A fishing net support system includes a boat mount configured to be mounted onto a boat hull. A linkage is attached to the boat mount. A receiver can receive a pole of a fishing net. The receiver is mounted on the linkage, such that the linkage allows pivoting between the boat mount and the receiver within a vertical plane.

A slide system includes a component assembly, a track system, a floor panel, and a below-deck cavity. The track system is coupled at least indirectly to the component assembly for guiding movement of the component assembly along a path. The floor panel includes an upper surface. The below-deck cavity is disposed below the floor panel. The component assembly is located substantially above the floor panel. The track system is located within the below deck cavity and below the upper surface.

An apparatus (100), including: a support assembly (200), the support assembly including: a lower endcap (240), an upper endcap (252), a strut (242), a lower pivot joint (244) between the lower endcap and a lower end (248) of the strut, and an upper pivot joint (254) between the upper endcap and an upper end of the strut (246). The support assembly is configured to selectively move an upper structure (400) relative to a motor vehicle (500) between an upper position via rotation at each pivot joint which increases a distance (270) between respective endcap centroids (272, 274), and a lower position via rotation in an opposite direction at each pivot joint which decreases the distance (276) between the respective endcap centroids.

The present invention relates to an assembly for trolling with multiple fishing lines, and in particular to an assembly allowing the multiple fishing poles to rotate simultaneously. The assembly has a rail having a channel and that can be affixed to the side of a boat. One or more units can be secured to the rail. Each unit has a base that can be secured to the channel, a swivel, a platform and a rod holder. An actuator can be pivotally secured to the rail and to an actuator arm secured to the back end of the platform of the adjacent unit. Extension and retraction of the actuator makes the platform and rod holder swivel relative to the base. Tie rods are used between adjacent units so that each unit swivels in unison with each other. Two parallel tie rods are used when three units are present.

An apparatus for securely attaching various stowable items on watercraft is provided. The apparatus allows for non-destructively attaching a mount or base to one or both sides of the craft. A number of securing strap configurations can be added to the base, the straps secured to the base so as to limit movement of the strap.

A telescoping device mount is configured to hold an electronic device. The telescoping device mount is configured to fully extend or fully retract the electronic device. The telescoping device mount includes a telescoping post, a mount segment, and a base. The telescoping post includes an inner post segment and an outer post segment. The mount segment is configured to secure an electronic device thereto. The mount segment includes an outer collar slidably securable to the outer post segment of the telescoping post. The base is secured to the inner post segment such that the outer post segment telescopes relative to the inner post segment. In a fully retracted position, the electronic device is proximate to the base and/or an underlying surface.

A telescoping device mount is configured to hold an electronic device. The telescoping device mount is configured to fully extend or fully retract the electronic device. The telescoping device mount includes a telescoping post, a mount segment, and a base. The telescoping post includes an inner post segment and an outer post segment. The mount segment is configured to secure an electronic device thereto. The mount segment includes an outer collar slidably securable to the outer post segment of the telescoping post. The base is secured to the inner post segment such that the outer post segment telescopes relative to the inner post segment. In a fully retracted position, the electronic device is proximate to the base and/or an underlying surface.

A telescoping device mount is configured to hold an electronic device. The telescoping device mount is configured to fully extend or fully retract the electronic device. The telescoping device mount includes a telescoping post, a mount segment, and a base. The telescoping post includes an inner post segment and an outer post segment. The mount segment is configured to secure an electronic device thereto. The mount segment includes an outer collar slidably securable to the outer post segment of the telescoping post. The base is secured to the inner post segment such that the outer post segment telescopes relative to the inner post segment. In a fully retracted position, the electronic device is proximate to the base and/or an underlying surface.

A slide system includes a component assembly, a track system, a floor panel, and a below-deck cavity. The track system is coupled at least indirectly to the component assembly for guiding movement of the component assembly along a path. The floor panel includes an upper surface. The below-deck cavity is disposed below the floor panel. The component assembly is located substantially above the floor panel. The track system is located within the below deck cavity and below the upper surface.

An apparatus (100), including: a base assembly (302) configured to be secured to a windshield assembly; a mirror assembly (200); and a pivot arm (304) secured to the base assembly by a first pivot joint (306) and secured to the mirror assembly by a second pivot joint (202). The first pivot joint is configured to enable the pivot arm to rotate 360 degrees around a first pivot axis (310).