DE20300671U1 - Mobile telescopic mast has number of extendable concentric tubes - Google Patents

Abstract

The mast has a pair of concentric tubes (3,4) that can be successively extended to create a mast of different heights. The tubes are extended using a manual operated pulley hand wheel (6) coupled by a pulley cable (1).

Description

Thomas Möller - Gbm-1 ·***.. &iacgr;&idigr; · ·· · * Page 2

Description

The invention relates to a mobile telescopic mast with at least three coaxial tubes that can be extended and retracted simultaneously. Mobile telescopic masts are used as supports for antennas, optical systems (e.g. cameras, surveillance cameras, video recorders) and measuring devices (e.g. infrared measuring devices for buildings).

There are mobile telescopic masts on the market with cables that allow the individual tubes to be extended and retracted at the same time. The disadvantage of these systems is the one-sided cable guide, which leads to increased friction due to lateral loading of the bearings that guide the tubes. The one-sided cable guide also leads to a bend in the telescopic mast when extended. The bend in the mast causes a horizontal rotation of the support for the payload and leads to a "slanted horizon" (e.g.) when taking pictures with a camera. Another disadvantage of the one-sided cable guide is large cable diameters, which in turn lead to a large gradation of the tube diameters and thus to heavier structures.

The purpose of the present invention is to distribute the weight of the payload and the pipes between cables that are attached opposite each other on both sides and do not cause any lateral forces on the bearings that guide the pipes. The distribution of the payload and the pipes between double-guided cables allows the use of thinner cables. The advantage of this arrangement is that the pipes can be pulled out straight without bending the telescopic mast due to the cable forces and the use of thinner cables, which allows a narrower gradation of the pipe diameters. This allows the weight of the telescopic mast to be reduced.

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The round pipes are guided by the outer bearings (16) and inner bearings (10, 11). The 2nd pipe from the outside (3) is extended via a cable (7) which is attached to the cable winch (6, 13, 14) on the opposite side (8), via a deflection pulley (5), 2 pivoting deflection pulleys (9) in the inner bearing (10) of the 2nd pipe (3) from the outside, and is guided to the cable drum (6) by means of a deflection pulley (5). Rolling up the cable (7) causes the 2nd pipe (3) to be lifted from the outside. The cable drum (6) is driven by a self-locking worm gear (13) and hand crank (14).

Lifting the second tube (3) from the outside causes a shortening of the cable (1) attached symmetrically to the outer bearing on the inside of the tube (3) and a corresponding lengthening of the cable (1) on the outside. This causes the inner tube (4) to be lifted in the same way. The same applies to other tubes located in the telescopic mast. All tubes are pulled out simultaneously and with the same stroke.

With the exception of the rope that is connected to the pulley, all ropes are guided on the inner bearing (11) of the tube in such a way that the rope forces can be balanced. Since these ropes are not moved relative to the inner bearing (11), no pulley is necessary.

The payload (antenna, optical system, measuring instruments) are attached to the payload carrier (15).

The pipes are retracted by unrolling the rope (7) from the rope drum and by gravity.

Claims (4)

1. Mobile telescopic mast, in particular as a support for antennas, optical systems and measuring devices, with at least 3 coaxial tubes that can be extended and retracted telescopically at the same time, characterized by a symmetrical arrangement of cable loops ( 1 ) which are fastened to the next outer tube ( 2 , 3 ) and are connected via deflection rollers ( 5 ) to the underside of the next inner tube ( 3 , 4 ), and a cable winch ( 6 , 13 , 14 ) fastened to the outermost tube ( 2 ) for receiving the cable ( 7 ) for extending and retracting the inner telescopic tubes ( 3 , 4 ). 2. Telescopic mast according to claim 1, characterized by a cable ( 7 ) for extending and retracting the 2nd tube from the outside ( 3 ), which is fastened to the cable winch ( 6 ) on the side of the outermost tube ( 8 ) opposite to that of the cable winch (6), is connected to the cable winch ( 6 ) via deflection rollers ( 9 ) on the inner bearing ( 10 ) on the underside of the 2nd tube ( 3 ) from the outside and a deflection roller ( 5 ) on the outermost tube ( 2 ). 3. Telescopic mast according to claim 1, characterized by a cable ( 1 ) for the extension and retraction of the next inner tube ( 3 , 4 ), which is attached at both ends opposite to the next outer tube ( 2 , 3 ), is deflected downwards via 2 on the top of the tube via deflection rollers ( 5 ) and is connected to the inner bearing ( 11 ) on the underside of the next inner tube. 4. Telescopic mast according to claim 1, characterized by a cable ( 1 ) for the extension and retraction of the innermost tube ( 4 ), which connects the inner bearing ( 11 ) of the innermost tube via deflection rollers ( 5 ) on the 2nd tube from the inside with the 3rd tube ( 12 ) from the inside and is fastened there on both sides, opposite one another.