Mounting clamps may be utilized to quickly and easily secure solar panel modules relative to mounting rails, which may in turn be secured relative to a mounting surface (e.g., a roof). The mounting clamps may be configured to quickly secure the solar pane modules relative to the mounting rails by tightening a tightening element to pull a clamp element toward the surface of a mounting rail, thereby clamping a portion (e.g., a frame) of a solar panel module between the clamping element and an outer surface of the mounting rail.

Mounting clamps may be utilized to quickly and easily secure solar panel modules relative to mounting rails, which may in turn be secured relative to a mounting surface (e.g., a roof). The mounting clamps may be configured to quickly secure the solar pane modules relative to the mounting rails by tightening a tightening element to pull a clamp element toward the surface of a mounting rail, thereby clamping a portion (e.g., a frame) of a solar panel module between the clamping element and an outer surface of the mounting rail.

An anchor assembly (10) comprises an anchor (12) comprising a body (15) defining a cavity (16). The anchor (12) further comprises a reinforcing member (18) extending through the cavity (16) and outwardly from the body (15). The anchor assembly (10) further includes an insertion device (14) insertable into the cavity (16). The insertion device (14) comprises a securing member (49) movable between securing and non-securing positions. When the movable securing member (49) is in the securing position in the cavity (16), the securing member (49) can engage the reinforcing member (18) to secure the insertion device (14) to the anchor (12).

An anchor assembly (10) comprises an anchor (12) comprising a body (15) defining a cavity (16). The anchor (12) further comprises a reinforcing member (18) extending through the cavity (16) and outwardly from the body (15). The anchor assembly (10) further includes an insertion device (14) insertable into the cavity (16). The insertion device (14) comprises a securing member (49) movable between securing and non-securing positions. When the movable securing member (49) is in the securing position in the cavity (16), the securing member (49) can engage the reinforcing member (18) to secure the insertion device (14) to the anchor (12).

An apparatus for mounting a portable electronic device to a pair of spaced apart posts (e.g., of a vehicle headrest or a suitcase), is also useful as a stand to support a portable electronic device at an angle relative to a horizontal support surface on which the apparatus rests. The apparatus includes a first element configured to be selectively attached to a pair of spaced apart posts by application of an external compressive or expansive force to thereby decrease or increase a distance between portions of the first element until grips of the first element can be aligned with and attached to the spaced apart posts, and then removing the external compressive or expansive force. The apparatus also includes a second element that is attached to the first element and is configured to selectively hold a portable electronic device. The apparatus, when used as a stand, functions like a tripod.

An apparatus for mounting a portable electronic device to a pair of spaced apart posts (e.g., of a vehicle headrest or a suitcase), is also useful as a stand to support a portable electronic device at an angle relative to a horizontal support surface on which the apparatus rests. The apparatus includes a first element configured to be selectively attached to a pair of spaced apart posts by application of an external compressive or expansive force to thereby decrease or increase a distance between portions of the first element until grips of the first element can be aligned with and attached to the spaced apart posts, and then removing the external compressive or expansive force. The apparatus also includes a second element that is attached to the first element and is configured to selectively hold a portable electronic device. The apparatus, when used as a stand, functions like a tripod.

A mechanism is hereby disclosed that, when activated in the linear direction of its axis, will expand and contract radially. The novel nature of the device is that of compliant methods and materials used in its design. Compliant members, referred to as dyads, translate the motion and imply resistance in a single structure. Thus eliminating the need for separate members, hinges, pins, springs and the associated assembly. When these compliant dyads are combined in the novel configurations hereby disclosed, a device is created that expands (or contracts) in multiple directions from its primary axis of actuation. Furthermore, one or more actuation dyad sets could be arranged at various angles relative to the global vertical axis. The radial expansion/contraction can be 2D or 3D by adding more primary activation dyad sets. Such a device can be applied to many applications and industries. One such application is for gripping the inside of a tube or object for moving manually or in automation. The compliant nature of this device can be optimized to auto-adapt to the objects size and shape allowing for greater part variation and reduce manufacturing line change-over times. Other applications would include snap fit connections, spherical articulating joints, spinning cutting tools, speed limiting using friction and centrifugal force, braking rotational forces or transmitting it, automatic centering, expanding elastic bands in an assembly process, and stretching an opening for fitment. The design of this device is material friendly and can be made of plastic, composite and metals. It may be of a single monoform construction (created by molding, machining, or additive manufacturing) or made of multiple parts including pivots and different materials to achieve the desired articulation.

A container system securable to a base such as a roof gutter, a railing, a ladder top, a ladder rung, an edge, a platform and the like. The container system includes a container such as a utility bucket, a pail, and the like; a horizontal member in the form of a collar securely attached to or integratedly molded into the container. The collar is provided with a plurality of fasteners to removably attach the container to the base. In one embodiment, the fasteners are selected from braces, clamps, locking devices, clips, hooks, protrusions, and combinations thereof. In one embodiment, a U-bolt is provided to securely attach a bracket to the container, and for attaching to a base.

A container system securable to a base such as a roof gutter, a railing, a ladder top, a ladder rung, an edge, a platform and the like. The container system includes a container such as a utility bucket, a pail, and the like; a horizontal member in the form of a collar securely attached to or integratedly molded into the container. The collar is provided with a plurality of fasteners to removably attach the container to the base. In one embodiment, the fasteners are selected from braces, clamps, locking devices, clips, hooks, protrusions, and combinations thereof. In one embodiment, a U-bolt is provided to securely attach a bracket to the container, and for attaching to a base.

Some embodiments provide ocean rig releases apparatus, systems and methods. In some implementations, a rig release apparatus comprises: a body having a first and second mating sections each being connected to one of two separate tethers; at least one locking shoe movably secured with the first mating section and movable between a first position configured to secure the first mating section and the second mating section together and a second position configured to allow the first mating section and the second mating section to separate; and a locking system configured to releasably lock the first and second mating sections and prevent hydrostatic pressure created by ocean depths from inadvertently unlocking, wherein the locking system comprises: a restraint system that inhibits the movement of the at least one locking shoe, and comprises a stop element that when released physically retracts to unlock the locking system allowing.