Patents by Inventor Go Nagayama
Go Nagayama has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20180345787Abstract: A four-wheel drive vehicle includes a dog clutch that selectively interrupts transmission of a drive force to a propeller shaft, first and second multi-plate clutches that selectively interrupt transmission of the drive force from the propeller shaft to left and right rear wheels, first and second pistons that press the first and second multi-plate clutches, and a hydraulic circuit that supplies hydraulic oil to first and second cylinder chambers. During a transition to a four-wheel drive mode, torque transmitted through the first multi-plate clutch increases the speed of rotation of the propeller shaft so as to engage the dog clutch, and the second multi-plate clutch is kept from transmitting torque to the propeller shaft.Type: ApplicationFiled: May 31, 2018Publication date: December 6, 2018Applicant: JTEKT CORPORATIONInventors: Shotaro NIIMI, Go NAGAYAMA, Kotaro SARAI
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Publication number: 20180134152Abstract: A drive force control device, which controls a drive force distribution device that distributes a drive force to right and left rear wheels at variable distribution ratios, computes a steering angle-based turning radius determined in accordance with a steering angle, computes a limit turning radius, which is a minimum value of the turning radius with which the vehicle is turnable while keeping a stable travel state, in accordance with a vehicle speed, sets the larger one of the steering angle-based turning radius and the limit turning radius as a target turning radius, computes target rotational speeds for the right and left rear wheels on the basis of the target turning radius and the vehicle speed, and adjusts the ratios of distribution of the drive force to the right and left rear wheels such that actual rotational speeds of the right and left rear wheels approximate the target rotational speeds.Type: ApplicationFiled: November 9, 2017Publication date: May 17, 2018Applicant: JTEKT CorporationInventors: Go NAGAYAMA, Akira KODAMA
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Publication number: 20180099563Abstract: A control apparatus for a four-wheel drive vehicle includes a current detector configured to output a detection signal in accordance with the magnitude of an actual control current, a target current value calculator configured to calculate a target current value that is a target value of the control current, and a current controller configured to control a current output circuit to output the control current having the target current value calculated by the target current value calculator based on a result of detection performed by the current detector. When the four-wheel drive vehicle is in a two-wheel drive mode in which first and second friction clutches are released, the current controller performs zero-point adjustment for adjusting a zero point of the control current to be output from the current output circuit.Type: ApplicationFiled: October 5, 2017Publication date: April 12, 2018Applicant: JTEKT CORPORATIONInventors: Tomohiro NOZU, Go NAGAYAMA, Shotaro NIIMI, Akiyoshi KAKITA, Kotaro SARAI
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Publication number: 20180093565Abstract: A controller for a driving force transmitting apparatus mounted in a four-wheel-drive vehicle, includes: a driving force controller configured to calculate a command torque indicating a driving force to be transmitted to the sub-drive wheels via the driving force transmitting apparatus based on a traveling state of the four-wheel-drive vehicle and a road surface condition, and to control the driving force transmitting apparatus based on the command torque; and a road surface condition determiner configured to determine that the road surface condition is a high-? condition when a duration of a non-slipping state where a vehicle speed is equal to or higher than a prescribed value and a slip ratio of each of both the main drive wheels is lower than a prescribed value has become equal to or longer than a prescribed time.Type: ApplicationFiled: October 4, 2017Publication date: April 5, 2018Applicant: JTEKT CORPORATIONInventors: Hirokazu KONDO, Tomoaki KATO, Go NAGAYAMA, Akiyoshi KAKITA
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Publication number: 20180093566Abstract: A control device mounted on a four-wheel drive vehicle includes: a slip ratio calculating unit that obtains a slip ratio of main driving wheels based at least on wheel speeds; a smoothing unit that smooths the slip ratio by filtering; and a driving force control unit that controls a driving force transmission device so that a driving force that is transmitted to auxiliary driving wheels increases as the slip ratio smoothed by the smoothing unit increases.Type: ApplicationFiled: October 3, 2017Publication date: April 5, 2018Applicant: JTEKT CORPORATIONInventors: Hirokazu KONDO, Tomoaki KATO, Go NAGAYAMA, Akiyoshi KAKITA, Kotaro SARAI
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Patent number: 9061685Abstract: A drive state control apparatus is applied to a vehicle which has not only a transfer including a multi-disc clutch mechanism but also a changeover mechanism interposed in an axle and which can be switched between 2WD and 4WD. When a 2WD-to-4WD changeover condition is satisfied, the multi-disc clutch is immediately switched from a “decoupled state” to a “coupled state.” Meanwhile, a connecting operation of the changeover mechanism is started upon establishment of a state in which left and right rear wheels have no acceleration slippage, and a state in which rotational speeds of first and second axles on opposite sides of the changeover mechanism are approximately equal to each other. In addition, in the case where the left and right rear wheels have acceleration slippage after the 2WD-to-4WD changeover condition has been satisfied, an E/G output reduction control is executed. Thus, the connecting operation can be performed smoothly.Type: GrantFiled: February 24, 2011Date of Patent: June 23, 2015Assignees: Aisin AI Co., Ltd., JTEKT CorporationInventors: Kazutaka Kobayashi, Yoshiyuki Aoyama, Takeshige Miyazaki, Akihiro Ohno, Ryohei Shigeta, Tomoaki Kato, Go Nagayama
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Patent number: 8700280Abstract: A road surface frictional coefficient estimation device includes: a first straight travel determination unit configured to determine whether or not a vehicle travels straight based on a rotational speed difference between a plurality of wheels of the vehicle; a second straight travel determination unit configured to determine whether or not the vehicle travels straight based on a steering angle of the vehicle; a selection unit configured to select one of determination results of the first straight travel determination unit and the second straight travel determination unit; and a frictional coefficient estimation unit configured to estimate a frictional coefficient of a road surface on which the vehicle travels when the one of the determination results selected by the selection unit indicates that the vehicle travels straight.Type: GrantFiled: August 1, 2012Date of Patent: April 15, 2014Assignee: JTEKT CorporationInventors: Tomohiro Nozu, Ryohei Shigeta, Akira Kodama, Go Nagayama, Yasushi Yagi, Daisuke Kofu, Akihiro Tatara
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Patent number: 8620546Abstract: An on-demand-type drive state control apparatus for a vehicle is provided. In the case where acceleration slippage occurs at drive wheels (rear wheels) of a vehicle when a drive system is in a two-wheel drive state, the drive system is switched from the two-wheel drive state to a four-wheel drive state. That is, the maximum transmittable torque of a multi-disc clutch mechanism increases from “0” to a predetermined value. In the four-wheel drive state, the maximum transmittable torque decreases stepwise from the present value by a predetermined value every time the vehicle travels over a predetermined distance in a state in which none of the wheels cause acceleration slippages. That is, the clutch drive current supplied to the multi-disc clutch mechanism decreases gradually (stepwise or in a plurality of steps), and the drive torque distributed to the front wheels (rear wheels) decreases (increases) gradually.Type: GrantFiled: May 16, 2011Date of Patent: December 31, 2013Assignees: Aisin AI Co., Ltd., JTEKT CorporationInventors: Kazutaka Kobayashi, Yoshiyuki Aoyama, Takeshige Miyazaki, Akihiro Ohno, Ryohei Shigeta, Tomoaki Kato, Go Nagayama
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Patent number: 8538650Abstract: A driving force distribution control device mounted on a vehicle including an engine, a transmission device, a clutch engaging an output shaft of the engine with an input shaft of the transmission device, and a driving force transmission system capable of transmitting output of the transmission device to main and auxiliary drive wheels, includes: a control device obtaining a torque value to be transmitted to the auxiliary drive wheels, the control device reducing the torque value for a predetermined time when the vehicle is in a stopped state or in a state where a vehicle speed of the vehicle is lower than a predetermined value, and an increasing speed of engaging force of the clutch is equal to or greater than a predetermined value; and a driving force transmitting device transmitting torque depending on the obtained torque value to the auxiliary drive wheels.Type: GrantFiled: August 1, 2012Date of Patent: September 17, 2013Assignee: JTEKT CorporationInventors: Tomohiro Nozu, Ryohei Shigeta, Akira Kodama, Go Nagayama, Yasushi Yagi, Daisuke Kofu, Akihiro Tatara
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Publication number: 20130035833Abstract: A driving force distribution control device mounted on a vehicle including an engine, a transmission device, a clutch engaging an output shaft of the engine with an input shaft of the transmission device, and a driving force transmission system capable of transmitting output of the transmission device to main and auxiliary drive wheels, includes: a control device obtaining a torque value to be transmitted to the auxiliary drive wheels, the control device reducing the torque value for a predetermined time when the vehicle is in a stopped state or in a state where a vehicle speed of the vehicle is lower than a predetermined value, and an increasing speed of engaging force of the clutch is equal to or greater than a predetermined value; and a driving force transmitting device transmitting torque depending on the obtained torque value to the auxiliary drive wheels.Type: ApplicationFiled: August 1, 2012Publication date: February 7, 2013Applicant: JTEKT CorporationInventors: Tomohiro NOZU, Ryohei SHIGETA, Akira KODAMA, Go NAGAYAMA, Yasushi YAGI, Daisuke KOFU, Akihiro TATARA
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Publication number: 20130035831Abstract: A road surface frictional coefficient estimation device includes: a first straight travel determination unit configured to determine whether or not a vehicle travels straight based on a rotational speed difference between a plurality of wheels of the vehicle; a second straight travel determination unit configured to determine whether or not the vehicle travels straight based on a steering angle of the vehicle; a selection unit configured to select one of determination results of the first straight travel determination unit and the second straight travel determination unit; and a frictional coefficient estimation unit configured to estimate a frictional coefficient of a road surface on which the vehicle travels when the one of the determination results selected by the selection unit indicates that the vehicle travels straight.Type: ApplicationFiled: August 1, 2012Publication date: February 7, 2013Applicant: JTEKT CorporationInventors: Tomohiro Nozu, Ryohei Shigeta, Akira Kodama, Go Nagayama, Yasushi Yagi, Daisuke Kofu, Akihiro Tatara
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Publication number: 20110282557Abstract: An on-demand-type drive state control apparatus for a vehicle is provided. In the case where acceleration slippage occurs at drive wheels (rear wheels) of a vehicle when a drive system is in a two-wheel drive state, the drive system is switched from the two-wheel drive state to a four-wheel drive state. That is, the maximum transmittable torque of a multi-disc clutch mechanism increases from “0” to a predetermined value. In the four-wheel drive state, the maximum transmittable torque decreases stepwise from the present value by a predetermined value every time the vehicle travels over a predetermined distance in a state in which none of the wheels cause acceleration slippages. That is the clutch drive current supplied to the multi-disc clutch mechanism decreases gradually (stepwise or in a plurality of steps), and the drive torque distributed to the front wheels (rear wheels) decreases (increases) gradually.Type: ApplicationFiled: May 16, 2011Publication date: November 17, 2011Applicants: Jtekt Corporation, Aisin Al Co., Ltd.Inventors: Kazutaka KOBAYASHI, Yoshiyuki Aoyama, Takeshige Miyazaki, Akihiro Ohno, Ryohei Shigeta, Tomoaki Kato, Go Nagayama
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Publication number: 20110257858Abstract: A drive state control apparatus is applied to a vehicle which has not only a transfer including a multi-disc clutch mechanism but also a changeover mechanism interposed in an axle and which can be switched between 2WD and 4WD. When a 2WD-to-4WD changeover condition is satisfied, the multi-disc clutch is immediately switched from a “decoupled state” to a “coupled state.” Meanwhile, a connecting operation of the changeover mechanism is started upon establishment of a state in which left and right rear wheels have no acceleration slippage, and a state in which rotational speeds of first and second axles on opposite sides of the changeover mechanism are approximately equal to each other. In addition, in the case where the left and right rear wheels have acceleration slippage after the 2WD-to-4WD changeover condition has been satisfied, an E/G output reduction control is executed. Thus, the connecting operation can be performed smoothly.Type: ApplicationFiled: February 24, 2011Publication date: October 20, 2011Applicants: JTEKT Corporation, Aisin Al Co., Ltd.Inventors: Kazutaka Kobayashi, Yoshiyuki Aoyama, Takeshige Miyazaki, Akihiro Ohno, Ryohei Shigeta, Tomoaki Kato, Go Nagayama