An extendable and retractable column which is formed from at least three linked sections or chains. The linked sections include a plurality of individual segments linked end to end. As the linked segments are extended, each of the individual segments of the linked chains engage individual segments of adjacent linked sections to form a column. As the linked sections are retracted, each of the individual segments of the linked sections disengage from the individual segment of the adjacent linked sections and the individual linked sections may be rolled up into a multi-sided form for compact storage.

The present invention is an improved apparatus and method for forming a retractable tower or column. The present invention includes pointed hooks wherein the hooks are attached to each section of a section chain, one in a horizontal direction and one in an off-set manner. The section chains are placed on a take up mechanism in an operable position and then raised utilizing a motor. As the section chains are raised, they are guided by a guide tower, rollers, shims, and gear racks into a position whereby hooks from adjacent sections of the section chains form coupled engagements. The coupled engagement of the hooks of the sections of each adjacent section chains thereby form the column.

An extendable and retractable column which is formed from at least three linked sections. The linked sections include a plurality of individual sections linked end to end. As the linked sections are extended, each of the individual sections engage adjacent individual sections to form a column. As the linked sections are retracted, each of the individual sections disengage from the adjacent individual sections and the column may be retracted for compact storage.

An extendable and retractable column which is formed from at least three linked sections or chains. The linked sections include a plurality of individual segments linked end to end. As the linked segments are extended, each of the individual segments of the linked chains engage individual segments of adjacent linked sections to form a column. As the linked sections are retracted, each of the individual segments of the linked sections disengage from the individual segment of the adjacent linked sections and the individual linked sections may be rolled up into a multi-sided form for compact storage.

A lighting tower system is provided. The lighting tower system includes a tower positioned in an upright orientation within a bed of a vehicle. The tower includes a base tube section and an upper tube section. The base and upper tube sections include a common longitudinal axis and are arranged to slide relative to one another in a telescoping relationship to move each tower between a retracted position and a fully extended position. The lighting tower system includes a light assembly coupled to and extending from the upper tube section of the tower. The light assembly is configured to rotate with respect to the common longitudinal axis and to tilt with respect to an axis perpendicular to the common longitudinal axis. The lighting tower system includes a mounting configuration configured to attach and detach the tower to the bed of the vehicle in the upright orientation.

The present invention relates to a free pillar having a shaft, a load-branching node provided at the upper end of the shaft and at least two cantilever arms which are each connected at one end to the load-branching node and at the other end support the superstructure, and is characterized in that the load-bearing node includes a dome surface and a number of cantilever arm connections which corresponds to the number of cantilever arms, and in that the cantilever arm connections are arranged in such a manner that the center axes of the cantilever arm connections and of the shaft meet at a common point of intersection.

The invention has for object a method for manufacturing concrete construction blocks (6) for a wind-generator tower made up of at least two consecutive blocks secured to one another by a contact surface of each of the two blocks, the manufacturing method comprising the following steps: pouring concrete into a first cage of reinforcements (10-1) so as to obtain the first concrete construction block comprising a first contact surface (9), and pouring concrete into a second cage of reinforcements (10-2) so as to obtain the second concrete construction block, the second cage of reinforcements being provided in a form (21) arranged such that the first contact surface (9) of the first block (6-1) makes up a wall for delimiting (26) the pouring of the concrete such as to form a contact surface (9) of the second block (6-2).

A lighting tower system is provided. The lighting tower system includes a tower positioned in an upright orientation within a bed of a vehicle. The tower includes a base tube section and an upper tube section. The base and upper tube sections include a common longitudinal axis and are arranged to slide relative to one another in a telescoping relationship to move each tower between a retracted position and a fully extended position. The lighting tower system includes a light assembly coupled to and extending from the upper tube section of the tower. The light assembly is configured to rotate with respect to the common longitudinal axis and to tilt with respect to an axis perpendicular to the common longitudinal axis. The lighting tower system includes a mounting configuration configured to attach and detach the tower to the bed of the vehicle in the upright orientation.

An extendable and retractable column which is formed from at least three linked sections. The linked sections include a plurality of individual sections linked end to end. As the linked sections are extended, each of the individual sections engage adjacent individual sections to form a column. As the linked sections are retracted, each of the individual sections disengage from the adjacent individual sections and the column may be retracted for compact storage. Methods of forming such an expandable/retractable column are also presented.

This application relates to tower segment handling methods and apparatus and, in particular, to methods and apparatus for handling segments of steel wind turbine towers. The wind turbine tower comprises a plurality of cylindrical vertical tower sections, which in the finished tower are mounted on top of one another. The vertical section of the tower has a longitudinal axis and comprises a plurality of wind turbine tower segments, the tower segments have vertical and horizontal edges and combine to form a complete vertical tower section by joining along their vertical edges. Adjacent vertical tower sections are joined to each other along the horizontal edges of the wind turbine tower segments. The tower segments are combined into a tower section using a flat roller bed on which the segments can be assembled. A method of assembling a tower section is discussed.