A layered, laminated glove includes an outer layer, a membrane formed from a liquid-resistant, air permeable material positioned on an inner surface of the outer layer and a liner formed from a moisture absorbing material. The liner is positioned on an inner surface of the membrane. The outer layer, membrane and liner are laminated to form a single glove. The glove includes a plurality of fingertip portions in which the outer layer, membrane and liner are substantially fully laminated throughout. The glove may include a 3D pattern formed in one or more layers of the laminate. The glove may include an enlarged knuckle section. A hand mold and system for making the gloves and a method are also disclosed.

The present invention relates to a novel better grip glove. The device is designed to fill the gap or space between the palm of the hand and the handle or other equipment to increase swing speed and improve other mechanics. The glove includes a specialized glove and a wedge-like insert that extends over the thumb and onto the palm of the hand. The insert conforms to the user's hand and the handle. The insert component is thicker near the thumb and first finger and decreases in thickness as it approaches the palm of the hand. Users can easily place the specialized batting glove on the hand to eliminate the gap between the hand and the handle to improve mechanics.

An ambidextrous or hand-specific glove including a wrist region, a palm region, and a digit region. The glove may be fabricated of nitrile rubber that is free of or essentially free of zinc, sulfur and accelerators to reduce allergic reactions in populations required to frequently wear protective gloves. A band region that partially or fully encircles a user's finger knuckles may be provided for easier finger bending. Texturing may be provided on glove surfaces that are used to grip articles. The fingertip regions on the front surface of the index and middle finger regions may be un-textured or smooth to enable a user to take a patient's pulse. These fingertip regions may be of reduced or smaller diameter and circumference so as to pull the glove material tightly around the tips of the user's finger and thereby applying pressure thereto so that even a faint pulse in a patient may be detected.

A glove has a palm side and a back side joined at a side edge to form a glove body. The palm side and the back side are constructed from a stretch material. Panels attach to the stretch material on the palm side to form finger parts, palm parts and a back part. The panels are separated from each other by the stretch material to allow relative movement. Elastic bands attached to the panels on the back side adjust the fit. A thumb part has a gusset of the stretch material. Grip surfaces have an embossed texture with indentations.

The described invention relates to an ambidextrous working glove having fish scale-textured inner and outer surfaces and methods of making same.

A glove is disclosed having a donning assister to enable a wearer of the glove to quickly and easily don a glove on a wearer's hand. In one embodiment, the glove includes a wrist cuff portion, a hem portion positioned at a base of the wrist cuff portion, an at least partially enclosed space formed within the hem portion, and a gripper positioned in the at least partially enclosed space. The at least partially enclosed space is defined by hem stitches and by a pair of laterally opposed stitches positioned on the palm side of the glove anywhere along a circumference of the hem portion between a thumb of the glove on one end and a pinky finger of the glove on the other end.

A layered, laminated glove includes an outer layer, a membrane formed from a liquid-resistant, air permeable material positioned on an inner surface of the outer layer and a liner formed from a moisture absorbing material. The liner is positioned on an inner surface of the membrane. The outer layer, membrane and liner are laminated to form a single glove. The glove includes a plurality of fingertip portions in which the outer layer, membrane and liner are substantially fully laminated throughout. The glove may include a 3D pattern formed in one or more layers of the laminate. The glove may include an enlarged knuckle section. A hand mold and system for making the gloves and a method are also disclosed.

The present disclosure relates to a glove with both flock-lined and unlined interior surfaces The glove generally comprises a hand region including a palm portion and a dorsal portion; a thumb region and four individual digit regions projecting away from one end of the hand region; and a cuff region extending outwardly from another end of the hand region opposing to the thumb region and the four individual digit regions. The cuff region terminates to a terminal end defining an opening for insertion of a user hand therein. Preferably, the hand region comprises flock lining on at least the interior surface of the palm portion or one or more selected areas on the interior surface of the palm portion. The cuff region is free from having any flock lining.

A glove includes a body portion defining a space to receive a body portion of a hand, and a plurality of digit portions extending from the body portion, including a set of finger portions and a thumb portion, wherein each digit portion defines an elongated digit receiving space. For each finger portion, the plurality of annular ribs is located along a rib section of the finger portion, wherein the rib section of the finger portion has a rib section length that is no more than thirty-three percent of the full length of the finger portion. An end section of each finger portion lacks any annular ribs.

An ambidextrous or hand-specific glove including a wrist region, a palm region, and a digit region. The glove may be fabricated of nitrile rubber that is free of or essentially free of zinc, sulfur and accelerators to reduce allergic reactions in populations required to frequently wear protective gloves. A band region that partially or fully encircles a user's finger knuckles may be provided for easier finger bending. Texturing may be provided on glove surfaces that are used to grip articles. The fingertip regions on the front surface of the index and middle finger regions may be un-textured or smooth to enable a user to take a patient's pulse. These fingertip regions may be of reduced or smaller diameter and circumference so as to pull the glove material tightly around the tips of the user's finger and thereby applying pressure thereto so that even a faint pulse in a patient may be detected.