RU185868U1 - Solid floor construction - Google Patents

Abstract

The design of the monolithic overlap contains the upper and lower, located in horizontal planes, wire mesh, between which there are rows of frames, alternating with inserts, the space between which is filled with concrete. The liners are made with legs, detachable, consisting of two parts, and the liners are spatial volumetric bodies of revolution similar in shape to the shape of a pear, formed by rotating around the axis OX curve F, consisting of the connection of three lines described by the formulas: (x + 50) ² + (y-21.5) ² = 50 ² , where 0≤x≤a ₁ ; y = 0.266x + 60, and ₁ ≤x≤in ₁ ; (x-120) ² + (y-60.99) ² = 948, in ₁ ≤x≤149.8, where a ₁ is the intersection point of the first and second lines, ₁ is the intersection point of the second and third lines, and the inserts installed with alternating larger and smaller bases in areas where the value of the bending moment tends to zero and a large base down between these zones. 2 ill.

Description

The utility model relates to construction, in particular, to the technology of erecting structures of prefabricated-monolithic floors of multi-story civil buildings, and can be used in the construction of buildings with both full and incomplete frames, where heavy concrete is saved in the thickness of the floor structure due to installation there are liners of lighter material or with voids.

As a prototype, a monolithic slab structure was adopted, containing the upper and lower, located in horizontal planes, wire mesh, between which there are rows of frames, alternating with inserts, the space between which is filled with concrete. The liners are made in the form of parallelepipeds made of expanded polystyrene (RF patent No. 2378461, IPC EV 04/32, publ. 10.01.2010, Bull. No. 1).

The main disadvantage of the prototype is that the cross-section of a monolithic slab filled with concrete does not change in height, and therefore, the work of the construction of a monolithic overlap in height is not taken into account, where along the span of the slab and its cross section the stress value and even their direction usually change (compression or sprain). And since concrete practically does not work in tension, it is almost not needed in the stretched zone, only the protective layer of concrete provided for by the calculation of the reinforcing structure of a vertically located frame and a horizontal wire mesh should be provided there.

The technical task of the utility model is to improve the design of a monolithic overlap.

The technical result of the utility model is to reduce the dead weight of a monolithic overlap, to increase the payload and design spans.

The specified technical result is achieved by the fact that the monolithic overlap structure, containing upper and lower, located in horizontal planes, wire mesh, between which there are rows of frames alternating with inserts, the space between which is filled with concrete, according to a utility model, the inserts are made with legs, detachable consisting of two parts, and the liners are spatial volumetric bodies of revolution in shape close to the shape of a pear, formed by rotation around the axis OX Riva F, consisting of three lines compounds described by the formulas: (x + 50) ² + (y-21.5) ² = 50 ² where 0≤h≤a _1; y = 0.266x + 60, and ₁ ≤x≤in ₁ ; (x-120) ² + (y-60.99) ² = 948, in ₁ ≤x≤149.8, where a ₁ is the intersection point of the first and second lines, ₁ is the intersection point of the second and third lines, and the inserts installed with alternating larger and smaller bases in areas where the value of the bending moment tends to zero and a large base down between these zones.

Common signs are that the monolithic overlap structure contains upper and lower wire mesh located in horizontal planes, between which rows of frames are located, alternating with inserts, the space between which is filled with concrete.

Distinctive features is that the liners are made with legs, detachable, consisting of two parts, and the liners are spatial volumetric bodies of revolution in shape close to the shape of a pear, formed by rotation around the axis OX of the curve F, consisting of the connection of three lines described by the formulas : (x + 50) ² + (y-21.5) ² = 50 ² , where 0≤x≤a ₁ ; y = 0.266x + 60, a ₁ ≤x≤in ₁ ; (x-120) ² + (y-60,99) ² = 948, in ₁ ≤x≤149.8, where a ₁ is the intersection point of the first and second lines, ₁ is the intersection point of the second and third lines, and the inserts installed with alternating larger and smaller bases in areas where the value of the bending moment tends to zero and a large base down between these zones.

Between the totality of the essential features of a utility model and the achieved technical result, there is the following causal relationship. The shape of the inserts, close to the shape of the pear, and their installation with alternating larger and smaller bases in the construction of a monolithic overlap leads to a decrease in the dead weight of the monolithic overlap, an increase in the payload and design spans.

The essence of the utility model is illustrated by graphic materials, where in FIG. 1 shows a section through a monolithic floor structure, and FIG. Figure 2 shows the curve F, during rotation of which around the axis OX a spatial, volumetric body of revolution is formed, similar in shape to the shape of a pear, which is an insert.

The design of the monolithic overlap contains the upper wire mesh 1 and the lower wire mesh 2, located in horizontal planes, between which there are rows of frames 3, alternating with inserts 4, the space between which is filled with concrete 5. The inserts are made with legs 6, detachable, consisting of two parts moreover, the liners are installed with alternating more than 7 and less than 8 bases in areas where the value of the bending moment tends to zero and a large base 7 down between these zones.

The device design monolithic overlap is as follows. Expose its formwork, on the deck place liners 4, close to the shape of a pear, pre-assembled in two parts with a larger 7 and less than 8 bases. The liners are installed alternating more than 7 and less than 8 bases in areas where the value of the bending moment tends to zero and a large base 7 down between these zones. The liners 4 are placed between the horizontally mounted upper 1 and lower 2 wire mesh and frames 3. Then proceed to laying concrete 5 in the space of a monolithic overlap, not filled with liners 4 to the upper project surface, thus obtained a monolithic plate. The concrete hardens, after which the formwork is removed, and the slab of the obtained monolithic floor structure is ready for long-term work on the project.

Thus, a monolithic slab design is proposed, in which heavy concrete is replaced as alternately as possible with alternating inserts, thereby facilitating it without compromising the bearing capacity and deformation properties. The self-weight of the monolithic overlap is significantly reduced, it becomes possible to increase the payload on it or increase its design spans.

Claims (1)

A monolithic ceiling structure comprising upper and lower, horizontal planes, wire mesh, between which there are rows of frames alternating with inserts, the space between which is filled with concrete, characterized in that the inserts are made with legs, detachable, consisting of two parts, and the liners are spatial volumetric bodies of revolution similar in shape to the shape of a pear, formed by rotation around the axis OX of the curve F, consisting of the connection of three lines described by rmulami: (x + 50) ² + (y-21,5) = 50 ^{2 2} where 0≤x≤ a _1; y = 0.266x + 60, a ₁ ≤ x≤β ₁ ; (x-120) ² + (y-60.99) ² = 948, β ₁ ≤ x≤149.8; where a ₁ is the intersection point of the first and second lines, β ₁ is the intersection point of the second and third lines, and the liners are installed with alternating larger and smaller bases in areas where the value of the bending moment tends to zero and a large base down between these zones.

Images