SU723070A1 - Floor panel for animal-breeding premises - Google Patents

Description

one

The invention relates to the field of construction, in particular to the construction of the floor of the stalls and boxes of livestock housing.

A floor structure is known in which, in order to reduce heat loss through the floor, the heat insulating layer is made in the form of a corrugated slab of cement-sand mortar, which is topped with a flat asbestos cement sheet on top. Formed in this case, the air gap reduces heat transfer to the floor from the lying animal 1.

The disadvantage of this design is that such a floor does not allow to reduce heat transfer to the required limits, since the applied flat asbestos cement sheet must be sufficiently thick from the strength and durability conditions and therefore is considered an independent layer of homogeneous material, the heat transfer coefficient of which is relatively low. In addition, the structure is very difficult to manufacture and unreliable due to the weak attachment of the asbestos cement sheet to the concrete grooved slab.

The closest technical solution is a floor slab for a livestock stall, which includes a supporting reinforced concrete base of a trough-shaped section to a thermal insulating layer embedded in it, made of vertically placed flat elements consisting of separate

alternating wooden bars with different heights 2.

The disadvantage of this design is its fragility due to the decay of wood, which is constantly in a wet environment, as well as the scarcity of the tree.

The purpose of the invention is to improve the thermal insulation properties and increase the strength of the plate.

This goal is achieved by the fact that in the floor slab for livestock stall

the premises, including the supporting reinforced concrete base of the trough-shaped section and the insulating layer embedded in it, made of vertically placed flat elements, the flat elements are installed relative to each other with a gap that does not exceed them, their thicknesses, and in the gaps are placed layers of insulating material flat elements are made of asbestos cement.

FIG. 1 shows a schematic of the stove, a general perspective view; in fig. 2 is a cross section A-A in FIG. one; in fig. 3 shows an embodiment of a floor made of slabs. The floor slab consists of a reinforced concrete base, a trough-shaped section, in the recess of which there is a monolithic heat insulation and covering layer 2, consisting of separate packages assembled from alternating asbestos-cement flat elements 3 and heat-insulating gaskets 4, the thickness of which is not more than the thickness of asbestos-cement plates 3 and the heat-insulating gaskets 4, the thickness of which is not more than the thickness of the asbestos-cement plates 3 and the heat insulation plates 4, the thickness of which is not more than the thickness of the asbestos cement elements 3 and the heat insulation plates 4, the thickness of which is assumed to be no more than the thickness of asbestos cement flat plates 3 and - no more than half of their height.

The floor slab is made as follows.

Asbestos-cement flat elements (plates) and gaskets of a certain length unite on the glue in a vertical position into the packages, so that the gaskets are at the bottom of the package. At the same time, in the upper part of the package, a lattice of asbestos cement plates separated by air gaps is formed. In this position, that is, “face down, the packages are placed close to each other at the bottom of the form — formwork indented from the sides of the form, the height of which is twice as thick as the packages. Then, a steel frame is placed on the bottom of the mold along its perimeter, a steel mesh is laid over its top and the mold is filled with concrete. In this case, concrete, falling into the gaps between asbestos cement plates monoliths them with a concrete base plate.

To form the floor, the slabs are placed face up, i.e., with a concrete base along the pecan preparation, with a gap on the long side to install the separators in them 5. At the same time, one of the crust sides of the slab borders on the slatted floor 6 of the corona pass.

Such a construction of the floor slab prevents the use of bedding materials, since the cover layer of the slab, consisting of alternating sections of different materials (asbestos cement and less thermally conductive pads, such as roofing felt, cardboard, etc.) has, in comparison with a continuous layer of

igbestodementa lower rate of thermal activity.

It can be seen from the calculations that the thermal activity index of a layer of asbestos cement of bulk mass, for example, at 1800 kg / m and thermal conductivity and heat capacity coefficients of l 0.45 kcal / m.ch.

 0.2 kcal / kg-° C, equal to B (A.- 12.75 kcal / m2-hour-° C, and for the composite layer of asbestos cement and roofing felt, the index of thermal activity is B (, i: JвЛпvБEP J2..t 5z6il

InРЛЦ., - -Rruve jr1 „

 10 kcal / m-hour-C with thermal activity G120sl, oiki of roofing material B 0715 37600 5.5 kcal / m2.hour ° C, i.e., meets the requirements of a “warm floor” without the use of bedding,

As a result of the mutually perpendicular arrangement of the plates in the adjacent packages, the distribution (heat spreading) of heat from the lying animal in the plane of the floor is significantly reduced compared with the floors from the continuous layer.

At the same time, asbestos-cement plates with spacers installed on the rib and embedded in the concrete base provide the necessary strength to the covering layer to absorb the load from the feet of the animal, sufficient softness to abrasion and non-slip floor.

In addition, the proposed slab construction eliminates the floor manufacturing process and reduces the cost of manual labor and time during construction work.

Claims (2)

Invention Formula A floor slab for a stall in a cattle-breeding room, comprising a supporting reinforced concrete base of a trough-shaped section and a thermal insulating layer embedded in it, made of vertically placed flat elements, characterized in that, in order to improve the heploisol-toxic properties and increase the strength of the clit, the flat elements are relative to each other. a friend with a gap not exceeding their thickness, and in the gaps there are spacers from thermal insulating Maiephri.na, and the flat elements are made of asbestos cement. Is1 full of information, taken into account in the examination L. B4opcKoe USSR certificate No. 543723, s. E 04 F 15/2, 1977. 2. USSR author's certificate 3945) 6, cl. E 04 F 15/04, 1974. / 243 .. 2 Fig 5