RU213943U1 - WALL PANEL OF FRAME-PANEL HOUSING CONSTRUCTION - Google Patents

Abstract

The utility model relates to wall (roofing) self-supporting panels of frame-panel housing construction. The technical solution is aimed at reducing costs in the manufacture and installation of wall and roof panels in SKD low-rise construction, improving environmental performance, as well as reducing heat loss at cold bridges along the wall frame. The technical result of the utility model is to reduce the heat loss of a structure erected from panels, which is achieved due to the fact that the wall panel of frame-panel housing construction, including a layer of insulation, characterized in that it includes a load-bearing frame, on top of which there is a separating film, which acts as a layer separator when pouring the insulation, a reinforcing fabric is placed on top of the separating film, which acts as a binder between the insulation and the load-bearing frame, a layer of insulation is placed on top of the reinforcing fabric, on top of which there is an adhesive layer of geotextile with a density of 200 g / m ² , acting for adhesion of the monolithic outer finish coating with the insulation , an outer finish coat is placed over the adhesive layer. 2 w.p. f-ly, 1 ill.

Description

The utility model relates to wall (roofing) self-supporting panels of frame-panel housing construction. The technical solution is aimed at reducing costs in the manufacture and installation of wall and roof panels in SKD low-rise construction, improving environmental performance, as well as reducing heat loss at cold bridges along the wall frame [E04C2/26, E04C2/29, E04C2/28].

The prior art is known MULTI-LAYER PANEL [CN215106391, publ. 12/10/2021], containing outer and inner structural layers, between which there is a porous insulation layer and an additional insulating layer, characterized in that the additional insulating layer is made in the form of a vapor-tight heat-reflecting screen located in the thickness of the porous insulation layer at a distance δ from the inner structural layer , determined from the relationship: δ = (0.5-4.0) λ , where δ is the distance between the inner structural layer and the vapor-tight heat-reflecting screen; λ - thermal conductivity of the porous insulation layer material

body.

The disadvantage of this analog is that the described embodiment of a standard three-layer sandwich panel, with an additional soundproof and refractory layer, cannot be a self-supporting wall panel due to the lack of a frame. In this case, the laying of communications becomes much more complicated and additional interior decoration is required.

Also known from the prior art MULTILAYER WALL FENCE "RA-HOUSE" FOR BUILDINGS AND STRUCTURES [RU62945, publ. 05/10/2007], which includes the outer and inner layers in the form of outer and inner walls of a fixed formwork, fixed on a frame with a filler layer placed between the walls, characterized in that the frame is made in two rows with outer and inner rows of racks interconnected by mounting connections and installed in rows with a pitch corresponding to each row, and on the outer and inner rows of racks, the outer and inner walls of the formwork are mounted, respectively, as a filler between which a monolithic foam concrete insulation is used.

The disadvantage of this analogue is that this technical solution is a kind of fixed formwork. In this case, element-by-element assembly of the frame is required at the construction site, followed by backfilling with insulation, which significantly complicates the laying of communications and requires additional interior decoration.

Also, the disadvantage of the analog is the complexity of the design, due to the fact that the frame is made in two rows with outer and inner rows of racks.

Also known from the prior art is a PANEL AND A METHOD FOR ITS MANUFACTURE [RU2158338, publ. October 27, 2000]. A panel comprising a frame, front and rear walls, forming a shell with a cavity filled with filler, characterized in that the front wall is made of mesh-reinforced multi-layer plaster, consisting of lining, leveling and finishing layers, and the back wall is made of monolithic or foamed polymer.

The disadvantages of this analogue are:

- this solution is a panel and is not a self-supporting structure, as a result of which it requires the construction of a frame when installing panels at construction sites. With this method of installation, cold bridges appear on the end sides of the panel.

- when implementing an analogue solution, the laying of communications is significantly complicated, and additional interior finishing is also required.

The closest in technical essence is a HOUSE OF LIGHT STEEL STRUCTURE WITH THERMAL INSULATION LAYER [CN216195383, publ. 04/05/2022] in which, the outer side of the wall is provided with a fire-retardant layer, the outer side of the fire-retardant layer is provided with an outer steel plate, the outer side of the outer steel plate is provided with an anti-corrosion layer, the inner side of the wall is provided with a heat-insulating layer.

The disadvantages of this prototype are:

- inability to make a concrete outer layer;

- when implementing the prototype solution, the laying of communications is significantly complicated, and additional interior wall decoration is also required.

The main technical problem of the prototype is the presence of high heat losses of the building structure due to the fact that during the construction of the frame during the installation of walls at construction sites, the possibility of cold bridges on the end sides of the panels is not excluded. In particular, cold bridges can also occur during long-term operation of the prototype structure, under the influence of external negative factors, due to a violation of the integrity of the heat-insulating layer.

The purpose of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is to reduce the heat loss of a structure built from panels.

The specified technical result is achieved due to the fact that the wall panel of frame-panel housing construction, including a layer of insulation, characterized in that it includes a load-bearing frame on top of which there is a separating film that acts as a layer separator when pouring insulation, a reinforcing fabric is located on top of the separating film, protruding into as a binder between the insulation and the load-bearing frame, on top of the reinforcing fabric there is a layer of insulation, on top of which there is an adhesive layer of geotextile with a density of 200 g / m ² , acting for adhesion of a monolithic outer finish coating with a heater, on top of the adhesive layer is an external finish coating.

In particular, a closed-cell PIR filler acts as a heater.

In particular, a closed-cell PUR filler acts as a heater.

Brief description of the drawings

In FIG. 1 shows a sectional view of the wall panel of frame-panel housing construction

The figures indicate: 1 - power frame; 2 - separating film; 3 - insulation; 4 - reinforcing fabric; 5 - adhesive layer; 6 - outer finish coating.

Implementation of the utility model.

The wall panel of frame-panel housing construction consists of several layers located one above the other.

The load-bearing wooden or steel frame 1 acts as a structural layer, the range of materials of which is determined by the design of the frame structure. On top of the power frame 1 there is a separating film 2, made of any membrane materials, such as: PVC vapor film, polyethylene film, glassine, etc., which acts as a layer separator when pouring insulation 3 onto the wall plane. On top of the separating film 2 is a reinforcing fabric 4, which can be made of alkali-resistant fiberglass, alkali-resistant PVC, carbon fiber mesh, steel reinforcing mesh or wooden slats, mechanically mounted on the load-bearing frame 1 of the wall. Reinforcing fabric 4 is a binder in a pair: insulation 3 - load-bearing frame 1. On top of the reinforcing fabric 4, insulation 3 is located, which is a closed-cell PIR or PUR filler, having in its composition the necessary complex of fire and bioprotective additives, poured onto the outer plane of the wall into a removable formwork using special equipment, in particular a press. The thickness of the insulation layer 3 is determined by the climatic area of operation of the premises. To date, polyurethane insulation 3 is the most efficient and environmentally friendly. Thermal conductivity coefficient, W / m K ° С, no more than: 0.018 / 0.024. Insulation 3 is located on top of the power frame 1 and performs the function of hydro vapor barrier (water absorption in 24 hours when saturated with water, vol.%, no more: 2.0, moisture absorption in 24 hours at a relative humidity of 96%, vol.%, no more than: 0.1). On top of the insulation 3 is an adhesive layer 5 of non-woven material - geotextile, with a density of 200 g/m ² . The adhesive layer 5 is designed to enable the monolithic concrete outer finish coating 6 to adhere to the insulation 3 and to compensate for the thermal expansion of the layers. The binder in a pair of insulation 3 - adhesive layer 5 - is the insulation 3 itself, (adhesion strength of the PIR/PUR filler with linings, N/mm ² , not less, with uniform separation: 0.08). On top of the adhesive layer 5, to ensure the necessary strength of the outer wall covering, there is an external concrete monolithic finish coating 6, with a thickness of 20 mm or more. The outer finish coating 6 is made monolithic on a cement binder with coarse sand filler. The outer finish coating 6 is reinforced with alkali-resistant PVC, or alkali-resistant fiberglass mesh, or carbon fiber mesh. The outer finish coating is composed of fiber, with a package of necessary additives. Performs the function of fire protection of the building / structure.

A method for the production of wall panels for frame-panel housing construction, characterized in that the load-bearing frame 1 of the wall is initially assembled, according to the design solution. Further, the separating film 2, the reinforcing fabric 4, the removable side formwork and the adhesive layer 5 are mounted on the power frame 1. Next, the components of the insulation 3 are poured in a special press. Next, a monolithic outer finish coating 6 is poured onto the wall plane in a vibrating stand using a removable formwork or by rolling a concrete layer with subsequent steam drying. After pouring/knurling, the wall panels are dried, painted if necessary, and moved to the construction site as part of the complex supply of panels.

In the future, they assemble wall structures, roofs on a pre-made foundation (any, including the lightest - screw, according to the design decision.); carry out the laying of communications along the inner perimeter of the open load-bearing frame 1 and carry out the installation of interior decoration (plasterboard, MDF, fiberboard, rail and any other finishing material).

The claimed technical result is the reduction of heat loss of the structure erected from panels is achieved through the use of an energy-efficient insulation 3, for example, from PIR / PUR filler, located on top of the power frame 1, which allows you to completely eliminate cold bridges and, accordingly, the occurrence of such effects as condensation on the power frame 1.

The service life of wall panels of frame-panel housing construction according to the declared technical solution is from 20 years.

The applicant has made an experimental and industrial sample of a wall panel for frame-panel housing construction. The use of the claimed technical solution confirmed the claimed technical result, a significant reduction in the heat loss of the structure erected from the panels was ensured, including high thermal insulation characteristics were provided under the influence of external negative factors.

Also, the advantages of the claimed solution, in comparison with the analogues known from the prior art, are: reduced cost of the wall panel (from 20% to 30%) and increased speed of construction of building structures / structures (at least 30%).

Implementation example

As an example of implementation, the following wall panel design of frame-panel housing construction can be used, which has the stated advantages: load-bearing wooden frame 1 with a separating film 2 (with water resistance - up to 800 mm of water column; vapor permeability - up to 2000 g / m ² per day; load at break -170 N / 50 mm); reinforcing fabric 4 made of alkali-resistant fiberglass; PUR filler was used as insulation 3; on top of the insulation 3 there was an adhesive layer 5 made of geotextile with a density of 300 g/m ² ; on top of the adhesive layer 5 was an outer finish coating 6 with a thickness of 25 mm.

The claimed device can be manufactured at the enterprise and is a single product consisting of mechanically connected layers of a wall panel.

Claims (3)

1. The wall panel of frame-panel housing construction, including a layer of insulation, characterized in that it includes a load-bearing frame, on top of which there is a separating film that acts as a layer separator when pouring insulation, a reinforcing fabric is located on top of the separating film, acting as a binder between the insulation and load-bearing frame, on top of the reinforcing fabric there is a layer of insulation, on top of which there is an adhesive layer of geotextile with a density of 200 g / m ² , protruding for adhesion of a monolithic outer finish coating with a heater, an external finish coating is located on top of the adhesive layer. 2. The panel according to claim 1, characterized in that, as a heater, a closed-cell PIR filler acts. 3. The panel according to claim 1, characterized in that, as a heater, a closed-cell PUR filler acts.

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