SU949129A1 - Teleskoping scaffolding - Google Patents

Description

(54) TELESCOPIC FACILITIES

Claims (2)

The invention relates to construction and is intended to be completed by the construction of but-installation {cares at height inside and outside buildings and structures. Scaffoldings are known, including a flooring of constant size and a support of variable height, the support consisting of two parts: the upper one rigidly attached to the flooring and the lower one hingedly connected to the upper part til. However, such odmosti are heavy, large-sized and allow variation in height only in two levels. Transporting them is possible only with a crane. The use of scaffolding in enclosed spaces with conventional door openings is excluded. All this limits the scope of application of such scaffolding. Closest to the invention are scaffoldings, including supports with pairwise connected telescopic struts, performed by means of rigidly connected sleeves mounted on horizontal lags, pairwise joining telescopic stands C2. However, when the height of the working deck is changed, a change in its width is required, which limits the scope of application of such scaffolding. The purpose of the invention is to expand the scope and enhance reliability of the scaffolding. This goal is achieved by the fact that telescopic scaffoldings containing supports with pairwise connected telescopic racks, pivotally connected to horizontal lags, flooring and a railing, are provided with oppositely located retractable supports with telescopic braces, 1 "connected to telescopic racks, while the articulated joints are horizontal the lag with telescopic racks is extinguished by means of rigidly connected bushings installed on horizontal lags, combined in pairs telescopic racks. 394. FIG. 1 shows a telescopic scaffolding, general view (facade); in fig. 2 the same, top view; FIG. 3 is the same, end view; in fig. 4-node I in FIG. 3 (telescopic frame closures); in fig. 5 is a section A-A in FIG. four; in fig. 6 — node AND in FIG. 3 (the closure of the telescopic racks supports); in fig. 7 is a view B in FIG. 6. Telescopic scaffolding consists of folding supports 1, horizontal lag 2, shield flooring 3, and a rail fence 4. Folding supports 1 contain two pairs of telescopic struts 5, each pair of which is rigidly interwoven along the outside The telescope link is connected by link 6, and the telescope link is internally connected to the bottom hollow jumper 7, inside which is mounted an extendable support 8. The support 8 is hinged to the lower part of the telescopic strut 9. The legs 5 are connected by hinges 10 to two hollow vtu kami 11, attached in parallel at a right angle to the top bridge 12. Those telescopes racks 5 are closed by means of bolts or pins 13. The fixing units 14 connected to both pairs teleskopiCh6YuKIH racks mounted with a slope, which eliminates the possibility of slipping. Intermediate bridges 15 are additionally installed with a large span of telescopic scaffolding. If the scaffolds are mounted to a height with extension of the telescopic struts 5, to ensure their stability, the supports 8 with the struts 9, which are telescopes, each of which consists of an outer section 16 and an inner tubular section 17, are extended from the lower hollow jumpers 7, Clamps 18 and 19 in accordance with node I (FIGS. 4 and 5) may be trapped. Node 1 (Figs. 4 and 5) closes the telescopes of the strut 9 and contains two half-bolts, which are bolted. The half-clamp 18 is rigidly attached to the outer section of the telescope 16, and the half-clamp 19 is located in the cut-out area of the same section and has an inner diameter approximately equal to the outer diameter of the inner section 17 of the telescope. There is a gap between the semi-cranks, allowing the inner section 17 of the telescope to be clamped. The assembly and preparation of the sub-field for operation is carried out in the following 5 ways. Bearings 1 are assembled with 2 n lags, raised to the design position, closing the telescopes of the H5 pillars with bolts 94 or pins 13 (Fig. 6 and 7). If the supports are extended to a considerable height, then the supports from the lower ones are extended to ensure their stability. hollow bridges and on the opposite side are fixed with struts 9, on which the telescopes are closed in accordance with the node (flash 3 and 4). Thereafter, the scaffolding is raised on the pews 2, the panel board 3 is laid and fixed railing fences 4. When installing the scaffolds with the telescopes of the racks 5 extended away from the wall, retractable supports 8 with braces 9 are installed on both sides. one of the supports 1, lags 2 are inserted into the hollow bushings 11 with a set of intermediate jumpers 15, and then the second support 1, lags 2 are filled into the hollow bushings 11, flooring 3 is laid down and the fence 4 is fixed. Advantages of the proposed device Twa are expressed in the convenience of operation, so a; ak installing scaffolding can prokzvodits both the horizontal and on the ramp, including the stairwells. The device has a simplified assembly and disassembly process, and transportation does not require complete disassembly. Claims of the invention Telescopic scaffolding containing supports with pairwise connected telescopic pillars hingedly connected to horizontal lags, we ™ are a guardrail, so that, in order to expand the area of use and increase reliability, they are equipped with oppositely located extendable supports with telescopic struts hinged to the telescopic pillars, while the hinged connection of the horizontal lag to the telescopic pillars is made by mouth copulating horizontal joists bushings rigidly connected pairwise combined constituents telescopic strut. Sources of information taken into account during the examination 1. USSR author's certificate No. 140978, 1958. 2. USSR Author's Certificate No. 31001.8, cl. E 04 G, 1/18, 1969. -four L7 3 Fi2.g U2.d L e YES U2.6 Fi.5 didV U.2.7