PL66957Y1 - A knot mounting building wall insulation with outer layer of wood, wood-based layer or layer of fibre cement - Google Patents

Description

2 PL 66 957 Υ1

Pattern description

The subject of the utility model is a node that fixes the insulation to the building wall with an external wooden, wood-based or fiber-cement layer, used in the construction of new and thermal modernization of existing buildings.

To protect buildings against heat loss and noise, insulating layers are fixed to the outer walls, most often made of polystyrene boards or facade or lamella mineral wool. Due to the impacts detaching the insulation from the wall, caused by the suction load of the wind, turbulence of air currents in the corner zones of the building and vibrations of the walls of the building located on busy streets - the insulation is attached to brick and concrete walls with an adhesive joint and mechanical fasteners, or only with fasteners in conditions where the glue used only performs mounting and distance functions. The adhesive bond between thermal insulation and wood, wood-based or fiber-cement materials may be of low strength - which means that the connection with mechanical fasteners is of key importance. Fasteners for fastening thermal insulation to masonry and concrete walls are anchored in the wall opening with a screw or a hammered expanding mandrel and are ended with a thermal insulation pressing plate. For example, the plastic connector presented in the patent description PL 199037 has a pressure plate connected through a thrust sleeve with an expanding pin. When tightened, the expansion bolt rests against the bottom of the thrust sleeve and expands the tongues of the expansion bolt outside. In the described connector, the longitudinal cuts of the expanding pin also appear on a certain length in the insulation, which causes its swelling and balloon deformation to the outside when the screw is tightened. As a result of the swelling, the fastener is pressed into the insulation material, both in the area next to the building wall, as well as the pressure plate sinks in, and it is aligned with the external insulation plane, which is favorable for plastering. In order to distribute the pressure of the connector over a larger insulation surface, ring washers with an outer diameter much larger than the diameter of the connector's pressure plate are used - one of such solutions is presented in patent description PL 204626. The ring washers are mainly used for the insulating layer made of lamella wool.

The recent weather anomalies characterized by the presence of very strong winds, the tendency to use thermal insulation materials of greater thickness and heavy facings - impose the need to increase the effectiveness of installing thermal insulation and to develop appropriately reinforced structures of fixing nodes. In the fixing node according to this pattern, the insulation of a wooden wall, made of wood-based or fiber-cement panels - as in the previous solutions - is mechanically fastened with screws through a plastic connector ended with a pressure plate. The essence of the solution lies in the fact that under the pressure plate the knot has at least one fiberglass strip for thermal insulation, which is pierced in the middle of its length by a connector sleeve with a conical face and a length smaller than the insulation thickness. The width of the belt is not smaller than the external dimension of the pressure plate and the sections of the belt protruding to the sides are embedded in the adhesive on the insulation surface.

Combined with the insulation, the glass fiber mesh belt extends the impact of the connector to a larger surface of the thermal insulation and uses its stiffness to counteract the forces of wind or external cladding. Increasing the share of the surface pressure of the insulation to the wall reduces the possibility of vibrations and movements of the insulation caused by the action of wind or displacement under the influence of its own weight.

A preferred embodiment is a pattern in which the stripes have a length ranging from 3 to 7 times the width dimensions.

A preferred embodiment is a pattern having mesh stripes with an area weight of 145 to 200 g / m2.

For areas of the building that are particularly exposed to wind blowing, a pattern with stripes made of reinforced mesh with an area weight of 300 to 500 g / m2 is advantageous.

The form of a pattern is also advantageous in which the pressure plate of the link has the shape of a circle with a diameter equal to the width of the strip.

The optimal effect occurs in a node where the pressure plate of the connector has a square shape with a side equal to the width of the strip.

Claims (1)

3 PL 66 957 Υ1 For conditions requiring particularly strong fastening of the insulating layer, it is advantageous to use a knot with the applied and embedded in the adhesive - under the crossed stripes - a square overlay, with a side length in the range of 2 to 4 belt widths, made of a glass fiber mesh and having a center hole cut in the center for the coupler pressure plate. The object of the utility model is shown in the drawing, Fig. 1 shows an axial section through the connector of the fastening node. The following figures show further embodiments of the pattern: Fig. 2, the front view of a knot with one belt and a connector having a round pressure plate, Fig. 3, a front view of a knot with two crossing strips and a connector with a square pressure plate, while in Fig. 4 the form of a knot reinforced with a pad square. The thermal insulation 1 is attached to the outer wall of the building with the wooden outer layer 2 by a plastic connector 4. The connector 4 has the shape of a sleeve 5 ended at the top with a pressure plate 7 and at the bottom with a conical face k with an axial hole for the screw 8. The length I of the sleeve 5 is smaller than the thickness g of the insulation 1. The thermal insulation 1 is fixed to the outer layer 2 with glue 3. Screw 8 is tightened to such a deformation of the insulation layer 1 that the pressure plate 7 is flush with the surface of this layer. After this operation, the opening of the sleeve 5 of the connector 4 is plugged by pressing the plug 9. The fastening knot under the conditions of low detachment effect may have only one strip 6, made of a glass fiber mesh for thermal insulation, embedded in the adhesive 3 on the surface of the insulation 1 under the pressure plate 7. A strip 6 with a minimum area weight of 145 g / m2, width b = 7 cm and length L = 50 cm is pierced in the center with a connector 4. This form of pattern shown in Fig. 2 has a connector with a circular pressure plate 7, with a diameter d equal to the width b of the belt 6. The form of the pattern shown in Fig. 3 is used for higher peel loads, and is distinguished by the use of two strips 6 overlapping in the position of an isosceles Greek cross and a connector 4 pierced by a sleeve 5 in the axis of the cross. The pressure plate 7 of the connector 4 has a square shape with rounded corners, with a side a = 7 cm, equal to the width of the strip 6. The strips 6, 50 cm long, are made of reinforced mesh with an area weight of at least 300 g / m2. For the conditions of the highest tearing load, the form of the pattern shown in Fig. 4 is used, which is characterized by the application of additional reinforcement in the form of glued on to the insulation 1 - before the application and gluing of the cross made of strips 6 according to Fig. 3 - square cover 10 with a hole in its center 11 consisting of a pressure plate 7. The square cap 10 is also made of glass fiber mesh, its side of the square is equal to three times the width b of the strip 6. Protective caveats 1. The node fixing the insulation to the wall of the building with an external wooden, wood-based or fiber-cement layer, in which the insulation is (1) is attached to the outer wall layer (2) with screws (8) through fasteners (4) ended with a pressure plate (7), characterized in that under the pressure plate (7) it has at least one fiberglass belt (6) for insulation, which is pierced in the middle of its length (L) with the sleeve (5) of the connector (4) with a conical face (k) and length (I ) smaller than the thickness (g) of the thermal insulation (1), while the width (b) of the belt (6) is not less than the external dimension (d, a) of the pressure plate (7) and the sections of the belt (6) protruding to the sides are embedded in the adhesive (3) on the insulation surface (1). 2. The fastening node according to claim 1, A device according to claim 1, characterized in that it has two stripes (6) superimposed on each other in the location of an isosceles Greek cross and pierced by the sleeve (5) of the connector (4) in the axis of the cross. 3. The fastening node according to claim 1 The method of claim 1, characterized in that the belts (6) have a length (L) in the range from 3 to 7 dimensions of the width (b). 4. The fastening node according to claim 1, 2. A method as claimed in claim 1, characterized in that the belts (6) are made of a net with an area weight of 145 to 200 g / m2. 5. The fastening node according to claim 1 A device according to claim 1, characterized in that the belts (6) are made of a reinforced mesh with an area weight of 300 to 500 g / m2. 6. The fixing node according to claim A device as claimed in claim 1, characterized in that the pressure plate (7) of the link (4) is circular with a diameter (d) equal to the width (b) of the strip (6). 4 PL 66 957 Υ1 7. The fastening node according to claim A device according to claim 1, characterized in that the pressure plate (7) of the link (4) has a square shape with a side (a) equal to the width (b) of the strip (6). 8. The fastening node according to claim 1. 2, characterized in that under the crossed strips (6) there is a square overlay (10) placed on the insulation (1) and embedded in the adhesive (3) with a side length in the range of 2 to 4 width (b) of the strip (6), made of glass fiber mesh and having a hole (11) cut in the center for the pressure plate (7) of the connector (4).