RU2032790C1 - Supporting structure, prefabricated structure and method for installation of prefabricated structure - Google Patents

Abstract

FIELD: industrial and civil engineering. SUBSTANCE: supporting structure, mainly, of building, structure, prefabricated airfield or roadway pavement is made with anchor member located on its base on the side of supporting surface. Anchor member has curved sections in plan which are formed with broken lines or curves of constant or varying curvature within one section of curvature and made trapezoidal in cross-section. Side surface of one of the pair of sections of anchor member located over longitudinal axis of base has inclination from nearest ends of base to center or centers of its curvature, to center or centers of curvature of section enveloping line, and of the other, to center or centers of its curvature or curvature of section enveloping line to nearest base ends. In so doing, adjacent side surfaces of two sections having reversed curvatures and located over base longitudinal axis are displaced along it relative to each other through value exceeding the length of base of trapezium of their cross-section to form open semicircles. Besides, sections of anchor member with their reversed curvatures or curvature of enveloping line may be located over base longitudinal axis, and smoothly conjugated with each other. Curvature of section or curvature of enveloping line of section with inclination of side surface from center or centers of its curvature exceeds the curvature of section or curvature of enveloping line of section whose side surface is inclined to center or centers of its curvature. Supporting structure may have two protrusions in form of teeth found on the side of supporting surface of base, at its side faces and curved in plan sections of anchor member protrude in their middle part beyond the contour of base to form sockets for receiving respective teeth of other supporting structures. EFFECT: increased bearing capacity and stability of structures on soft grounds, longer service life of structures with alternating working loads, reduced specific consumption of materials and cut down labor input, both, in making the structure and in their operation. 16 cl, 9 dwg

Description

 The invention relates to industrial and civil engineering and can be effectively used in the construction of roads, airfields, foundations for various structures, as well as in the construction of any structures on soft soils.

 Known support structures, prefabricated structures and a method for constructing prefabricated structures, in which the elements of the supporting structure, including an anchor element with arcuate sections located on its base from the supporting surface, are laid on the base for the construction of roads, foundations, platforms for storages, etc. This technical solution, as the closest known, is taken as a prototype for each of the inventions: "Support structure" "Prefabricated structure" consisting of supporting structures, as well as "Method for constructing a prefabricated structure".

 The disadvantages of the known solutions are increased material consumption, low bearing capacity and stability, as well as the high complexity of the construction of prefabricated structures.

 The purpose of the invention is to reduce material consumption, increase the bearing capacity and stability of structures, especially on soft soils, as well as reduce the complexity of the construction of prefabricated structures.

 In a supporting structure, mainly a building, structure, prefabricated road or airfield coating, containing an anchor element with arcuate sections located on its base from the supporting surface side, arcuate sections of the anchor element are formed in the plan by broken lines or arcs that are constant or smoothly varying within one plot of curvature and made in the cross section trapezoidal, and the lateral surface of one of a pair located on the longitudinal axis of the base of the sections of the anchor The element has an inclination from the nearest ends of the base to the center or to the centers of its curvature, to the center or to the centers of curvature of the envelope of the line of the section, and the other from the center or centers of its curvature or curvature of the line of the section to the ends of the base nearest to it.

 Moreover, the adjacent side surfaces of two sections having opposite curvature located along the longitudinal axis of the base can be displaced along it relative to each other by an amount exceeding the length of the base of the trapezoid of their cross section, with the formation of open half rings, or sections of the anchor element with their opposite curvature or curvature the envelope line can be located along the longitudinal axis of the base and smoothly conjugate with each other.

 In addition, the curvature of the section or the curvature of the envelope of the section with the slope of the side surface from the center or the centers of its curvature exceeds the curvature of the section or the curvature of the line of the section with the slope of the side to the center or centers of its curvature.

 In this case, the support structure can be equipped with two protrusions, each of which is made in the form of a tooth located on the side of the base support surface at its lateral faces, and the arcuate sections of the anchor element in the plan protrude in the middle part of the base contour with the formation of nests to accommodate the corresponding teeth of other supporting structures.

 In a prefabricated structure, mainly a road, airdrome or foundation structure, containing supporting structures installed on a natural or pre-prepared base with anchor elements located on their base from the supporting surface side with arcuate sections in plan, arcuate sections of the anchor element are formed in the plan by broken lines or arcs of constant or smoothly varying within one section of curvature and made in the cross section trapezoidal, and the side surface one of a pair of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center or to the centers of its curvature, to the center or to the centers of curvature of the envelope of the section, and the other from the center or centers of its curvature or curvature of the section to the nearest to it the ends of the base.

 In this case, the adjacent side surfaces of two sections having opposite curvature located along the longitudinal axis of the base can be shifted along it relative to each other by an amount exceeding the base length of the trapezoid of their cross section, with the formation of open half rings, or sections of the anchor element with their opposite curvature or the curvature of the envelope of the line can be located along the longitudinal axis of the base and smoothly mate with each other.

 In addition, the curvature of the section or the curvature of the envelope of the line of the section with a slope of the side surface from the center or the centers of its curvature exceeds the curvature of the section or the curvature of the envelope of the line of the section with the slope of the side surface to the center or centers of its curvature.

 Moreover, the prefabricated structure, mainly the road, airfield or foundation, is equipped with two protrusions, each of which is made in the form of a tooth located on the side of the base support surface at its lateral faces, and the arcuate sections of the anchor element in the middle project beyond the base contour with the formation nests for accommodating the corresponding teeth of other supporting structures.

 In the method of constructing a prefabricated structure, mainly a road, airfield or foundation one, including installing on a natural or previously prepared base of the supporting structure with anchor elements with arcuate sections located on their base from the supporting surface, the supporting structures are laid with arched sections of the anchor element formed by constant or smoothly varying within one section of curvature and made in the cross section trapezoidal, and the lateral surface of one of the pair of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center or to the centers of curvature, to the center or to the centers of curvature of the envelope of the section of the line, and the other from the center or centers of its curvature or curvature of the section of the section line to the ends of the base closest to it.

 Moreover, supporting structures are laid in which adjacent side surfaces of two sections having opposite curvature, located along the longitudinal axis of the base, are displaced along it relative to each other by an amount exceeding the base length of the trapezoid of their cross section, with the formation of open half rings.

 At the same time, support structures are laid in which the sections of the anchor element with their opposite curvature or the curvature of the envelope line are located along the longitudinal axis of the base and are smoothly interconnected.

 In addition, support structures are laid in which the curvature of the section or the curvature of the envelope of the section of the section with a slope of the side surface from the center or the centers of its curvature exceeds the curvature of the section or the curvature of the curve of the section of the section with the slope of the side surface to the center or centers of its curvature.

 Support structures with two projections are also laid, each of which is made in the form of a tooth located on the side of the base support surface at its lateral faces, and the arcuate sections of the anchor element protrude in the middle part beyond the base contour with the formation of nests to accommodate the corresponding teeth of other supporting structures.

 This can significantly increase the bearing capacity and stability of structures erected on soft soils, ensure the durability of the structures under construction with alternating workloads, significantly reduce the material consumption of structures and reduce labor costs, both in the manufacture of structures and in their operation.

 In FIG. 1 shows a General view of the supporting structure, made in the form of a plate; in FIG. 2 is a top view of the supporting structure; figure 3 section aa in figure 2; figure 4 section BB in figure 2. figure 5 supporting structure with sections of the anchor element, formed in plan broken lines or arcs of constant or smoothly varying within one section of curvature; in FIG. 6 support structure with sections displaced inward along the longitudinal axis of the base with the formation of open half rings; Fig. 7 is a support structure with sections displaced outward along the longitudinal axis of the base with the formation of open half rings; in Fig.8 prefabricated structure, such as road, of the supporting structures shown in Fig.1-7; in Fig.9 a section bb in Fig. 8.

The supporting structure includes a plate 1 and an anchor element 2 located on its base from the side of the supporting surface with arched sections 3 and 4 in plan, forming a continuous or discontinuous contour (Fig. 1 or Fig. 6, respectively). The arcuate sections 3 and 4 of the anchor element 2 are formed in plan by broken lines 5 or arcs of constant 6 or smoothly varying 7 (from R _1.2 to R _3.4 ) within the same curvature section. Sections 3 and 4 are made in the cross section trapezoidal (Figs. 1, 2, 3), and the lateral surface of one of a pair of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center (O ₁ ) or to the centers (O ₁ , O ₃ ) of its curvature to the center (O ₁ ) or to the centers of curvature (O ₁ , O ₃ ) of the envelope of the line of the section, and the other from the center (O ₂ ) or centers (O ₂ , O ₄ ) of its curvature or curvature of the envelope site lines to the ends of the base closest to it. Moreover, the adjacent side surfaces of two sections of opposite curvature 3 and 4, located along the longitudinal axis of the base or plate 1, are displaced along it relative to each other by an amount exceeding the length of the base of the trapezoid of their cross section, with the formation of open half rings (6 and 7) . The sections of the anchor element with their opposite curvature or curvature of the envelope line can also be located along the longitudinal axis of the base and smoothly mate with each other. In addition, the curvature in the plan of the plot or the curvature in the plan of the envelope of the plot with the slope of the side surface from the center or the centers of its curvature exceeds the curvature of the plot or the curvature of the envelope of the plot with the slope of the side surface to the center or centers of its curvature. The supporting structure can be equipped with two protrusions 8 and 9, each of which is made in the form of a tooth located on the side of the base support surface at its lateral faces, and the arcuate sections of the anchor element in the middle protrude beyond the base contour with the formation of nests 10 and 11 to accommodate the corresponding teeth of other supporting structures. Moreover, the anchor element 2 for technological reasons can be made monolithic with the plate 1 or can be made in the form of a separate structure with anchors connected immediately before the installation of the supporting structure by introducing anchors into the pre-formed holes of the plate 1 with subsequent welding and monolithic.

 The prefabricated structure, mainly road, airdrome or foundation, contains installed on a natural or pre-prepared base (Fig. 9) and joined together in rows in the above-described supporting structures with anchor elements located on their base from the supporting surface with arcuate sections in plan, moreover the arcuate sections of the anchor element are formed, as indicated above, in plan broken lines or arcs of a constant or smoothly varying within one section they are trapezoidal in cross section and the lateral surface of one of a pair of sections of the anchor element located along the longitudinal axis of the base tilts from the nearest ends of the base to the center or to the centers of its curvature, to the center or to the centers of curvature of the envelope of the section, and the other from the center or centers of its curvature or curvature of the envelope of the line of the site to the ends of the base closest to it. Possible varieties of the prefabricated structure are caused by the varieties of the support structure described above and are not repeated according to the description of the prefabricated structure. The plates 1 are mounted with a certain offset along the length relative to each other, providing overlap in terms of not only the length, but also the width of the prefabricated structure (Fig. 8).

 A method of constructing a prefabricated structure, mainly a road, airfield or foundation, includes installing on a natural or pre-prepared base the support structures described above with anchor elements with arcuate sections located on their base from the supporting surface, and according to the accepted technology, supporting structures with arcuate sections of the anchor element formed by a constant or smooth varying within one section of curvature and are made in the cross section are trapezoidal, and the lateral surface of one of the pairs of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center or to the centers of curvature or to the centers of curvature of the envelope of the section, and the other from the center or centers of its curvature or the curvature of the envelope of the line of the site to the ends of the base closest to it. Laying technological operations include the installation of the support structures described above in a prefabricated structure, shown in FIG. 8 and 9. Further installation operations differ only in the use of the support structure described above, in which, if there are protrusions 8 and 9, they are led into slots 10 and 11, forming a platform (prefabricated structure) of inextricably interconnected supporting structures.

 The work of the supporting structure and the prefabricated structure thereof is as follows.

 Anchor elements 2 are deepened into the base, forming under the plate 1 zones of compacted soil, which prevents any displacement of even a single plate both vertically and horizontally. Moreover, due to the selected form of the anchor elements and their mutual arrangement, the load on the base is transmitted through the soil cores formed in it, an increase in the load leads to compaction of such a core, i.e. to increase the bearing capacity of even weak base soil. The presence of sections 3 and 4 with different or opposite curvatures eliminates any movement or separation of the plate 1 of the supporting structure under the influence of alternating or circulating loads.

 This embodiment provides a reduction in material consumption and ensuring the reliability and operational durability of the prefabricated structure.

Claims (15)

 1. The supporting structure, mainly of a building, structure, prefabricated road or airfield pavement, comprising an anchor element with arcuate sections located on its base from the supporting surface, characterized in that the arcuate sections of the anchor element are formed in the plan by broken lines or arcs of constant or smooth varying within one section of curvature and made in the cross section trapezoidal, and the lateral surface of one of a pair located along the longitudinal axis of the base chastkov anchoring element has an inclination of the nearest base ends to the center or centers of curvature, or to the center or centers of curvature of the envelope of the line section, and the other from the center or centers of curvature, or curvature of the envelope line section closest to the ends of the base thereto.  2. The construction according to claim 1, characterized in that the adjacent side surfaces of two sections having opposite curvature located along the longitudinal axis of the base are displaced along it one relative to another by an amount exceeding the length of the base of the trapezoid of their cross section, with the formation of open half rings.  3. The construction according to claim 1, characterized in that the sections of the anchor element with their opposite curvature or the curvature of the envelope of the line are located along the longitudinal axis of the base and smoothly mate with each other.  4. The construction according to claims 1, 2 or 3, characterized in that the curvature of the section or the curvature of the envelope of the section of the section with a slope of the side surface from the center or the centers of its curvature exceeds the curvature of the section or the curvature of the section of the section of the line with the slope of the side surface to its center or centers curvature.  5. The design of paragraphs. 1 to 4, characterized in that it is equipped with two protrusions, each of which is made in the form of a tooth located on the side of the base support surface at its lateral faces, and the arcuate sections of the anchor element in the middle protrude beyond the base contour with the formation of nests for placement of the corresponding teeth of other supporting structures.  6. A prefabricated structure, mainly road, airdrome or foundation, containing supporting structures installed on a natural or pre-prepared base with anchor elements located on their bases from the supporting surface with arcuate sections in plan, characterized in that the arcuate sections of the anchor element are formed in plan broken lines or arcs of constant or smoothly varying within one section of curvature and made in the cross section trapezoidal, the lateral surface of one of a pair of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center or centers of curvature, or to the center or centers of curvature of the envelope of the line, and the other from the center or centers of its curvature or curvature of the envelope of the line to the ends of the base closest to it.  7. The construction according to claim 6, characterized in that the adjacent side surfaces of two sections having opposite curvature, located along the longitudinal axis of the base, are displaced along it one relative to another by an amount exceeding the length of the base of the trapezoid of their cross section, with the formation of open half rings.  8. The construction according to claim 6, characterized in that the sections of the anchor element with their opposite curvature or the curvature of the envelope line are located along the longitudinal axis of the base and smoothly interconnected.  9. The construction according to claims 6, 7 or 8, characterized in that the curvature of the section or the curvature of the envelope of the section of the section with a slope of the side surface from the center or the centers of its curvature exceeds the curvature of the section or the curvature of the section of the section of the line with the slope of the side surface to its center or centers curvature.  10. The construction according to PP.6 to 9, characterized in that it is equipped with two protrusions, each of which is made in the form of a tooth located on the side of the supporting surface of the base at its lateral faces, and the arcuate sections of the anchor element in the plan protrude in the middle part the contour of the base with the formation of nests to accommodate the corresponding teeth of other supporting structures.  11. A method of constructing a prefabricated structure, mainly road, airfield or foundation, including installing on a natural or pre-prepared base of the supporting structures with anchor elements with arcuate sections located on their bases from the supporting surface, characterized in that the supporting structures are laid with arched sections of the anchor element formed by a constant or smoothly changing within the same section of curvature and made in cross section trapezoidal, and the lateral surface of one of a pair of sections of the anchor element located along the longitudinal axis of the base has an inclination from the nearest ends of the base to the center or centers of curvature or to the center or centers of curvature of the envelope of the section line, and the other from the center or centers of its curvature or envelope curvature site lines to the ends of the base closest to it.  12. The method according to claim 11, characterized in that the adjacent side surfaces of two sections having opposite curvature, located along the longitudinal axis of the base, are displaced along it one relative to another by an amount exceeding the length of the base of the trapezoid of their cross section, with the formation of open half rings.  13. The method according to claim 11, characterized in that the sections of the anchor element with their opposite curvature or the curvature of the envelope of the line are located along the longitudinal axis of the base and are smoothly interconnected.  14. The method according to PP.11, 12 or 13, characterized in that the curvature of the plot or the curvature of the envelope of the line of the plot with a slope of the side surface from the center or the centers of its curvature exceeds the curvature of the plot or the curvature of the envelope of the plot of the plot with the slope of the side surface to its center or centers curvature.  15. The method according to PP. 11 14, characterized in that the supporting structures are laid, having two protrusions, each of which is made in the form of a tooth located on the side of the supporting surface of the base at its lateral faces, and the arcuate sections of the anchor element in the plan protrude in the middle part beyond the base contour with the formation of nests to accommodate the corresponding teeth of other supporting structures.

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