Disclosed herein is a mounting assembly configured to be hung from a wall panel assembly, and includes a bracket and a load supporter rotatable relative to the bracket. The load supporter is transitionable between a support-ready configuration and a storage. In the support-ready configuration, the load-supporting portion extends in a direction along an axis that traverses a plane defined by the front surface of the wall panel assembly. In the storage configuration, the load-supporting portion extends in a direction along an axis that is parallel to the plane defined by the front surface of the wall panel assembly. Also disclosed herein is a mounting assembly, with the load supporter releasably receivable in a cavity of the bracket. While the load supporter is received in the cavity, a retainer is vertically supporting the load supporter, and opposing displacement of the load supporter, relative to the bracket, in an outwardly direction.

An electrode plate (100) and a wearable defibrillation device are disclosed. The electrode plate (100) includes a hermetic shell (110), a capsule (120) and a sealing structure (130). The hermetic shell (110) has an inflation port (111) and an overflow aperture (112). The overflow aperture (112) is disposed in a conductive exposed surface (113) of the hermetic shell (110). The capsule (120) is provided in the hermetic shell (110) and defines a cavity (122) for storage of a conductive paste therein. The cavity (122) defines an inlet orifice (123) and an outlet orifice (124). The overflow aperture (112) is disposed at the outlet orifice (124). A sealing component (132) of the sealing structure (130) is positioned at the overflow aperture (112) and configured to close the overflow aperture (112) and the outlet orifice (124) when the hermetic shell (110) is not inflated. The force applying component (131) of the sealing structure (130) is disposed on the hermetic shell (110) and then is connected to the sealing component (132) after being inserted into the capsule (120) through the inlet orifice (123). The force applying component (131) is configured to pull the sealing component (132) as a result of inflation and expansion of the hermetic shell (110) and thus open the overflow aperture (112) and the outlet orifice (124) and bring them into communication. As a result, the conductive paste is allowed to flow through the outlet orifice (124) and the overflow aperture (112) onto the exposed surface (113). During cardiac defibrillation of the electrode plate (100), the conductive paste can automatically applied to provide a patient with timely protection, and the conductive paste can be released in a reliable and safe manner.

A mounting system for mounting a solar panel assembly to a base assembly includes a panel support bracket, a base bracket and a clamp configured to exert a compressive force to hold the panel support bracket and the base bracket together. The clamp comprises a V-shaped clamp body that includes a pair of legs that are spring-loaded to oppose an approximation of the legs by an external compressive force. The clamp includes a pair of receiver slots, with each of the pair of receiver slots located on a corresponding one of the pair of legs. The pair of receiver slots collectively provides a clearance to admit the panel support bracket and the base bracket when the legs are compressed together.

In some examples, a housing for an electronic device includes a first housing panel having a plurality of spring-loaded clips, a second housing panel having a plurality of pockets to receive the plurality of spring-loaded clips, and a first fastener on the first housing panel to slidingly engage a second fastener on the second housing panel after the plurality of spring-loaded clips are received in the plurality of pockets.

An edge protector (100) is configured to secure onto an edge of a component. The edge protector includes a main shrouding body (102) that includes a first wall (104) connected to a second wall (106) by a connecting wall (108). An open-ended passage (110) is defined between the first wall, the second wall, and the connecting wall. A first securing clamp (112) extends inwardly into the passage from the first wall. A second securing clamp (116) that opposes the first securing clamp extends inwardly into the passage from the second wall. The first securing clamp and the second securing clamp are configured to securely clamp onto a portion of the component. The edge protector may also include at least one cutout (122) formed in at least one of the first wall or the second wall.

A main housing portion of a portable information handing system. The main housing portion includes: a top cover portion; a bottom cover portion; and, an information handling system locking system, the information handling system locking system including a bottom cover locking component, the bottom cover locking component being mounted to the bottom cover, the bottom cover locking component defining a bottom cover locking portion aperture, the bottom cover locking portion aperture being aligned with the top cover aperture.

A fastener includes a base member; a first member, on the base member and having a through bore; a second member, on the base member and spaced from the first member to form a receiving portion to receive a panel structure, including an aperture defining an internal surface, the internal surface including at least one stop member protruding radially inwardly, and a nut member, coaxially aligned within and frangibly connected to the internal surface, including at least one block member protruding radially outward from an outer surface of the nut member to stoppingly engage with the at least one stop member. During use, the nut member moves from a first position, where the nut is frangibly connected to the internal surface, to a second position, where the least one block member abuttingly engages with the at last one stop member.

A box closure device having a first piece, a second piece, and a hub separating the first piece and second piece is provided. The first piece can have one or more engagement portions. The second piece can extend in both directions relative to the hub and is spaced from the first piece a selected amount allowing for box flaps to fit between the top piece and bottom piece. The second piece can have a blade to assist in positioning the closure device between the interior ends of two flaps. The second piece can also have a glide. In use, the user or a machine can engage the engagement portion(s) and twist the closure device so that the bottom piece is no longer aligned with a gap between the flaps thereby locking the flaps in a closed position. Lobes can be located on the ends of the second piece.

A memory module operation system for operating in high stress environments with strong vibration. The application and use of a retainer to reduce and dampen the effects of system vibration and the application of dynamic loads can retain a memory module in place in a memory socket. Further, the retainer can operate to reduce the effects of electromagnetic interference and can act as a heat transport system to reduce thermal stress on components.

A bonding clamp includes a top bracket including opposing side walls defining a channel therebetween. The top bracket has an aperture through a central portion thereof. The top bracket is shaped to receive a first photovoltaic (“PV”) module on a first side and a second PV module on a second side. A bottom bracket includes a body and a pair of top flanges extending vertically from a top surface of the body. The pair of top flanges are spaced apart from each other. The bottom bracket also includes anti-rotation flanges extending from a bottom surface of body. A fastening mechanism fastens the top bracket in a fixed position with respect to the bottom bracket.