Patents by Inventor Hiroshi Kishita
Hiroshi Kishita 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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Patent number: 7013659Abstract: In a battery cooling system that cools a battery by using conditioned air (inside air of a passenger compartment) of a vehicle air conditioner, a battery control unit controls a battery blower to increase an air amount supplied to the battery when a predetermined condition is satisfied. In contrast, an air-conditioning control unit decreases a compression capacity of a compression device after an air amount supplied to the battery is increased to a predetermined amount by the battery control unit. For example, the air-conditioning control unit decreases the compression capacity of the compression device after a predetermined time passes after the air amount supplied to the battery is increased to the predetermined amount. Accordingly, the temperature inside the passenger compartment and the compression device can be stably controlled.Type: GrantFiled: August 5, 2004Date of Patent: March 21, 2006Assignee: DENSO CorporationInventors: Makoto Yoshida, Mitsuyo Oomura, Toshinobu Homan, Keita Honda, Hiroshi Kishita
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Patent number: 6931873Abstract: In an air conditioner for a vehicle, when a target rotation speed of an electric compressor calculated by a target rotation speed calculating means is higher than an upper limit set by an upper limit setting means and a noise level is reduced from a level equal to or higher than a predetermined noise level to a level lower than the predetermined noise level, an inverter controls the compressor to stop for a predetermined period of time and subsequently increase rotation speed to the upper limit. Since the compressor is stopped for the predetermined period of time, the rotation speed of the compressor is controlled without detecting a rotational position of the compressor. Therefore, when the target rotation speed is higher than the upper limit and the noise level is decreased lower than the predetermined noise level, an actual rotation speed of the compressor is immediately decreased.Type: GrantFiled: February 12, 2004Date of Patent: August 23, 2005Assignee: Denso CorporationInventors: Mitsuyo Oomura, Toshinobu Homan, Hiroshi Kishita
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Publication number: 20050028542Abstract: In a battery cooling system that cools a battery by using conditioned air (inside air of a passenger compartment) of a vehicle air conditioner, a battery control unit controls a battery blower to increase an air amount supplied to the battery when a predetermined condition is satisfied. In contrast, an air-conditioning control unit decreases a compression capacity of a compression device after an air amount supplied to the battery is increased to a predetermined amount by the battery control unit. For example, the air-conditioning control unit decreases the compression capacity of the compression device after a predetermined time passes after the air amount supplied to the battery is increased to the predetermined amount. Accordingly, the temperature inside the passenger compartment and the compression device can be stably controlled.Type: ApplicationFiled: August 5, 2004Publication date: February 10, 2005Inventors: Makoto Yoshida, Mitsuyo Oomura, Toshinobu Homan, Keita Honda, Hiroshi Kishita
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Publication number: 20040172959Abstract: In an air conditioner for a vehicle, when a target rotation speed of an electric compressor calculated by a target rotation speed calculating means is higher than an upper limit set by an upper limit setting means and a noise level is reduced from a level equal to or higher than a predetermined noise level to a level lower than the predetermined noise level, an inverter controls the compressor to stop for a predetermined period of time and subsequently increase rotation speed to the upper limit. Since the compressor is stopped for the predetermined period of time, the rotation speed of the compressor is controlled without detecting a rotational position of the compressor. Therefore, when the target rotation speed is higher than the upper limit and the noise level is decreased lower than the predetermined noise level, an actual rotation speed of the compressor is immediately decreased.Type: ApplicationFiled: February 12, 2004Publication date: September 9, 2004Inventors: Mitsuyo Oomura, Toshinobu Homan, Hiroshi Kishita
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Publication number: 20040083748Abstract: A vehicle air-conditioning apparatus includes a dehumidification means, which has a compressor and dehumidifies inside of the vehicle, a humidity calculation means, which calculates humidity in the vicinity of an inside surface of the windshield, and a determination means, which determines whether the windshield is fogged on the basis of comparison between the humidity and a predetermined value. A defogging operation for heightening dehumidifying performance of the dehumidification means is performed, when the determination means determines that the windshield is fogged in a state where the compressor is turned on. The dehumidifying performance of the dehumidification means is lowered or condition in which the defogging operation is started is made to be difficult in the next defogging operation, when the windshield is determined to be fogged and the defogging operation is not manually performed in a state where the compressor is turned off.Type: ApplicationFiled: October 21, 2003Publication date: May 6, 2004Inventors: Toshinobu Homan, Hiroshi Kishita
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Patent number: 6530426Abstract: A motor drive-control device drive-controls a plurality of auxiliary devices with a single motor while securing a necessary capacity of the auxiliary devices side in correspondence with usage conditions. As such, in an air-conditioning system, necessary speeds of auxiliary devices such as a compressor and a warm water pump are calculated based on a necessary cooling capacity and a necessary heating capacity. The higher of these two necessary speeds is set as the motor speed for driving the auxiliary devices. The motor is thus controlled to this speed. Therefore, even if the air-conditioning heat load varies greatly due to changes in the usage environment, cooling and heating capacities necessary for air-conditioning temperature control can be obtained at all times.Type: GrantFiled: April 12, 2000Date of Patent: March 11, 2003Assignee: DENSO CorporationInventors: Hiroshi Kishita, Yasuhiko Niimi, Yasushi Yamanaka
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Publication number: 20030030206Abstract: In a wire harness-arranging method, a wire group at a predetermined portion of a wire harness, comprising a plurality of wires bundled together, is untied, and is arranged so as to be coated with a water stop agent. The wire harness is supported above an installation plate through a plurality of wire group support jigs mounted upright on the installation plate, in spaced relation to this installation plate. Subsequently, U-shaped wire holding members, each having a slit of a uniform width over an entire length thereof, are brought respectively into gripping engagement with those portions of the wire group, disposed respectively at opposite ends of the predetermined portion of the wire harness spaced from each other in a wire-installing direction, from an upper side of the installation plate, so that the wire group at the predetermined portion is arranged along each of the slits in an upward-downward direction.Type: ApplicationFiled: July 22, 2002Publication date: February 13, 2003Applicant: YAZAKI CORPORATIONInventors: Mamoru Masukawa, Masayuki Sato, Hiroshi Kishita, Mitsuaki Saito
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Patent number: 6466853Abstract: In the transmission and air conditioning control system having an air conditioner provided with a compressor driven by an engine and an evaporator for cooling a passenger room, and a transmission connected between the engine and a wheel, an electronically control device controls the transmission ratio to a reference value to be decided by the operating condition of the vehicle and also to a final value, which is higher than the reference value, when a degree of cooling demand is greater than a predetermined value. As a result, the revolution of the engine is more increased so that the revolution of compressor may be more increased to improve the cool down performance.Type: GrantFiled: October 12, 2000Date of Patent: October 15, 2002Assignee: Denso CorporationInventors: Yasuhiko Niimi, Yasushi Yamanaka, Koichi Ban, Kazuhito Miyagawa, Yuichi Shirota, Hiroshi Kishita
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Patent number: 6330909Abstract: In a vehicle air-conditioning system, an evaporator is disposed in an air-conditioning case to form a bypass passage through which air bypasses the evaporator, and an opening degree of the bypass passage is adjusted by a bypass door. When a vehicle engine operates, the system performs a cold-storing mode where cold quantity stored in condensed water on the evaporator is increased. On the other hand, when operation of the vehicle engine is stopped, the system performs a cold-releasing mode where air passing through the evaporator is cooled by cold released from frozen condensed water. During the cold-storing mode and the cold-releasing mode, temperature of air blown into a passenger compartment can be adjusted by adjusting the opening degree of the bypass passage. Thus, in the vehicle air-conditioning system, cold-storing quantity in the evaporator can be improved while power-saving effect of the vehicle engine is improved.Type: GrantFiled: October 20, 1999Date of Patent: December 18, 2001Assignee: Denso CorporationInventors: Koji Takahashi, Yuichi Shirota, Koichi Ban, Hikaru Sugi, Yasuhiko Niimi, Hiroshi Kishita, Yasushi Yamanaka, Masayoshi Naka
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Patent number: 6234769Abstract: In a hybrid type compressor, a one-way clutch is provided between a magnet rotor and a rotor shaft for allowing rotational driving force generated by an electric motor unit to be transmitted only from a rotor to a shaft. Thus, the rotational driving force generated by a vehicle engine is not transmitted from the rotor shaft to the magnet rotor. That is, an inertia moment of a rotational system with respect to a vehicle engine is made small, thereby reducing the impact vibration when the clutch mechanism engages.Type: GrantFiled: July 8, 1998Date of Patent: May 22, 2001Assignees: Denso Corporation, Nippon Soken, Inc.Inventors: Takeshi Sakai, Masafumi Nakashima, Takeshi Wakisaka, Hiroshi Kishita, Mikio Matsuda, Hiroshi Ogawa, Hiroyasu Kato
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Patent number: 6148632Abstract: A refrigeration cycle is switched from a refrigeration cycle circuit to a hot gas heater circuit to make the hot gas discharged from a compressor flow into an evaporator and heat the vehicle passenger compartment, at which time, when a suction pressure (Ps) of the compressor becomes a low pressure below a first predetermined pressure, the discharge volume (Vc) of the compressor is made larger to ensure a sufficient auxiliary heating performance. Further, when the hot gas is made to flow into the evaporator to heat the vehicle passenger compartment, if the suction pressure (Ps) of the compressor becomes a higher pressure over a second predetermined pressure, the discharge volume (Vc) of the compressor is made smaller to protect the refrigeration cycle parts and lighten the ON, OFF shock.Type: GrantFiled: July 31, 1998Date of Patent: November 21, 2000Assignee: Denso CorporationInventors: Hiroshi Kishita, Yoshimitsu Inoue, Hajime Ito, Yoshiaki Takano, Satoshi Izawa, Takeshi Wakisaka
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Patent number: 6119473Abstract: A motor vehicle air conditioner control system that maintains a target cooling vent temperature without sacrificing vehicle engine performance. When a vehicle air conditioning compressor increases to above a predetermined speed and the vehicle engine driving force increases, such as during a period of engine acceleration, compressor cooling capacity becomes saturated and does not increase. When the speed of the compressor rises to a predetermined value and the compressor assumes a high-speed state, thereafter, while the compressor is in the high-speed state, operation of the compressor is controlled so as to sustain the vent-air temperature of an evaporator determined at a time when the high-speed state has been assumed. As a result, the amount of increase of the driving force due to this compressor speed increase is suppressed by reducing the volume of the compressor, thereby resulting in power savings while securing substantially maximum cooling capacity.Type: GrantFiled: July 16, 1998Date of Patent: September 19, 2000Assignee: Denso CorporationInventors: Hiroshi Kishita, Kurato Yamasaki, Yoshiaki Takano, Satoshi Mizutani
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Patent number: 6070650Abstract: To provide a vehicular air conditioning system for activating an electric heater with the output coming from an inverter by actuating a relay at a reasonable cost, a relay and an electric heater acting as electric heat source are connected in series between an output line of three output lines of an inverter and the negative side of a vehicular power supply. The electric heater employs a nichrome wire as its heating element and is used for warming the inside of a vehicle compartment. Moreover, the relay is turned ON/OFF after the output voltage of the inverter is set to zero. As a result, the durability of the relay can be improved, and this relay can be implemented by an existing one without newly manufacturing any dedicated relay so that the cost can be lowered.Type: GrantFiled: November 26, 1997Date of Patent: June 6, 2000Assignee: Denso CorporationInventors: Yoshimitsu Inoue, Yasukazu Kitamine, Masashi Iwai, Hiroshi Kishita, Hiroshi Nonoyama, Toshihiko Muraki, Takayoshi Matsuno, Hirofumi Mokuya
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Patent number: 5950440Abstract: In an electric vehicle air conditioner, unpleasant compressor noise is reduced after issuance of an instruction to stop the operation of the air conditioner. An air conditioner controller calculates a delay time T1 from a map stored in a microcomputer in advance when an air conditioning switch or a blower switch is turned off and initializes a built-in timer to start counting. Thereafter, the speed of rotation of the coolant compressor (the speed of rotation of an electric motor) is decreased at the maximum rate of change of the speed of rotation through an inverter until the calculated delay time T1 passes. After the delay time T1 passes (after the counting by the timer terminates), the coolant compressor is stopped. The delay time T1 recorded in the map is set such that it becomes shorter with a decrease in the blower level.Type: GrantFiled: October 15, 1998Date of Patent: September 14, 1999Assignee: Denso CorporationInventors: Yasuhiko Niimi, Kurato Yamasaki, Hiroshi Kishita, Takayoshi Kawai
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Patent number: 5924296Abstract: An automobile air-conditioning apparatus in which the compressor torque of a variable capacity refrigerant compressor is estimated with improved accuracy. The compressor torque is measured on the basis of (1) high-side pressure of the refrigerating circuit directly influencing the compressor torque and (2) a control current value directly controlling the compressor. The accurately estimated compressor torque is then used to stabilize the speed of the vehicle engine driving the compressor.Type: GrantFiled: September 22, 1998Date of Patent: July 20, 1999Assignee: Denso CorporationInventors: Yoshiaki Takano, Hiroshi Kishita, Kurato Yamasaki
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Patent number: 5884497Abstract: An automotive air conditioner which is capable of suppressing periodic torque variation in an engine-driven refrigerant compressor while ensuring performance of returning oil thereto to circumvent periodic variation in a rotational speed of an engine, thereby preventing degradation in motor power performance and drivability of an automobile. A value of target blowout temperature is calculated using a set temperature, indoor air temperature, outdoor air temperature and intensity of solar radiation. A value of first target post-evaporation temperature (TEO1) is calculated according to a determined value of target blowout temperature. Then, a value of second target post-evaporation temperature (TEO2) corresponding to a limit level for ensuring oil return performance is calculated according to the outdoor or indoor air temperature.Type: GrantFiled: June 10, 1998Date of Patent: March 23, 1999Assignee: Denso CorporationInventors: Hiroshi Kishita, Yoshiaki Takano, Satoshi Mizutani
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Patent number: 5867996Abstract: A compressor control device is presented to control driving power of a compressor of a vehicle air conditioner. The control device is composed of a first means which detects ambient temperature conditions of the vehicle, a second means which decides a necessary air-conditioning capacity according to the ambient temperature conditions and a third means which transmits driving power to the compressor from the engine when the necessary cooling capacity is larger than a reference capacity and from the electric motor when said necessary cooling capacity is not larger than said reference capacity.Type: GrantFiled: January 15, 1998Date of Patent: February 9, 1999Assignee: Denso CorporationInventors: Yoshiaki Takano, Hiroshi Kishita, Kurato Yamasaki, Yasuhiko Niimi
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Patent number: 5802861Abstract: An exhaust gas detoxifying system includes a catalytic converter in the exhaust system of an engine to detoxify exhaust gas. An air conditioner includes a compressor which is driven by the engine, and it performs air conditioning of the vehicle interior based on a refrigeration cycle. The operation of the air conditioner compressor is restricted depending on the degree of necessity of air conditioning, which is calculated from the difference between a vehicle interior temperature and a target temperature, if the catalytic converter exhaust gas detoxification performance is expected to deteriorate during accelerating or heavy-load operations of the engine.Type: GrantFiled: August 7, 1996Date of Patent: September 8, 1998Assignee: Nippondenso Co., Ltd.Inventors: Yukihiro Yamashita, Jun Hasegawa, Yasuhiko Niimi, Hiroshi Kishita
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Patent number: 5780731Abstract: A system for detection of the load torque of auxiliaries of an automobile engine is utilized to detect a locked state of an air-conditioner refrigerant compressor, power-steering oil pump, etc. Namely, a first auxiliary torque in a state where the air-conditioner is operating is measured, and when this exceeds a predetermined value, a second auxiliary torque is measured in a state where the clutch of the compressor is disengaged. When the difference between them exceeds another predetermined value, it is judged that the compressor has locked. When the difference does not exceed the predetermined value, it is judged that the oil pump etc. has locked.Type: GrantFiled: April 11, 1997Date of Patent: July 14, 1998Assignees: Denso Corporation, Nippon Soken, Inc.Inventors: Hirohito Matsui, Yasushi Yamanaka, Yoshiaki Takano, Hiroshi Kishita
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Patent number: 5732570Abstract: A thermal expansion valve for automotive coolant systems which is significantly more compact than previously developed expansion values. The housing of the expansion valve is divided into a first housing formed in a cylindrical shape with a bottom and a second housing formed in a columnar shape. The first housing is fit into the second housing, and both are integrally connected to each other. A temperature sensing mechanism having a temperature sensing chamber and an expansion mechanism for adjusting an opening degree of a throttle passage in accordance with an evaporator outlet temperature sensed by the temperature sensing means are disposed in the second housing. First and fourth joint portions connected to inlet and outlet refrigerant pipes of the evaporator, respectively, are at the bottom of the first housing.Type: GrantFiled: November 22, 1996Date of Patent: March 31, 1998Assignee: Denso CorporationInventors: Yoshitaka Tomatsu, Yasutaka Kuroda, Nobuharu Kakehashi, Hiroshi Kishita, Yasushi Yamanaka, Kenichi Fujiwara