JP2014527601A5 - - Google Patents

Claims (52)

Actuators inside the chamber to be limited by the inner chamber walls (156, 185, 238) and to be movably movable relative to the chamber wall between at least a first longitudinal position and a second longitudinal position of the chamber A piston combustion chamber combination comprising a chamber (162, 186, 231) comprising a piston;
The chamber having different cross-sectional areas and different circumferential lengths in the first and second longitudinal positions, at least continuously in an intermediate stringer position between the first and second longitudinal positions Different sectional areas and circumferential lengths, sectional areas and circumferential lengths in the second longitudinal position smaller than the sectional areas, and circumferential lengths in the first longitudinal position substantially Adapting the same to the different cross-sectional areas during the relative movement of the piston between the second longitudinal position via the intermediate longitudinal position of the chamber, the different cross-sectional areas of the piston, the circumferential length and the chamber Said to be provided with containers (208 'and 208, 217, 217. "228 and 228." 258 and 258. "450 and 450") that are elastically deformable for different circumferential lengths. Actue Tapisuton;
The actuator piston has a circumferential length of the piston (208 'and 208) that is substantially equivalent to the circumferential length of the chamber (162, 186, 231) in the second longitudinal position, in a stress free and non-disabled state. 217, 217. "228 and 228." 258 and 258. "450 and 450") produced from the second longitudinal position to the first longitudinal position. A container which can be expanded from its production size to its transversally in the direction relative to the longitudinal direction of the chamber in preparation for the expansion of the piston from its production size during the relative movement of the piston;
Containers (208 'and 208, 217, 217. "228 and 228." 258 and 258. "450 and 450"), the fact that can be elastically deformed to provide for different cross-sectional areas and circumferential lengths of the actuator piston Characterize it by:
o The combination comprises means for introducing fluid from a location, the outer container allows for pressurization of the container, and therefore expanded and said therefor in the container, The container said;
o the smooth surface of the wall of the actuator piston, at least and until it is close to its contact area with the wall of the chamber;
Replacing the container for it from the second and to the first longitudinal position of the chamber. Actuators inside the chamber to be limited by the inner chamber walls (156, 185, 238) and to be movably movable relative to the chamber wall between at least a first longitudinal position and a second longitudinal position of the chamber A piston combustion chamber combination comprising a chamber (162, 186, 231) comprising a piston;
The chamber having different cross-sectional areas and different circumferential lengths in the first and second longitudinal positions, at least continuously in an intermediate stringer position between the first and second longitudinal positions Substantially different cross-sectional areas and circumferential lengths, cross-sectional areas and circumferential lengths in the second longitudinal position that are smaller than the cross-sectional areas, and circumferential lengths in the first longdiminal positions,
Different cross-sectional areas, circumferential lengths of the pistons adapting the same to the different cross-sectional areas during the relative movement of the pistons between the first and the second longitudinal position via the intermediate stringer position of the chamber And containers for different circumferential lengths of the chamber, elastically deformable therefor (208 'and 208, 217, 217. "228 and 228." 258 and 258. "450 and 450") Said actuator pistons;
The actuator piston has a circumferential length of the piston (208 'and 208) that is substantially equivalent to the circumferential length of the chamber (162, 186, 231) in the second longitudinal position, in a stress free and non-disabled state. 217, 217. "228 and 228." 258 and 258. "450 and 450") produced from the second longitudinal position to the first longitudinal position. A container which can be expanded from its production size to its transversally in the direction relative to the longitudinal direction of the chamber in preparation for the expansion of the piston from its production size during the relative movement of the piston;
Containers that are elastically deformable to provide for different cross-sectional areas and circumferential lengths of actuator pistons and that have a sealed space; (208 'and 208, 217, 217. "228 and 228." 258 and 258. "450, 450 *)
Characterize it by facts.
o The combination comprises means for changing the volume of the enclosed space that communicates with the actuator piston of the container from a position external, the container allows the container to be pressurized and therefore said, And expanding for that, the container said;
o the smooth surface of the wall of the actuator piston, at least and until it is close to its contact area with the wall of the chamber;
For this purpose, the container is replaced from the second to the first vertical position of the hamber.   3. A piston combustion chamber combination according to claim 1 or 2, wherein the actuator piston inside or outside the chamber is to move in a sealingly manner relative to the chamber wall.   4. Piston combustion chamber combination according to any one of claims 1, 2, or 3, wherein a portion of the chamber, located, adjacent to the actuator piston, a channel, or communicates with each other through the atmosphere. doing.   Piston combustion chamber combination according to any one of claims 1-4, wherein the chamber is elongated.   A piston combustion chamber combination according to any one of claims 1-4, wherein the chamber is circular.   7. A piston combustion chamber combination according to claim 6, wherein the chamber is formed around a circle center axis.   A piston combustion chamber combination according to any one of the preceding claims, wherein the actuator piston is depressurized and not engaged by the chamber wall.   9. A piston combustion chamber combination according to claim 8, wherein the piston is moving from a first to a second longitudinal position of the chamber.   A combination of piston combustion chambers according to any one of the preceding claims, wherein a part of the length of the chamber wall is parallel to the central axis of the chamber.   A combination of piston combustion chambers according to claim 10. (Where the wall of the chamber is located at the end of the stroke of the actuator piston).   The piston combustion chamber combination according to any one of claims 1 to 7. (Where the containers (208 ', 208, 217, 217, 228, 228, 258, 258, 450, 450) are provided with a deformable material (205, 206)).   13. A piston combustion chamber combination according to claim 12, wherein the deformable material (205, 206) is a fluid or a mixture of fluids such as water, steam and / or gas or bubbles.   14. Piston combustion chamber combination according to claim 12 or 13, wherein in cross-section through the longitudinal direction, where the container is located in the first longitudinal position of the chamber (186 and 231), When in position, it has a first shape that is different from the second shape of the container).   15. Piston combustion chamber combination according to claim 14, wherein at least a part of the deformable material (206) is compressible and where the first is formed has an area larger than the second area. It is shaped.   15. A piston combustion chamber combination according to claim 14, wherein the deformable material (206) is at least substantially incompressible.   A piston combustion chamber combination according to any one of claims 1-7, wherein the container is inflatable.   Piston combustion chamber combination, container (208 ', 208, 217, 217, 228, 228, 258, 258, 450, 450) according to any one of the preceding claims, wherein the additional space ( 210, 243) or jointly micronic nicating with a deformable container.   19. Piston combustion chamber combination according to claim 18, wherein the fluid from outside the position when the container ends in the container through a first enclosed space (which is in communication with the enclosed space). Said introduction).   8. A piston combustion chamber combination as claimed in any one of claims 1, 3 to 7, further comprising means for enabling shortening of the container and for transferring fluid from the container to a position therefor to a piston.   21. A piston combustion chamber combination according to claim 20, wherein fluid removal has ended through a second enclosed space (which is in communication with said enclosed space).   19. A piston combustion chamber combination according to any one of claims 2-7 or 18 wherein the means is in communication with the enclosed space of the piston, increasing the volume of the enclosed space. The volume and therefore the actuator piston that depressurizes it, thereby allowing the container to be shortened.   23. A piston combustion chamber combination according to claim 22, wherein the piston is movable relative to the chamber wall from at least a first to a second longitudinal position of the chamber.   A piston combustion chamber combination according to any one of the preceding claims, wherein the walls of the containers (208 ', 208, 217, 217', 228, 228, 258, 258, 450, 450) are bent. With a reinformment layer that can   25. The piston combustion chamber combination according to any one of claims 1 to 24, the contact surface of the container and the cross section of the wall of the chamber is where it is broken, the central axis of the container in the longitudinal direction, almost just aside. The midpoint of the cross-section of the elastically deformable wall of the horizontal container in the second vertical position.   26. Piston combustion chamber combination according to claim 25, where the contact surface of the container and the cross section of the wall of the chamber are cut off, said cross section of the elastically deformable wall of the horizontal container in a substantially second longitudinal position. The central axis of the container in the longitudinal direction outside the midpoint of the container.   23. A piston combustion chamber combination according to any one of claims 12, 17, 20 or 22, wherein the actuator piston is provided with a piston rod (which comprises the enclosed space).   27. Piston combustion chamber combination according to claim 26, wherein the piston rod is provided to ensure that the outside of the means said chamber.   The piston combustion chamber combination of claim 28, further comprising a crank, translates piston motion between the second and first longitudinal positions of the chamber into crank rotation.   29. Piston combustion chamber combination according to claim 28, wherein the crank translates its rotation into piston movement from the first to the second longitudinal position of the piston.   29. Piston combustion chamber combination according to any one of claims 19, 21 or 28, wherein the crank is provided with the first and said second enclosed space.   The combination according to any one of claims 1-7, wherein the cross-sectional area of the chamber in its second longitudinal position is 95-15% of the cross-sectional area of the chamber in its first vertical position. Is).   A combination according to any one of claims 1-7, wherein the cross-sectional area of the chamber in its second longitudinal position is approximately 50% of the cross-sectional area of the chamber in its first longitudinal position. is there).   A combination according to any one of claims 1-7, wherein the cross-sectional area of the chamber in its second longitudinal position is approximately 5% of the cross-sectional area of the chamber in its first vertical position. is there).   7. A combination according to any one of claims 1-6, wherein the chamber comprising a longitudinally convex wall, a cross-section of a cross section near the first longitudinal position, a cross-section with a common boundary The distance between two next common boundaries, said to be updivided from each other, defines the height of the longitudinal wall, the cross section of the cross section, the heights being the actuator pistons with respect to the pressure of the chamber The transverse line length of the common boundary of the cross-section, which is reduced by the increasing overpressure ratio, is determined by the maximum work force of the actuator piston. It is chosen constant for the common boundary.   7. A combination according to any one of claims 1-6, wherein the chamber comprising a longitudinally convex wall, a cross-section of a cross section near the first longitudinal position, a cross-section with a common boundary The distance between two next common boundaries, which are updivided from each other, is a cross-sectional cross section defining the -height of the longitudinal wall, the heights from the first longitudinal post ion to the second longitudinal The transverse line length of the common boundary of the cross-section, decreasing in direction towards the position, is determined by the maximum work force of the actuator piston, which is chosen constant for the common boundary.   37. A combination according to claim 35 or 36, wherein the chamber further comprises a wall parallel to the central axis of the chamber.   38. A combination according to any one of claims 35-37, wherein the chamber further comprises a concave wall.   40. A combination according to claim 38. (Where the chamber further comprises a transition between the convex shaped walls, said parallel walls (where the transition may comprise a concave shaped wall)) Having a shock absorber:
A combination according to any one of claims 1 to 39;
-Means for engaging the piston from a position outside the chamber, where engagement means the piston is in the first longitudinal position of the chamber, the outer position, and the piston is in the second longitudinal position It has an inner position.   The shock absorber according to claim 40, further comprising a sealed space in communication with the container.   42. A shock absorber according to claim 41, wherein the enclosed space has a variable volume.   42. A shock absorber according to claim 41, wherein the enclosed space has a constant volume.   42. A shock absorber according to claim 41, wherein the enclosed space is adjustable.   45-44 comprising a substantially sealed cavity comprising a container and an enclosed spatial shape, fluid (fluid compressed as the piston moves from the first to the second longitudinal position of the chamber). A shock absorber according to any one of the above. Pump for pumping fluid (pump with :)
40. A combination according to any one of claims 1-39;
Means for engaging the second piston of the second chamber from a position outside the chamber;
A fluid inlet connected to the second chamber and comprising a valve means; and;
The fluid outlet was connected to the second chamber. Pump for pumping fluid (pump with :)
40. A combination according to any one of claims 1-39;
-Means for engaging the piston of the chamber from a position outside the chamber;
Fluid inlet connected to the chamber and equipped with a valve means,
The fluid outlet was connected to the chamber.   48. A pump according to claim 46 or 47, wherein engagement means that the piston is in a first longitudinal position of the chamber, an outer position, and an inner position in which the piston is in a second longitudinal position of the chamber. ing.   48. A pump according to claim 46 or 47, wherein engagement means that the piston is in a second longitudinal position of the chamber, an outer position, and an inner position in which the piston is in a first longitudinal position of the chamber. ing.   Use of a piston combustion chamber combination according to claim 1 or 2 in a motor, in particular an automotive engine.   The piston combustion chamber combination is mounted here according to claim 1, characterized by the fact that the motor is equipped with it.   The piston combustion chamber combination is mounted here according to claim 2, characterized by the fact that the motor is equipped with it.