DE19652732A1 - Heat-insulated window for flow-energy houses as sealed glazing - Google Patents

Abstract

The opening (1) presents a conical stepped arrangement in section sealed off by a thermo-electric seal (11) which becomes plastic when heated in reponse to a limit cut-in switch (12) until cut off by selfacting cutout switch (13). This seal together with conventional rubber insulation (4,5) insulates the window opening (1) to permit window heating during cold seasons. The window also has an inwards shutoff frame complete with slidable top surface for the heat insulating frame. The window has its own clamping strip for the glazing, press-in springs and inside frame fixers. The window insulating glass is vacuumed to give a conex shape in ellipsoidal section in separable or non-separable format complete with air blow-off valve. The insulating pane terminates outwards in a cone shape having two pane layers both vacuum- and pressure-proof. The pane endfaces should be reinforced in the cone area with two panes per cone join as loaded by vacuum to obtain all-round sealing. Preferred thermo-elastic sealing is provided by a thermoplastics or leather cylinder filled with easy-fusible dielectric plus inside heating element having graphite etc conducting and barrier layers.

Description

The present invention relates to the field of Components used for the construction of buildings and structures are used, and that the invention relates to the A directions for hermetically sealing the window openings of low-energy houses.

Inventions are known, e.g. B. DE 40 08 660 C2 "Vergla solution for buildings ", DE 42 25 736 C2" Bulletproof Iso lierglaselement "and DE 43 31 235 C1" window glazing ".

A disadvantage of these solutions is that it does when used to hermetically seal the windows openings of the buildable (usable) in Germany Low-energy houses come to the increased heat loss. The increased heat losses through the windows are thereby that their thermal conductivity is significantly higher than at the walls, the roof and the ceilings in the modern in Germany is erectable low-energy houses.  

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Another improvement in thermal insulation properties with the help of the known solutions complicates significantly Construction of the window, which in turn increases costs as well affects the longevity of the window. Also allow it is not the known solutions, adequate thermal insulation to educate the window with the other components of the building len. This is due to constructive-physical properties the same, which contradict each other. The need to ensure transparency enables for example, it does not provide effective thermal insulation fabric such as B. use polyurethane foam. For ver avoid the convective heat transfer of the panes not to exceed a space of 10 mm while the front lying in the air in this room is no way to heat to further improve insulating properties. One on The next technical solution is "Insulated Window or door frame with at least one fighter profile " DE 37 16 617 C1.

This solution has all the disadvantages mentioned above, and ent  also doesn't speak the functional requirements that the most modern design of low-energy houses to the Window poses. These are the increased requirements for heat insulation and hermetic sealing, which are the procedures for heating, climate control and ventilation of the Build low-energy houses.

The aim of the invention is to reduce the energy pouring losses in the improvement of sound insulation at Increase in strength, reliability, hermetic sealing while improving the functionality as well as maintaining convenience of use.

The goal is achieved in that thermal insulation window for a low-energy house that has a load-bearing Thermal insulation frame of the window opening, a thermal insulation frame for window panes, a heat-insulating window pane, Rubber seals for the window opening as well as eyelets and a Closing device provides with a vacuum (vacuum) in the space between the panes of the thermal insulation window and with the possibility of permanently pressing the thermal insulation frame for panes with the thermal insulation pane at the opening of the load-bearing thermal insulation frame of the window opening is executed, the design of the opening in the cross cut represents a conical gradation connection whose Thermal insulation and hermetic sealing by means of one thermoelectric compression is realized, the one has elastic plasticity when heated, with the help a mechanical limit switch switched on and with Hil automatic switch off and thereby the window opening in combination with the konventio insulated rubber seals as well as the possibility gives to heat the window opening at an extreme time  and that the window also has an internal shutoff frame with egg a leading sliding surface for the thermal insulation frame for window panes and a clamping strip for the windows and the springs of constant pressure and Edge fixers of the internal shut-off frame provides.

To achieve the high strength values and for the purpose of one real technical design is the heat insulating window disc with convex design and creates a high les ellipsoid in cross section, these being both dense not disassembled as well as disassembled can be performed and has an air blow-off valve.

In the event of disassembly, the thermal insulation detachable window pane with the presence of a ke partially executed on the circumference and has at least two Disc layers on that have a vacuum resistance as well have increased compressive strength, and beyond contain the end faces of the window panes around the circumference Cone part of a reinforcement, with a pair of washers over one Cone lock has the vacuum force to pinch under the entire circumference of an elastic thermal insulation negative vacuum seal is addressed. Such a lion solution makes it possible to use negative pressure effectively as well as a higher hermetic seal of the thermal insulation To achieve window panes.

In order to achieve higher heat, sound and strength properties and technological properties provides the load-bearing heat-insulating window opening frame as well the heat-insulating frame for a window pane thin-walled hermetic wrappings that consist of at least two thermo plastic plates or in a combination of metal and wood thermo  plast, or in any other combination leads and under pressure with adhesion to the inner envelope development areas with a hard foam, for example buttocks are filled with polyurethane foam and the Wrapping over reinforcements at the fastening points in Form of accumulations and thickenings.

In addition, the heat-insulating frame for window panes a leading slide surface that matches the leading slide the surface of the inner shut-off frame interacts occurs, which allows freedom of movement of the would insulating frame for window panes with the thermal insulation to achieve the pane perpendicular to the window surface. This allows, along with the feathers of the permanent to pressing the steadily or discontinuously on the circumference of the inner surface of the Window frame are housed and with the inner Shut-off frame interacts when the Fe is running under load, which is the working deformation of you a constant, constant pressing of the fen window frame with the window to the opening thickening reach and thereby deform the opening as well reliably seal hermetically.

To ensure centering of the thermal insulation frame mens for window pane with the heat-insulating pane in be train on the seals or the load-bearing thermal insulation frame men the eyelets and the closure device on the inside Fe ren Ren shut-off frame with the possibility of an adjustment increases.

In addition, you put the inner shutoff frame together with the leading surface as well as the locking bar of the disc a metal or in any other design  (Metal-wood-plastic mass), but ensuring one sufficient hardness that meets the requirements of the work ability and longevity as well as the design requirements speaks, forth.

For fastening the compressions and the thermal insulation Washer and the barrier bar and accordingly to Ent hermetic sealing is used metisizing glue and self-tapping screws.

In addition to the above, the thermoelectric provides you a flat closed elastic thermoplastic, Rubber or leather bottle, filled with a light melt dielectric material, with one inside the bottle housed flat heating element, which consists of a stromlei tendencies and an insulation layer, the current conductive layer of the same made of a carbon-graphite fabric or from another analog material and the insulation layers from a lacquered fabric, glass fiber fabric or from another similar fabric is made. Such a solution allowed it, a high quality and effective thermoelectric seal to obtain.

To ensure an effective ability to work Seal is the mechanical limit switch respectively automatic limit switch arranged the way that it when closing or opening the window to an on conclusion of the thermoelectric seal and in achieving the Plasticity and the deformation of the seal to an automa table uncoupling is coming.

The invention is explained in more detail with reference to the drawings, in which it shows:  

Fig. 1 is an overall view of the heat-insulated window for a low-energy house (a view from the inside of the house);

Figure 2 is a section along the line AA on a larger scale with a tear in the middle of the window.

Fig. 3 is a unit I in natural size of the most version;

Figure 4 is a structural unit I in natural size of the second version.

Figure 5 shows a cross section along the line BB in natural size of the first version.

Figure 6 shows a cross section along the line BB in natural size of the second version.

7 shows a cross section along the line CC in natuer Licher size.

Fig. 8 shows a schematic diagram of the connections for a thermally insulated window for a low-energy house.

Thermally insulated window for a low-energy house consists of a load-bearing heat-insulating frame, a window opening 1 , a heat-insulating frame for window pane 2 , a heat-insulating window pane 3 , an outer rubber seal 4 , an inner rubber seal 5 , a seal for the pane 6 , window eyelets 7 , one Window closure device 8 , a pane gap 9 , a vacuum pane 10 , 10 * a thermoelectric seal 11 , a mechanical end switch 12 , an automatic limit switch 13 , an inner shutoff frame 14 with a leading sliding surface 15 , a clamping strip of the window pane 16 , made of springs of the permanent pressing-17, Randlagefixatoren the inner From locking frame 18, a disc vacuum valve for Air purging 19, an inner reinforcement for the window pane 20, an elastic heat-insulating vacuum seal 21, a window opening plate of the thermal insulation frame 22, a wall plate of the W rmedämmrahmens 23, a disk plate of a Wärmedämmrah mens for window glass 24, a sliding plate of the Wär medämmrahmens for window pane 25, a hard Polyuret hanschaumstoff 26, accumulations and thickened portions of the plates 27, a leading disk sliding surface 28, a glue for hermetically sealing 29, the self-tapping screws 30 , 31 , 32 , a flat closed elastic rubber bottle 33 , filled with an easily fusible dielectric material 34 , for example paraffin, a flat electrical heating element 35 , which is made of a current-conducting layer of a carbon-graphite fabric 36 and of the insulation layers 37 composed of a lacquer fabric. In order to ensure a real execution and work ability, the thermally insulated window for a low-energy house also sees a thermocouple of the thermal electrical seal 38 , window collar roofs 39 , 40 , a window sill 41 , eyelet brackets 42 , eyelet consoles 43 , eyelet axes 44 , a tab the locking device 45 , an axis of the locking device 46 , a locking bolt of the locking device 47 , a locking device handle 48 , a locking device fixator 49 , screws 50 , nuts 51 and washers 52 , 53 , 54 .

The window works in the following way:
When locking, there is a deformation of the springs of constant pressure, which generate a constant deformable compression stress on the window opening, while when elasticity is achieved by the thermoelectric seal, which is engaged when locking, there is deformation thereof, which also causes the rubber seals the window opening are deformed and thus the window opening is reliably and tightly insulated by all the compressions in a combination with each other. When the window is opened, the windows take on their original shape.

The present technical solution enables the techni avoid contradictions inherent in the prototype den, and the heat losses through the windows significantly clog as well as adequate thermal insulation of the windows with the to reach other components of the low-energy house. It also makes such a solution possible, functional requirements that the procedures for heating, climate control and Ventilation of modern low-energy houses is demanding too to satisfy.

Claims (11)

1. Thermally insulated window for a low-energy house, which provides a load-bearing thermal insulation frame for the window opening, a heat-insulating frame for window panes, a heat-insulating window pane, rubber seals for the window opening and eyelets and a locking device, characterized in that one has the purpose of a significant reduction the energy losses in improving sound insulation, increasing strength, reliability and hermetic sealing while improving functionality, as well as maintaining ease of use with a vacuum (vacuum) in the space between the panes of the thermal insulation window and with the possibility of permanent pressing of the Thermal insulation frame for panes with the thermal insulation pane in relation to the opening plate of the carry the thermal insulation frame of the window opening is executed, the design of the opening in cross section from a conical st ufungsverbindung represents their thermal insulation and hermetic sealing by means of a thermoelectric compression, which has an elastic plasticity when heated, which is switched on with the help of a mechanical limit switch and is switched off with the help of an automatic limit switch, and thereby the window opening in Combined with the conventional rubber seals insulated, which also gives the possibility to heat the window opening at an extremely cold time, and that the window also has an inner shut-off frame with a leading sliding surface for the thermal insulation frame for window panes and a clamping strip for the pane and also the springs of continuous pressing and Randlagefixa gates of the internal shut-off provides. 2. Thermally insulated window for a low-energy home Claim 1, characterized in that the heat insulating Window pane with vacuum is convex and one represents hollow ellipsoid in cross-section, these both tightly disassemblable as well as disassemblable can be carried out and a valve to blow off air points. 3. Thermally insulated window for a low energy home Claim 1, 2, characterized in that the heat insulating detachable window pane with the presence of a ke partially executed on the circumference and at least two shit has layers that have a vacuum resistance as well have increased compressive strength, and beyond that Reinforcement on the face of the washers on the circumference in the cone part have a pair of washers over a cone lock has that for clamping before negative pressure under supply on the entire circumference of an elastic thermal insulation base pressure seal is addressed. 4. Thermally insulated window for a low-energy home Claim 1, characterized in that the supporting heat insulating window opening frame as well as the heat insulating frame thin-walled hermetic coverings for window panes make at least two thermoplastic sheets or in Combination metal-wood-thermoplastic or in another be loving combination are executed and under pressure with ad adhesion to the inner cladding surfaces with a hard Foam, for example filled polyurethane foam  are, and also the wrapping at the attachment points about reinforcements in the form of piles and thickenings disposes. 5. Thermally insulated window for a low-energy home Claim 1, 4, characterized in that the heat insulating Frame for window panes on a leading sliding surface points with the leading sliding surface of the inside ren shut-off frame interacts. 6. Thermally insulated window for a low-energy home Claim 1, characterized in that the springs of the lasting pressing constantly on the circumference of the inside surface of the frame for window panes are housed and interact with the inner shutoff frame and so with pressing forces that are perpendicular to the window surface act, the course of the springs under load the Ar deformations of the seals. 7. Thermally insulated window for a low-energy home Claim 1, characterized in that the eyelets and the Ver closing device on the inner shut-off frame with the poss ability to adjust the centering of the window are steady. 8. Thermally insulated window for a low-energy home Claim 1, characterized in that the inner shut-off together with the leading areas and the barrier line the disc made of a metal or in a combination Metal-wood-plastic material is executed. 9. Thermally insulated window for a low-energy home Claim 1, characterized in that one for attachment  the compressions and the heat-insulating washer and Development of the hermetic seal to hermetically seal the glue and self-tapping screws. 10. Thermally insulated window for a low-energy home Claim 1, characterized in that the heat-electric Seal a flat closed elastic thermoplastic sche, rubber or leather bottle, filled with a light fusible dielectric fabric, with an inside of the Bottle housed heating element, which comes from an stromlei tendency and there is an insulation layer, whereby its current-conducting layer made of a carbon-graphite fabric or made of a different analogue material and the insulation layers a lacquered fabric or a glass fiber fabric, or from one similar fabric are made. 11. Thermally insulated window for a low-energy home Claim 1, characterized in that the mechanical Limit switch or the automatic limit switch ter are arranged in such a way that when closing or Open the window to connect the thermoelectric Seal as well as for automatic switching on of the same extremely low temperature as well as achieving the Plasticity and the deformation of the seal to an automa table uncoupling comes.