RU2070758C1 - Telescopic pneumatic pole, its mounting and dismounting process - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: pneumatic pole has upper and lower telescopic casings. Outer section 3 of lower casing has diameter greater than that of outer section 4 of upper casing. Upper-tier guys 14 are attached to central section 3 of upper casing and gays 15 of lower tier, to section 3 rigidly fixed with section 4. For pole installation, its casings rigidly joined together by means of outer sections 3,4 are placed vertically and fixed with guys 15 of lower tier. Then air is supplied to pole interior and sections 5,6 of upper casing are drawn out, whereupon guys 14 of upper tier are fixed and guys 15 are released. In the action, sections 2,3 of lower casing are drawn upwards under compressed air action; upper-casing section 4 fixed to section 3 rises together with the latter thereby providing for folding upper-casing sections. Lower-tier guys 15 are secured and upper-tier guys 14 are released; in the action, upper-casing sections 5,6 rise under the action of compressed air. Upper-tier guys 14 are fixed in position. For dismounting, the procedure is reverse to that described above. EFFECT: facilitated mounting and dismounting of pole. 2 cl, 12 dwg

Description

 The invention relates to the field of mast devices.

 The closest in technical essence to the claimed technical solution (mast) is a pneumatic mast containing a clip of telescopic sections, one of which, located inside the clip, is fixedly mounted on the base, movable sections and an additional support installed on the base, and the additional support is made rigid , mounted coaxially to the stationary section, and the lower movable section on the outer surface is equipped with rollers interacting with an additional support (see AS USSR N 1350708, class H 01 Q 1/1 0, 1987).

 This technical solution can only be used for masts of relatively small height that do not carry antennas with parabolic mirrors on their tops, otherwise the additional support (without the use of braces) will not be able to guarantee the mast from tipping over when exposed to wind loads. In addition, the well-known mast cannot be used to install high-precision devices on it (for example, antennas with a sharp focus), because its apex, not fixed by guy wires, will be deflected under wind exposure, which in this case is unacceptable.

 The claimed invention eliminates the disadvantages of the known technical solution due to the fact that the pneumatic mast containing a clip of telescopic sections, one of which is located inside the clip, is fixedly mounted on the base, equipped with an additional upper clip of the telescopic sections with locks, coaxially mounted with the lower lock clip and rigidly connected to it by external sections, the central section of the lower casing being fixedly mounted on the base with a cross section of the lower casing exceeding cross-section of the upper casing, furthermore, delays upper tier tower attached to the central section of the upper casing and the lower tier backstay to one of rigidly interconnected sections.

 There is a method of mounting and dismounting a telescopic mast, including installing folded telescopic sections in a vertical position, securing them with guy lines of the lower tier, supplying compressed air to the mast cavity, locking the telescopic sections extended by locks and securing with guy wires of US patent N 2173095, cl. H 01 Q 1/10, 1939 (prototype method).

 In the claimed invention, the clips of the telescopic sections, rigidly connected to each other, are installed in a vertical position and secured with guy wires of the lower tier, then compressed air is fed into the mast cavity and the sections of the upper cartridge are pushed out, after which the guy wires of the upper tier are fixed and the guy wires of the lower tier are released, while sections of the lower holder are pushed upward under pressure of compressed air, ensuring folding of the sections of the upper holder, after the extension of the sections of the lower holder, lock their locks, then fasten of the lower tier and release the guy lines of the upper tier, then push the sections of the upper cage under pressure of the air, lock them with locks and fasten the guy of the upper tier, and when dismantling the mast, weaken the guy of the upper tier, unlock the locks of the upper cage and relieve pressure in the mast cavity, folding sections of the upper holders under their own weight, then fasten the guy lines of the upper tier, raise the air pressure in the mast cavity to a value sufficient to keep the central section of the upper cage from lowering bottom, the lower housing locks are unlocked, allowing its folding sections under their own weight, and then fixed backstay lower tier and depressurized mast cavity, providing the folding of the upper casing under its own weight.

 The technical result of the invention is the improvement of operational characteristics.

The invention is illustrated by drawings, which schematically shows:
in FIG. 1 lower clip of telescopic sections of a pneumatic mast in a longitudinal section; in FIG. 2 upper clip of telescopic mast sections in longitudinal section; in FIG. 3 pneumatic mast in a longitudinal section during dismantling (without the image of locks); in FIG. 4 a section along AA in FIG. 3; in FIG. 5 a section along BB in FIG. 3; in FIG. 6-10 stages of mast mounting; in FIG. 11-12 mast dismantling stages.

 The pneumatic mast contains a clip of telescopic sections 1-3. Section 1, located inside the cage, is fixedly mounted on the base. The mast is equipped with an additional upper clip of telescopic sections 4-6. The outer section 3 of the lower race is larger than the cross section of the upper race. Sections 2-5 are equipped with remotely controlled locks 7-10 for fixing them in the extended position. The outer sections 3 and 4 of both cages are fastened to each other by means of flanges 11, 12 and bolted connections 13. The guy wires 14 of the upper tier of the mast are attached to the central section of the upper holder, and the guy wires 15 of the lower tier to section 3, rigidly connected to section 4.

 The inner ends of the sections are equipped with persistent elements that limit their extension.

 When compressed air is injected into the mast, its sections extend to the stop and the mast unfolds to its full height.

 When venting the mast, it folds.

 For mounting a pneumatic mast, its clips, rigidly connected to each other by external sections 3, 4, are installed in a vertical position and secured by guy wires 15 of the lower tier (Fig. 6). Then, compressed air is supplied to the mast’s internal cavity and sections 5, 6 of the upper cage are pulled out (Fig. 7), after which fastenings are fastened 14 of the upper tier and the guy cables 15 of the lower tier are released, while sections 2, 3 of the lower cage are pushed up under pressure of compressed air (together with section 3, the upper casing section 4 is also extended), providing folding of the upper cage sections at the top of the mast (Fig. 8). After the sections of the lower casing are extended, their locks 7, 8 are locked, the guy wires 15 of the lower tier are fixed and the guy wires 14 of the upper tier are released. Then, under pressure of compressed air, sections 5, 6 of the upper casing (Fig. 9) are pushed forward, they are locked with locks 9, 10 and fastenings are fastened 14 of the upper tier (Fig. 10), while the mast is finally mounted.

 To dismantle the mast, weaken the guy wires 14 of the upper tier, unlock the locks 9, 10 of the upper casing and release the pressure in the cavity of the mast, ensuring the folding of the sections of the upper cage under its own weight (Fig. 11). After that, fastenings of the upper tier 14 are fixed, the air pressure in the mast cavity is raised to a value sufficient to hold the central section 6 of the upper cage from lowering down, the locks 7, 8 of the lower cage are unlocked, ensuring that its sections 2, 3 are folded under its own weight (simultaneously with section 3 also lowers the section 4 of the upper cage connected to it), then fasten the guy wires 15 of the lower tier and relieve pressure in the mast cavity, ensuring folding sections 5, 6 of the upper cage under its own weight (Fig. 6).

 Using the proposed technical solution will significantly increase the height of the mast and the load on it (vertical and horizontal), as well as stabilize the position of the top of the mast during wind stresses, which is necessary when installing high-precision devices on it.

Claims (2)

 1. A telescopic pneumatic mast containing a lower clip of telescopic sections, one of which located inside is fixedly mounted on the base, characterized in that the upper clip of telescopic sections with locks is inserted into it, mounted coaxially on the lower clip and rigidly connected to it by external telescopic sections, while the cross section of the outer telescopic section of the lower holder is larger than the cross section of the outer telescopic section of the upper holder, in addition, the telescopic sections the lower cage is equipped with locks, the central section of this cage is fixedly mounted on the base, the upper and lower tiers of the guy rods are introduced, the guy lines of the upper tier attached to the central telescopic section of the upper holder, and the guy of the lower tier to one of the outer telescopic sections.  2. The method of mounting and dismounting the telescopic pneumatic mast, which consists in installing the folded telescopic sections in a vertical position, securing them with guy lines of the lower tier, supplying compressed air to the cavity of the mast, locking the telescopic sections extended with locks and securing with guy wires, characterized in that when mounting in the cavity the masts supply compressed air until all telescopic sections of the upper cage are extended, fasten it with guy wires of the upper tier, release guy wires of the lower tier, while telescopic The sections of the lower cage will extend, and the upper one will fold, lock the telescopic sections of the lower cage and fasten this cage with guy lines of the lower tier, release the guy wires of the upper tier, supply compressed air to the mast cavity until the telescopic sections of the upper cage are extended, lock them and fasten the guy of the upper tier, and during dismantling, weaken the guy lines of the upper tier, unlock the locks of the telescopic sections of the upper cage, relieve pressure in the cavity of the mast, ensuring the folding of the telescopic sections of the upper cage under its own weight, fasten the guy line of the upper tier, create air pressure sufficient to keep the central telescopic section of the upper cage from lowering down, unlock the locks of the lower cage, ensuring that its telescopic sections are folded under its own weight, then fasten the guy line of the lower tier and relieve pressure in mast cavities, providing folding of the upper holder under its own weight.

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