RU1791581C - Building panel and method of its manufacture - Google Patents

Abstract

Usage: building envelopes of industrial and civil buildings. SUMMARY OF THE INVENTION: a panel comprises a casing, casting insulation and anchor elements made in the form of a series of flexible tapes corrugated in the shape of a cycloid, the ends of which are attached to the casing. Adjacent rows of tapes can be offset relative to each other along the corrugations. A method of manufacturing a panel in the installation of lining with anchor elements and molding casting insulation thereto after elastic bending of the entire shape of the panel along the cycloid in the direction of increasing the height of the corrugation until the insulation hardens, after which the bending force is removed, 2 s, and 1 h. n, f-ly, 7 ill.

Description

The invention relates to building envelopes, in particular to covering panels, and can be applied in the construction of industrial and civil buildings.

A multilayer fencing panel is known, consisting of claddings, insulation located between them, ties and anchor beams in the form of diverging rods installed in a checkerboard pattern on the inner sides of the claddings, the beams having a length of at least half the thickness of the insulation.

A disadvantage of the known technical solution is its low performance.

Two-layer coating panels are known, including a metal shaped sheet without or with reinforcement, a layer of insulation glued, molded or mechanically attached on top of the shaped sheet.

A disadvantage of the known two-layer coating panels with a relatively small metal consumption is the great complexity when installing them on the building due to the need for a soft roof made of several layers of roofing material on bitumen mastic and a protective layer of gravel.

A fencing panel including sheathing, insulation and anchor elements made in the form of a prismatic spiral connected to the sheathing by a flat part is known for the prototype, and the width of the spiral coil is less than or equal to the distance between the ends of the fixed section of the coil.

However, such a panel is not high-tech in manufacture and has low performance.

A known method of manufacturing a fencing panel, implemented in the manufacture of the panel, comprising installing the anchor element on the casing, followed by attaching coils to it using

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welding or glue. At the same time, temporary weights are used to press the turns to the skin during fastening. Then a heater, for example concrete mix or phenolic foam, is poured onto the casing with anchor elements.

The disadvantage of this method. is the peeling of the skin from the cast insulation during operation due to shrinkage of the insulation and elastic deformations of the anchors.

The purpose of the invention is to improve manufacturability and improve performance.

The goal is achieved in that in the known building panel containing the sheathing, casting insulation and anchor elements attached to the sheathing, according to the invention, the anchor elements are made in the form of rows of flexible ribbons corrugated in the shape of a cycloid, the ends of which are attached to the sheathing, and adjoining rows of tapes are displaced relative to each other along the corrugations, while in the method of manufacturing a building panel, comprising installing a casing with anchor elements and molding the filling insulation thereto, according to the image teniyu priformovyvanie insulant the pour carried out after elastic bending of the entire form panel along a cycloid in the direction of increasing height to corrugation solidification insulation, whereupon t deprotection bending force.

Unlike the prototype, where a large number of adhesion nodes and the shape of the anchor elements in the form of a prismatic spiral complicates the manufacturing technology, and a decrease in the number of adhesion nodes of the anchor elements with the casing does not provide reliable attachment of the filling insulation to the casing, in the proposed technical solution, the anchor elements made in the form of a corrugated cycloid attached to a sagging sheath, there are fewer attachment points located at the ends of the cycloid, which increases ologichnost manufacturing a building panel. In addition, the design of anchor elements in the form of flexible tapes, corrugated in the shape of a cycloid, is much simpler to manufacture and has less material consumption. In the prototype object, when cooling, shrinkage of the filling insulation, for example, foam, occurs, resulting in a mini-gap between the filling insulation and the casing, which contributes to the accumulation of moisture and, therefore, to corrosion. This property of stretched foam that impairs adhesion

and contributing to the initial separation, it is excluded in the claimed technical solution due to the proposed technology for manufacturing the panel by pre-stressing the anchor elements in the form of tapes corrugated in the shape of a cycloid, due to the elastic bending of the entire shape of the building panel along the cycloid in the direction of increasing the height of the corrugation to solidify

0 insulation, after which bending forces are removed.

In FIG. 1 shows a construction panel; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1; in FIG. 4 node

5 fastening the anchor elements to the skin; in FIG. 5-7 are panel fabrication techniques. The building panel consists of profiled sheathing 1, anchor strips 2 attached to the bottom of the upper shelf

0 casting insulation 4, molded from below to profiled sheathing 1 and finishing layer 5, for example, from fiberglass canvas, molded to insulation to the lower layer. Anchor elements 5 are flexible cycloid-shaped ribbons 2, arranged in rows along the sheathing profiles 1 and attached to it from below in the fastening nodes 6, the fastening nodes

0 are located at the ends of the cycloid in contact with the profiled sheathing 1. In this case, the adjacent rows of anchor flexible ribbons 2, corrugated in the shape of the cycloid, are displaced relative to

5 each other along the corrugations 7. When placing two or more rows of anchor strips 2 corrugated in the shape of a cycloid on a narrow upper shelf 3 of profiled sheathing 1, their axis 8 of the attachment points b may coincide,

0 and the rows of anchor tapes 2 are displaced relative to each other along the corrugations 7. Fastening of the anchor flexible tapes 2 is carried out in a known manner, for example, with a combined rivet, to the upper shelf 5 of profiled sheathing 1. Anchor flexible tapes 2 can be made, for example, from a metal strip, nylon or rubber tape. The height of the corrugation h is not less than half the thickness

0 fill insulation 4, and the ratio of the length of the corrugation I to its height is not more than ten, and the attachment points 6 of the anchor flexible tapes 2 corrugated in shape of the cycloid, provide the perception of effort and

5 secure attachment of the casting insulation 4 to the profiled sheathing 1 over an area of width a, FIG. 1. To strengthen the anchoring, reinforcement 9 can be placed in the casting insulation 4, which is passed under the corrugation 7 of the anchor tape 2.

The building panel is made upside down in the following manner. Previously, profiled flooring 1 is attached in a known manner, for example using combined rivets, in nodes 6 anchor flexible corrugated in the form of cycloid tape 2 in longitudinal rows, and the adjacent rows of flexible tape 2 corrugated in the form of cycloid are displaced relative to each other along the corrugations 7, and when they are located on a narrow shelf 3, the axis 8 of the attachment points 6 can be combined with the deviation of the corrugations 7 from the vertical. Then, the profiled sheathing 1 with anchor tapes 2 is placed in a mold that has longitudinal curvature and the profiled sheathing 1 is pressed firmly against the longitudinal curved shape, with an increase in the height of the corrugation to hi h + Ai + + Dg, while the bending of the building panel should be within elastic deformations d of profiled sheathing 1 and insulation 4. Then, in a mold formed on one side of profiled sheathing 1 with attached flexible anchor tapes 2, fill with insulating material 4, for example phenolic foam, and Hardening of the latter is carried out in a known manner. After that, the preliminary bending forces of the building panel are removed and removed from the mold.

Claims (3)

1. A building panel comprising a casing, casting insulation and anchor elements attached to the casing, characterized in that, in order to improve manufacturability and improve performance, the anchor elements are made in the form of rows of flexible tapes, corrugated in the shape of a cycloid, the ends which are attached to the skin. 2. A panel according to claim 1, characterized in that the adjacent rows of tapes are offset relative to each other along the corrugations. 3. A method of manufacturing a building panel, including installing a sheathing with anchor elements and shaping them with casting insulation, characterized in that, in order to improve manufacturability and improve performance, molding of casting insulation is carried out after elastic bending of the entire form of the panel along the cycloid upwards the corrugation height until the insulation hardens, after which the bending force is removed.