A concealed carry garment manufactured and designed to conceal an item, such as a firearm, beneath the garment is disclosed. This concealed carry garment applies a stiffening material or agent to an interior surface of a garment outer material to add rigidity to a concealment areas, most commonly worn over carriage location for a firearm, thus reducing the ability for a firearm to print or show through the garment.

A concealed carry garment manufactured and designed to conceal an item, such as a firearm, beneath the garment is disclosed. This concealed carry garment applies a stiffening material or agent to an interior surface of a garment outer material to add rigidity to a concealment areas, most commonly worn over carriage location for a firearm, thus reducing the ability for a firearm to print or show through the garment.

The present invention relates to method for manufacturing disposable upper body garments having sleeves and a front portion. The method comprises feeding a main film in a longitudinal direction and forming an assembly comprising a first sleeve film and a second sleeve film arranged on an upper surface of the main film. The method further comprises, for a first one of the garments, welding the first sleeve film to the main film along an outline defining the sleeves of said first one of the garments, and for a second one of the garments, welding the second sleeve film to the main film along an outline defining the sleeves of said second one of the garments. After the welding steps, the method comprises punching through the assembly to define a neck opening of the first one and the second one of the garments; and punching through the assembly along an outline of the first one and the second one of the garments.

The present invention relates to method for manufacturing disposable upper body garments having sleeves and a front portion. The method comprises feeding a main film in a longitudinal direction and forming an assembly comprising a first sleeve film and a second sleeve film arranged on an upper surface of the main film. The method further comprises, for a first one of the garments, welding the first sleeve film to the main film along an outline defining the sleeves of said first one of the garments, and for a second one of the garments, welding the second sleeve film to the main film along an outline defining the sleeves of said second one of the garments. After the welding steps, the method comprises punching through the assembly to define a neck opening of the first one and the second one of the garments; and punching through the assembly along an outline of the first one and the second one of the garments.

[Problem] To provide a body protection product such as a wetsuit that does not require a troublesome and time-consuming step such as machine sewing, does not cause discomfort for the wearer, and does not result in a loss to the degree of freedom in terms of design. [Solution] A wetsuit (10), in which a highly stretchable and elastic sheet-shaped fabric is draped so as to match the concave and convex features of the body shape of a wearer and a plurality of fabric pieces (11) are prepared, an adhesive (3) is applied to the draping surfaces of the fabric pieces (11), and the draping surfaces are then pressed against each other and joined without stitching, whereby a three-dimensional clothing base (1) is formed. Next, an adhesive (4) is applied to the surface of the clothing base and stretching is performed, whereby the surface of the clothing base is covered by a stretchable covering material (2) formed to match the shape of the clothing base (1). The clothing base (1) and the covering material (2) are compressed under heating and thereby made to adhere to each other.

[Problem] To provide a body protection product such as a wetsuit that does not require a troublesome and time-consuming step such as machine sewing, does not cause discomfort for the wearer, and does not result in a loss to the degree of freedom in terms of design. [Solution] A wetsuit (10), in which a highly stretchable and elastic sheet-shaped fabric is draped so as to match the concave and convex features of the body shape of a wearer and a plurality of fabric pieces (11) are prepared, an adhesive (3) is applied to the draping surfaces of the fabric pieces (11), and the draping surfaces are then pressed against each other and joined without stitching, whereby a three-dimensional clothing base (1) is formed. Next, an adhesive (4) is applied to the surface of the clothing base and stretching is performed, whereby the surface of the clothing base is covered by a stretchable covering material (2) formed to match the shape of the clothing base (1). The clothing base (1) and the covering material (2) are compressed under heating and thereby made to adhere to each other.

A band includes a tubular body configured to be worn on a user's body and a pocket supported by the tubular body, where the pocket defines a cavity and has an access opening providing access to the cavity, and where the pocket is configured to removably receive an electronic module in the cavity through the access opening. An input device is connected to the tubular body and has a port exposed to the cavity of the band, where the port is configured for removable connection to a connector of the electronic module when the electronic module is received in the cavity. The input device may include a button configured to receive user input and a wireless transmitter to transmit a signal to an external device based on the user input. The input device may also include a haptic feedback mechanism for communicating haptic signals to the user.

A band includes a tubular body configured to be worn on a user's body and a pocket supported by the tubular body, where the pocket defines a cavity and has an access opening providing access to the cavity, and where the pocket is configured to removably receive an electronic module in the cavity through the access opening. An input device is connected to the tubular body and has a port exposed to the cavity of the band, where the port is configured for removable connection to a connector of the electronic module when the electronic module is received in the cavity. The input device may include a button configured to receive user input and a wireless transmitter to transmit a signal to an external device based on the user input. The input device may also include a haptic feedback mechanism for communicating haptic signals to the user.

Drag-reducing exercise equipment in the form of a aerodynamic garment may comprise zones with applied textures. Each zone may be associated with properties and characteristics based on the movement of the garment associated with each zone through air during an athletic activity. The texture in each zone may be applied using a variety of methods such as printing. The resulting aerodynamic garment improves the performance of an athlete wearing the aerodynamic garment by reducing the aerodynamic drag experienced during the performance of the athletic activity.

Drag-reducing exercise equipment in the form of a aerodynamic garment may comprise zones with applied textures. Each zone may be associated with properties and characteristics based on the movement of the garment associated with each zone through air during an athletic activity. The texture in each zone may be applied using a variety of methods such as printing. The resulting aerodynamic garment improves the performance of an athlete wearing the aerodynamic garment by reducing the aerodynamic drag experienced during the performance of the athletic activity.