The present invention discloses a punch-free telescopic rod, comprising an inner tube and an outer tube sleeved together. A first elastic part is connected to the inner tube. When the two tubes rotate relative to each other, the first elastic part and the insertion end squeeze each other to lock the two tubes; when the two tubes rotate in opposite directions, the first elastic part and the end face of the insertion end are separated from each to unlock the two tubes. The structure of the present invention is very simple and can achieve stable locking.

A tension rod mechanism includes an outer tube, an inner tube having an end received in the outer tube, and a fixing device. The fixing device includes an engaging member and an enveloping member. The engaging member includes an engaging portion and a rod connected to the engaging portion. The engaging portion is mounted to the end of the inner tube. The rod extends in the outer tube. The rod includes an outer threaded portion formed on an outer periphery thereof. The outer threaded portion is connected to an end face of the engaging portion. The outer threaded portion has a constant major diameter. The outer threaded portion includes increasing minor diameters from the engaging portion toward a free end of the rod. The enveloping member includes an inner periphery having an inner threaded portion engaged with the outer threaded portion.

An extendable leg 10 for a tripod, the leg 10 comprises two or more leg-stages 11b, 11c, each leg-stage 11b, 11c moveable axially relative to one or more of the or each other leg-stages to lengthen or shorten the leg. The leg 10 includes a clamp assembly to releasably prevent the relative movement when the leg is at the desired length. The clamp assembly includes a leg brake 22a moveable between a first leg-stage locking position and a second leg-stage release position. In order to control movement of the leg brake 22a between the first and second positions, an actuation means 16 is provided. A cable 17 is operably connected at a first end to the actuation means 16 and at a second end to the leg brake 22a, such that operation of the actuation means 16 causes the cable 17 to move the leg brake 22a.

There is provided a lock mechanism for an adjustable rod. The lock mechanism provides a manually locking state and an automatic locking state. The automatic locking state provides a more secure locking engagement than the manual locking state. There is also provided improved end cap systems that minimize the number of components.

A support tower, particularly for a wind turbine. The support tower has at least a first elongated component which is internally hollow and at least a second elongated component which is slidably coupled to the at least a first elongated component and movable relative to the at least a first elongated component at least between a retracted position. The second elongated component is at least partially inserted in the at least a first elongated component, and an extracted position, where the at least a second elongated component is substantially extracted from the at least a first elongated component. A moving device for moving the second elongated component from the retracted position to the extracted position, and vice versa, and a blocking device configured to allow the at least a second elongated component to be blocked in the extracted position, are also provided.

There is provided a lock mechanism for an adjustable rod. The lock mechanism provides a manually locking state and an automatic locking state. The automatic locking state provides a more secure locking engagement than the manual locking state. There is also provided improved end cap systems that minimize the number of components.

Spooling machine including two side frames spaced at a horizontal distance by a telescopic spacer beam, each frame having a pintle on supports for bearing a drum for cable pipe or hose, the telescopic spacer beam including at least one outer tube and at least one inner tube, which are slidably and telescopically one inside the other, and a locking device positioned between the outer tube and the inner tube for locking the outer and inner tube in adjustable position. The locking device includes a split part of the inner tube extending over a part of the length of the inner tube and dividing the inner tube into sections, and a force element for creating a swelling force on the split part of the inner tube to press the sections against the inner surface of the outer tube.

A telescopic rod and a telescopic structure are provided. The telescopic rod includes an inner tube and an outer tube, an end portion of the inner tube extending into the outer tube is used as an extension end and is provided with a limiting portion, a bottom portion of the limiting portion is connected to the extension end, an outer diameter of an outer peripheral wall of the limiting portion gradually increases from the bottom portion to a top portion thereof, a positioning member is slidably connected with an elastic portion, the elastic portion has elastic expansion members, and the elastic expansion members form static friction with an inner wall of the outer tube, which result in a simple structure, convenient operation and very stable locking.

A one-step locking stand includes a fixing portion and at least one supporting leg connected to the fixing portion. The supporting leg includes first, second, and third sections axially connected to one another; an operating assembly arranged at one of the sections; a first transmission assembly connected to the operating assembly; a first locking assembly fixedly arranged at the second section, slidably connected to the first section, and connected to the first transmission assembly; a second transmission assembly connected to the first locking assembly and slidable through an interior cavity of the second section; and a second locking assembly arranged at the first section and connected to the second transmission assembly; wherein when the first locking assembly is driven to move axially to lock or release the first section, the first locking assembly is driven to move the second locking assembly axially to lock or release the third section.

There is provided a lock mechanism for an adjustable rod. The lock mechanism provides a manually locking state and an automatic locking state. The automatic locking state provides a more secure locking engagement than the manual locking state. There is also provided improved end cap systems that minimize the number of components.