RU2107768C1 - Sectional supporting structure and method of its erection - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this can be used in civil and industrial construction when building roads, airfields, foundations for various structures, and also in erection of any structure on loose ground. Supporting structure has slab, and located on its supporting surface are protrusions, and convex-concave in plan anchor member with side surface which is inclined in lateral direction from center of slab base towards its periphery. Anchor member has closed arch-like sections which protrude beyond base contour by value not less than thickness of protrusion. This protrusion is located against other protrusion at opposite side face and is displaced in longitudinal direction of slab base towards protrusion at end face. Arch-like section of anchor member is located against closed arch-like section. According to method of erecting supporting structure, placed on natural or preliminarily prepared base are slabs which carry protrusions on their bases at side of supporting surface, and anchor members with closed arch-like sections in plan protruding beyond perimeter of slab base to value not less than thickness of protrusion. Slabs are placed with displacement in longitudinal direction of each subsequent row of sectional supporting structure relative to preceding longitudinal row. Slabs are laid in diagonal direction successively through entire width of sectional supporting structure so that initially laid is slab of external longitudinal row, then slab of subsequent longitudinal row is displaced in longitudinal direction relative to slab of preceding longitudinal row and it is placed so that its side protrusion catches arch-like section of anchor member of preceding row. Then, slab of third longitudinal row is displaced in longitudinal direction relative to slab of second longitudinal row and it is placed so as that its side protrusion catches arch-like section of anchor member of second row slab. After completing cycle of diagonal placement of slabs through entire width of sectional supporting structure, carried out is extension of longitudinal rows in same diagonal sequence with slab protrusions catching protruding arch-like sections of anchor members of adjacent slabs. EFFECT: higher efficiency. 2 cl, 3 dwg

Description

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

 A known supporting structure is predominantly of a building, structure, prefabricated road or airfield pavement containing an anchor element located on its base from the side of the supporting surface with arcuate sections in plan, broken lines in plan or arcs of constant or smoothly varying within one curvature section and made in the cross-section is 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 close the ends of the base to the center or centers of curvature of the envelope of the line 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 section to the ends of the base closest to it, the base has 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 and end faces, and the arcuate sections of the anchor element protrude in the middle part beyond the base contour with the formation of nests for accommodating the corresponding teeth of other supporting arms ruktsy [1].

 Without detracting from the advantages of the known solution, its disadvantage is increased material consumption, insufficient bearing capacity and stability, as well as the great complexity of the construction of prefabricated structures.

 The closest technical solution is the supporting structure containing the plate, on the supporting surface of which there are hooks in the form of protrusions and a convexly curved anchor element with a lateral surface inclined laterally from the center of the plate base to its periphery and having closed arcuate sections protruding beyond the contour of the base of the plate by an amount not less than the thickness of the protrusion [2].

 However, a thin support structure, which has good bearing capacity and stability, is insufficiently effective in operation when exposed to active loads.

 A known method of constructing a prefabricated supporting structure, mainly road, airfield or foundation, including the installation on a natural or pre-prepared base of supporting structures such as plates with hooks in the form of protrusions and anchor elements with closed arcuate sections protruding for the contour of the base of the plate by an amount not less than the thickness of the protrusion, and laying the plates with a displacement in the longitudinal direction of each subsequent a number of longitudinal modular support structure relative to previous longitudinal row [2].

 However, this method of constructing a prefabricated supporting structure also, having good load-bearing ability and stability of the plates, is not effective enough when exposed to active loads in places farthest from the mating nodes of the plates.

 The proposed support structure is devoid of these drawbacks and is most industrially applicable in operation by ensuring reliable adhesion of the plates to each other and eliminating local subsidence when exposed to active loads.

 The industrial applicability of the proposed supporting structure is provided by the fact that it is a plate, on the supporting surface of which there are hooks in the form of protrusions and an anchor element convexly curved in plan with a lateral surface inclined laterally from the center of the plate base to its periphery, and having closed arcuate sections protruding beyond the contour of the base of the plate by an amount not less than the thickness of the protrusion, while on the supporting surface of the plate, opposite the protrusion at the side face, an additional the second protrusion, which is located at the opposite lateral edge and offset relative to the latter in the longitudinal direction of the base of the plate towards the protrusion of the end face, and the anchor element has an additional closed arcuate section protruding beyond the base contour of the lateral edge of the plate by an amount not less than the thickness of the protrusion and located opposite the closed arcuate section of the opposite lateral edge of the base of the plate.

 The industrial applicability of the proposed method of constructing a prefabricated supporting structure, mainly road, airfield or foundation, is ensured by the fact that it includes installing on a natural or pre-prepared base of supporting structures such as plates with hooks in the form of protrusions and anchor elements with closed on their bases on the supporting surface side sections arched in plan, protruding beyond the contour of the base of the plate by an amount not less than the thickness of the protrusion, and laying of plates with cm by pressing in the longitudinal direction of each subsequent longitudinal row of the precast support structure relative to the previous longitudinal row, wherein the plates are laid in a diagonal direction sequentially over the entire width of the precast support structure so that the plate of the outer longitudinal row is pre-laid, then the plate of the next longitudinal row is displaced in the longitudinal direction relative to the plate of the previous longitudinal row and stack with the engagement of its lateral protrusion behind the arcuate section of the anchor of the slab of the previous row, after that the slab of the third longitudinal row is displaced in the longitudinal direction relative to the slab of the second longitudinal row and laid with the engagement of its lateral protrusion behind the arcuate section of the anchor element of the slab of the second row, after completion of the cycle of diagonal laying of slabs over the entire width of the prefabricated supporting structure longitudinal rows in the same diagonal sequence with the engagement of the protrusions of the plate for the protruding arcuate sections of the anchor elements of adjacent plates.

 In FIG. 1 shows a General view of the supporting structure, made in the form of a plate in isometric view from below; in FIG. 2 - prefabricated supporting structure, for example of paving slabs and a diagram of their connection, plan view, top view; in FIG. 3 - sections I-I, II-II, III-III in FIG. 2.

 the supporting structure comprises a plate 1, on the supporting surface of which there are hooks in the form of protrusions 2, 3, 4, and an anchor element 5 convexly curved in plan with a lateral surface inclined laterally from the center of the base of the plate 1 to its periphery. Anchor element 5 has closed arcuate sections 6, 7, 8, protruding beyond the contour of the base of the plate 1 by an amount not less than the thickness of the protrusion. The protrusion 4 is located opposite the protrusion 2 at the opposite side face of the plate 1 and is offset from the protrusion 2 in the longitudinal direction of the base of the plate 1, towards the protrusion 3 at the end face. A closed arcuate section 8 of the anchor element 5 protruding beyond the outline of the base of the side face of the plate 1, is located opposite the closed arcuate section 6 of the opposite side face of the base of the plate. The anchor element 5 preferably has a trapezoidal cross-sectional shape, however this is not a prerequisite, since it depends on the particular operating conditions and, if necessary, the cross-section of the anchor element can have any other shape. When operating the proposed support structure on soft and swampy soils, the anchor element of the slab should preferably be formed along a smoothly curved curve, which provides smoothing and stress relieving under dynamic loads and stress relieving under dynamic loads on the slab, and therefore increases its service life.

 When using the slab on hard and pre-prepared soils, the shape of the anchor element can be described, for example, in straight lines, and the closed sections of the anchor element protruding beyond the outline of the base of the slab can, for example, have the shape of an isosceles trapezoid or rectangular.

 Due to the presence on each plate 1 of three protrusions 2, 3, 4 and three closed arcuate sections 6, 7, 8, uniformity of fixation of the plate along its entire perimeter is ensured and thereby the monolithic connection of the entire coating as a whole without displacement of the plates in the longitudinal and transverse directions and without exceeding them one above the other, i.e. even coverage is achieved. Under the influence of active transport loads on the coating through the plates, a bowl of deflections is formed, in the area of which the load is transferred to the anchor elements, and from them to the deeper, more durable soil layers. As a result of plate deflection in the area of the deflection bowl, the anchor elements 5 in their lower part, remote from the lower surface of the plate 1, move, and due to their inclined arrangement from the center of the plate, they act on soils in such a way as to involve as many deep and strong as possible layers, as a result of which the maximum reactor pressure of the soil is created and opposed by active shear forces, which allows the support structure to work in the elastic stage even on weak and swampy soils, constant, independent of increase I load or from a decrease in the bearing capacity of the soil, which increases the bearing capacity and stability of the proposed supporting structure and allows to increase the efficiency of its work.

 The sequence of the method of constructing a precast support structure is shown in FIG. 2, arrows A1, A2, A3.

 During the construction of the prefabricated supporting structure of the plate 1 with the above-described design, indicate, as shown in FIG. 2 in the direction of arrow A1, in the diagonal direction, sequentially over the entire width of the prefabricated supporting structure so that the plate 1 of the outer longitudinal row is initially laid, then the plate 1 of the subsequent longitudinal row is displaced in the longitudinal direction relative to the plate of the previous longitudinal row and laid with the engagement of its lateral protrusion 2 behind the arcuate section 6 of the anchor element 5 of the plate 1 of the previous row, after which the plate 1 of the third longitudinal row is displaced in the longitudinal direction relative to the plate 1 of the second longitudinal row and they are laid with the engagement of its lateral protrusion 2 behind the arcuate section 6 of the anchor element 5 of the plate 1 of the second longitudinal row, after the completion of the cycle of diagonal laying of the plates over the entire width of the prefabricated supporting structure, the longitudinal rows are extended in the same diagonal sequence as shown in FIG. 2 along arrows A2, A3, with engagement of the protrusions of the plate for the protruding arcuate sections of the anchor elements of adjacent plates. Thus, the plates of all internal longitudinal rows will be in uniform engagement with each other, and each plate will be fixed in two places on each side and in one place on each end side. From this it follows that the uniform distribution of the places of engagement of the plates along their entire perimeter ensures, first of all, the reliability of the prefabricated structure, the increased term of its operation, the uniform distribution of the active load over a large area of the prefabricated structure and its increased bearing capacity and stability and evenness of the coating. YYTS2SCH

Claims (2)

 1. A supporting structure comprising a plate, on the supporting surface of which there are hooks in the form of protrusions and an anchor element convexly curved in plan with a lateral surface inclined laterally from the center of the base of the plate to its periphery and having closed arcuate sections protruding beyond the outline of the base of the plate by an amount not less than the thickness of the protrusion, characterized in that on the supporting surface of the plate, opposite the protrusion at the side face, an additional protrusion is formed, which is located at the opposite side face and is offset relative to the latter in the longitudinal direction of the base of the plate towards the protrusion at the end face, and the anchor element has an additional closed arcuate section protruding beyond the contour of the base of the side face of the plate by an amount not less than the thickness of the protrusion and opposite the closed arcuate section of the opposite side face of the base of the plate.  2. A method of constructing a prefabricated supporting structure, mainly road, airfield or foundation, including installing on a natural or pre-prepared base of supporting structures such as plates with hooks in the form of protrusions and anchor elements with closed arcuate sections in plan view, located on their bases from the supporting surface side, protruding beyond the contour of the base of the plate by an amount not less than the thickness of the protrusion, and laying the plates with a shift in the longitudinal direction of each subsequent longitudinal about a number of prefabricated supporting structures relative to the previous longitudinal row, characterized in that the plates are laid in a diagonal direction sequentially over the entire width of the prefabricated supporting structure so that the plate of the outer longitudinal row is initially laid, then the plate of the subsequent longitudinal row is displaced in the longitudinal direction relative to the plate of the previous longitudinal row and stack with the engagement of its lateral protrusion for the arcuate section of the anchor element of the plate of the previous row, after which the plate t this longitudinal row is displaced in the longitudinal direction relative to the plate of the second longitudinal row and laid with its lateral protrusion hooked over the arcuate section of the second row plate anchor element, after completing the diagonal laying cycle of the plates over the entire width of the prefabricated supporting structure, the longitudinal rows are extended in the same diagonal sequence with engagement of the protrusions of the plate for the protruding arcuate sections of the anchor elements of adjacent plates.

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