RU159841U1 - FLOOR SLAB - Google Patents

Abstract

1. The prefabricated flooring plate, including rigidly interconnected sequentially arranged layer that performs the function of a heat-insulating layer, and a carrier layer made on the basis of a binder, and contains at least one element for attaching a layer that performs the function of a heat-insulating layer to the carrier layer , which is made in the form of a dish-shaped anchor. 2. The floor slab according to claim 1, characterized in that the layer that performs the function of the heat-insulating layer is a mineral wool thermal insulation, the fibers of which are directed mainly perpendicular to the carrier layer, and the fibers of the heat insulation layer penetrate at least partially into a large part of the carrier layer.

Description

The utility model relates to floor slabs used in construction.

At present, factory floor slabs (http://www.stroyservice2007.ru/infoc113544p.htm) are performed without a heat-insulating and / or fire-retardant layer, and already after installation at the facility they are mounted with thermal insulation and / or fire protection.

However, to reduce construction time, increase reliability and reduce labor costs, there is a need for the manufacture of two-layer floor slabs with a heat-insulating and / or fire-retardant layer.

The solution to this problem is provided by the claimed utility model — a floor slab, which allows to expand the arsenal of technical means, while providing such a technical result as providing reliable fastening of the heat-insulating and / or fire-retardant layer to the bearing layer, while significantly reducing the time of construction of objects, simplifying construction technology and eliminates the possibility of poor-quality installation of the insulating and / or fire-retardant layer.

The claimed technical result is achieved by a prefabricated floor slab, including a successively located layer arranged rigidly interconnected, which acts as a heat-insulating layer, and a carrier layer made on the basis of a binder. The fastening element of the layer, which performs the function of the heat-insulating layer, to the carrier layer, is made in the form of a rod with a flat element at one of its ends, which ensures the pressing of the insulation layer.

The fastening element is made in the form of a dish-shaped anchor.

The layer that performs the function of the heat-insulating layer is mineral wool thermal insulation, the fibers of which are directed mainly perpendicular to the carrier layer, and the fibers of the thermal insulation layer penetrate at least partially into a large part of the carrier layer.

The slab may contain an outer layer made on the basis of a binder.

Make floor slabs as follows.

At least one fastening element is mounted in the thermal insulation, made in the form of a rod with a flat element at one of its ends, which ensures that the thermal insulation layer is pressed. Then, lay a layer of thermal insulation in the form. After that, the reinforcing frame of the carrier layer (the layer forming the slab) is laid in such a way that a gap is formed between the insulation layer and the reinforcing frame of the carrier layer to prevent the reinforcement from contacting the insulation and the airspace, and the carrier layer is laid or filled, which is made on the basis of astringent.

Such fastening of the insulation layer to the carrier layer provides good reliability by pressing the insulation layer against the carrier layer with a flat element.

In addition, this technology allows you to control the correct installation of fasteners (eliminate distortions, insufficient rod exit from the mineral wool plate, etc.) and greatly facilitates the process of replacing fasteners in case of breakage during installation, which allows to obtain a high-quality final product.

It is optimal to use a rod as a fastening element, one end of which protrudes outward when mounted in a thermal insulation, and is designed for fastening in a carrier layer, and an element is made on the other end that provides contact with the thermal insulation surface facing the outer layer, since this will ensure the vertical position of the rod without any effort on the part of the installer and with further laying of the insulation in the mold, and also ensure that the insulation is pressed (fixed) to the carrier layer after the product has cured.

It is preferable to use a fastener such as a plate anchor, as on the surface of the anchor plate facing the side of the plaster layer, as a rule, elements are made that provide adhesion of this layer to the surface of the plate, for example, protrusions and / or recesses and / or holes, which improves the adhesion of the fastener to the plaster (outer) layer due to the developed surface of the plate.

It is desirable, at the end of the rod, protruding outward and intended for fastening in the carrier layer, to perform protrusions and / or recesses or bends, for example, wave-like, for more securely fixing in the carrier layer.

In addition, it is possible to further increase the reliability of fixing the layers between each other by the interaction of thermal insulation with a carrier layer. For this, a layer that performs the function of a heat-insulating layer is made of mineral wool thermal insulation, the fibers of which are directed mainly perpendicular to the carrier layer, and the insulation fibers must at least partially penetrate a large part of the carrier layer. This is ensured by the method of manufacturing the panel, in which all operations are carried out before the curing of the carrier layer, while creating the necessary pressure to ensure the penetration of part of the fibers into this layer. This manufacturing method significantly contributes to the increase in the strength of the plate due to the reliable adhesion of the layers between each other and the formation of a reinforced fiber-concrete layer, and also allows to simplify the manufacture of the plate.

If it is necessary to have an outer layer, first the outer layer is poured into the mold, then all other operations are carried out until the outer and the carrier layers are cured, which will achieve the same effect as with the carrier layer, i.e. create reliable fastening of the outer layer to the insulation layer.

The claimed utility model is easy to manufacture using well-known equipment using well-known materials as in the factory.

Claims (2)

1. The prefabricated flooring plate, including rigidly interconnected sequentially arranged layer that performs the function of a heat-insulating layer, and a carrier layer made on the basis of a binder, and contains at least one element for attaching a layer that performs the function of a heat-insulating layer to the carrier layer , which is made in the form of a plate anchor. 2. The floor slab according to claim 1, characterized in that the layer that performs the function of the heat-insulating layer is a mineral wool thermal insulation, the fibers of which are directed mainly perpendicular to the carrier layer, and the fibers of the thermal insulation layer penetrate at least partially into the large part of the carrier layer.