Various embodiments of a mount apparatus are disclosed herein for securing an electronic device (such as a radar laser detector, GPS device, and/or dash camera or other electronic device used within a vehicle) to a surface such as an interior surface (e.g., windshield, dashboard) of a vehicle. In one example, the mount apparatus includes a magnet which is adapted to be coupled with a corresponding metal surface within the electronic device, so that the magnet positioned within the apparatus provides a magnetic force to aid a user in securing the mount apparatus and the electronic device to each other.

A pad structure includes a main body made of soft material. The main body has an axial surface, a suction surface, and a peripheral surface. The axial surface is provided for being pressed by a pressing member of the sucking disc. The suction surface is provided for sucking on a target object. The axial surface includes a lifting portion and a pressure bearing block. The pressure bearing block is hard and circular shaped. The portion of the main body between the lifting portion and the pressure bearing block is defined as a deformable portion. The portion of the main body below the pressure bearing block is defined as an undeformable portion. The undeformable portion is located at the outer periphery of the main body. The deformable portion is located between the lifting portion and the undeformable portion.

A suction cup, including a flat framework, a suction cup body covering the framework, a connection rod disposed on the back surface of the framework and passing through the cup body, a cup cover covering the connection rod and the cup body, and a pressing element provided on the back surface of the cup cover and in connection with the connection rod, a seal element on the adsorption surface of the cup body, and an annular protruding ring on the inner surface of the cup cover at a location corresponding to the seal element for touch pressing the inner surface of the cup body against the seal element. The invention uses rigid force transfer, and thus the force transfer is more effective. The sealing element enhances the airtightness of the suction cavity and increases the absorption force of the suction cup. When pulling the connection rod, due to the existence of the sealing element, the air cannot easily enter the suction cavity, and because before the pulling the framework is in a flat state, it can produces a high degree of vacuum and thus adsorption force so that the suction cup will not fall off the supporting surface easily. Furthermore, the suction cup of the invention is structurally simple with a lower manufacturing cost.

An apparatus for adjusting the height of a work surface comprising a height-adjusting mechanism and a universal mount that ensures compatibility with a wide variety of desks and other work surfaces. The apparatus may include one or more suction cups for securing the work surface to the height adjustment mechanism. The apparatus may also include a bent universal adapter bracket.

Apparatus and method for positioning a computer workstation relative to a work surface, the apparatus including a base, wherein the base includes at least one attachment mechanism located on a bottom surface of the base, wherein the at least one attachment mechanism is configured to affix the base to the work surface; a support column that extends upward from the base; a display mount movably coupled to the support column such that the display mount is configured to move in a first range of travel relative to the base; and a keyboard tray movably coupled to the support column such that the keyboard tray is configured to move in a second range of travel relative to the base.

The invention comprises a hands-free, adjustable telescoping magnifying mirror. The mirror may have a first reflective surface and a second reflective surface and can be secured to a horizontal or vertical surface using a suction cup base or can be hung over a door or ledge using a retractable hanger bracket. A telescoping rod is attached to the suction cup base. The mirror may be extended from the base by extending the telescoping rod and the mirror assembly can stand freely without falling over, whether the suction cup base is engaged or not. Additionally, one or more light sources may be disposed at a periphery of the first reflective surface or second reflective surface.

Various embodiments of a mount apparatus are disclosed herein for securing an electronic device (such as a radar/laser detector, GPS device, and/or dash camera or other electronic device used within a vehicle) to a surface such as an interior surface (e.g., windshield, dashboard) of a vehicle. In one example, the mount apparatus includes a magnet which is adapted to be coupled with a corresponding metal surface within the electronic device, so that the magnet positioned within the apparatus provides a magnetic force to aid a user in securing the mount apparatus and the electronic device to each other.

A suction-attached shelving system and method is provided. The system includes a suction-based attachment structure including a releasable suction disc, a suction housing, and a suction lever arm. The suction-based attachment structure may be attached to a vertical surface such as a window by using the suction lever arm to establish a suctional engagement of the releasable suction disc and suction housing with the vertical surface. The suction-based attachment structure is connected to a shelf structure by a shelf rotation axle. The shelf structure includes a front portion that may be folded relative to a back portion for ease of transport.

An object anchoring assembly includes a housing that can be positioned on a horizontal support surface having an object being positioned on top of the housing. A plurality of arms is each slidably integrated into the housing and each of the arms is positionable in a retracted position or an extended position. A plurality of engagements is each is movably integrated into a respective one of the arms. Additionally, each of the engagements engages the housing at a variety of locations to retain the arms at a selected degree of extension to accommodate dimensions of the object placed on the housing. A coupler is movably coupled to the housing to engage the support surface thereby inhibiting the housing from sliding on the support surface.

A conversion component of a suction cup holder for photography equipment includes a fastening component; and a locking component fixed on the fastening component. The locking component includes a locating member fastened on the fastening component, a movable member movably located between the fastening component and the locating member, and a resetting member arranged between the locating member and the movable member. A connecting member which is configured to be connected with photography equipment can pass through the fastening component and can be locked under a cooperation of the fastening component, the movable member and the resetting member.