RU140551U1 - SLIDE - Google Patents

Abstract

1. The slide, comprising a platform consisting of horizontal and inclined sections with a coating, mounted on a supporting structure mounted on base plates, and the platform and supporting structure includes rod elements fixed at the nodes of their intersection by nodal elements, characterized in that the supporting structure of the upper sections are made in the form of sequentially installed vertical portals located perpendicular to the axis of the site and separated by spans, and the racks of the portals are connected spatially lattice and trusses that are installed with spans along and across the axis of the platform, and the supporting structure of at least one lower section is made in the form of racks or lattice prismatic supports, while the nodal elements are made in the form of spherical and hemispherical polyhedra, on the edges of which are fixed elements through a single bolt connection, according to the MARCHI system. 2. A slide according to claim 1, characterized in that the sections of the platform, as well as the supporting structure of the upper and lower sections are made of variable width. 3. A slide according to claim 1, characterized in that the slide platform is equipped with barriers consisting of rod elements connected at intersection nodes by means of node elements according to the MARCHI system. 4. The slide according to claim 1, characterized in that the slide platform is equipped with fences with a roof, consisting of rod elements connected at intersection nodes by means of nodal elements, according to the MARCHI system. 5. The slide according to claim 1, characterized in that the portal racks in the upper and lower supporting zones, as well as at intersections with trellised trusses, are equipped with reinforcing frames, consisting�

Description

The utility model relates to construction and can be used as a device for sports, as well as for entertainment purposes.

The slide is known from the prior art, including a platform consisting of horizontal and inclined coated sections mounted on a supporting structure mounted on base plates, the platform and supporting structure including rod elements fixed at the nodes of their intersection by nodal elements (see http: / /www.fair-wind.ru/news/1/22/; News “The Galileo program tells about the largest ski slope in Moscow”, publ. 15.12.2013, prototype). The known design is formed by a system of modular scaffolding consisting of longitudinal and transverse metal rods. Moreover, on the longitudinal metal rods, with a certain step, the nodal elements are distributed, made in the form of perforated sockets for wedge-shaped fastening elements of the transverse metal rods. Nodal elements made in the form of perforated sockets have a limited tensile strength to the bending load applied to them, which does not provide high reliability of such fastening and for uniform load distribution in large-sized structures, requires a large number of metal rods connected to each other, providing continuous connection . Due to the limited bearing capacity of the rods and nodal elements, high metal consumption is required to ensure the reliability of the structure. In addition, for connecting longitudinal and transverse metal rods not at right angles, additional fasteners are required in the nodes of their connection, as well as the manufacture of end parts of metal rods with a certain radius of curvature, which complicates the technology of their production.

The objective of the claimed utility model is to eliminate the shortcomings identified in the analysis of the closest analogue.

The technical result consists in reducing the number of mounting grades, metal consumption, as well as the speed and complexity of mounting and dismounting the slide.

The achievement of the technical result is provided by a slide including a platform consisting of horizontal and inclined coated sections mounted on a supporting structure mounted on base plates, the platform and supporting structure including rod elements fixed at the nodes of their intersection by nodal elements, while the upper supporting structure sections made in the form of sequentially installed vertical portals located perpendicular to the axis of the site and separated by spans, and rack portals are connected by spatially lattice trusses, which are installed with spans along and across the axis of the platform, and the supporting structure of at least one lower section is made in the form of racks or lattice prismatic supports, while the nodal elements are made in the form of spherical and hemispherical polyhedra, on the faces of which the core elements are fixed by means of a single bolt connection, according to the MARCHI system.

According to the claimed utility model, sections of the site, as well as the supporting structure of the upper and lower sections, are made of variable width.

According to the claimed utility model, the slide platform is equipped with fences consisting of bar elements connected at intersection nodes by means of nodal elements according to the MARCHI system.

According to the claimed utility model, the slide platform is equipped with fences with a roof, consisting of rod elements connected at intersection nodes by means of nodal elements, according to the MARCHI system.

According to the claimed utility model, the portal struts in the upper and lower supporting zones, as well as at intersections with trellised trusses, are equipped with reinforcing frames consisting of rod elements connected at intersection nodes via nodal elements, according to the MARCHI system.

According to the claimed utility model, the portal racks are equipped with support nodes and / or jacks.

According to the claimed utility model, the supporting structure of the two lower sections of the platform is made in the form of V-shaped inclined racks oriented with their vertices towards the base plates.

According to the claimed utility model, the supporting structure of the two lower sections of the site is made in the form of prismatic supports consisting of rod elements connected at intersection nodes by means of nodal elements according to the MARCHI system.

According to the claimed utility model, the core elements have a tubular and I-section.

According to the claimed utility model, the horizontal sections of the site are equipped with stairs and / or mechanical lifts.

The utility model is illustrated by drawings.

In FIG. 1, slide, general view.

In FIG. 2, slide, front view.

In FIG. 3, slide with fences and a roof and V-shaped inclined supports, front view.

In FIG. 4, slide with prismatic supports, front view.

In FIG. 5, 6, a cross-sectional view of sequentially installed portals of different heights and platforms without a roof.

In FIG. 7, 8, a cross-sectional view of sequentially installed portals of different heights and platforms with a roof.

In FIG. 9, the support node of the portals racks.

In FIG. 10, jack racks portals.

In FIG. 11, spherical nodal element, with tubular rods, according to the MARCHI system.

In FIG. 12, hemispherical nodal element, with tubular and I-rods according to the MARCHI system.

In FIG. 12a, a section through 1-1.

In FIG. 13, the site cover installed on the I-beam rod elements of the MARCHI system.

In FIG. 14, a fragment of a single-tier section of the site.

In FIG. 15, a fragment of a two-tier section of the site.

The slide includes a broken platform 1, consisting of horizontal 2 and inclined sections 3 with a coating 29. The platform 1 is mounted on a supporting structure 4, which is installed on the base plates 5. The supporting structure of the upper sections is made in the form of sequentially installed vertical portals 6 located perpendicular to the axis platforms and separated by spans. The racks 7 of the portals 6 are connected by spatially lattice trusses 8, which are installed with spans along (Fig. 1, 2, 3, 4) and across the axis of the site (Fig. 5, 6, 7, 8). The platform includes at least one lower section 9, the supporting structure of which is made in the form of V-shaped inclined racks 10, oriented with their vertices towards the base plates 5. According to one embodiment of the utility model, the supporting structure, one, two or three lower sections platforms, made in the form of V-shaped inclined racks 10. According to one variant of the utility model, the supporting structure, one, two or three sections is made in the form of lattice prismatic supports 11 (Fig. 4), consisting of rod elements connected at intersection nodes by means of nodal elements, according to the MARCHI system.

Site 1, portals 6 and trellised trusses 8 are made of elements of the MARCHI cross-rod system of orthogonal type, which are based on pyramids of the octahedron type (two-tier section) and semi-octahedron (single-tier section), formed by steel tubular 12 and I-beams 13 connected in nodes intersections of spherical 14 and hemispherical polyhedrons 15, providing the connection of the rod elements using a single bolt connection (Fig. 11, 12). Racks of 7 portals in the upper and lower supporting zones, as well as at intersections with trellised trusses 8, are equipped with reinforcing frames 16 (Fig. 2, 3) made of elements of the cross-rod MARCHI system of orthogonal type. The racks of the portals in the areas of their supports on the plates 5 are equipped with support nodes 17 and / or jacks 18 (Fig. 9, 10). The site 1 of the slide is equipped with fences 19 (Fig. 5, 6) made of elements of the cross-rod system MARCHI of orthogonal type. According to one variant of the utility model, the slide platform is equipped with fences with a roof 20 (Fig. 7, 8) made of elements of the cross-rod MARCHI system of orthogonal type. The upper strip of the platform, on which the profiled sheet 21 of the coating rests, is made of rods of an I-section 13 to enhance the bending strength of the rods (Fig. 13). A mesh 22 is laid over the profiled sheet 21 to hold snow or plywood 23 with a mesh 24. The horizontal sections of the platform are equipped with stairs and / or mechanical lifts 25.

Implementation of a utility model.

Installation of the slide design is carried out in the following sequence. At the installation site, the structures are arranged on the basis of 2P30.18 type road plates on a sand leveling layer, compacted by vibratory rammers or rollers. After leveling the surface, the reinforced concrete base plates 5 are installed and the metal structural elements are delivered to the construction site.

To assemble sections of the site, elements of the supporting structure (portals 6 and spatially lattice trusses 8), fences 19, roof 20, and also lattice prismatic supports 11 use unified rod and nodal elements of the MARCHI system (see TU 5285-001-47543297-09 " Rods and nodal elements of the MARCHI system ”, Moscow, 2009, appendix, sheets 1-9). Elements of the MARCHI system consist of two types of mounting units: a nodal element 14, 15 and a tubular 12 (see SU 443151, 15.09.74) or an I-beam 13 rod (see SU 581214, 15.12.77) with high-strength bolts to interface them with the nodal elements. The advantages of the MARCHI cross-rod system are: a single unified assortment with maximum compositional capabilities, the use of low-shape tubular rolled profiles that are optimal in shape, the use of high-strength steels in element joints, the compactness of mounting grades and the possibility of their transportation by any type of transport, high reliability and speed of assembly and installation structures, including conveyor assembly and large-block installation, wide possibilities of volumetric and spatial composition kasov virtually unlimited variety of structural shapes based on a limited set of initial model unified elements, the principle deconcentration material, i.e. the predominant use of the cross sections of the rod elements under the magnitude of the force arising in them, the use as a typification object of the rod and the nodal element, optimized by mass and bearing capacity, not subject to any specific architectural and structural form.

The core and nodal elements of the MARCHI system, arriving at the construction site in special packaging, are sorted by grades and laid on reinforced concrete slabs or specially prepared board decks. According to the marking numbers, the rods are laid out in the assembly sequence. The assembly of the first section of the single-tier platform is carried out manually at ground level in the following sequence: first, collect the square grid 26 of the lower belt and make it straight, then collect the rods of the grating of the lower tier 27, and then the square mesh of the upper belt 28 (see Fig. 14, shown single-tier section). The assembly of the two-tier platform is also done manually in the same sequence: first, the square grid of the lower belt 26, then the lattice of the lower tier 27, then the middle belt 29, the lattice of the upper tier 30 and then the square grid of the upper belt 28 (see Fig. 15, the two-tier platform is shown) . The section of the site may have a single-tier, two-tier or three-tier structure. The assembly of the following sections is carried out in a similar manner. After the assembly of the sections of the site, fences or fences with a roof, also assembled using the MARCHI cross-rod system, are mounted on both sides of them. With the help of a truck crane, the first mounting section of the slide is lifted at one end to the working elevation and mounted on temporary mounting supports, after which permanent V-shaped inclined racks 9 abut against the base plates 5. They are mounted. Depending on the angle of inclination of the lower part of the mounted platform and its required length, the lower part of the platform may consist of two or three lower sections, which are similarly mounted on V-shaped posts 9, with the formation of a flat or broken slope. According to one embodiment of the utility model, the lower section or sections can be mounted on trellised prismatic supports 11 made of elements of the MARCHI system, installed with a certain step and having a variable height in ascending order. At ground level, the first portal and the next section of the site are assembled. The assembled portal using a truck crane is raised to a vertical position and lowered, so that the support nodes 17 and / or jacks 18, mounted in the lower nodes of the portal racks rest on the base plates (Fig. 9, 10), after which the next section is mounted on the installed vertically the portal and to the edge of the section installed below. The support nodes 17 of the portal struts provide an even distribution of the load on the base plates 5, and the jacks 18 provide the ability to adjust the slide level relative to the base plates 5. Next, two portals are assembled under the horizontal section of the platform with longitudinal grating 8 being unblocked in the longitudinal and transverse directions at the same level . The assembled block, formed by two portals and trellised trusses, is installed on the base plates 5 using a truck crane, after which the next section is mounted on it and to the edge of the section below. Subsequent assembly of the structure is carried out by analogy with the previously installed sections, with increasing the height of the portals and the number of spatially lattice trusses mounted with a certain step at different levels, depending on the height of the portals. After mounting the structure, ladders and / or mechanical lifts 25, for example elevators, are attached to the portals holding the horizontal sections. At the end of the work, profiled sheets 21 and / or plywood panels 23 are fastened to the surface of the site, as well as a special wire mesh 24 holding snow on the surface of the site.

The design of the slide is designed for a design load of 1200 kgf / m ² taking into account the concentrated load from Ratrak (snow compaction machine).

The overall stability of the design of the slide is ensured by the joint work of the structures of the platforms 1, vertical portals and rigidly connected with the last spatial trellis farms 8.

Thus, achieved:

1. A reduction of almost 10 times the number of mounting marks in comparison with the analogue.

2. Reducing the complexity and cost of installation and dismantling of the slide design.

3. Reducing the metal consumption of the slide design by 5-6 times.

4. Reducing the cost of transporting structures to the place of its construction and to the warehouse.

5. More compact storage in warehouse conditions.

6. Reliability of the structure during operation, due to the power of the rod and nodal elements.

7. High architectural and aesthetic qualities.

Claims (10)

1. The slide, comprising a platform consisting of horizontal and inclined sections with a coating, mounted on a supporting structure mounted on base plates, and the platform and supporting structure includes rod elements fixed at the nodes of their intersection by nodal elements, characterized in that the supporting structure of the upper sections are made in the form of sequentially installed vertical portals located perpendicular to the axis of the site and separated by spans, and the racks of the portals are connected spatially lattice and trusses that are installed with spans along and across the axis of the platform, and the supporting structure of at least one lower section is made in the form of racks or lattice prismatic supports, while the nodal elements are made in the form of spherical and hemispherical polyhedra, on the edges of which are fixed elements through a single bolt connection, according to the MARCHI system. 2. Slide under item 1, characterized in that the sections of the site, as well as the supporting structure of the upper and lower sections are made of variable width. 3. The slide according to claim 1, characterized in that the slide platform is equipped with barriers consisting of rod elements connected at intersection nodes by means of nodal elements according to the MARCHI system. 4. The slide according to claim 1, characterized in that the slide platform is equipped with barriers with a roof, consisting of rod elements connected at the intersection nodes by means of nodal elements, according to the MARCHI system. 5. The slide according to claim 1, characterized in that the portal struts in the upper and lower supporting zones, as well as at intersections with trellised trusses, are equipped with reinforcing frames consisting of rod elements connected to intersection nodes via nodal elements, according to the MARCHI system. 6. Slide according to claim 5, characterized in that the racks of the portals are equipped with support nodes and / or jacks. 7. The slide according to claim 1, characterized in that the supporting structure of the two lower sections of the platform is made in the form of V-shaped inclined racks oriented with their vertices towards the base plates. 8. The slide according to claim 1, characterized in that the supporting structure of the two lower sections of the platform is made in the form of prismatic supports consisting of rod elements connected at intersection nodes by means of nodal elements according to the MARCHI system. 9. The slide according to claim 1, characterized in that the core elements have a tubular and an I-section. 10. The slide according to claim 1, characterized in that the horizontal sections of the site are equipped with stairs and / or mechanical lifts.

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