A user system for a robotic surgical system, the user system including a handheld groundless user interface device configured to control the robotic surgical system, and a user console. The user console includes a seat and a first adjustable, ergonomic arm support linkage coupled to the seat, in which the first arm support linkage is movable between a folded storage configuration and at least one unfolded use configuration corresponding to at least one of a user characteristic and a surgical task characteristic. The at least one unfolded use configuration may be pre-stored in a database.

A user system for a robotic surgical system, the user system including a handheld groundless user interface device configured to control the robotic surgical system, and a user console. The user console includes a seat and a first adjustable, ergonomic arm support linkage coupled to the seat, in which the first arm support linkage is movable between a folded storage configuration and at least one unfolded use configuration corresponding to at least one of a user characteristic and a surgical task characteristic. The at least one unfolded use configuration may be pre-stored in a database.

An apparatus that supports a user in a variety of positions to comfortably perform tasks, such as applying one or more tattoos to skin of a subject is herein disclosed. The apparatus can be reconfigured to optimally position and support the arms and/or chest of the user. A method for using a stool can involve rotating armrests of the apparatus from a stowed position to a deployed position. The armrests can support the user's forearms while supporting the user's chest such that the user can comfortably perform tasks in front of a chest support of the stool.

A hospital bed includes a bed portion, a frame supporting the bed portion, and a seating system connected to the frame and including a seat component. The seating system is moveable between a stored state in which the seat component is at least parrtially located within an expanse of the frame, and a seating position in which the seat component is spaced apart from the frame for seating on the seat component. The seating system may include a rotating joint and a lateral bar that extends from the joint to a seat support so the seat component can be rotated away from the frame, in either a single pivot configuration, or double pivot configuration with multiple lateral bar segments and rotating joints. The seating system may include a flip seat design in which a seat component is moved out of the stored state and rotated to the seating position.

A hospital bed includes a bed portion, a frame supporting the bed portion, and a seating system connected to the frame and including a seat component. The seating system is moveable between a stored state in which the seat component is at least parrtially located within an expanse of the frame, and a seating position in which the seat component is spaced apart from the frame for seating on the seat component. The seating system may include a rotating joint and a lateral bar that extends from the joint to a seat support so the seat component can be rotated away from the frame, in either a single pivot configuration, or double pivot configuration with multiple lateral bar segments and rotating joints. The seating system may include a flip seat design in which a seat component is moved out of the stored state and rotated to the seating position.

Disclosed is a console for operating an actuating mechanism, relating to the technical filed of automatic control, and being for use in resolving the technical problem of shift of a controller under the influence of gravity. The console for operating an actuating mechanism includes a controller and a support base. The controller is constrained in both the longitudinal direction and the vertical direction, so that connection between the controller and the support base is tight and reliable, and no displacement would occur in any of three directions (i.e., the longitudinal direction, the horizontal direction, and the vertical direction). Thus, the phenomenon that position information given by the controller is inaccurate due to shift of the controller under the influence of the gravity after long-term usage can be avoided, thereby removing the factors affecting success of surgery, and ensuring the success rate of the surgery.

A weight-distributing exoskeleton capable of supporting and/or control the distribution of at least part of the weight of a protective garment and/or face shield proximate the knee of the user. The exoskeleton may include a plurality of leg structures, each leg structure including a knee joint or knee hinge configured to bear the load of the protective garment, and a foot member including a magnetic quick release mechanism configured to control quickly engage with and release from the leg structures. The weight of the protective garment and/or face shield is transferred to the floor such that the user bears little to no burden of carrying it.

A weight-distributing exoskeleton capable of supporting and/or control the distribution of at least part of the weight of a protective garment and/or face shield proximate the knee of the user. The exoskeleton may include a plurality of leg structures, each leg structure including a knee joint or knee hinge configured to bear the load of the protective garment, and a foot member including a magnetic quick release mechanism configured to control quickly engage with and release from the leg structures. The weight of the protective garment and/or face shield is transferred to the floor such that the user bears little to no burden of carrying it.

The present invention comprises a device for supporting at least one arm of a user, wherein the device has at least one main body (2) for arranging on a torso (4) of the user and at least one supporting device (8) for supporting the arm, wherein the supporting device (8) is arranged on the main body (2) via at least one joint (10) so that it can be moved relative to the main body (2),
wherein, in every position within a predetermined position range of the supporting system (8) relative to the main body (2), the joint (10) allows a movement of the supporting system (8) relative to the main body (2) in a first direction and prevents a movement in an opposite second direction.

The present invention comprises a device for supporting at least one arm of a user, wherein the device has at least one main body (2) for arranging on a torso (4) of the user and at least one supporting device (8) for supporting the arm, wherein the supporting device (8) is arranged on the main body (2) via at least one joint (10) so that it can be moved relative to the main body (2),
wherein, in every position within a predetermined position range of the supporting system (8) relative to the main body (2), the joint (10) allows a movement of the supporting system (8) relative to the main body (2) in a first direction and prevents a movement in an opposite second direction.