Basically, what the invention is about is a glove that protects the thumb and finger from injury.

The invention has steel enclosed in the glove so when any hard or sharp objects such as tools are used the thumb and finger will be protected.

The invention is for safety overall.

Disclosed is a base material for preparing a finger protection structure, including a main body and abutment blocks. Four corners of each abutment block form four corner cut portions, two corner cut portions of two adjacent abutment blocks together form two first gaps, and areas of the main body exposed to the first gaps are defined as elastic deformation areas. A finger protection structure is cut out of the main body along two elastic deformation areas and one second gap. The finger protection structure includes a base plate and the abutment blocks. Areas of the base plate exposed to the first gaps are defined as elastic deformation areas. When a stressed surface is impacted by a frontal impact force, the abutment blocks abut against each other and the base plate straightens. When the stressed surface is impacted by a lateral rotation force, the elastic deformation areas are elastically deformed.

The present disclosure provides a compressive force finger guard sized to cover at least a portion of the distal phalanx portion of a finger. Illustratively, the compressive force finger guard includes a longitudinally-extending body portion; wherein the longitudinally-extending body portion includes an opening therein sized to receive at least a portion of the fingertip; and a cap tip located on an end of the longitudinally-extending body portion; and wherein the cap tip includes a flange that extends from the longitudinally-extending body portion generally transverse to the longitudinally-extending body portion.

Apparatus and associated methods relate to an enhanced auxetic composite material (EACM) of a base thermoplastic elastomer (TPE) and/or a thermoset material combined with an auxetic material, the composite formed with a molding process, where the base material is injected or dripped into or injected, dripped or formed around the auxetic material, the composite material providing higher impact performance than the individual materials. In an illustrative example, combining various energy absorbing materials with auxetic materials may further enhance impact performance. In some examples, TPE material injected into auxetic structures may fill internal voids. In some examples, the auxetic material may be suspended within the TPE material and be encapsulated around the auxetic material form. Auxetic materials may take various forms, for example, sheets, 3-D structures, and particles, each providing unique benefits. Various embodiments included within various personal protection articles may advantageously provide long life and enhance impact resistance.

A safety glove for protecting the hand of a worker is provided, configured to protect the hand of the worker while still providing flexibility and dexterity to the user. The glove features a first protective structure or structures secured to a first base layer to protect the distal phalange bone of the worker, and a second protective structure or structures secured to a second base layer to protect the intermediate phalange and proximal phalange bones of the worker. The separation between the base layers provides for enhanced flexibility of the distal phalange, and allows for flexibility when performing tasks that require agility and dexterity.

The present invention provides a protective glove which improves protection and wearability by integrating protective members using features of thermosetting material and thermoplastic material. The protective glove comprises: a body 10 into which a back of hand, a palm and fingers of a wearer are inserted; a first protective member 20 made from thermosetting material, which is formed to protect a predetermined portion of the wearer's hand and exposed to outside and which is integrally attached to an outer surface of the body 10; and a second protective member 30 made from thermoplastic material, which is formed to protect a predetermined portion of the wearer's hand and is integrated with the first protective member 20, and which is attached to the outer surface of the body 10.

The present invention provides a protective glove which improves protection and wearability by integrating protective members using features of thermosetting material and thermoplastic material. The protective glove comprises: a body 10 into which a back of hand, a palm and fingers of a wearer are inserted; a first protective member 20 made from thermosetting material, which is formed to protect a predetermined portion of the wearer's hand and exposed to outside and which is integrally attached to an outer surface of the body 10; and a second protective member 30 made from thermoplastic material, which is formed to protect a predetermined portion of the wearer's hand and is integrated with the first protective member 20, and which is attached to the outer surface of the body 10.

A safety glove having a protective member or insert extending around the fingertip of the safety glove is provided. The protective member may be positioned along the outer surface or the inner surface of the glove. Alternatively, the protective member may be integrally formed between two layers of glove material. The protective member terminates distally from an interphalangeal joint line to enable finger flexion in order to grasp an item, such as a slab of meat to be deskinned in a skinning machine. The glove may include a rough outer surface formed from thrice dipping the glove and allowing the glove to cure. Additionally, the glove may have a width near the wrist that is wider than the width near the palm to enable the glove to be rapidly removed (i.e., doffed) in an emergency event of the glove getting caught in a rotating blade on the skinning machine.

A finger protection structure includes a plurality of abutment blocks arranged on an adhesive surface of a base plate in a straight line, abutting against one another and defining a plurality of elastic deformation areas on the adhesive surface such that the finger protection structure is bendable forward, twisted and/or bendable in left-and right directions partially due to a flexibility constituted by presence of corner cut portions of the abutment blocks, the deformation areas on the adhesive surface of the base plate and flexibility of the base plate, thereby eliminating the problems resulted from a frontal and rotational lateral impact applied on the stressed surface of the base plate. The finger protection structure has simple structure, is ergonomically constructed and is capable of buffering and absorbing the frontal impact and rotating lateral impact, thereby minimizing injuries to the hands of the wearer of a protection hand glove.

A reinforced support device suitable for the protection of a hand and its digits from impacts, particularly those found in contact sports. The support device providing an outer skeleton and/or selected reinforcement portion(s), protects the digits of the hand and permits flexion of the fingers and/or thumb. The reinforcement portions can be of various shapes, sizes, materials, and weights. They may also be connected in various ways to one another.