公开(公告)号：US20230397786A1

公开(公告)日：2023-12-14

申请号：US18035377

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： David Stuart COLE ,  Frederick Jack WHITTEN ,  David Christopher James NEWTON ,  Samuel Finistair da Conceicao FOSS

IPC: A47L9/16 ,  A47L9/00 ,  A47L9/24 ,  A47L9/28

CPC classification number: A47L9/165 ,  A47L9/0018 ,  A47L9/009 ,  A47L9/248 ,  A47L9/2884 ,  B25J11/0085

Abstract: A vacuum cleaning system including a robotic unit including a main body, a traction arrangement defining a ground plane, and an articulated arm. The articulated arm includes an upper arm section and a lower arm section, wherein the upper arm section is attached to the main body at a shoulder joint, and wherein the lower arm section is attached to the upper arm section at an elbow joint, and wherein an end effector is defined at a distal end of the lower arm section. The articulated arm is configured such that the end effector is movable angularly about a first axis with respect to the elbow joint and is movable linearly along a second axis with respect to the elbow joint. The vacuum cleaning system equipped with a robotic arm that is able to bend and flex due to the pivotable upper and lower arm portions, but also extend and rotate through the lower arm or ‘forearm’ portion, providing improved dexterity for the machine.

公开(公告)号：US20230404340A1

公开(公告)日：2023-12-21

申请号：US18035098

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： Andrew James SHAW ,  David Christopher James NEWTON ,  David Stuart COLE

IPC: A47L5/22 ,  A47L5/24 ,  A47L9/00 ,  A47L9/16 ,  A47L9/28 ,  A47L9/24 ,  A47L9/02

CPC classification number: A47L5/225 ,  A47L5/24 ,  A47L9/009 ,  A47L9/16 ,  A47L9/2884 ,  A47L9/2857 ,  A47L9/242 ,  A47L9/02 ,  A47L9/248 ,  A47L2201/04 ,  A47L2201/06

Abstract: A vacuum cleaning system including a robotic unit including a traction arrangement, a docking interface and an articulated arm defining an end effector. The end effector includes a suction tool. The robotic unit defines a suction flow path which extends from the suction tool to the docking interface. The system further includes a handheld vacuum cleaner configured to be docked with the docking interface, the handheld vacuum cleaner including a vacuum motor for drawing air through the suction flow path when docked with the docking interface.

公开(公告)号：US20230404339A1

公开(公告)日：2023-12-21

申请号：US18035092

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： Andrew James SHAW ,  David Stuart COLE ,  David Christopher James NEWTON

IPC: A47L5/22 ,  A47L5/24 ,  A47L9/00 ,  A47L9/24 ,  A47L9/32 ,  A47L9/28

CPC classification number: A47L5/225 ,  A47L5/24 ,  A47L9/009 ,  A47L9/248 ,  A47L9/322 ,  A47L9/2884 ,  A47L9/242 ,  A47L2201/00

Abstract: A vacuum cleaning system including a robotic unit including a traction arrangement, a docking interface and an articulated arm defining an end effector. The end effector includes a suction tool. The robotic unit defines a suction flow path which extends from the suction tool to the docking interface. The system further includes a handheld vacuum cleaner configured to be docked with the docking interface, the handheld vacuum cleaner including a vacuum motor for drawing air through the suction flow path when docked with the docking interface.

公开(公告)号：US20140053332A1

公开(公告)日：2014-02-27

申请号：US13973424

申请日：2013-08-22

Applicant: Dyson Technology Limited

Inventor： David Stuart COLE

IPC: E03C1/046

CPC classification number: E03C1/046 ,  A47K5/14 ,  A47K2005/1218 ,  B05B7/0425 ,  B05B7/061 ,  E03C1/0404 ,  E03C1/084

Abstract: A nozzle assembly for a tap, or faucet, including a first nozzle and a second nozzle arranged side by side. The second nozzle has a flared discharge end which flares outwardly in front of the discharge end of the first nozzle so that the two discharge ends overlap. The nozzle assembly may be incorporated as a self-contained nozzle unit for fitting to a faucet. The nozzle assembly is particularly suitable for faucets designed to dispense water and foam soap separately over the basin of a sink.

Abstract translation: 用于龙头或水龙头的喷嘴组件，其包括并排设置的第一喷嘴和第二喷嘴。 第二喷嘴具有扩口排出端，其在第一喷嘴的排出端的前方向外张开，使得两个排出端重叠。 喷嘴组件可以作为独立的喷嘴单元并入，用于装配到水龙头。 喷嘴组件特别适用于设计成将水和泡沫肥皂分开在水槽的盆上分配的水龙头。

公开(公告)号：US20240000276A1

公开(公告)日：2024-01-04

申请号：US18035096

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： David Alan MILLINGTON ,  David Stuart COLE ,  David Christopher James NEWTON

IPC: A47L9/24 ,  A47L5/22 ,  A47L9/32 ,  A47L9/00 ,  A47L5/24

CPC classification number: A47L9/246 ,  A47L5/225 ,  A47L9/322 ,  A47L9/009 ,  A47L5/24 ,  A47L2201/04

Abstract: A vacuum cleaning system including a robotic unit including a traction arrangement that defines a ground plane, and a docking interface for receiving a handheld vacuum cleaner. The docking interface defines a suction port, an electrical port, and a predefined interface geometry. The docking interface is reconfigurable from a first configuration for engaging with a first handheld vacuum cleaner, and a second configuration for engaging with a second handheld vacuum cleaner which is different to the first handheld vacuum cleaner. Conveniently, the system includes a robotic unit or module that is dockable or engageable with multiple handheld vacuum cleaners, thus allowing some flexibility with the type of machine that they are able to use with the robotic unit. This provides a cost effective solution for the user, because if the user upgrades their handheld vacuum cleaner that new handheld vacuum cleaner can still be used with the robotic unit.

公开(公告)号：US20230414051A1

公开(公告)日：2023-12-28

申请号：US18035388

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： Samuel Finistair da Conceicao FOSS ,  Andrew James SHAW ,  David Stuart COLE

IPC: A47L9/24 ,  A47L9/00

CPC classification number: A47L9/242 ,  A47L9/009 ,  A47L9/248 ,  A47L5/225

Abstract: A vacuum cleaning system including a robotic unit including a main body, a traction arrangement defining a ground plane and an articulated arm. The articulated arm includes an upper arm section and a lower arm section, wherein the upper arm section is attached to the main body at a shoulder joint, and wherein the lower arm section is attached to the upper arm section at an elbow joint, and an end effector is defined at a distal end of the lower arm section. The upper arm section includes a pair of generally parallel arm members which are connected between the shoulder joint and the elbow joint and which are configured to define a yoke at the elbow joint at which the lower arm section is connected. The vacuum cleaning system equipped with a robotic arm that is able to bend and flex due to the pivotable upper and lower arm portions and has flexibility in how the robotic arm is driven and how suction is routed through the machine.

公开(公告)号：US20230404338A1

公开(公告)日：2023-12-21

申请号：US18035088

申请日：2021-10-20

Applicant: Dyson Technology Limited

Inventor： David Christopher James NEWTON ,  David Stuart COLE

IPC: A47L5/22 ,  A47L5/24 ,  A47L9/00 ,  A47L9/28 ,  A47L9/32 ,  H01M50/247

CPC classification number: A47L5/225 ,  A47L5/24 ,  A47L9/009 ,  A47L9/2884 ,  A47L9/322 ,  H01M50/247 ,  A47L2201/04 ,  A47L2201/06 ,  H01M2220/30

Abstract: A vacuum cleaning system including a robotic unit including a traction arrangement, and a docking interface for receiving a handheld vacuum cleaner, and a handheld vacuum cleaner configured to be docked with the docking interface. The handheld vacuum cleaner includes a vacuum motor for drawing air through a suction flow path defined by the robot unit when docked with the docking interface. The handheld vacuum cleaner includes a main body from which extends a battery pack. When the handheld vacuum cleaner is docked with the docking interface, it is configured such that the battery pack extends over the top of at least part of the robotic unit. Conveniently, the robotic unit and the handheld vacuum cleaner may share one or more common suction tools, which means that both machines can be optimised for the surfaces they are intended to clean.