A fingerless computer input glove that can slide easily on a mouse pad, thereby enabling longer game play and longer work sessions using a computer mouse or trackball, without discomfort or fatigue. The fingerless computer input glove employs various sizes and numbers of glides to enable each user to customize the glove according to one's individual style of use, such as adjusting wrist angle. The fingerless computer input glove includes a palm panel having an attachment surface, a back panel joined to the palm panel, a thumb opening portion joined to both the palm panel and to the back panel, a wrist portion joined to the palm panel and to the back panel, the wrist portion having a wrist securement strap, and at least one glide attachable to the attachment surface of the palm panel OR a neoprene rubber pad attachable to the attachment surface of the palm panel.

A thumb brace comprising a glove having a thumb portion disposed between a palm side and a back side and comprising a first attachment region positioned adjacent a base of the thumb portion and a second attachment region positioned on the back side of the glove; a first elastic strap whereby the first strap extends a distal end of a thumb metacarpal bone of a user of the brace; a second elastic strap having a first end attached to the palm side of the glove and the second end releasably attached to the second attachment region, whereby the second strap reduces a proximal end of a thumb metacarpal bone of a user of the brace; and a pad attached to the glove such that the pad cushions a CMC joint of the user of the brace from impact.

Universal Finger Blinds: a bottomless, adjustable, portable covering for the hands and fingers purposed to obstruct the hands and fingers from view to operate and develop necessary skills for muscle memory to manipulate equipment including but not limited to: keyboards, typewriters, computing and calculating devices or for various dexterity skills that require obstructed vision of the hands and fingers. One may desire to look at the fingers to assure proper placement. Instead the goal should be avoid looking at the hands and fingers, yet achieve proper finger placement. The present invention results with a hand and finger covering that stays in place while in use, covers the hand surface without clashing the left and right hands, and fits comfortably to the user's wrist. Such use will allow a proprioceptive occurrence leaving the eyes to focus on written material while hands and fingers achieve muscle memory resulting with proper finger placement.

A glove comprises an upper surface, a lower surface, finger sheaths, a thumb sheath, and movement control members associated with the finger sheaths to prevent the finger sheaths from moving into a linear extended position, while allowing the finger sheaths to be in a curved position or a clenched position.

A releasable gripping glove is provided having one or more flexible artificial tendons extending through a finger section of a glove body. The flexible artificial tendon is configured to maintain a structurally articulated configuration when the finger section is articulated. Each tendon includes locking teeth that engages with a releasable locking tab extending form a locking mechanism configured to engage the locking teeth when the finger section is articulated. A release mechanism is provided to engage and disengage the locking mechanism. A thumb release rod is positioned within a thumb portion and connected to the release mechanism. The articulating of the finger section releasably locks the flexible artificial tendon in the articulated position, which is releasable through relaxing of the thumb portion.

A grip strengthening device having a finger portion for enhancing the grip by means of at least one artificial tendon arranged along at least one finger portion, wherein the finger portion comprises material along both sides and a tip, and possible along a dorsal side, the at least one artificial tendon is attached along both sides so that the artificial tendon may move, wherein the artificial tendon runs closer to a ventral side than the dorsal side of the finger portion, at least at positions corresponding to joints of a wearer's finger, the finger portion will transfer a force to provide a movement of the finger when the artificial tendon is retracted, wherein the artificial tendon runs in a detour towards or to a position in the middle between the dorsal and ventral side or closer to the dorsal side at a proximal portion of the finger portion.

Control system (200) for a strengthening glove (100) with fingers (101-105), comprising a force detecting sensor means (210) for detecting, at different measurement locations (211-218) on the palm side (106) of said glove fingers, a respective force between a finger (11-15) and a contact surface, further arranged to impart a force to respective glove fingers, bending them towards a gripping position, further arranged to read measurement values from the strengthening feedback loop based upon the measurement values. The invention is characterised in that a predetermined pattern is detected, comprising certain measurement values, in that, when the said pattern is not detected and the actuating means are controlled according to a first program, and further when the said pattern is detected, they are controlled according to a second program, which first and second programs are different.

Method and apparatus for a mitt for attachment to a hand of a user to facilitate the shucking of an oyster. The mitt is made of strong flexible material and includes a flat palm pad portion having a plurality of finger loops attached thereto so that the fingers of the hand of a user can be placed through the loops so that the palm pad portion can be held securely to the hand of the user. The palm pad includes a rear portion disposed near a wrist of a user having an adjustable strap attached thereto which encircles the wrist of the user for securing the mitt to the hand of the user and includes hook and loop material. A reinforcing planar member is attached to an underside of the palm pad portion for reinforcing the palm pad portion and for contacting and gripping the shell of an oyster.

The resistance exercise glove is a therapeutic device and a garment worn on a hand. The resistance exercise glove exercises the hand by providing an opposing force that works against the movement of the hand. The opposing force provides a resistance based therapeutic exercise that strengthens the hand. The resistance exercise glove comprises a glove, a plurality of resistance bands, a pocket, and a squeeze device. The glove is further defined with a front side, a rear side, and an opening. The hand inserts into the glove through the opening. The plurality of resistance bands attach to the rear side of the glove such that each of the resistance bands opposes the bending of a finger. The pocket is formed on the front side of the glove. The pocket contains the squeeze device. The squeeze device is an elastomeric device that opposes the squeezing motion of the hand.

A glove having tendons, substantially as shown and described in connection with at least one of the figures, as set forth more completely in the claims, is provided. In some embodiments, a glove system capable of assisting a user may include a first knitted glove having at least one finger or thumb having at least one force detecting sensor and a cuff, at least one tendon adhered to a portion of at least one finger or thumb and traversing a length of the at least one finger or thumb to the cuff, at least one actuator attached to the at least one tendon, and at least one controller in electrical communication with the at least one force detecting sensor and the at least one actuator, wherein the at least one tendon undergoes a tensile force pulling the at least one finger or thumb in a closed position upon detection of a force by the at least one force detecting sensor.