Patent application number | Description | Published |
20090041593 | VARIABLE DISPLACEMENT TYPE GEAR PUMP - A variable displacement type gear pump has gear chambers, one of which is a specific gear chamber. A suction passage is formed in the housing so as to communicate with suction-side spaces. An outlet passage communicates with discharge-side spaces. A return passage returns the fluid discharged to the discharge-side space of the specific gear chamber to the suction passage. The return passage communicates with the suction passage at a confluence portion located upstream side of the suction-side space. An opening and closing valve opens the return passage in a small displacement operational state. A check valve is located between the discharge-side space of the specific gear chamber and the outlet passage for preventing the fluid discharged from the gear chamber other than the specific gear chamber from flowing into the discharge-side space of the specific gear chamber in the small displacement operational state. | 02-12-2009 |
20090041594 | VARIABLE DISPLACEMENT TYPE GEAR PUMP - In a variable displacement type gear pump, each of a main gear pump portion and a sub gear pump portion has a drive gear, a driven gear engaging with the drive gear, and an urging portion applying radial load to the drive and driven gears. A bypass passage returns fluid in a discharge-side space of the sub gear pump portion to a suction passage. An opening and closing valve opens the bypass passage in a small displacement operational state. A drive shaft supports the main drive gear and the sub drive gear. A driven shaft supports the main driven gear and the sub driven gear. The drive gears and the driven gears are rotated in accordance with a rotation of the drive shaft. The drive and driven shafts transmit the radial load in the main gear pump portion to the sub gear pump portion in the small displacement operational state. | 02-12-2009 |
20090155656 | FUEL CELL SYSTEM - A fuel cell system which can exhibit a better result of a reduction in size and weight is provided. The fuel cell system of the present invention comprises a stack of fuel cells which generate electricity by receiving a supply of hydrogen gas and air, a fuel supply passage for supplying hydrogen gas to the stack, a fuel circulation and supply passage and a fuel circulation and discharge passage equipped with a fuel pump for causing any unreacted hydrogen gas discharged from the stack to join the fuel supply passage and be circulated, a cooling water pump for supplying cooling water to the stack, and a regenerator driven by the cooling water supplied from the cooling water pump for generating a rotary force. The hydrogen pump is adapted to be driven for rotation by the regenerator. | 06-18-2009 |
20090197145 | FUEL CELL SYSTEM - It is intended to provide a fuel cell system more capable of exhibiting effects of downsizing and reduction in weight. The fuel cell system of this invention has a stack and a regenerator that are provided in parallel to an air compressor. An air supply passage to which an air discharged from the air compressor is supplied and an air discharge passage for discharging an unreacted air to the downstream are connected to the stack. A regeneration air supply passage to which the air discharged from the air compressor is supplied and a regeneration air discharge passage for discharging the air to the downstream are connected to the regenerator. A fuel pump has a structure that the fuel pump is rotatively driven by the regenerator. | 08-06-2009 |
20090202370 | HYDRAULIC SYSTEM - A hydraulic system that can implement effective practical use of energy is provided. A hydraulic system according to the present invention has a hydraulic pump driven by a hydraulic pump motor, a loading cylinder and a power steering cylinder which are driven by pressure oil supplied from the hydraulic pump, and power supply means for supplying power to the hydraulic pump motor. The power supply means comprises a stack of a fuel cell, a fuel supply passage for supplying hydrogen gas to the stack, fuel circulating passages in which a hydrogen pump for joining unreacted hydrogen gas discharged from the stack into the fuel supply passage to circulate hydrogen gas is disposed, and a regenerator which is driven by pressure oil to generate rotational force. The hydrogen pump is rotationally driven by the regenerator. | 08-13-2009 |
20100254846 | ROOTS TYPE FLUID MACHINE - A roots type fluid machine includes suction and discharge ports, rotary shafts and a pair of rotors. The rotor has a number n of lobe and valley portions with apex and bottom ends. The lobe portions are located on imaginary lines extending radially from an axis of the rotary shaft. The outer surface of each one of the rotors is generated by rotating an outline of the rotor including an arc and involute and envelope curves around and moving the outline in the direction of the axis. The arc has a radius R and a center located on the imaginary line. The involute curve is formed by an imaginary base circle having a radius r and a center located on the axis. The envelope curve is formed by an arc having a radius R. The number n is four or more. A torsional angle β is over | 10-07-2010 |
Patent application number | Description | Published |
20090208358 | VARIABLE DISPLACEMENT GEAR PUMP - The variable displacement gear pump for a loading system in an industrial vehicle has main and sub gear pump portions, suction, discharge and bypass passages, and check and opening valves. The main gear pump portion has main drive and driven gears, and has suction and discharge side spaces. The sub gear pump portion has sub drive and driven gears, and has suction and discharge side spaces. The bypass passage returns hydraulic fluid in the discharge-side space of the sub gear pump portion to the suction passage. The check valve prevents hydraulic fluid in the discharge-side space of the main gear pump portion from flowing to that of the sub gear pump portion. The opening valve is used for opening and closing the bypass passage, and closes the bypass passage due to a pressure in a discharge conduit of the loading system increased by the load applied to the loading system. | 08-20-2009 |
20100054963 | VARIABLE DISPLACEMENT ROTARY PUMP - A variable displacement rotary pump includes a main pump unit, an auxiliary pump unit, a discharge passage, a bypass passage, a suction passage, a check valve and a control valve. The suction passage is in communication with the discharge passage through the bypass passage and a second discharge port. The check valve is disposed in the discharge passage for preventing fluid in a first discharge port of the main pump unit from flowing into the bypass passage. The control valve is operable for opening and closing the bypass passage. When the control valve opens the bypass passage and the check valve closes the discharge passage, flow rate of the fluid discharged from the discharge passage is reduced. A throttle passage is provided in the bypass passage or the control valve for regulating flow of the fluid in early phase of operation of the control valve to open the bypass passage. | 03-04-2010 |