A protective glove having a thumb part, an index finger part, a middle finger part, a ring finger part, a pinky finger part, a palm part, a lower body portion and a wrist portion. A finger connection part has a woven layer on which coating is applied and which is configured between the index finger part, the middle finger part, the ring finger part and the palm part.

A wearable article comprising a knitted fabric formed in the shape of a glove. A force sensing element coupled to the fabric, the force sensing element comprising a resistive sensing system and a fluidic sensing system comprising one or more soft tubes coupled to a surface of the wearable glove wherein the resistive and fluid sensing systems correspond to first and second different sensor modalities which are physically decoupled. Control circuitry is coupled to receive signals from both the resistive sensing system and the fluidic sensing system and to combine resistive and fluidic sensing system signals provided thereto to perform at least one of: pose estimation, environment sensing, human state sensing, and static and dynamic task identification.

Gloves are disclosed that are worn by a user while manipulating an electronic device equipped with a capacitive touchscreen. The gloves allow the wearer to manipulate the capacitive touchscreen device without removing the gloves, which is very advantageous in cold environments. The gloves enable full hand functionality, allowing the user to type, swipe, squeeze, pinch, and select on the capacitive touchscreen device as if they were using their bare hand. The gloves are made with a low resistant yarn knit or woven into a comfortable fabric that connects the body's bioelectricity through the glove to a capacitive touchscreen. Ordinary gloves will not work with a capacitive touchscreen. In the manufacturing process, the low resistant yarn is first twisted around at least one other yarn having a specific performance property, such as thermal resistance. This twisting assists in uniform knitting and improves the consistent resistivity of the finished glove.

Gloves are disclosed that are worn by a user while manipulating an electronic device equipped with a capacitive touchscreen. The gloves allow the wearer to manipulate the capacitive touchscreen device without removing the gloves, which is very advantageous in cold environments. The gloves enable full hand functionality, allowing the user to type, swipe, squeeze, pinch, and select on the capacitive touchscreen device as if they were using their bare hand. The gloves are made with a low resistant yarn knit or woven into a comfortable fabric that connects the body's bioelectricity through the glove to a capacitive touchscreen. Ordinary gloves will not work with a capacitive touchscreen. In the manufacturing process, the low resistant yarn is first twisted around at least one other yarn having a specific performance property, such as thermal resistance. This twisting assists in uniform knitting and improves the consistent resistivity of the finished glove.

A knitted glove includes a knitted fabric including, multiple stages of a first course each of which has a plurality of first loops and a first cross element to connect the first loops to each other and in which the plurality of first loops are aligned in the course direction; and multiple stages of a second course each of which has a plurality of second loops and in which the plurality of second loops are aligned in the course direction, the first knitting yarn constituting the first course has an elongation rate of 12.5% or more, a second knitting yarn includes a yarn containing a cut resistant fiber, between at least one set of two adjacent first loops in one stage of the first course, a loop in another stage of the courses is arranged, and the first cross element is knitted so as to cross over the loop.

A knitted glove includes a knitted fabric including, multiple stages of a first course each of which has a plurality of first loops and a first cross element to connect the first loops to each other and in which the plurality of first loops are aligned in the course direction; and multiple stages of a second course each of which has a plurality of second loops and in which the plurality of second loops are aligned in the course direction, the first knitting yarn constituting the first course has an elongation rate of 12.5% or more, a second knitting yarn includes a yarn containing a cut resistant fiber, between at least one set of two adjacent first loops in one stage of the first course, a loop in another stage of the courses is arranged, and the first cross element is knitted so as to cross over the loop.

A metal fiber included in a fiber product includes a tungsten wire having a diameter less than or equal to 22 μm. The tungsten wire may have, for example, a diameter less than or equal to 18 μm. The tungsten wire may have, for example, a diameter within a range from 20% less than 13 μm to 20% greater than 13 μm. In addition, the tungsten wire may have, for example, a diameter greater than or equal to 5 μm. Further, the tungsten wire may include, for example, pure tungsten. Moreover, the metal fiber may be, for example, a metal thread including a false-twisted yarn which is made of a chemical fiber and is wound.

A metal fiber included in a fiber product includes a tungsten wire having a diameter less than or equal to 22 μm. The tungsten wire may have, for example, a diameter less than or equal to 18 μm. The tungsten wire may have, for example, a diameter within a range from 20% less than 13 μm to 20% greater than 13 μm. In addition, the tungsten wire may have, for example, a diameter greater than or equal to 5 μm. Further, the tungsten wire may include, for example, pure tungsten. Moreover, the metal fiber may be, for example, a metal thread including a false-twisted yarn which is made of a chemical fiber and is wound.

Single layer and multi-layer anti-microbial wound care masks having a hydrophilic yarn containing silver and wound care articles are disclosed.

Single layer and multi-layer anti-microbial wound care masks having a hydrophilic yarn containing silver and wound care articles are disclosed.