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1 US2020140197A1
WAREHOUSING CONTROL SYSTEM AND COMPUTER DEVICE
Publication/Patent Number: US2020140197A1 Publication Date: 2020-05-07 Application Number: 16/677,386 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: B65G1/137 Abstract: The present disclosure provides a warehousing control system and a computer device. The warehousing control system includes: a communication module configured to transmit and receive information; and a warehousing server configured to: plan, upon receiving a container warehousing task via the communication module, a target warehousing area and a target warehousing space corresponding to each container in the container warehousing task, and assign a warehouse hoisting apparatus to hoist a target container carried by a transportation vehicle to a corresponding target warehousing space; and/or assign, upon receiving a container distribution task via the communication module, a warehouse hoisting apparatus to load a target container in the container distribution task onto an assigned transportation vehicle. In this way, intelligent unmanned warehousing can be achieved, such that the operation efficiency of warehousing can be improved and the cost of warehousing management can be reduced.
2 US2020143501A1
INTELLIGENT PORT CONTROL SYSTEM AND RELATED SYSTEMS AND APPARATUSES
Publication/Patent Number: US2020143501A1 Publication Date: 2020-05-07 Application Number: 16/677,415 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: G06Q50/28 Abstract: The present disclosure provides an intelligent port control system and related systems and apparatuses, capable of achieving fully automated ship loading and unloading. The intelligent port control system includes: a scheduling center system configured to determine a ship loading plan based on ship information, container information, and shore crane apparatus information, and generate a ship berthing task, a ship loading task, and a container distribution task based on the ship loading plan, for transmitting to a ship control system of a target ship, a shore crane control system of a target shore crane apparatus, and a warehouse management system of a warehouse center, respectively; the ship control system configured to control the target ship to move to an operation area corresponding to the target shore crane apparatus; the shore crane control system configured to control the target shore crane apparatus to load a container on a transportation vehicle onto the target ship; the warehouse management system configured to assign a warehouse hoisting apparatus to hoist a target container in the container distribution task onto the transportation vehicle; and a vehicle control system configured to control the transportation vehicle to move to a container loading location for loading the container, and to control the transportation vehicle to move to a container unloading location for unloading the container.
3 US2020143502A1
GOODS TRANSPORTATION CONTROL SYSTEM AND RELATED SYSTEMS AND APPARATUSES
Publication/Patent Number: US2020143502A1 Publication Date: 2020-05-07 Application Number: 16/677,479 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: G06Q50/28 Abstract: The present disclosure provides a goods transportation control system and related systems and apparatuses, capable of achieving automated storage, distribution and transportation of containers in ship loading and unloading operations at a port. The goods transportation control system includes: a scheduling system configured to generate a container loading task and a container storage task based on a ship unloading plan, and transmit the container loading task and the container storage task to a vehicle control system of a transportation vehicle and a warehouse management system of a warehouse center, respectively; the vehicle control system configured to control, upon receiving the container loading task, the transportation vehicle to move from a current location to a container loading location in the container loading task for loading a container, and to control, upon receiving a container unloading task, the transportation vehicle to move from the current location to a container unloading location in the container unloading task for unloading a container; and the warehouse management system configured to assign, upon receiving the container storage task, a warehouse hoisting apparatus to hoist each target container carried by the transportation vehicle to a corresponding storage location in accordance with the container storage task.
4 US2020140242A1
SHIP UNLOADING CONTROL SYSTEM, SHIP LOADING CONTROL SYSTEM, AND RELATED SYSTEMS AND APPARATUSES
Publication/Patent Number: US2020140242A1 Publication Date: 2020-05-07 Application Number: 16/677,436 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: B66C13/48 Abstract: The present disclosure provides a ship unloading control system, a ship loading control system and related systems and apparatuses, capable of achieving fully automated ship loading and unloading. The ship unloading control system includes: a scheduling center system configured to generate a ship unloading plan based on ship information and container information of a target ship and shore crane apparatus information, generate a ship berthing task and a ship unloading task based on the ship unloading plan, and transmit the ship berthing task and the ship unloading task to a ship control system of the target ship and a shore crane control system of a target shore crane apparatus, respectively; the ship control system configured to transmit the ship information and the container information to the scheduling center system, control the target ship to move to an operation area corresponding to the target shore crane apparatus in accordance with the received ship berthing task, and transmit a ship in-position notification message to the shore crane control system of the target shore crane apparatus; and the shore crane control system configured to control, upon receiving the ship in-position notification message from the ship control system, the target shore crane apparatus to load a container on the target ship onto a transportation vehicle in accordance with the ship unloading task.
5 US2020143312A1
INTELLIGENT PORT CONTROL SYSTEM AND RELATED SYSTEMS AND APPARATUSES
Publication/Patent Number: US2020143312A1 Publication Date: 2020-05-07 Application Number: 16/677,359 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: G06Q10/08 Abstract: The present disclosure provides an intelligent port control system and related systems and apparatuses. The intelligent port control system includes: a scheduling center system configured to generate a ship unloading plan, generate a ship berthing task and a ship unloading task based on the ship unloading plan, and transmit the ship berthing task and the ship unloading task to a ship control system of a target ship and a shore crane control system of a target shore crane apparatus, respectively; the ship control system configured to transmit the ship information and the container information to the scheduling center system, and control the target ship to move to an operation area corresponding to the target shore crane apparatus; the shore crane control system configured to control the target shore crane apparatus to load the container on the target ship onto a transportation vehicle in accordance with the ship unloading task; a warehouse management system configured to assign a warehouse hoisting apparatus to hoist each target container carried by the transportation vehicle to a corresponding storage location in accordance with a container storage task; and a vehicle control system configured to control the transportation vehicle to move to a container loading location for loading the container, and to control the transportation vehicle to move to a container unloading location for unloading the container.
6 US2020140241A1
SYSTEM AND METHOD FOR CONTROLLING MOBILE HOISTING APPARATUS, SERVER AND MOBILE HOISTING APPARATUS
Publication/Patent Number: US2020140241A1 Publication Date: 2020-05-07 Application Number: 16/677,463 Filing Date: 2019-11-07 Inventor: Yan chao   Assignee: Shanghai Tusen Weilai Artificial Intelligence Technology Co., Ltd.   IPC: B66C13/46 Abstract: The present disclosure provides a system for controlling a mobile hoisting apparatus, a method for controlling a mobile hoisting apparatus, a server, and a mobile hoisting apparatus, capable of improving efficiency and reducing cost of hoisting operations. The system for controlling a mobile hoisting apparatus includes: an environment sensing module configured to detect environment information, and transmit the environment information to a server; a positioning module configured to determine a location of the mobile hoisting apparatus to obtain location information of the mobile hoisting apparatus, and transmit the location information to the server; and the server configured to plan a travel route from a current location of the mobile hoisting apparatus to a hoisting operation location of the mobile hoisting apparatus, determine a perception result based on the environment information, determine travel decision information based on the perception result and the travel route, control the mobile hoisting apparatus to move to the hoisting operation location along the travel route based on the travel decision information, and control, at the hoisting operation location, a hoisting arm of the mobile hoisting apparatus to place goods to be transported to a corresponding target location.
7 US2020343749A1
PORTABLE CHARGING DEVICE AND CHARGING CONNECTOR
Publication/Patent Number: US2020343749A1 Publication Date: 2020-10-29 Application Number: 16/817,622 Filing Date: 2020-03-13 Inventor: Yan chao   An, Jingsheng   Assignee: Delta Electronics (Shanghai) Co., Ltd.   IPC: H02J7/00 Abstract: The present disclosure provides a portable charging device and a charging connector, which relates to the technical field of charging devices. The portable charging device comprises an adapter main body; multiple input wires, a head end of each of the multiple input wires is assembled with a power plug, and a tail end of each of the multiple input wires is assembled to the adapter main body; and at least one output wire, a head end of each output wire is assembled to the adapter main body, and a tail end of each output wire is assembled with a charging terminal; where the power plug is inserted into a corresponding power socket for acquiring electrical power from the power socket; and the charging terminal is connected to a device to be charged for charging the device.
8 EP3734796A1
PORTABLE CHARGING DEVICE AND CHARGING CONNECTOR
Publication/Patent Number: EP3734796A1 Publication Date: 2020-11-04 Application Number: 20165667.5 Filing Date: 2020-03-25 Inventor: Yan chao   An, Jingsheng   Assignee: Delta Electronics (Shanghai) Co., Ltd.   IPC: H02J7/02 Abstract: The present invention provides a portable charging device and a charging connector, which relates to the technical field of charging devices. Among them, the portable charging device (1) comprises an adapter main body (11); multiple input wires (12), a head end of each of the multiple input wires is assembled with a power plug (121a, 121b), and a tail end of each of the multiple input wires is assembled to the adapter main body (11); and at least one output wire (13), a head end of each output wire is assembled to the adapter main body (11), and a tail end of each output wire is assembled with a charging terminal (131); where the power plug (121a, 121b) is inserted into a corresponding power socket for acquiring electrical power from the power socket; and the charging terminal (131) is connected to a device to be charged for charging the device. In such an arrangement, it is advantageous that the adapter main body (11) is electrically connected to a power socket through at least part of the multiple input wires (12), thereby facilitating the increase of the maximum transmission power of the portable charging device (1), facilitating the increase of the charging speed of the device to be charged, facilitating shortening the time required for charging the device to be charged, and in turn, facilitating reducing the time for the user to wait for charging.
9 EP3629457A1
POWER MODULE
Publication/Patent Number: EP3629457A1 Publication Date: 2020-04-01 Application Number: 19197684.4 Filing Date: 2019-09-17 Inventor: Yan chao   Sun, Liping   Assignee: Delta Electronics, Inc.   IPC: H02M1/12 Abstract: The present disclosure provides power module (M), comprising at least three non-jumping power terminals (IN+, IN-, OUT) at a non-jumping potential, wherein multiple power devices (Qi, Q2) and at least one first capacitor (C1) are electrically connected between a first non-jumping power terminal (IN+) and a second non-jumping power terminal (IN-) of the at least three non-jumping power terminals; and at least one jumping power terminal at a jumping potential. A first jumping power terminal (AC) of the at least one jumping power terminal is electrically connected to one terminal of a power inductor and a third non-jumping power terminal (OUT) of the at least three non-jumping power terminals (IN+, IN-, OUT) is electrically connected to the other terminal of the power inductor; wherein at least one second capacitor (C2) is electrically connected between the third non-jumping power terminal (OUT) and at least one of other non-jumping power terminals (IN+, IN-).
10 US2020099289A1
POWER MODULE
Publication/Patent Number: US2020099289A1 Publication Date: 2020-03-26 Application Number: 16/558,162 Filing Date: 2019-09-02 Inventor: Yan chao   Sun, Liping   Assignee: Delta Electronics, Inc.   IPC: H02M1/44 Abstract: The present disclosure provides power module, comprising at least three non-jumping power terminals at a non-jumping potential, wherein multiple power devices and at least one first capacitor are electrically connected between a first non-jumping power terminal and a second non-jumping power terminal of the at least three non-jumping power terminals; and at least one jumping power terminal at a jumping potential. A first jumping power terminal of the at least one jumping power terminal is electrically connected to one terminal of a power inductor and a third non-jumping power terminal of the at least three non-jumping power terminals is electrically connected to the other terminal of the power inductor; wherein at least one second capacitor is electrically connected between the third non-jumping power terminal and at least one of other non-jumping power terminals.
11 US10811958B2
Water-cooling power supply module
Publication/Patent Number: US10811958B2 Publication Date: 2020-10-20 Application Number: 16/258,803 Filing Date: 2019-01-28 Inventor: Yan chao   Sun, Liping   Pang, Gemin   Zhu, Jian   Assignee: Delta Electronics (Shanghai) CO., LTD   IPC: H02M1/44 Abstract: The invention provides a water-cooling power supply module, comprising: a water-cooling plate; a power supply module disposed on the water-cooling plate, comprising: a capacitor module, a power module, a plurality of inductor modules and input/output filter module arranged in sequence on the surface of the water-cooling plate, and a control module disposed above the capacitor module or the power module at least used for controlling the power module; wherein water channels in the water-cooling plate are designed such that the cooling water flows through the power module, the inductor modules and the input/output filter module in sequence.
12 US10818571B2
Packaging structure for power module
Publication/Patent Number: US10818571B2 Publication Date: 2020-10-27 Application Number: 16/550,279 Filing Date: 2019-08-25 Inventor: Yan chao   Lu, Yiwen   Liu, Jun   Assignee: DELTA ELECTRONICS (SHANGHAI) CO., LTD.   IPC: H01L23/367 Abstract: The present application discloses a packaging structure for a power module, comprising: a heat dissipation substrate; at least one first power device disposed on a first substrate having an insulating layer, the first substrate disposed on the heat dissipating substrate; and at least one second power device including a jumping electrode having a jumping potential, wherein the at least one second power device is disposed on at least one second substrate having an insulating layer, and the at least one second substrate is disposed on the first substrate, to reduce a parasitic capacitance between the jumping electrode and the heat dissipation substrate. The packaging structure for the power module according to the present application can reduce the parasitic capacitance between the jumping electrode of the power module and the heat dissipation substrate, thereby greatly reducing the EMI noise of the power module in operation.
13 US2020336081A1
POWER SUPPLY DEVICE, CHARGING SYSTEM AND CHARGE SCHEDULING METHOD
Publication/Patent Number: US2020336081A1 Publication Date: 2020-10-22 Application Number: 16/851,095 Filing Date: 2020-04-17 Inventor: Yan chao   Wu, Hongyang   Sun, Liping   Ni, Jianjun   Assignee: Delta Electronics (Shanghai) Co., Ltd.   IPC: H02M7/217 Abstract: The power supply device includes a first winding, a second winding, a third winding, a fourth winding, a first AC-DC conversion unit, a second AC-DC conversion unit, a first power supply terminal and a second power supply terminal. The first and second windings are disposed on a secondary side of a multi-pulse transformer, and coupled to an input of the first AC-DC conversion unit. The first power supply terminal is coupled to an output of the first AC-DC conversion unit. The third and fourth windings are disposed on the secondary side of the multi-pulse transformer, and coupled to an input of the second AC-DC conversion unit. The second power supply terminal is coupled to an output of the second AC-DC conversion unit. Phases of output voltages of the first winding, the third winding, the second winding and the fourth winding are successively shifted left or successively shifted right for 15°.
14 US2020339864A1
NANOPARTICLE CARRIER PLATFORM AND METHODS FOR CONTROLLED RELEASE OF SUBTERRANEAN WELL TREATMENT ADDITIVES
Publication/Patent Number: US2020339864A1 Publication Date: 2020-10-29 Application Number: 16/811,128 Filing Date: 2020-03-06 Inventor: Yan chao   Tomson, Ross   Guraieb, Paula   Ghorbani, Nasser   Assignee: Tomson Technologies   IPC: C09K8/536 Abstract: Nano-sized mixed metal oxide carriers capable of delivering a well treatment additive for a sustained or extended period of time in the environment of use, methods of making the nanoparticles, and uses thereof are described herein. The nanoparticles can have a formula of: A/[Mx1My2Mz3]OnHm where x is 0.03 to 3, y is 0.01 to 0.4, z is 0.01 to 0.4 and n and m are determined by the oxidation states of the other elements, and M1 can be aluminum (Al), gallium (Ga), indium (In), or thallium (Tl). M2 and M3 are not the same and can be a Column 2 metal, Column 14 metal, or a transition metal. A is can be a treatment additive.
15 US2020161207A1
PACKAGING STRUCTURE FOR POWER MODULE
Publication/Patent Number: US2020161207A1 Publication Date: 2020-05-21 Application Number: 16/550,279 Filing Date: 2019-08-25 Inventor: Yan chao   Lu, Yiwen   Liu, Jun   Assignee: Delta Electronics (Shanghai) Co.,Ltd.   IPC: H01L23/367 Abstract: The present application discloses a packaging structure for a power module, comprising: a heat dissipation substrate; at least one first power device disposed on a first substrate having an insulating layer, the first substrate disposed on the heat dissipating substrate; and at least one second power device including a jumping electrode having a jumping potential, wherein the at least one second power device is disposed on at least one second substrate having an insulating layer, and the at least one second substrate is disposed on the first substrate, to reduce a parasitic capacitance between the jumping electrode and the heat dissipation substrate. The packaging structure for the power module according to the present application can reduce the parasitic capacitance between the jumping electrode of the power module and the heat dissipation substrate, thereby greatly reducing the EMI noise of the power module in operation.
16 EP3654371A1
PACKAGING STRUCTURE FOR POWER MODULE
Publication/Patent Number: EP3654371A1 Publication Date: 2020-05-20 Application Number: 19196854.4 Filing Date: 2019-09-12 Inventor: Yan chao   Lu, Yiwen   Liu, Jun   Assignee: Delta Electronics (Shanghai) Co., Ltd.   IPC: H01L23/373 Abstract: The present application discloses a packaging structure for a power module, comprising: a heat dissipation substrate; at least one first power device disposed on a first substrate having an insulating layer, the first substrate disposed on the heat dissipating substrate; and at least one second power device including a jumping electrode having a jumping potential, wherein the at least one second power device is disposed on at least one second substrate having an insulating layer, and the at least one second substrate is disposed on the first substrate, to reduce a parasitic capacitance between the jumping electrode and the heat dissipation substrate. The packaging structure for the power module according to the present application can reduce the parasitic capacitance between the jumping electrode of the power module and the heat dissipation substrate, thereby greatly reducing the EMI noise of the power module in operation.
17 US2020336000A1
CHARGING DEVICE AND CHARGING CONTROL METHOD
Publication/Patent Number: US2020336000A1 Publication Date: 2020-10-22 Application Number: 16/851,073 Filing Date: 2020-04-16 Inventor: Yan chao   Wu, Hongyang   Sun, Liping   Lu, Yiwen   Assignee: Delta Electronics (Shanghai) Co., Ltd.   IPC: H02J7/04 Abstract: The present disclosure provides a charging device and a charging control method, and the device includes a transformer, a charger, an energy regulator, and a controller; the primary winding of the transformer is connected to the power distribution network, the power distribution network provides a first input power for the charging device; the secondary winding of the transformer is connected to an AC side of the charger and the AC side of the energy regulator respectively; the power required on the AC side of the charger is a second input power; the controller is connected to the energy regulator to control the AC side current of the energy regulator, so as to compensate the power difference between the second input power and the first input power.
18 US2020328535A1
FLEXIBLE FLAT CABLE ASSEMBLY AND BATTERY PACK CONNECTING ASSEMBLY
Publication/Patent Number: US2020328535A1 Publication Date: 2020-10-15 Application Number: 16/841,730 Filing Date: 2020-04-07 Inventor: Yan chao   Peng, Xiaodong   Li, Ziwei   Assignee: Tyco Electronics Technology (SIP) Co. Ltd.   Tyco Electronics (Shanghai) Co., Ltd.   IPC: H01R4/18 Abstract: The application relates to a flexible flat cable assembly and a battery pack connecting assembly. The flexible flat cable assembly has a flexible flat cable and an adaptor terminal, wherein the flexible flat cable has an insulation sheath, a conductor body wrapped by the insulation sheath, and a connecting end which is provided to be integrated with the conductor body and comprises a connecting portion and a crimping portion extending continuously from the conductor body; the adaptor terminal has a terminal body and a pair of first crimping wings which are disposed on the terminal body and protrude from the terminal body; the crimping portion is in contact with the terminal body, and the first crimping wings surround the crimping portion to form a crimping region in which the crimping portion has a multilayer structure. The present application can ensure a secure connection during use, and is safe and convenient to use.
19 US10619086B2
Nanoparticle carrier platform and methods for controlled release of subterranean well treatment additives
Publication/Patent Number: US10619086B2 Publication Date: 2020-04-14 Application Number: 15/897,250 Filing Date: 2018-02-15 Inventor: Yan chao   Tomson, Ross   Guraieb, Paula   Ghorbani, Nasser   Assignee: TOMSON TECHNOLOGIES   IPC: C09K8/536 Abstract: Nano-sized mixed metal oxide carriers capable of delivering a well treatment additive for a sustained or extended period of time in the environment of use, methods of making the nanoparticles, and uses thereof are described herein. The nanoparticles can have a formula of: A/[Mx1My2Mz3]OnHm where x is 0.03 to 3, y is 0.01 to 0.4, z is 0.01 to 0.4 and n and m are determined by the oxidation states of the other elements, and M1 can be aluminum (Al), gallium (Ga), indium (In), or thallium (Tl). M2 and M3 are not the same and can be a Column 2 metal, Column 14 metal, or a transition metal. A is can be a treatment additive.
20 US2020227838A1
CONNECTED ASSEMBLY
Publication/Patent Number: US2020227838A1 Publication Date: 2020-07-16 Application Number: 16/737,995 Filing Date: 2020-01-09 Inventor: Yan chao   Peng, Xiaodong   Li, Ziwei   Dong, Litao   Xue, Bingjing   Assignee: Tyco Electronics (Shanghai) Co., Ltd.   Tyco Electronics Technology (SIP) Co.,Ltd.   IPC: H01R4/02 Abstract: The present application provides a connected assembly having a first component and a second component. A coating is provided on an upper surface of the first component, wherein the coating has a lower reflectivity than that of the upper surface of the first component; and the second component and the first component are separately molded and connected by welding. The solution provided by the present application improves welding quality between the components of copper materials with a lower cost.