DE102007027313A1 - Blend framework e.g. for putting windows into building walls, has formed profile which has base plate arranged with frame and length of sides at two flat sides has tabs - Google Patents

Abstract

The blend framework has a formed profile which has a base plate (10) arranged with a frame (1). The length of sides at the two flat sides has tabs (11) and which are affixed with further tabs (12). The tabs are arranged against the base plate of the frame (10) at an angle of 90 degrees.

Description

The field of technology

The The invention relates to a frame of the fillings of the openings and that especially the frame, which in the openings of the house walls for the following Inserting the windows are introduced. The solution concerns above all the Use of the frame when filling the openings in passive houses.

State of the art

Various methods of anchoring are currently used for the introduction of the fillings of the openings in the house construction. The oldest method is the one on the 1 illustrated fixed anchorage dar. To anchor the frame 2 was at the fillings of the openings of the bank 3 used that in the wall 4 was plugged. With the frame 2 it was over the openings in the flat head of the bank 3 with the screw 5 attached. The connections continued with the cover strips 6 covered. This method can only be used in the case of small fillings because it does not allow dilation.

Next, a fastening with a band anchor is used, which on the 2 is shown. To complete the filling of the opening before the own introduction of the outer side of the anchor 7 attached by steel sheet. After insertion and balancing, the openings of the filling over the overhang of the anchor with a connecting means in the wall 4 attached. This method of anchoring allows dilatation, but it must be fixed in the lining and it also creates the operations for the creation of the unwanted thermal bridge.

The method of introducing the plastic filling by means of the band anchor, which on the 3 is a bit different. The fastening anchor rotates by 90 ° after insertion into the groove and becomes in the wall 4 attached. The anchors must be inserted about 150 mm from each outside corner. The distance between them must not be greater than 700 mm.

There is also a possibility of attachment by means of the dowel 8th what on the 4 you can see. It also allows dilation of the filling of the opening. In vertical friezes of a frame apertures from the corresponding average are drilled in advance and over them, after introduction of filling of apertures from an internal site, steel nails (without head) are beaten.

An implementation of the attachment in the frame 9 is also known and it is on the 5 to see. The filling of the opening is in the pre-attached steel frame 9 (usually an L-profile) or placed in the wooden frame. This cream makes enough cranked brick lining that is more favorable for bringing in the windows than the straight brick lining. At the same time it allows a dilation of the window construction. It is carried out before the completion of the cleaning and finishing work. The disadvantage is the effect of the steel frame as a thermal bridge. It can be used for all window types.

But not all of the above solutions are for a passive house. The passive house is such a house in which it is possible to achieve a high level of warm comfort in winter and in summer with the use of the recuperation system. On the 7 It can be seen that the construction of the passive house is different from the standard houses - see the 1 to 5 , It's about that under the wall 4 of the house an isolation 15 was used and the window frame is attached to the place where you can bring any dowels or other anchoring means.

• – der Warmverlust des Passivhauses darf nicht 10 W/m² der Beheizungsfläche überschreiten, der Warmbedarf für die Beheizung ist kleiner als 15 kW/m²/Jahr,
• – der endgültige Verbrauch aller Energien (für die Beheizung, Vorbereitung vom warmen Nutzwasser und die Deckung des Stromverbrauchs) überschreitet keine 42 kW/m² /Jahr,
• – der Gesamtverbrauch der primären Energie (von den nicht-erneubaren Quellen) darf in den europäischen Bedienungen keine 120 kW/m²/Jahr/überschreiten.

From the point of view of energy consumption, the passive house is clearly defined, the following operations must be performed:

• - the heat loss of the passive house may not exceed 10 W / m ^{2 of} the heating surface, the hot demand for heating is less than 15 kW / m ² / year,
• - the final consumption of all energy (for heating, preparation of warm water and the cover of electricity consumption) does not exceed 42 kW / m ² / year,
• - the total consumption of primary energy (from non-renewable sources) must not exceed 120 kW / m ² / year / in European operations.

At the same time it is demanded that all circumferential constructions must be insulated so that the coefficient of heat transfer is U ≤ 0.15 W (m ² K), in the roof construction it is even better if the values are even lower - U ≤ 0, 12 W (m ² K).

Great importance must be attached to the interconnection of the individual peripheral structures and their parts, with the exclusion of the thermal bridges - the aim of the linear coefficient of heat transfer φ <0.01 W (m ² K) - taking into account the external dimensions ,

The technical heat demand on the fillings of the openings in passive houses is high. The filling of the openings should have a coefficient of heat transfer U _w <0.8 W (m ² K), it is recommended to obtain an operation for the coefficient of total heat transfer of solar radiation g <50%. The airtightness of the building shell is an important prerequisite for the small heat demand for the heating and for the correct functioning of the recuperation system - the air exchange should be 50 Pa n50 <= for the technological reasons and on the construction joints and other joints by the measurement at the barometric pressure difference 0.6 h ^{-1 are} found. From the research results at the same time a favorable location of the filling of the opening in relation to the technical isolation in a plane, which usually becomes very problematic, because the system of anchoring acts as a thermal bridge, which must be eliminated. Another requirement on the fillings of the openings is the airtightness and associated connection with the airtight jacket of the passive house.

To the The aim of the invention is to present the frame of the filling of the openings, which also can be used in the passive house.

The essence of the invention

The above-mentioned disadvantages eliminates the frame of the filling of the openings according to the invention, whose essence is that of being a profile is formed, which serves as a base plate of the frame carried out that will be at the length their sides on the two flat sides with the outer stop projections and the inner stop projections for the Introducing is provided.

In an advantageous implementation are the stop tabs across from the base plate of the Belendrahmens at an angle of 90 degrees be attached.

In In another advantageous implementation, the stop projections are mutually are arranged with a displacement, wherein the inner stop projections on be attached by the front wall of the base of the frame, which is supported in the assembled state on the wall of the building.

In a further advantageous implementation of the stop projections as continuous plates performed are.

In In another advantageous implementation, the stop projections are local be connected to the base plate of the frame with the supports.

In another advantageous implementation of the frame is made made of recycled plastic HDPE.

Overview of the pictures in the drawings

The invention will be further explained with reference to the figures and the 1 represents the method of the fixed anchorage according to the prior art, the 2 illustrates the attachment with the band anchor of the prior art, the 3 illustrates the attachment of Kunsthoffüllung using the band anchor according to the prior art, which 4 represents the anchorage by means of the dowel of the prior art, the 5 , illustrates the attachment in the frame according to the prior art, the 6 represents the frame in a section according to the invention, the 7 represents the introduction of the frame according to the invention on the lining of the house in view of the lower part of the frame, the 8th the introduction of the frame according to the invention on the lining of the house in view of the upper part of the frame, the 9 represents the graphical representation of the temperature fields on the two sides of the construction in the introduced in the frame according to the invention window and the 10 represents the graphical representation of the deformations in the introduced according to the invention window.

An example of the implementation of invention

On the 6 , is the frame 1 according to the invention. It can be seen that it is designed by a profile that is from a Grudplatte 10 of the frame is formed, which according to the length of their sides on the two flat sides still outer stop projections 11 and the inner stopper protrusions 12 for the introduction has. This can be seen very well on average AA and BB. The terms inner and outer are used in the following text in connection with whether the stop projections are outside or inside the frame 1 are located. The outer side is called an E in a circle for better orientation. The stop tabs 11 . 12 are mounted opposite the base of the frame at a 90 degree angle. The stop projections 11 . 12 are arranged mutually with a displacement x , wherein the outer stop projections 11 further from the front wall of the base plate 10 of the frame are attached, which in the assembled state on the wall of the building 4 supports. The stop projections 11 . 12 can be performed as continuous plates, but they can be broken into plate sections. The stop projections 11 . 12 be local to the base plate 10 of the frame with the supports 13 connected.

On the 7 and 8th is a design of the frame in the lining of the wall 4 in the View of the lower part of the frame 1 or the upper part of the frame 1 , It is visible that the window frame 14 on the inner stop projections 12 supports, the frame 1 rests against the wall with the outer stop projections 11 , The base plate 10 covers the lining, as well as the lintel, the window sill and the insulation 15 ,

Method of fastening of a filling over a frame 1 to the wall 4 has an influence on its proper function, its application and its air and sound insulation. The choice of anchoring method depends mainly on the type of external wall, the material used, the type of wall and last but not least the size of the opening. The own anchorage is carried out after the horizontal fitting and adjustment. In general, it can be said that the cranked lining provides better operations for the high-quality function of filling the openings.

On Method of bringing in and anchoring of filling of apertures the following requirements are met: dilatation, prevention of Ingress of rainwater into the structure, preventing the Infiltration along the frame, possibility of bringing in the Interior of the buildings, possibility the adjustment of the manufacturing tolerance in the shell, easier Removal during replacement, universal application and sufficient service life of the system used.

• – Vielseitigkeit, d. h. eine Möglichkeit des Einbringens der Füllung der Öffnungen in die verschiedenen Konstruktionen der Gebäude, bestimmt auch für den Umbau und die Modernisierung der Gebäude,
• – Möglichkeit des Einbringens der Füllung der Öffnungen nach der Ausführung vom Putz an den Außenwänden der Gebäuden,
• – Möglichkeit des Einbringens der Füllung der Öffnungen vom Innenraum der Gebäuden, es ist keine externe Lösung nötig,
• – einfache Montage, kleiner Aufwand an der Baustelle, einfacher Abbau beim Austausch der Füllung der Öffnung,
• – Möglichkeit der Ausgleichung der Herstellungstoleranz beim Rohbau,
• – Übertragbarkeit der Belastung durch die Verwendung der Füllung der Öffnungen in die Außenwand,
• – physikalische Kompaktheit der Außenwand im Detail des Einbringens der Füllung der Öffnungen, d. h. an der Stelle der Verbindung der Füllung und der Öffnungen mit der Außenwand, die durch diese Kriterien repräsentiert wird:
• – geforderter Koeffizient der Wärmeübertragung in der Verbindung mit dem Maximalwert des Koeffizienten der Wärmeübertragung in der Füllung der Öffnung,
• – geforderter Modus der Feuchtigkeit in der Verbindung mit der Ausschließung der Verdichtung des Wasserdampfes,
• – geforderte Schall- und Luftdichtigkeit mit dem Minimalwert der Schalldichtigkeit des Fensters,
• – geforderte Wasserdichtigkeit in der Verbindung, die mit den Grenzwerten ihrer Wasserdichtigkeit geäußert wird,
• – Lebensdauer und Qualitätserhaltung vom Detail im Einbringen der Füllung der Öffnungen im Bereich, der für seine Exploitation im Gebäude bestimmt ist.

The detail of placing the filling of the opening is very demanding and is often underestimated in the implementation of the buildings. Today's demands on the functionality of the detail can be summarized under the following points:

• - versatility, ie a possibility of filling the openings in the various constructions of the buildings, also intended for the reconstruction and modernization of the buildings,
• Possibility of introducing the filling of the openings after the execution of the plaster on the outer walls of the buildings,
• Possibility of introducing the filling of the openings from the interior of the buildings, no external solution is necessary
• - easy installation, little effort on site, easy removal when replacing the filling of the opening,
• Possibility of adjusting the manufacturing tolerance of the body shell,
• - transferability of the load by the use of the filling of the openings in the outer wall,
• Physical compactness of the outer wall in detail of the introduction of the filling of the openings, ie at the point of connection of the filling and the openings with the outer wall represented by these criteria:
• Required coefficient of heat transfer in connection with the maximum value of the coefficient of heat transfer in the filling of the opening,
• Demanded mode of humidity in connection with exclusion of condensation of water vapor,
• - required sound and airtightness with the minimum value of the soundproofness of the window,
• - required waterproofness in the joint, which is expressed by the limit values of its watertightness,
• - Lifespan and quality conservation of the detail in the introduction of the filling of the openings in the area intended for its exploitation in the building.

The problem area is located at the window openings of passive houses, where there are high demands on the quality of processing and on the technical heat requirements, which can be solved with the help of the frame. At the passive houses, which have excellent technical thermal parameters of the individual constructions, the problems arise in particular in the details (thermal bridges, connection of the airtight layer, bringing in the frame of the filling of the openings, etc.). We are eliminating this problem with a product made of plastic or recycled plastic - the frame that forms the lining, the lintel and the window sill of the window opening. It can also be connected to an airtight layer. The product is formed by two sheets of plastic or recykled plastic, which are welded or glued together. On the base plate 10 the plastic frame are inner stopper projections 12 as an area for introducing the filling of the opening. This surface forms at the same time the lining and the lintel. The inner stopper projections 12 for the introduction can be introduced according to the wishes of the planner in connection with the introduction of the heat insulation and the filling of the opening. On the outer side of the plate 10 of the frame 1 made of plastic, the outer stop projections 11 attached, which serves for positioning of the whole product in the composition of the peripheral structure. This surface also serves to delineate the airtight layer and to stiffen the product. From the point of view of static wearability and prevention of deformations on the frame 1 must the whole construction around the supports 13 be supplemented.

It is favorable as the material of the frame the recyklierten plastic with the designation To use HDPE. When assessing the properties - see graph on the 9 - proved that the frame 1 made of plastic no thermal bridge. The individual zones of the different gray intensity indicate which temperature fields are at the individual points of the construction. It can be seen that the external temperature is low (-15 ° C), in the area of the opening it is higher and inside is the internal temperature (20 ° C). The representation of the temperature field relates to the period in winter. In the usual application of the steel anchor for the attachment of the window frame at the required location creates a thermal bridge, which contributes adversely to the total heat loss of the object. The connection between the airtight layer and the frame is clear and ensures perfect airtightness.

The Thermal bridge adversely affects the higher heat losses of the object and bears at the same time as possible Emergence of low temperature at the surface, the may result in an overall degradation of the construction.

The static assessment of the frame can be described as follows: the product is dimensioned to the acting load in the individual product rows, which are adapted to the manufacturing dimensions of the fillings of the openings. The modulus of extension is suggested to be 250 mm, but each product can be adapted to any extent of filling of the apertures and any composition of the peripheral skirt. The product is rated for both limits. On the 10 is the graphical representation of the zones in the various shades of gray and the maximum deflection of the load on the frame, which is determined for the window of size 2500 × 2500 mm. The maximum deflection in the middle of the frame has a value of 3 mm.

Claims (6)

The frame of the filling of the openings, characterized in that it is formed by a profile serving as a base plate ( 10 ) of the frame ( 1 ) are made at the length of their sides on the two flat sides with the outer stop projections ( 11 ) and the inner stop projections ( 12 ) is provided for the introduction. The frame according to claim 1, characterized in that the stop projections ( 11 . 12 ) relative to the base plate of the frame ( 10 ) at an angle of 90 degrees. The frame according to claim 1, characterized in that the stop projections ( 11 . 12 ) are arranged mutually with a displacement (x), wherein the inner stop projections ( 11 ) further from the end wall of the base plate ( 10 ) of the frame, which in the assembled state on the wall of the building ( 4 ). The frame according to claim 1, characterized in that the stop projections ( 11 . 12 ) are performed as continuous plates. The frame according to claim 1, characterized in that the stop projections ( 11 . 12 ) locally with the base plate ( 10 ) of the frame with the supports ( 13 ) get connected. The window frame according to one of claims 1 to 5, characterized in that made of recycled plastic HDPE.