Patent application number | Description | Published |
20100139263 | PISTON ENGINE - A Stirling engine has a fluid passage that connects a low temperature-side actuating fluid space and a crankcase inner space, and a passage opening/closing valve that is provided in the fluid passage and that opens and closes the fluid passage. The passage opening/closing valve enables communication through the fluid passage upon startup of the Stirling engine, and shuts off communication through the fluid passage when the rotational speed of the crankshaft of the Stirling engine is equal to or greater than a pre-established start-enabling rotational speed. | 06-10-2010 |
20100146962 | PISTON ENGINE - A Stirling engine is provided with a fluid passage that connects a low temperature-side actuating fluid space and a crankcase inner space, and a passage opening/closing valve that is provided in the fluid passage and that opens and closes the fluid passage. Upon stopping of the Stirling engine, the passage opening/closing valve enables communication through the fluid passage, at a region at which the piston floats in the cylinder. This region is determined based on the pressure of an actuating fluid in the actuating fluid space and the rotational speed of a crankshaft of the Stirling engine. | 06-17-2010 |
20100199944 | PISTON ENGINE AND STIRLING ENGINE - A piston is coupled to a connecting rod which is rotatably coupled to a crankshaft via an extension rod. With the configuration, reciprocating motion of the piston is transmitted to the crankshaft and converted to rotational motion. At both ends of the extension rod, a piston-side joint mechanism and a crankshaft-side joint mechanism each constructed by a spherical sliding bearing are provided. The piston is coupled to the extension rod via the piston-side joint mechanism, and the extension rod is coupled to the connecting rod via the crankshaft-side joint mechanism. | 08-12-2010 |
20100257857 | STIRLING ENGINE - A Stirling engine includes a plurality of α-type Stirling cycle mechanisms, each of which includes a first piston and a second piston and pressurizes a crankcase space. The mechanisms are coupled to each other via a common rotary shaft so that each of the mechanisms generates a torque variation waveform in which the number of periods per rotation is two. | 10-14-2010 |
20100257858 | PISTON ENGINE AND STIRLING ENGINE - A high temperature side cylinder of a Stirling engine is composed of a sleeve and a cylinder block. A high temperature side piston makes a reciprocating motion in the sleeve. The sleeve is connected to a heater that heats a working fluid of the Stirling engine so that heat of the heater is transmitted. A cylinder block is disposed outside of the sleeve. A predetermined interval is formed between the sleeve and the cylinder block, and an air layer is formed in the predetermined interval. | 10-14-2010 |
20100275594 | EXHAUST HEAT RECOVERY SYSTEM - An exhaust heat recovery system includes a plurality of Starling engines. Heaters of the Starling engines are disposed in an exhaust passage that is a heat medium passage. An inside of the exhaust passage is partitioned with a partitioning member into a first exhaust passage and a second exhaust passage. The heater of the Starling engine disposed on an upstream side in a flowing direction of exhaust gas is provided in the first exhaust passage, and the heater of the Starling engine disposed on a downstream side in the flowing direction of the exhaust gas is provided in the second exhaust passage. | 11-04-2010 |
20110197755 | GAS LUBRICATION STRUCTURE FOR PISTON, AND STIRLING ENGINE - A gas lubrication structure is provided with a high-temperature-side cylinder, an expansion piston lubricated relative to the high-temperature-side cylinder by gas, and a layer provided to the outer peripheral surface of the expansion piston and composed of a material flexible and having a higher linear expansion coefficient than the base material of the expansion piston. The thickness of the layer under normal temperatures is not less than the size of the clearance formed between the layer and the high-temperature-side cylinder. Also, even if the layer is thermally expanded under use conditions, the layer under normal temperatures has a thickness enabling a clearance to be formed between the layer and the high-temperature-side cylinder. | 08-18-2011 |
20110232276 | STIRLING ENGINE AND CONTROL METHOD THEREOF - A Stirling engine includes a high-temperature side cylinder and an expansion piston that is subjected to gas lubrication, or more specifically static pressure gas lubrication, relative to the high-temperature side cylinder and has a layer on an outer peripheral surface thereof, the layer being formed from a flexible material having a higher linear expansion coefficient than a base material of the expansion piston, wherein a booster pump and a ECU are provided as a contact avoiding device to prevent the expansion piston from contacting the high-temperature side cylinder when an engine operation is stopped until a temperature of the expansion piston can be suppressed below a predetermined value. | 09-29-2011 |
20120042645 | CONTROL DEVICE FOR STIRLING ENGINE - A control device for a Stirling engine including: two cylinder units; and a decompression portion that brings about a decompression effect of reducing a degree of compression of a working fluid that flows back and forth between the two cylinder units, by letting out the working fluid that flow back and forth between the two cylinder units, when the Stirling engine is started; the control device including a control portion that controls the decompression portion so that the decompression effect is gradually weakened after the Stirling engine is started. | 02-23-2012 |
20120318486 | HEAT EXCHANGER FOR STIRLING ENGINE - A heat exchanger for a stirling engine | 12-20-2012 |
20130019595 | CONTROL APPARATUS AND CONTROL METHOD FOR STIRLING ENGINE - A control apparatus for a Stirling engine that uses exhaust gas of an internal combustion engine as a high-temperature heat source and is provided with a starter that drives an output shaft, includes a control unit that drives the starter in starting up the Stirling engine, stops driving the starter when a rotational speed of the Stirling engine reaches a target rotational speed, and then drives the starter again when the rotational speed of the Stirling engine becomes lower than a predetermined value. | 01-24-2013 |
20130061826 | STIRLING ENGINE GAS LUBRICATION STRUCTURE - In a case of performing a static pressure gas lubrication by a stirling engine provided with a pair of cylinders of a high-temperature-side cylinder | 03-14-2013 |
20130074489 | STIRLING ENGINE AND ENGINE SYSTEM COMPRISING STIRLING ENGINE - A Stirling engine includes a base member that connects a housing portion with a heater that heats a working fluid using exhaust heat of a main engine, and a support member that supports the Stirling engine at the base member is provided. | 03-28-2013 |
20130306004 | COOLING SYSTEM - A cooling system | 11-21-2013 |
20140020376 | OUTPUT CONTROLLER FOR STIRLING ENGINE - An output controller for a stirling engine is provided in a cooling system that causes common cooling water to flow through both the stirling engine and an internal combustion engine serving as a motive power source other than the stirling engine. The output controller for the stirling engine includes a temperature adjustment portion that adjusts a temperature of the cooling water supplied to the stirling engine. Specifically, the temperature adjustment portion includes a temperature adjustment valve capable of adjusting the temperature of the cooling water supplied to the stirling engine by switchably setting at least one of partial cooling paths and into a communication state. | 01-23-2014 |
20140230428 | STIRLING ENGINE - A stirling engine | 08-21-2014 |