TH29429B - The device uses a rotary drive pressure. - Google Patents

Abstract

DC60 A rotary drive pressure device that consists of an outer shell called a cylindrical chamber, a rotating buoy with a power transmission shaft as the center shaft inside a cylindrical chamber. Inside the buoy there is a crankshaft with gears. follow at the back end Inside the swivel there is also a piston chamber and a piston inside. The drive gear makes the stroke. Corresponding rotation of the transmission shaft and crankshaft The device uses a rotary driven pressure that consists of an outer shell called a cylindrical chamber. The pivot buoy with a central transmission shaft is located inside a cylindrical chamber. Inside the buoy there is a crankshaft with gears at the rear end. Inside the swivel there is also a piston chamber and a piston inside. The drive sprocket makes the rotational strokes of the drive shaft and the crankshaft consistent.

Claims (4)

Claims (all) that do not appear on the noticeboard: 1. The rotary propulsion device consists of a stationary cylindrical outer shell. The pipe rotates in the outer corner. The spinning buoy is co-axed with a rotating transmission shaft inside the outer shell. The rotating buoy consists of a number of piston chambers. Pistons that move back and forth within each piston chamber. Causing a circular motion around the spindle of the transmission shaft And each piston has a piston rod connected to the crankshaft, which is connected to the pyrotechnics causing rotation. The outer shell has a pressure chamber and a pressure relief chamber contacting each of the corresponding piston chambers. The rotation of the whirlpool causes the pressurized fluid to flow through the pressure chamber. And is released through the pressure relief channel In a two-stroke behavior The valve that is worn outside the stroke chamber relative to each other, respectively. To allow fluid to pass through and out of the piston chamber through the combined pressure relief and pressure relief channels. Each valve has a cylinder shape. And has a curved end to the inner surface of the cylinder shell serves to close the opening when the valve is closed. The drive gear makes the rotation of the crank shaft and the transmission shaft relative. This drive gear consists of a ring gear and a follow gear. With the appropriate gear tooth rate making the device efficient And prioritize the movement of the pistons back and forth in the piston chamber relative to each other, allowing all pistons to have the same working stroke in the piston chamber. 2. The rotary drive pressure device in item 1, with the gear tooth rate is twice that of the number of pistons 3. The rotary drive pressure device in points 1 or 2, in which the rotating capital has multiple sections. Each episode has multiple piston and piston chambers. 4. The rotary drive pressure device in item 3, in which the piston and piston chambers inside the pivot section, are used in each section. 5. A rotary propulsion device in any of the points 1 to 4, consisting of a crank connected to the pyrotechnics. The piston rod is connected to the ends of the crankcase relative to each other, respectively. 6. The rotary drive pressure device is in Article 3, each of which includes a swivel plate that secures one end of the piston crankshaft in the joint. And the crankshaft central mounting plate between the parts of adjacent equipment To hold the rotatable end of the piston crankshaft when they are adjacent 7. The rotary drive pressure apparatus in Article 6, in which the valve shell is attached to the mounting plate, is used for any of the rotary drive pressure devices from points 1 to 7, each of which has a curved end with a Cylindrical shell shape 9. How the rotary drive pressure device works, including the procedures. The rotary drive pressure device consists of Stationary cylindrical outer shell A rotating buoy that is rotated in the outer shell. The buoy has a rotating transmission shaft that extends from the inside of the outer shell. This spin buoy consists of a number of piston chambers. Pistons that move back and forth within each piston chamber. Causing a circular motion around the spindle of the transmission shaft And each piston has a piston rod connected to the crankshaft which is connected to the transmission shaft. The outer shell has a sequential fluid inlet and a sequential release of the fluid in contact with each piston chamber, whereby the rotating process of the float receives the pressure fluid through the pressure chamber and releases the pressure fluid from the release chamber. Voltage in a two-stroke circuit The valves are enclosed outside each of the piston chambers relative to each other respectively. To allow fluid to pass through and out of the piston chamber periodically through the combined pressure relief and pressure relief channels. As the float turns and the valve meets the selected pressure relief and pressure relief channels. Each valve is a cylinder. And has a curved tip to the inner surface of the cylindrical outer shell to close the opening when the valve is closed. The drive gear that makes the rotation of the crankshaft and transmission shaft relative. The drive gear, including the ring and pinion gears followed by the gear ratio, is appropriate for the engine efficiency. And ordering the piston to move back and forth in the piston chamber relative to each other All pistons have the same working stroke in the piston chamber. By receiving the pressure fluid through the pressure chamber with the corresponding piston, the pressure on the piston is put into the crankshaft rotation. And release the pressure fluid from the piston release chamber 1 0. How to work according to clause 9, in which the piston release chamber is in contact with the pressure release fluid below the pressure relief hole 1. 1. Methods of operation in accordance with clause 9 or 10, in which a rotary pressure device has a multi-stage buoy and a corresponding piston-piston chamber. And how it works, including the steps of Receiving the pressurized fluid into the piston in relation to each other, a part of the rotating float through a coordinated pressure chamber creates a pressure on the piston. At the same time, the release of the pressurized fluid through the pressure relief channel of the piston assembled with the turntable part 1. 2.The method of operation in accordance with Article 11, in which the pressure exerted on the piston relative to one pyrotechnics is used to drive the piston relative to the other to drive the pressure fluid out of the co-ordinated pressure relief rod 1 3. A rotary drive pressure device consisting of Stationary cylindrical outer shell A rotating buoy that is positioned in the outer shell. The rotating buoy consists of a shaft. Rotating transmission shaft protrudes from inside the outer shell. The rotating buoy consists of a number of piston chambers. Pistons are related to each chamber. Each piston moves back and forth within each chamber, resulting in a circular motion around the spindle of the transmission shaft. And each piston has a piston rod connected to the crankshaft. The rotary transmission shafts are attached to the crankshaft of each piston being driven. The valves enclosed outside each piston chamber are relative to each other respectively. To allow fluid to pass through and out, the piston chamber is intermittent through the pressure inlet and pressure relief chambers. As the float turns and the valve moves in line with the selected pressure relief and discharge chamber. Each valve element has a cylindrical shape. And has a curved tip to the inner surface of the cylindrical outer shell to close the opening when the valve is closed. The outer shell has at least one fluid intake. And at least one of the fluid release chambers in contact with each respective piston chamber, respectively. Where the rotation of the whirlpool causes the pressure to flow through the piston chamber through the pressure chamber. And released from the piston chamber through the pressure relief channel In a two-stroke behavior The drive gear makes the rotation of the crankshaft and the transmission shaft relative. Drive gear consisting of a ring gear and a follow With the right rate of gear teeth making the engine efficient And order the movement of the pistons back and forth in the piston chamber relative to each other so that all pistons at the same time have the same working stroke in piston chamber 1. 4.How does a rotary pressure drive device work, including the procedures? The rotary drive pressure device consists of Stationary cylindrical outer shell A rotating buoy that is positioned in the outer shell. The rotating buoy consists of Rotating transmission shaft protrudes from inside the outer shell. The rotating buoy consists of a number of piston chambers. Pistons are related to each chamber. Each piston moves back and forth within each chamber, resulting in a circular motion around the spindle of the transmission shaft. Each piston has a piston rod connected to the crankshaft. The rotary transmission shafts are attached to the crankshaft of each piston driven. The valves enclosed outside each piston chamber are relative to each other respectively. To allow fluid to pass through and out, the piston chamber is intermittent through the pressure inlet and pressure relief chambers. As the float turns, the valve is aligned with the selected pressure relief and release port. Each valve element has a cylindrical shape. And has a curved tip to the inner surface of the cylindrical outer shell to close the opening when the valve is closed. The outer shell has at least one fluid intake. And at least one consecutive fluid release chamber for each corresponding piston chamber, respectively Where the rotation of the whirlpool causes the pressurized fluid to flow through the pressure chamber piston And released from the piston chamber through the pressure relief channel In a two-stroke behavior The drive gear makes the rotation of the crankshaft with the transmission shaft relative to This drive gear consists of a ring gear and a follow gear. With the right rate of gear teeth making the engine efficient And prioritize the movement of the piston - Come inside the piston chamber relative to each other, making all the pistons at the same time have the same working stroke in the piston chamber. By receiving the pressure fluid through the pressure chamber with the corresponding piston, a force on the piston is applied to the crankshaft rotation. And release the incoming pressure fluid through the pressure relief channel of the piston