CS211114B1 - Silicate sandwich panel buckle - Google Patents

Abstract

The invention relates to a clip for a silicate sandwich panel, which normally transfers forces from the silicate cover layer through the thermal insulation layer to the silicate carrier layer. The clip is shaped in such a way that it ensures mechanical anchoring in the silicate layers of the sandwich panel, prevents plugs from the upper silicate layer into the thermal insulation layer and fixes the position of the clip relative to the thermal insulation layer. The clip can be made of plastic with optionally modified properties with a suitable filler. This saves the stainless steel used so far and reduces heat transmission through the sandwich panel. The clip can be built into silicate sandwich panels of residential, civil, industrial, agricultural and other buildings.

Description

The invention relates to a clamp for a silicate sandwich panel that normally transmits the forces and the silicate cover layers through the thermal insulation layer to the silicate support layer.

The consistency of the silicate sandwich panel is still ensured by a regular set of steel fasteners, often distinguished into anchors and clips. The anchors transmit both shear and normal forces, clamps passing perpendicularly through the thermal insulation layer transmit forces normally. The buckles are. hitherto designed from cylindrical bars, stainless steel with a diameter of 1.9 aza to 6 mm. The anchoring of the buckles in silicate layers is ensured by the cohesion of stainless steel and silicate material. The clips form a large array, regularly distributed over the entire surface of the silicate sandwich panel according to static requirements.

The disadvantage is not to return. consumption of stainless steel, which is energy intensive in production and contains a high percentage of chromium. A further disadvantage of the steel buckles used so far, which has three orders of magnitude higher thermal conductivity than the thermal insulating material forming the thermal insulating screw in the silicate sandwich panel, is the significant deterioration of the thermal insulating properties of the silicate sandwich panel. silicate sandwich panels throughout their lifetime.

The above-mentioned drawbacks are remedied by a buckle according to the invention intended to ensure the unreleasable connection of a silicate support layer, a thermal insulation layer and a silicate cover layer of a sandwich panel, which consists in that it is formed by a straight shaft terminated on one side on the opposite side, it is provided with anchoring and tip. The anchor head is formed by at least one anchor projection. The back face has a cross-sectional area larger than the shank. The anchoring is terminated by the tip and is formed by at least one anchoring projection having a cross-sectional area smaller than the shank.

The buckle according to the invention is particularly advantageous in that it can be made of plastic, the properties of which are optionally treated with a suitable filler so that the yield strength ratio and the thermal conductivity coefficient are higher than

2.10 ⁸ Pa.W ''. MK, where Fa is the thrust given in pascals,

W m ' ^, k ~ ^{, the} thermal conductivity coefficient given in watts per meter and kelvin.

The buckle according to the invention is therefore advantageous in that it allows stainless steel to be saved and reduced heat transfer through the sandwich panel. The buckle according to the invention is also advantageous in that its shaping prevents concrete leaks from the top silicate layer into the joint in the thermal insulation layer between the thermal insulation material and the buckle body. The forming of the buckle according to the invention makes it possible to utilize different degrees of mechanization for its easy and quick installation.

The buckle according to the invention is shown schematically in the attached drawing, where a side view of the buckle placed in a silicate sandwich is shown.

The clamp according to the invention consists of a straight shank of polyamide, whose mechanical properties are modified by the dispersed glass fiber so that the ratio of yield strength to thermal conductivity coefficient is higher than

2.10 ⁸ Pa.W ~ 'mK

The shaft 12 of circular cross-section forms at its lower end a point 11, to which is connected an anchoring 13 formed by changing the circular cross-section. The tip 14 and the anchoring 13 are, after the buckle has been incorporated into the silicate sandwich panel, below the thermal insulating layer 30. The central portion 11 of the shank 10, which is located in the thermal insulating layer 11, is cylindrical. The shaping of the buckle JJ under the middle portion JJ of the shaft JJ has a diameter at most equal to the center of the portion 12.

211 1 V,

The clip is terminated in the upper part by an anchor head 11 which, after the clip has been incorporated into the silicate sandwich panel, lies above the thermal insulation layer 10. The shape of the anchor head 11 is designed to allow the use of different mechanization methods when fitting the buckle. The anchoring head 11 abuts the heat insulating layer 30 with the anti-plug surface 15. The anti-plug surface 15 has a diameter greater than the central portion 12 of the shank 10, thus preventing the silicate mass from leaking around the central portion 12 of the shank 10 into the thermal insulation layer 10. At the same time, the anti-back surface 15 fixes the position of the buckle relative to the thermal insulation layer 30. The anchor head 11 and the anchor molding 13 provide mechanical transmission of the normal buckle load to the silicate support layer 20 and the silicate cover layer 40.

The clip according to the invention can be incorporated into silicate sandwich panels of residential, civil, industrial, agricultural and other objects. The clamping according to the invention can be carried out manually by pushing in the push-on handle or hammering. The force of the spring, pneumatic or hydraulic device can be used for pushing. The clips according to the invention can be pushed in individually or by using a plate preparation in bulk for the entire silicate sandwich panel.

Claims (2)

Clamp for a silicate sandwich panel which is inseparably connected to one another a silicate support layer, a thermal insulation layer and a silicate cover layer, characterized in that it is formed by a straight shaft (10) terminated on one side by an anti-plug surface (15) and an anchor head ( 11) and on the opposite side by anchoring (13) and tip (14). Clamp according to claim 1, characterized in that the anchoring head (11) is formed by at least one anchoring projection, an anti-head surface (15) with a cross-sectional area larger than the shank (10) and that the anchoring forming (13) terminates (14), consists of at least one anchoring projection.