RU2022117C1 - Stepladder for building-assembly works - Google Patents

Abstract

FIELD: building industry. SUBSTANCE: upper part of the stepladder is produced so that during ascent-descent to the roof the worker's foot should not touch the window ledge or step on it. The stepladder is used for roofing one- or two-story buildings. EFFECT: provision for safety engineering during the ascent-descent to the roof while preventing the slate edge protruding out of the roof eaves from breaking, provision for rigidity, solidity and ease in exploitation. 7 dwg

Description

 The invention relates to inventories in the field of construction in the production of roofing one-two-story buildings.

 A well-known staircase adopted for the prototype, in which detachable brackets with the possibility of settlement attached to the corresponding side rails of the stairs and blocked with a specific crossbar of the stairs. Each bracket has a leg pivotally attached to it. The leg is fixed on a bracket at a certain angle to the wall of the building or other support with which it is engaged. The staircase is held by legs at some distance from the building. This ladder does not fasten to the wall, but rests on it, so it can slide over the surface of the wall, as a result of which the worker may fall from the ladder. The staircase is not convenient for transportation and widespread use, as it is not equipped with its collapsible links. The design does not provide for changes in its length depending on the height of the building.

 The purpose of the invention is the provision of safety during the ascent to the roof while preserving the edges of the slate protruding from the cornice from breaking, ensuring rigidity and strength, ease of operation of the stepladder.

This goal is achieved in that the stepladder for construction work, including bowstrings, steps and fasteners fixed to the latter to support the building wall, is made of links interconnected by means of flanges. Fasteners are secured to the penultimate stage and the building wall at an angle α = ⁶⁰ °, and the last and the penultimate stage has the height from the eaves of the building at a distance of 150 mm and spaced from it by a distance of 50-100 mm.

 Figure 1 shows the wiring diagram of a prefabricated step-ladder two-story building; figure 2 - prefabricated step-ladder for a single-story building, General view; figure 3 is a diagram of the mounting of the mounting support to the wall of the building and stairs; figure 4 is a section aa in figure 3; figure 5 is a section bB in figure 3; in Fig.6 - node I in Fig.1 and 2; Fig.7 is a view In Fig.6.

 The ladder with mounting supports includes bowstrings 1, ordinary steps 2, mounting steps 3, fasteners 4, wall fasteners 5, anchor bolts 6, connecting bolts of the mounting support 7, connecting bolts with flanges 8, flanges 9.

 Steps 2 and 3 with bowstrings are connected by welding. Fixing support parts 5 are attached to the wall with the help of anchor bolts 6 embedded in it, and fasteners are connected to each other and to the mounting step 3 by bolts 7.

 For the convenience of transportation and installation, a prefabricated stepladder is made of three links - part of a staircase with two connecting nodes I for single-story and four links for two-story buildings. In this case, the lower link is made with a length of 1500-2000 mm in such a way that it can be used only during the period of roofing, and after its completion, in order to avoid accidents, dismantle it. In this case, the platform and folding legs can be fixed to the flanges and used as a portable stepladder.

 For convenience, when climbing the roof, the bowstring is arranged above the cornice by 500 mm, which is optimal, because at higher they can lose rigidity. The distance between the edge (overhang) of the cornice with the upper and lower steps is taken a = 150 mm, which is equal to 1.5-2 the height of the steps of the worker’s legs, and this excludes the force of the foot on the ledge. The mounting support KO-1 is designed to provide rigidity and maintain the strength of the bowstrings, and the angle α provides rigidity to the parts 4.

 The length of the prefabricated ladder is taken according to the following initial data: the floor is made of multi-hollow panels with a thickness of 220 mm, the height of the floor with flooring is 300 mm, the cornice with a Mauerlat is 380 mm, the floor is 2500 mm, the basement is 500 mm, and the total height of the single-story buildings from the overhang (edge) of the cornice to the ground - 3900 mm.

 The height of the stairs to the eaves is defined as the hypotenuse of a right triangle, the legs of which are the wall height to the eaves, which is 3900 mm, and the difference between the width of the blind area and the horizontal projection KO-2, equal to 800- (250 + 100) = 450 mm, where 250 the width of the eaves . Removing the root and adding the length of the stairs above the cornice, we obtain the total length of the prefabricated step-ladder for single-story buildings - 4600 mm - and the length of two-story - 7400 mm.

 With other sizes of structures and the height of the building, the proposed staircase can be extended or shortened by the lower link without changing the location of the KO-2. The mounting support KO-1 from KO-2 differs only in that it is located closer to the ground, so details 4 in it are slightly longer.

 The stairs are mounted in a known manner.

 The use of the claimed stairs compared with the known stairs of two-story buildings gives material savings due to its rigidity and versatility.

 The material of the stairs is metal, wood.

Claims (1)

STAIRS AND LADDERS FOR CONSTRUCTION AND INSTALLATION WORKS, including bowstrings, steps and fasteners fixed to the latter to support the building wall, characterized in that the ladder is made of links interconnected by means of flanges, while fasteners are fixed to the last but one step and to the wall buildings at an angle of 60 ^o , and the last and penultimate steps are placed in height from the eaves of the building at a distance of 150 mm and carried away from it at a distance of 50 - 100 mm.

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