Systems and methods for applying a protective layer to an outer surface of a mobile device. A system may include a protective layer for an outer surface of a mobile device and an alignment layer coupled to the protective layer. A frame may define a cavity configured to receive the mobile device. The frame may include a surface positioned outside of the cavity and configured to support the alignment layer and configured to be depressed relative to the mobile device to reduce a distance between the protective layer and the outer surface of the mobile device when the mobile device is positioned in the cavity.

Systems and methods for applying a protective layer to an outer surface of a mobile device. A system may include a protective layer for an outer surface of a mobile device and an alignment layer coupled to the protective layer. A frame may define a cavity configured to receive the mobile device. The frame may include a surface positioned outside of the cavity and configured to support the alignment layer and configured to be depressed relative to the mobile device to reduce a distance between the protective layer and the outer surface of the mobile device when the mobile device is positioned in the cavity.

A support device for a tubular element, includes a housing part configured to house, during use, the tubular element, and at least a mobile part for guiding and positioning the tubular element and for protecting the housing part. The mobile part is configured to assume at least a first position to access the housing part of the tubular element, in order to easily insert the tubular element into the housing part, and to assume at least a second position to retain the tubular element and to at least partly cover said housing part and the tubular element positioned therein. The mobile part includes a lever for passage from the first position to the second position and drivable by the tubular element during its insertion into the housing part.

A system (100), for manufacturing a rotor blade (112), comprises a first tooling (170), positioned at a factory location (114) and configured to assemble a first blade module (116), comprising a first-module skin (118) and a first-module spar (120), each comprising a first thermoplastic polymer (122) and a first reinforcement material (124). The system (100) comprises a second tooling (172), configured to assemble a second blade module (126), comprising a second-module skin (128) and a second-module spar (130), each comprising a second thermoplastic polymer (132) and a second reinforcement material (134). The system (100) comprises a first support (160), positioned at a field location (140) and configured to receive the first blade module (116), and a second support (162), positioned at the field location (140) and configured to receive the second blade module (126). The system (100) comprises a spar welding assembly (174), positioned at the field location (140) and configured to join the first-module spar (120) with the second-module spar (130), and a skin welding assembly (176), positioned at the field location (140) and configured to join the first-module skin (118) with the second-module skin (128).

A card substrate laminating device includes a transfer ribbon and a transfer roller. The transfer ribbon includes a carrier layer and a transfer layer attached to the carrier layer. The transfer roller is configured to heat and transfer a portion of the transfer layer from the carrier layer to a surface of a card substrate. The transfer roller has a circumference that is less than one-half of a length of the card substrate.

Systems and methods for controlling a pump system for use in negative pressure wound therapy are described herein. In some embodiments, a method for controlling a pump system includes causing provision of negative pressure, via a flow path, to a wound dressing configured to be positioned over a wound, the flow path configured to fluidically connect the pump system to the wound dressing, measuring a first pressure value in the flow path at a first time, measuring a second pressure value in the flow path at a second time, calculating a first rate of pressure change using the first and second pressure values, and in response to determining that the calculated first rate of pressure change satisfies a threshold rate of change, providing an indication that the wound dressing is full, wherein the method is performed under control of a controller of the pump system.

An overlay applicator tray can include a cradle including a device slot. The device slot can be configured to securely hold an electronic device in the cradle. The overlay applicator tray also can include an overlay applicator. The overlay applicator can include an overlay layer and an adhesive release liner. The overlay layer can include a top side and a bottom side. The bottom side can be configured to be adhered to a screen of the electronic device. The adhesive release liner can be removably attached to the bottom side of the overlay layer. The overlay applicator tray additionally can include an alignment piece coupling the cradle to the overlay applicator. The alignment piece can align the overlay layer of the overlay applicator with the screen as the overlay layer is applied to the screen when the electronic device is securely held in the device slot. Other embodiments are provided.

Manufacturing and assembly of a shoe or a portion of a shoe is enhanced by automated placement and assembly of shoe parts. For example, a part-recognition system analyzes an image of a shoe part to identify the part and determine a location of the part. Once the part is identified and located, the part can be manipulated by an automated manufacturing tool.

A suspension arrangement (7) for attachment to a support (2, 17) being made from a magnetisable material is disclosed. The suspension arrangement (7) comprises a magnetic attachment means (8) and a glue surface (9) having a glue depression (10). The magnetic attachment means (8) comprises a magnetic material allowing the suspension arrangement (7) to be releasably attached to the support (2, 17). The glue depression (10) is configured for receiving a glue portion (11) in order to permanently attach the suspension arrangement (7) to the support (2, 17). The glue surface (9) is arranged in contact with the support (2, 17) when the suspension arrangement (7) is attached to the support (2, 17).

Provided is a tube joining apparatus that allows a user to easily and properly set tubes to be joined, and can prevent occurrence of joining failures due to tube setting errors.

A tube joining apparatus 1 includes a housing, a lid relatively movable toward and away from the housing, a tube holding part that holds a first tube and a second tube individually in a state of being placed side by side in an oblique direction with respect to a height direction of the housing, and a tube pressing part that presses the first tube and the second tube against each other as the lid relatively moves toward the housing.