HYUNDAI MOTOR COMPANY patent applications on December 19th, 2024
Patent Applications by HYUNDAI MOTOR COMPANY on December 19th, 2024
HYUNDAI MOTOR COMPANY: 46 patent applications
HYUNDAI MOTOR COMPANY has applied for patents in the areas of B60W60/00 (4), B60H1/00 (3), H01M10/0562 (2), B60L58/12 (2), B60W50/14 (2) B60W30/09 (2), B25J9/1612 (1), G06V20/588 (1), F21S41/285 (1), G01K13/026 (1)
With keywords such as: vehicle, configured, control, driving, apparatus, portion, based, power, battery, and rail in patent application abstracts.
Patent Applications by HYUNDAI MOTOR COMPANY
Inventor(s): Seung Ho Lee of Incheon (KR) for hyundai motor company, Beomjun Kim of Anyang-si (KR) for hyundai motor company, Seongsul Lee of Gunpo-si (KR) for hyundai motor company, Moonhee Lee of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): B25J9/16, B25J13/08, B25J15/00, B25J19/02
CPC Code(s): B25J9/1612
Abstract: a gripper mounted on a robot is used in a smart factory to pick a door loaded on a pallet. the gripper includes: a frame mounted on a tool changer of the robot; a picking unit mounted on a front of the frame and applying pressure to and regulating each of upper and lower points of an opening formed in an inner panel of the door through a bundle pin locator; and a pressure control valve adjusting the pressure of guide air cylinders. the gripper further includes: a side clamping unit mounted on the frame and holding a side point of the opening by a fixing locator and a clamper operating with a driving force of a clamping cylinder; and a control unit adjusting a moving distance of the robot based on a distance difference between the side clamping unit and the inner panel.
Inventor(s): Jin Yong KIM of Daegu (KR) for hyundai motor company
IPC Code(s): B60H1/00
CPC Code(s): B60H1/00878
Abstract: a method for controlling an air management system (ams) of an eco-friendly vehicle includes controlling the ams in different control modes, namely the energy efficiency mode, normal mode, first anti-freezing mode, and second anti-freezing mode, based on ambient temperature, humidity, apu temperature, and compressor duty cycle.
Inventor(s): Jeawan Kim of Hwaseong-si (KR) for hyundai motor company, Dongwook LEE of Hwaseong-si (KR) for hyundai motor company, Wan Je CHO of Hwaseong-si (KR) for hyundai motor company, Yeonho KIM of Seoul (KR) for hyundai motor company, Hoyoung JEONG of Hwaseong-si (KR) for hyundai motor company, Man Hee PARK of Suwon-si (KR) for hyundai motor company, Yeong Jun KIM of Incheon (KR) for hyundai motor company, Jae Yeon KIM of Hwaseong-si (KR) for hyundai motor company, Hochan AN of Hwaseong-si (KR) for hyundai motor company, Hae Jun LEE of Daedeok-gu (KR) for hyundai motor company, Sang Gu WOO of Daedeok-gu (KR) for hyundai motor company, Moo Joong KIM of Daedeok-gu (KR) for hyundai motor company, Won Suk LEE of Cheonan-si (KR) for hyundai motor company, Soon-Jong LEE of Yesan-gun (KR) for hyundai motor company, Tae Min PARK of Asan-si (KR) for hyundai motor company
IPC Code(s): B60H1/00, B60H1/32
CPC Code(s): B60H1/00899
Abstract: a refrigerant circulating apparatus of a vehicle includes a compressor configured to compress a refrigerant, at least one heat-exchanger configured to exchange with the refrigerant, at least one valve configured to selectively provide the refrigerant to the at least one heat-exchanger, a bracket that supports the compressor, and a fluid line plate that is coupled to the bracket and disposed adjacent to the at least one heat-exchanger and the at least one valve. the fluid line plate includes a plurality of fluid lines defined inside the fluid line plate and configured to provide the refrigerant to the at least one heat-exchanger based on operation of the at least one valve.
Inventor(s): Jeawan Kim of Hwaseong-si (KR) for hyundai motor company, Dongwook LEE of Hwaseong-si (KR) for hyundai motor company, Wan Je CHO of Hwaseong-si (KR) for hyundai motor company, Yeonho KIM of Seoul (KR) for hyundai motor company, Hoyoung JEONG of Hwaseong-si (KR) for hyundai motor company, Man Hee PARK of Suwon-si (KR) for hyundai motor company, Yeong Jun KIM of Incheon (KR) for hyundai motor company, Jae Yeon KIM of Hwaseong-si (KR) for hyundai motor company, Hochan AN of Hwaseong-si (KR) for hyundai motor company, Hae Jun LEE of Daedeok-gu (KR) for hyundai motor company, Sang Gu WOO of Daedeok-gu (KR) for hyundai motor company, Moo Joong KIM of Daedeok-gu (KR) for hyundai motor company, Won Suk LEE of Cheonan-si (KR) for hyundai motor company, Soon-Jong LEE of Yesan-gun (KR) for hyundai motor company, Tae Min PARK of Asan-si (KR) for hyundai motor company
IPC Code(s): B60H1/32, B60H1/00
CPC Code(s): B60H1/3229
Abstract: a refrigerant circulating apparatus of a vehicle includes a compressor configured to compress a refrigerant, at least one heat-exchanger configured to heat-exchange the refrigerant, at least one valve configured to selectively flow the refrigerant to the at least one heat-exchanger, and a refrigerant fluid line unit mounted with the compressor, the at least one heat-exchanger, and the at least one valve, and interiorly formed with a plurality of fluid lines to flow the refrigerant to the compressor and the at least one heat-exchanger by a selective operation of the at least one valve, where the refrigerant fluid line unit includes a first fluid line mounting plate and a second fluid line mounting plate coupled to each other.
Inventor(s): Chan-Seung Kim of Suwon-si (KR) for hyundai motor company, Eun-Pyo Hong of Hwaseong-si (KR) for hyundai motor company, Sung-Ju Lee of Wonju-si (KR) for hyundai motor company
IPC Code(s): B60J1/20
CPC Code(s): B60J1/2022
Abstract: an embodiment pop-up deploying type door curtain assembly for a vehicle includes a curtain deployable to cover a door glass when drawn out from a vehicle door, a rod configured to be installed on the vehicle door to ascend and descend and configured to support the curtain in a deployed state, a slider fixed to the rod and configured to ascend or descend integrally with the rod, a first drum apparatus configured to elastically support the slider in an ascending direction in order to allow the curtain to be deployed, and a button apparatus configured to limit a deployment of the curtain in a state in which the curtain is accommodated in the vehicle door.
Inventor(s): Chan-Seung Kim of Suwon-si (KR) for hyundai motor company, Eun-Pyo Hong of Hwaseong-si (KR) for hyundai motor company, Sung-Ju Lee of Wonju-si (KR) for hyundai motor company
IPC Code(s): B60J1/20
CPC Code(s): B60J1/2086
Abstract: an embodiment manually deployable vehicle door curtain assembly includes a curtain retractable into a vehicle door and deployable to cover a door window glass, a rod configured to be mounted on the vehicle door and to be simultaneously movable with the curtain to support the curtain, a slider slidably coupled with the rod and movable up and down together with the rod, and a support member configured to allow or prevent descending movement of the slider.
Inventor(s): Jin Gi Kim of Suwon (KR) for hyundai motor company
IPC Code(s): B60L3/04, B60L3/00, B60L58/12, B60W50/02, B60W50/029, B60W60/00
CPC Code(s): B60L3/04
Abstract: a dual power supply apparatus for a vehicle includes: at least one power device configured to supply power to an autonomous driving load or a general load in a vehicle, a pair of power lines provided between the at least one power device and the autonomous driving load, and a processor configured to determine whether a first power line of the pair of power lines has failed and to supply power to the autonomous driving load through a second power line of the pair of power lines in response to failure of the first power line.
Inventor(s): Kyu Beom KO of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): B60L7/26
CPC Code(s): B60L7/26
Abstract: provided are an electrified vehicle and a regenerative braking control method for the same. a first motor is connected to a first drive wheel depending on an engagement state of a disconnector. a second motor is connected to the first drive wheel. a controller controls the engagement state of the disconnector on the basis of required braking force before regenerative braking force generated by means of the second motor reaches an upper limit during regenerative braking by means of the second motor and controls regenerative braking force of the first motor and the second motor on the basis of the engagement state of the disconnector.
Inventor(s): Ji Won OH of Hwaseong-Si (KR) for hyundai motor company, Ho Wook LEE of Seoul (KR) for hyundai motor company, Jeong Soo EO of Hwaseong-Si (KR) for hyundai motor company
IPC Code(s): B60L15/20
CPC Code(s): B60L15/2036
Abstract: a method of controlling a driving system torque of an electric vehicle includes limiting, by a controller, a slope of a front wheel torque command for front wheel torque control and a slope of a rear wheel torque command for rear wheel torque control by a slope limit value determined according to a vehicle driving state in a mode transition process in which a torque control mode upon travel of a vehicle is switched from one mode selected among a responsiveness priority mode and a power priority mode to another mode among the responsiveness priority mode and the power priority mode.
Inventor(s): Jian Xiong ZHAO of Shandong (CN) for hyundai motor company, Fei ZHOU of Shandong (CN) for hyundai motor company, Won Young JEONG of Hwaseong-si (KR) for hyundai motor company, Cai WU of Shandong (CN) for hyundai motor company
IPC Code(s): B60L58/27, B60L58/12, H01M10/615, H01M10/625, H01M10/635
CPC Code(s): B60L58/27
Abstract: in a method and an apparatus for controlling heating of a vehicle battery, the method includes: obtaining, by a receiver, an ambient temperature of a vehicle and battery output power; determining, by a controller, whether the ambient temperature is lower than a predetermined ambient temperature threshold; when it is determined that the ambient temperature is lower than the predetermined ambient temperature threshold, determining, by the controller, whether a battery heating setting is on; and when it is determined that the battery heating setting is on, controlling, by the controller, the heating of the vehicle battery so that the battery output power is between a first reference power and a second reference power.
20240416811. SOLID TRANSFER DEVICE FOR VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Jung Hoon Woo of Suwon-si (KR) for hyundai motor company, Dae Hee Lee of Incheon (KR) for hyundai motor company, Hong Sik Chang of Hwaseong-si (KR) for hyundai motor company, Jin Suk Seo of Seoul (KR) for hyundai motor company, Hye Kyung Kim of Suwon-si (KR) for hyundai motor company, Kwan Woo Lee of Suwon-si (KR) for hyundai motor company, Dong Yong Choi of Suwon-si (KR) for hyundai motor company, Dong il Son of Ulsan (KR) for hyundai motor company, Dong Hyuk Choi of Ulsan (KR) for hyundai motor company, Chang Bok Park of Hwaseong-si (KR) for hyundai motor company, O Sim Kwon of Ulsan (KR) for hyundai motor company, Sun Kyung Kim of Ulsan (KR) for hyundai motor company
IPC Code(s): B60N2/75
CPC Code(s): B60N2/773
Abstract: a slide transfer device for a vehicle includes a first rail portion fixed to a vehicle body, a second rail portion rail-coupled to the first rail portion to slide in the front and rear direction and coupled to a movement guide protruding from the first rail portion, and a damper mounted in a mounting hole formed in the second rail portion and configured to support the movement guide inserted into the mounting hole of the second rail portion.
20240416814. VIBRATION MOTOR ASSEMBLY OF SEAT_simplified_abstract_(hyundai motor company)
Inventor(s): Sang-Hark Lee of Incheon (KR) for hyundai motor company, Sang-Soo Lee of Hwaseong-si (KR) for hyundai motor company, Ho-Suk Jung of Hwaseong-si (KR) for hyundai motor company, Jung-Sang You of Hwaseong-si (KR) for hyundai motor company, Deok-Soo Lim of Hwaseong-si (KR) for hyundai motor company, Sang-Do Park of Suwon-si (KR) for hyundai motor company, Chan-Ho Jung of Gunpo-si (KR) for hyundai motor company, Jong-Su Ryu of Cheongju-si (KR) for hyundai motor company, Sang-In Woo of Yongin-si (KR) for hyundai motor company, Beom-Sun Kim of Hwaseong-si (KR) for hyundai motor company, Sang-Gyu Byeon of Cheongju-si (KR) for hyundai motor company, Hyun-Gyu Sung of Cheongju-si (KR) for hyundai motor company, Hyun-Seok Song of Yeosu-si (KR) for hyundai motor company, Tae-Hyoung Yang of Seoul (KR) for hyundai motor company
IPC Code(s): B60N2/90
CPC Code(s): B60N2/976
Abstract: an embodiment vibration motor assembly of a seat includes a vibration motor and an upper housing disposed around the vibration motor to hold and fix the vibration motor, the upper housing configured to be fixed to a pad of the seat, and the upper housing including a holding part disposed at a circumference of a front surface of the upper housing to hold a circumference of the vibration motor and a fixing part protruding from a rear surface of the upper housing to cover and fix a rear surface of the vibration motor.
20240416843. CENTER CONSOLE DEVICE FOR VEHICLES_simplified_abstract_(hyundai motor company)
Inventor(s): Cheon Ho Kim of Hwaseong-si (KR) for hyundai motor company, Hong Sik Chang of Hwaseong-si (KR) for hyundai motor company, Won Young Bae of Seoul (KR) for hyundai motor company, Jung Yoon Jang of Seoul (KR) for hyundai motor company, Jung Hoon Woo of Suwon-si (KR) for hyundai motor company, Dong il Son of Ulsan (KR) for hyundai motor company, Chang Bok Park of Hwaseong-si (KR) for hyundai motor company, Dong Yong Choi of Suwon-si (KR) for hyundai motor company, Yoo Wook Jeon of Asan-si (KR) for hyundai motor company, Jong Hyeon Kim of Suwon-si (KR) for hyundai motor company
IPC Code(s): B60R7/04, B60N2/75
CPC Code(s): B60R7/04
Abstract: a console device for vehicles, includes a first rail fixed to a vehicle body, a second rail combined with the first rail to be selectively slid in forward and rearward directions, and combined with a center console, a first stopper mounted on the second rail to be slid together with the second rail, and engaged with the first rail to selectively fix a sliding position of the second rail, a tray rail combined with the second rail to be slid in the forward and rearward directions, and combined with a tray provided in the center console, and a second stopper mounted on the tray rail to be slid together with the tray rail, and engaged with the second rail to selectively fix a sliding position of the tray rail.
Inventor(s): Yong Ho Shin of Siheung (KR) for hyundai motor company, Jeong Min Kim of Gwangmyeong (KR) for hyundai motor company, Seok Gyu Kim of Seongnam (KR) for hyundai motor company, Jeong Gi Yun of Seoul (KR) for hyundai motor company
IPC Code(s): B60R25/24
CPC Code(s): B60R25/245
Abstract: a device for controlling a vehicle includes a communication circuit, a processor, and a memory, and the processor recognizes a trigger event for recognizing an external digital key corresponding to the vehicle, establishes wireless communication with a plurality of external terminals including the external digital key via the communication circuit using a first communication protocol, recognizes a received signal strength for each of the plurality of external terminals via the wireless communication, determines respective priorities of the plurality of external terminals based on the received signal strengths, and monitors a location of at least one of the plurality of external terminals based on the respective priorities using a second communication protocol via the communication circuit.
Inventor(s): Sung Wook Lee of Seoul (KR) for hyundai motor company, Ho Hyun Cha of Seoul (KR) for hyundai motor company
IPC Code(s): B60T7/22, B60T17/22
CPC Code(s): B60T7/22
Abstract: an embodiment emergency braking apparatus for a vehicle includes a memory storing a required control amount determination algorithm for non-occurrence of a judder and a required control amount determination algorithm for occurrence of the judder and an emergency braking controller that determines whether the judder occurs based on judder prediction information, determines whether a current situation is a dangerous situation based on vehicle forward detection information and a dangerous situation determination criterion for the occurrence of the judder, operates based on the required control amount determination algorithm for the occurrence of the judder, determines a primary required control amount based on the required control amount determination algorithm for the non-occurrence of the judder, selects a compensation coefficient corresponding to a judder magnitude, determines a compensation value based on the compensation coefficient, and determines a final required control amount by applying the compensation value to the primary required control amount.
Inventor(s): Eung Seo Kim of Gwacheon-Si (KR) for hyundai motor company, Dong Hyun Sung of Hwaseong-si (KR) for hyundai motor company, Yong Seok Kwon of Suwon-Si (KR) for hyundai motor company, Sang Min Lee of Seoul (KR) for hyundai motor company, Tae-Geun An of Yeongju-Si (KR) for hyundai motor company, Hyoung Jong Wi of Seoul (KR) for hyundai motor company, Joon Ho Lee of Seoul (KR) for hyundai motor company, Dae Seok Jean of Hwaseong-Si (KR) for hyundai motor company, Sang Yeob Lee of Seoul (KR) for hyundai motor company
IPC Code(s): B60W30/09, B60W30/095, B60W30/10, B60W30/14, B60W60/00
CPC Code(s): B60W30/09
Abstract: the present disclosure relates to a device and a method for avoiding an obstacle. the device includes a sensor that detects an object outside a vehicle, a processor, and memory storing instructions. the device determines whether the object belongs to any pre-classified type, determines a reliability value associated with information on the object based on the object not belonging to any pre-classified type, and controls, based on the reliability value being greater than a threshold reliability value, the driving controller to avoid the object.
Inventor(s): Sang Min Lee of Seoul (KR) for hyundai motor company, Dae Seok Jeon of Hwaseong-Si (KR) for hyundai motor company, Dong Hyun Sung of Hwaseong-Si (KR) for hyundai motor company, Yong Seok Kwon of Suwon-Si (KR) for hyundai motor company, Tae Geun An of Yeongju-Si (KR) for hyundai motor company, Hyoung Jong Wi of Seoul (KR) for hyundai motor company, Joon Ho Lee of Seoul (KR) for hyundai motor company, Eung Seo Kim of Gwacheon-Si (KR) for hyundai motor company, Sang Yeob Lee of Seoul (KR) for hyundai motor company
IPC Code(s): B60W30/09, B60W60/00
CPC Code(s): B60W30/09
Abstract: disclosed is an autonomous driving control apparatus. the autonomous driving control apparatus includes a sensor device, a memory, and a control device. for example, the autonomous driving control apparatus identifies an autonomous driving control level of a host vehicle, identifies a first autonomous driving control method corresponding to at least one level higher than or equal to the specified level when the autonomous driving control level is higher than or equal to a specified level, identifies a surrounding object of the host vehicle by using the sensor device while the host vehicle is driving, and performs a first autonomous driving control corresponding to the surrounding object based on the first autonomous driving control method.
20240416920. ROAD SURFACE CONDITION ESTIMATION APPARATUS_simplified_abstract_(hyundai motor company)
Inventor(s): Jun Han Kang of Seoul (KR) for hyundai motor company, Ik Jin Um of Busan (KR) for hyundai motor company, Ji Hun Byun of Hwaseong-si (KR) for hyundai motor company, Man Dong Kim of Hwaseong-si (KR) for hyundai motor company, Jung Ho Park of Incheon (KR) for hyundai motor company, Jin Soo Seo of Suwon-si (KR) for hyundai motor company, Chan Uk Yang of Seoul (KR) for hyundai motor company, Seung Won Choi of Seoul (KR) for hyundai motor company, Hyuk Ju Shon of Seoul (KR) for hyundai motor company, Kun Soo Huh of Seoul (KR) for hyundai motor company
IPC Code(s): B60W40/06
CPC Code(s): B60W40/06
Abstract: a road surface condition estimation apparatus includes a storage unit configured to store a road surface condition estimation model, and a road surface severity estimator configured to estimate, based on travel information, severity of a condition of a road surface on which a vehicle is travelling using the road surface condition estimation model.
Inventor(s): Young Koo Kang of Yongin-si (KR) for hyundai motor company, Tae Hee Kim of Seoul (KR) for hyundai motor company
IPC Code(s): B60W50/04, B60R16/023, B60W10/02, B60W10/04
CPC Code(s): B60W50/045
Abstract: an apparatus and a method are for determining a specification of an option-in-vehicle. the apparatus includes an input part that receives a vehicle identification number (vin), a receiver that receives a message through a vehicle network, and a controller. the controller monitors reception of the message as the vin is received and determines the specification of the option-in-vehicle based on the message.
Inventor(s): Soo Joong HWANG of Seoul (KR) for hyundai motor company
IPC Code(s): B60W50/14, G10L13/04
CPC Code(s): B60W50/14
Abstract: an apparatus and method for controlling a vehicle message output. the apparatus includes an input device that receives an input of a user, and a processor that generates a guide message and controls the guide message to be output by applying an emphasis scheme set by the input of the user to a keyword when determining that the keyword exists in the guide message.
Inventor(s): Eun Young CHOI of Seoul (KR) for hyundai motor company, Dong Kyu KIM of Hwaseong-si (KR) for hyundai motor company, Sun Seong HONG of Yeongtong-gu (KR) for hyundai motor company, Dae Woon KIM of Suwon-si (KR) for hyundai motor company
IPC Code(s): B60W60/00, B60L58/13, B60W30/182, B60W40/02, B60W40/08, B60W50/08, B60W50/14
CPC Code(s): B60W60/0018
Abstract: an autonomous driving mode control method includes setting a driving route based on an origin and a destination of a vehicle, comparing an expected state of charge (soc) value of a battery at the destination with a predetermined soc value, and controlling travel of the vehicle by determining whether to activate a high-level driving mode in consideration of at least one of whether a dangerous situation occurs, a result of the comparing, or a safety level of the driving route.
20240417001. FRAME ASSEMBLY FOR VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Chang Un JEON of Hwaseong-si (KR) for hyundai motor company, Jang Won HONG of Hwaseong-si (KR) for hyundai motor company, Seung Tae SONG of Suwon-si (KR) for hyundai motor company
IPC Code(s): B62D25/02, B62D25/04
CPC Code(s): B62D25/025
Abstract: a frame assembly for a vehicle includes a body side sill provided in an outward direction of a body floor of the vehicle, extending in a longitudinal direction of the vehicle to form an internal space, and including an internal reinforcing portion fixed to the internal space, and a center pillar provided at a side of the vehicle to extend in a vertical direction of the vehicle, disposed outside the body side sill to cover the body side sill from the outside thereof, and coupled to the body side sill to form a load path for side collision of the vehicle.
20240417002. FLOOR MODULE FOR VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Jin Ho HWANG of Cheonan-si (KR) for hyundai motor company, Sang heon LEE of Seoul (KR) for hyundai motor company, Dong Eun CHA of Hwaseong-si (KR) for hyundai motor company, Jin Man PARK of Busan (KR) for hyundai motor company, Eun Gook KIM of Sejong-si (KR) for hyundai motor company, Hyoung Jun KIM of Cheongju-si (KR) for hyundai motor company
IPC Code(s): B62D25/20
CPC Code(s): B62D25/20
Abstract: a floor module for a vehicle includes a plurality of tile portions configured to cover a vehicle floor of a vehicle and sequentially aligned by being coupled in a transverse direction, a plurality of fixing portions provided below the tile portions, connected to the tile portions in an upward and downward direction, and sequentially aligned by being coupled in the transverse direction, and a plurality of mounting portions provided above the vehicle floor and configured to support the tile portions and the fixing portions from below by being connected to the fixing portions in the upward and downward direction in a state in which the tile portions and the fixing portions are matched.
Inventor(s): Hyeong Won Park of Hwaseong-si (KR) for hyundai motor company, Tae Geun Kim of Seoul (KR) for hyundai motor company, Seong Won Seo of Gimcheon-si (KR) for hyundai motor company
IPC Code(s): C08K3/40, C08K7/02, C08L23/12, C08L23/16, C08L23/20
CPC Code(s): C08K3/40
Abstract: disclosed is a polypropylene resin composition that improves chemical stability against external factors because it prevents deterioration of physical properties by moisture and has low surface energy. disclosed is also a molded article including the polypropylene resin composition that has low ion elution, which is the most important requirement, and can achieve excellent weight reduction.
Inventor(s): Young June PARK of Yangseo-Myeon (KR) for hyundai motor company
IPC Code(s): C25B13/02, C25B9/23
CPC Code(s): C25B13/02
Abstract: a porous base layer includes a porous base portion provided between a membrane electrode assembly (mea) and a separator including a channel and a land, a channel area defined on the porous base portion to correspond to the channel, a land area defined on the porous base portion to correspond to the land and provided to be in contact with the land, and at least one through-hole provided in the land area so that a target fluid passes through the through-holes, obtaining an advantageous effect of ensuring performance and operational efficiency and improving durability and reliability.
20240418317. CRYOGENIC LIQUID STORAGE APPARATUS_simplified_abstract_(hyundai motor company)
Inventor(s): Jun Sung AHN of Yongin-si (KR) for hyundai motor company
IPC Code(s): F17C1/12, H01M8/04082
CPC Code(s): F17C1/12
Abstract: a cryogenic liquid storage apparatus includes a storage container configured to accommodate a cryogenic liquid, a heating element configured to be movable from a first position at which the heating element is in contact with the storage container to a second position at which the heating element is spaced from the storage container, and a drive portion configured to selectively provide driving power to the heating element to move the heating element from the second position to the first position, obtaining an advantageous effect of improving efficiency in storing hydrogen.
Inventor(s): Cheol Woo Park of Hwaseong, Gyeonggi-do (KR) for hyundai motor company, Yong Ho Chung of Ansan, Chungcheongnam-do (KR) for hyundai motor company, Heon Chang Kim of Seongnam, Gyeonggi-do (KR) for hyundai motor company
IPC Code(s): F17C5/00, F17C5/06
CPC Code(s): F17C5/007
Abstract: a control method for hydrogen fueling for a hydrogen fueled mobility is an integrated control method that includes steps of: acquiring a measurement value of a current state; based on the measurement value of the current state, determining whether a second control command is needed for at least a hydrogen fueling station and/or the hydrogen fueled mobility, in addition to a first control command executed on a dispenser side; and, according to the result of the determining step, generating the second control command for the hydrogen fueling station and/or the hydrogen fueled mobility.
20240418334. OPTICAL APPARATUS FOR A MOBILITY VEHICLE_simplified_abstract_(hyundai motor company)
Inventor(s): Hyeong Seon Kim of Anyang-si (KR) for hyundai motor company, Young Geun Jun of Seoul (KR) for hyundai motor company
IPC Code(s): F21S41/20, F21S41/141, F21V5/04
CPC Code(s): F21S41/285
Abstract: an optical apparatus for a mobility vehicle reduces the overall size of an optical system of the mobility vehicle by implementing a favorable package configuration, ensures sufficient lighting and high luminous efficiency through the efficient operation of a light source, and improves the quality of the lighting image projected onto an illumination area.
Inventor(s): Je Hwan LEE of Seongnam-si (KR) for hyundai motor company, Yeong Ju KOH of Suncheon-si (KR) for hyundai motor company
IPC Code(s): G01K13/02, G01K1/02
CPC Code(s): G01K13/026
Abstract: provided is a temperature determination device for a power module, including a water temperature estimation unit configured to determine a temperature increase in each of switching elements based on operation information of the switching elements and to determine an estimated temperature of cooling water based on an influence coefficient preset to correspond to each of remaining switching elements that are not provided with the first temperature sensor and the temperature increase, and a junction temperature determination unit configured to determine a junction temperature based on the estimated water temperature.
Inventor(s): Uoon Hyuk BAEK of Hwaseong-si (KR) for hyundai motor company
IPC Code(s): G01R31/388, B60L58/18
CPC Code(s): G01R31/388
Abstract: an apparatus for managing a battery and a method thereof includes a power converter that generates a second voltage by reducing a first voltage output from a power supply and output the second voltage, a first current sensor that detects a current of a first battery receiving the second voltage output from the power converter, and a second current sensor that detects a current of a second battery connected in series with the first battery.
20240418950. VARIABLE LIGHTING APPARATUS_simplified_abstract_(hyundai motor company)
Inventor(s): Joon Bo Shim of Hanam-si (KR) for hyundai motor company, Ji Yeon Kim of Gyeongsan-si (KR) for hyundai motor company
IPC Code(s): G02B6/42, F21V8/00, F21V14/00, F21V14/08
CPC Code(s): G02B6/4298
Abstract: a variable lighting apparatus allows the light to selectively enter the plurality of optical fibers by changing the position of the light output member having a circular plate shape in the state in which the number of light sources is minimized, such that the optical fibers simultaneously or individually emit light, and thus the patterns in which the light is to be outputted are diversified. in addition, the variable lighting apparatus may minimize the number of required light sources and implement various lighting images only by using the light output member, thereby reducing the manufacturing costs and simplifying the structure.
Inventor(s): Jae Wan CHO of Seoul (KR) for hyundai motor company, Won Jin JEONG of Hwaseong-si (KR) for hyundai motor company, Tae Hee LEE of Daegu (KR) for hyundai motor company, In Sung LEE of Daegu (KR) for hyundai motor company, Ji Soo KIM of Daegu (KR) for hyundai motor company, Dae Yeon KIM of Daegu (KR) for hyundai motor company
IPC Code(s): G05G9/047, B60K26/02, B60T7/08, B62D1/12, G05G5/05
CPC Code(s): G05G9/047
Abstract: an integrated control apparatus for an autonomous vehicle is configured to perform acceleration, deceleration and steering operations of a vehicle by manipulating a joystick lever. upon steering operation, feedback control for a steering motor is performed using a torque sensor module to realize more precise steering feeling. a sensor configured to detect acceleration or deceleration position of the joystick lever and a sensor configured to detect a steering position of the joystick lever share a single position sensor pcb.
Inventor(s): Xiu Lei XIE of Shandong (CN) for hyundai motor company
IPC Code(s): G06F3/0482, B60Q9/00, G06Q50/26, G07C5/08
CPC Code(s): G06F3/0482
Abstract: in a method and an apparatus for controlling an interface theme of a vehicle display terminal, the vehicle display terminal is configured to provide a theme setting interface, and store a plurality of theme interface images. the method may include: obtaining driving data in a driving process of a vehicle user; determining a driving behavior score of the vehicle user based on the obtained driving data and a preset scoring mechanism; determining whether the determined driving behavior score reaches a predetermined value; and when it is determined that the driving behavior score reaches the predetermined value, allowing the vehicle user to select any one of a plurality of theme interface images through the theme setting interface.
Inventor(s): Seung Yeop Noh of Yongin (KR) for hyundai motor company
IPC Code(s): G06F21/32, G06F21/62, G06V20/56
CPC Code(s): G06F21/32
Abstract: a method of controlling a drive video record system includes providing a camera module for monitoring an area around a vehicle, a first memory for storing video transmitted from the camera module, and a controller including a second memory for storing a computer program for controlling storage of the video and a processor for executing the computer program, where through execution of the computer program, the processor acquires password information of a user, acquires video or audio according to a set condition, and encrypts and stores the video or audio based on the password information.
Inventor(s): Sung Hwan Jun of Hwaseong (KR) for hyundai motor company
IPC Code(s): G06V20/56, H04N5/52
CPC Code(s): G06V20/588
Abstract: a driving video recording system includes a camera module for monitoring surroundings of a vehicle, a first memory for storing an image transmitted from the camera module, a second memory for storing a computer program for controlling storage of the image, and a controller including a processor to execute the computer program. the processor determines whether a view condition is satisfied through execution of the computer program, selects one of a first region or a second region for a field of view of the camera module according to the determination, and stores the image obtained by the camera module according to the selection.
Inventor(s): Kyoung Jin Chang of Suwon (KR) for hyundai motor company
IPC Code(s): G10K11/175, G01P15/00, G06F3/16, G10L25/18, G10L25/30, G10L25/51
CPC Code(s): G10K11/1754
Abstract: a sound system for a vehicle is configured to implement a soundscape that matches an environment around the vehicle. the sound system includes a noise meter that measures environmental noise generated around the vehicle, a vibration meter that measures vibration generated by the vehicle, and a processor connected with the noise meter and the vibration meter. the processor determines a noise type by analyzing features of the vibration and the environmental noise respectively measured by the vibration meter and the noise meter, selects a sound source matched with the noise type among sound sources previously stored in a database, and plays and outputs the selected sound source.
20240421106. POWER MODULE_simplified_abstract_(hyundai motor company)
Inventor(s): Jin Myeong YANG of Seongnam-Si (KR) for hyundai motor company, Sung Won PARK of Incheon (KR) for hyundai motor company, Han Jin DO of Incheon (KR) for hyundai motor company
IPC Code(s): H01L23/48, H01L23/00, H01L23/498, H01L23/64
CPC Code(s): H01L23/647
Abstract: introduced is a power module including a first substrate and a second substrate, a semiconductor chip, and a via spacer electrically connecting the first substrate and the second substrate, wherein the via spacer includes a first portion electrically connected to the first substrate, a second portion electrically connected to the second substrate, and a resistor portion including a resistance value greater than resistance values of the first portion and the second portion and arranged between the first portion and the second portion.
Inventor(s): Ju Young Jang of Goyang (KR) for hyundai motor company, Byung Yong Lee of Anyang (KR) for hyundai motor company
IPC Code(s): H01M4/62, B01F23/60, B01F23/80, G01N19/00, H01M4/131, H01M4/1391, H01M4/505, H01M4/525, H01M10/0525, H01M10/0562
CPC Code(s): H01M4/623
Abstract: the present disclosure can implement a high energy density electrode by quantifying and standardizing a degree of fiberization of powder for an electrode used in a dry electrode. the powder includes an active material; a solid electrolyte; a conductive material; and a fibrous binder.
Inventor(s): Yong Guk Gwon of Suwon-si (KR) for hyundai motor company, Min Su Kim of Goyang-si (KR) for hyundai motor company, Yong Seok Choi of Suwon-si (KR) for hyundai motor company, Young Jin Nam of Seoul (KR) for hyundai motor company
IPC Code(s): H01M4/70, H01M10/052
CPC Code(s): H01M4/70
Abstract: the present disclosure relates to a dry electrode for a lithium secondary battery with controlled surface roughness and a pouch-type lithium secondary battery including the same.
Inventor(s): Woo Jin Lee of Seoul (KR) for hyundai motor company
IPC Code(s): H01M8/1004, H01M4/86, H01M4/88, H01M8/0297
CPC Code(s): H01M8/1004
Abstract: a system for manufacturing a shape-changed membrane-electrode assembly includes a first transportation unit configured to transport a first electrode film, a second transportation unit configured to transport a second electrode film, and a third transportation unit configured to transport an electrolyte membrane. through a roll press, which includes a primary-reaction-section pattern and an auxiliary-reaction-section pattern, transfer pressure, the shape-changed membrane-electrode assembly can be kept uniform during a transfer pressure process, one of processes of manufacturing the membrane-electrode assembly.
20240421337. FUEL CELL_simplified_abstract_(hyundai motor company)
Inventor(s): Jae Min Ahn of Yongin-si (KR) for hyundai motor company, Yong Suk Heo of Seoul (KR) for hyundai motor company
IPC Code(s): H01M8/248, H01M8/2475
CPC Code(s): H01M8/248
Abstract: a fuel cell includes a cell stack including a plurality of unit cells stacked in a first direction, first and second end plates disposed on respective end portions of the cell stack, and a plurality of clamping members clamping the unit cells in the first direction thereof. the clamping members include a first clamping member disposed on an edge portion of the cell stack to extend in the first direction and a second clamping member disposed on at least one of the upper surface or the lower surface of the cell stack to extend in the first direction thereof. the first clamping member includes a first portion disposed on or under the cell stack at a position adjacent to the edge portion and a second portion bent from the first portion and disposed on a side portion of the cell stack.
Inventor(s): Sang Soo Lee of Goyang-si (KR) for hyundai motor company, In Woo Song of Gwacheon-si (KR) for hyundai motor company, Woo Dum Jung of Seoul (KR) for hyundai motor company, So Young Kim of Jeongeup-si (KR) for hyundai motor company, Sang Heon Lee of Yongin-si (KR) for hyundai motor company, Hong Seok Min of Yongin-si (KR) for hyundai motor company, Seul Ki Choi of Wanju-gun (KR) for hyundai motor company, Chang Min Cho of Wanju-gun (KR) for hyundai motor company, Woo Seop Song of Wanju-gun (KR) for hyundai motor company, Young Sung Lee of Wanju-gun (KR) for hyundai motor company, So Young Yoon of Wanju-gun (KR) for hyundai motor company, Se Man Kwon of Wanju-gun (KR) for hyundai motor company, Yung Sup Youn of Wanju-gun (KR) for hyundai motor company
IPC Code(s): H01M10/0562
CPC Code(s): H01M10/0562
Abstract: a sulfide-based solid electrolyte includes secondary particles in which primary particles are agglomerated. with the use of the sulfide-based solid electrolyte, a uniform, stable, and high-quality slurry in which the primary particles have a strong interparticle binding force can be prepared.
Inventor(s): Young Woo Lee of Suwon-si (KR) for hyundai motor company, Yoon Ji Lee of Bucheon-si (KR) for hyundai motor company, Hae Won Park of Anyang-si (KR) for hyundai motor company, Sung Hoon Lim of Yongin-si (KR) for hyundai motor company, Seung Ho Ahn of Hanam-si (KR) for hyundai motor company, Sang Jin Park of Bucheon-si (KR) for hyundai motor company
IPC Code(s): H01M10/44, H01M10/0525
CPC Code(s): H01M10/443
Abstract: a lithium ion secondary battery system includes a chamber to accommodate a lithium ion secondary battery, a charging/discharging device for electrically charging and discharging the lithium ion secondary battery, a pressure plate disposed in the chamber and configured to press the lithium ion secondary battery when the lithium ion secondary battery is electrically charged, a pointed portion disposed in the chamber and configured to bore a hole in a pouch of the lithium ion secondary battery to enable gas generated during the electrical charging of the lithium ion secondary battery to be removed from the pouch, and a sealer configured to seal the pouch after the gas is removed.
Inventor(s): Ho Jin Jung of Bucheon-si (KR) for hyundai motor company
IPC Code(s): H04L9/40, H04L49/351, H04L67/12
CPC Code(s): H04L63/0236
Abstract: an embodiment of an ethernet packet filtering apparatus and a method thereof are disclosed. the ethernet packet filtering apparatus can include ports to which electronic control units (ecus) in a vehicle are connected, and a controller that performs a deep pocket inspection (dpi) on ethernet packets of a data link level received through the ports, that detects an ethernet packet requesting a specific service among unified diagnostic services (uds), and that filters the detected ethernet packet.
Inventor(s): Yong Jo Ahn of Seoul (KR) for hyundai motor company, Jong Seok Lee of Seoul (KR) for hyundai motor company, Jin Heo of Yongin-si (KR) for hyundai motor company, Seung Wook Park of Yongin-si (KR) for hyundai motor company
IPC Code(s): H04N19/13, H04N19/124, H04N19/172, H04N19/177, H04N19/436, H04N19/463
CPC Code(s): H04N19/13
Abstract: a video coding method and an apparatus initialize a context model of context-based adaptive binary arithmetic coding (cabac) by using context information at a predetermined location in a previously reconstructed picture to increase video coding efficiency and enhance video quality. or, the video coding method and the apparatus initialize a context model of cabac by using context information at a predetermined location in a corresponding parallelization unit within the previously reconstructed picture.
Inventor(s): Je Won Kang of Seoul (KR) for hyundai motor company, Jung Kyung Lee of Seoul (KR) for hyundai motor company, Jin Heo of Yongin-si (KR) for hyundai motor company, Seung Wook Park of Yongin-si (KR) for hyundai motor company
IPC Code(s): H04N19/82, H04N19/105, H04N19/109, H04N19/117, H04N19/132, H04N19/147, H04N19/176, H04N19/30, H04N19/42, H04N19/503
CPC Code(s): H04N19/82
Abstract: a method and an apparatus for video coding using a super-resolution in-loop filter utilize an in-loop filter based on upsampling or super-resolution techniques in processing a video signal through downsampling to the compression and upsampling to the reconstruction thereof. the video decoding method includes obtaining the reconstructed frame, obtaining a scale value representing a resolution difference between the reconstructed frame and the original frame, generating, based on the scale value, an upsampled reconstructed frame by inputting the reconstructed frame into a resampling in-loop filter that is deep learning-based, and storing an output frame as a reference frame once generated by the plurality of filters and the resampling in-loop filter in a decoded picture buffer (dpb).
HYUNDAI MOTOR COMPANY patent applications on December 19th, 2024
- HYUNDAI MOTOR COMPANY
- B25J9/16
- B25J13/08
- B25J15/00
- B25J19/02
- CPC B25J9/1612
- Hyundai motor company
- B60H1/00
- CPC B60H1/00878
- B60H1/32
- CPC B60H1/00899
- CPC B60H1/3229
- B60J1/20
- CPC B60J1/2022
- CPC B60J1/2086
- B60L3/04
- B60L3/00
- B60L58/12
- B60W50/02
- B60W50/029
- B60W60/00
- CPC B60L3/04
- B60L7/26
- CPC B60L7/26
- B60L15/20
- CPC B60L15/2036
- B60L58/27
- H01M10/615
- H01M10/625
- H01M10/635
- CPC B60L58/27
- B60N2/75
- CPC B60N2/773
- B60N2/90
- CPC B60N2/976
- B60R7/04
- CPC B60R7/04
- B60R25/24
- CPC B60R25/245
- B60T7/22
- B60T17/22
- CPC B60T7/22
- B60W30/09
- B60W30/095
- B60W30/10
- B60W30/14
- CPC B60W30/09
- B60W40/06
- CPC B60W40/06
- B60W50/04
- B60R16/023
- B60W10/02
- B60W10/04
- CPC B60W50/045
- B60W50/14
- G10L13/04
- CPC B60W50/14
- B60L58/13
- B60W30/182
- B60W40/02
- B60W40/08
- B60W50/08
- CPC B60W60/0018
- B62D25/02
- B62D25/04
- CPC B62D25/025
- B62D25/20
- CPC B62D25/20
- C08K3/40
- C08K7/02
- C08L23/12
- C08L23/16
- C08L23/20
- CPC C08K3/40
- C25B13/02
- C25B9/23
- CPC C25B13/02
- F17C1/12
- H01M8/04082
- CPC F17C1/12
- F17C5/00
- F17C5/06
- CPC F17C5/007
- F21S41/20
- F21S41/141
- F21V5/04
- CPC F21S41/285
- G01K13/02
- G01K1/02
- CPC G01K13/026
- G01R31/388
- B60L58/18
- CPC G01R31/388
- G02B6/42
- F21V8/00
- F21V14/00
- F21V14/08
- CPC G02B6/4298
- G05G9/047
- B60K26/02
- B60T7/08
- B62D1/12
- G05G5/05
- CPC G05G9/047
- G06F3/0482
- B60Q9/00
- G06Q50/26
- G07C5/08
- CPC G06F3/0482
- G06F21/32
- G06F21/62
- G06V20/56
- CPC G06F21/32
- H04N5/52
- CPC G06V20/588
- G10K11/175
- G01P15/00
- G06F3/16
- G10L25/18
- G10L25/30
- G10L25/51
- CPC G10K11/1754
- H01L23/48
- H01L23/00
- H01L23/498
- H01L23/64
- CPC H01L23/647
- H01M4/62
- B01F23/60
- B01F23/80
- G01N19/00
- H01M4/131
- H01M4/1391
- H01M4/505
- H01M4/525
- H01M10/0525
- H01M10/0562
- CPC H01M4/623
- H01M4/70
- H01M10/052
- CPC H01M4/70
- H01M8/1004
- H01M4/86
- H01M4/88
- H01M8/0297
- CPC H01M8/1004
- H01M8/248
- H01M8/2475
- CPC H01M8/248
- CPC H01M10/0562
- H01M10/44
- CPC H01M10/443
- H04L9/40
- H04L49/351
- H04L67/12
- CPC H04L63/0236
- H04N19/13
- H04N19/124
- H04N19/172
- H04N19/177
- H04N19/436
- H04N19/463
- CPC H04N19/13
- H04N19/82
- H04N19/105
- H04N19/109
- H04N19/117
- H04N19/132
- H04N19/147
- H04N19/176
- H04N19/30
- H04N19/42
- H04N19/503
- CPC H04N19/82
