said piston is received in said cylinder.
- 203. The engine of clam 202, further comprising an angular support, and wherein said angular support forms an angle P with respect to said base.
- 204. The engine of claim 203, wherein said fulcrum comprises a slider for attaching said fulcrum to said angular support.
- 205. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said crankshaft extending in a longitudinal direction; means for moving the piston in a reciprocating movement to thereby cause the connecting rod to rotate the crankshaft about an axis of rotation; wherein said crankshaft further comprises multiple segments including a first end portion and an angled segment disposed at a non-zero angle with respect to said first end portion, wherein said crankshaft further comprises a universal connection intercoupling said angled segment and said first end portion.
- 206. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said crankshaft extending in a longitudinal direction; means for moving the piston in a reciprocating movement to thereby cause the connecting rod to rotate the crankshaft about an axis of rotation; wherein said journal portion of said crankshaft is disposed at a non-zero angle beneath and with respect to a line that is perpendicular with the movement axis of the piston, when said piston resides in a top dead center position.
- 207. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said crankshaft extending in a longitudinal direction; means for moving the piston in a reciprocating movement to thereby cause the connecting rod to rotate the crankshaft about an axis of rotation; wherein said journal portion of said crankshaft is disposed at a non-zero angle with respect to a line that is perpendicular with the movement axis of the piston; wherein a top dead center position of the piston is identical for multiple stroke length positions of said piston when said stroke length is adjusted by movement of said crankshaft in said longitudinal direction.
- 208. An engine comprising:
a piston movable through a stroke length along a movement axis; a connecting rod attached to said piston; a rotational crankshaft having a journal portion attached to said connecting rod, said crankshaft extending in a longitudinal direction; and means for adjusting said stroke length of said piston (i) while said engine is operating, and (ii) while said engine is at rest.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of a U.S. Provisional Application No. 60/425,110, filed Nov. 7, 2002, entitled “VARIABLE DISPLACEMENT ENGINE” which is hereby incorporated by reference herein in its entirety, including but not limited to those portions that specifically appear hereinafter, the incorporation by reference being made with the following exception: In the event that any portion of the above-referenced provisional application is inconsistent with this application, this application supercedes said above-referenced provisional application.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60425110 |
Nov 2002 |
US |
Divisions (1)
|
Number |
Date |
Country |
Parent |
10302595 |
Nov 2002 |
US |
Child |
10783881 |
Feb 2004 |
US |