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    • 1. 发明公开
    • TERRACE SKYLIGHT WITH MANY GLASS UNIT PANELS
    • EP3705658A1
    • 2020-09-09
    • EP19217336.7
    • 2019-12-18
    • Ergo Plus Polska
    • Boruszewski, Artur
    • E04D3/08E04B5/46E04D13/03
    • The skylight contains a support frame (2), the inner surface of which is divided in a grid arrangement by beams (3) and the rectangular fields separated between them are covered by panels (1) of glass units with at least one inter-glass chamber, limited by the centrifugal distance from the edges of the inner glass (7) spacers (4). The panels (1) are pressed against the support surfaces (P) located in the common plane (O-O) on the upper walls of the beams (3), by screw connectors (8) and seals (9, 10). Along the median symmetry plane of the beams (3), holes are made in their upper and lower walls, through which screw holes (8) are routed through the holes in the upper wall, pressing against the support surfaces (P), the edge areas of the internal glass (5) covered by seals lower (9) and upper (10) and from above through rigid termination bar (11). The bolt pins (8) between the support surface (P) and the pressure strip (11) are covered by flexible sleeves (12). The inter-panel chambers (X) above the termination bar are filled with thermal insulation material (13), preferably lightweight concrete. The slots (s) between the edges of the outer glass (7) are closed by a seal (14) of a one-component polyurethane mass, and the holes (15) in the bottom walls of the beams (3) are closed by detachably pressed plugs (16).
    • 2. 发明公开
    • TERRACE SKYLIGHT
    • EP3677734A2
    • 2020-07-08
    • EP19217296.3
    • 2019-12-18
    • Ergo Plus Polska
    • Boruszewski, Artur
    • E04D13/03E06B3/66
    • The skylight has a frame (O) with a support frame (1) made of an non-isosceles profile with a "Z" profile, directed outwards by a horizontal lower arm (1a) longer than the upper arm (1b). A peripheral layer of thermal insulation (T) adheres to the web (1c). The frame (O) is sealed from above by a glass panel (S) composed of at least two transparent plates (8, 10), tightly connected at the edges with a spacer (11). The upper outer plate (8) has dimensions larger than the lower inner plate (10), and both plates (8, 10) tightly adhere to the support surface on the upper arm (1b) and the upper surface of the thermal insulation (T) by edge seals (12). The thermal insulation layer (I) made of low density insulation material has a height (h) greater than the web height (1c) by the distance between the bottom surfaces of the inner (10) and outer (8) plates. At the length of each side, the support frame (1) is provided with at least two mounting brackets (K), which with a vertical arm (14) are threaded through the slots (15) cut in the corners of the upper arm (1b) of the support frame (1) and adhere to the inner surface of the web (1c). With a horizontal arm (12), they covers the edge area of the inner plate (10) from above and presses it through the flexible pad (16) against the seal (12) on the lower arm (1a) of the support frame (1). At the same time, the outer plate (8) combined with the inner plate (10) is pressed through the seal (12) to the upper surface of the thermal insulation layer (T), whereby the mounting brackets (K) in the pressure position of the glass panel (S) are fastened with screws (18) ) to the web (1c) of the support frame (1).
    • 3. 发明公开
    • INSULATION MOUNTING PROFILE AND METHOD FOR MANUFACTURING OF INSULATION MOUNTING PROFILES
    • EP3387205A1
    • 2018-10-17
    • EP16823060.5
    • 2016-12-05
    • Ergo Plus Polska
    • BORUSZEWSKI, Artur
    • E06B1/60E06B1/70E06B1/00E06B3/20E06B1/02
    • E06B1/6038E06B1/003E06B1/02E06B1/6015E06B3/205E06B2001/707
    • An essential structural element of the developed insulation mounting profile is the angle iron (1), with the shape of the letter „l", made of any material, preferably steel or composite with a high density, that can carry loads even up to 450 kg/m2. The angle iron (1), which is supplemented with the adhering foam (2), forms a compact, basic part of the profile with the cross section of a right triangle. The foam (2} can be made of any plastic, preferably of foamed polypropylene having a cellular structure. The foam 2 can be even the floral sponge, i.e. made of pofyurethane with short chains, as well as of polystyrene (soft tor hard), a styrodur, a polyurethane, preferably having a density from 15 kg/m2 to 450 kg/m2, a foamed PVC or other plastic, such as ABS, PE, PP, or compressed wood chips or other material combined with polyurethane. The basic part of the developed insulation mounting profile, consisting of the angle iron (1) along with the adhering foam (2), is covered with the layer of resin (4), for example, with epoxy resin, urine resin or polyurethane resin, and then coated with the layer of glass fiber (5), carbon fiber or fiber impregnated with resin. To such prepared basic part of the insulation profile is installed the supplementing foam (3), made, for example, of one of the materials, from which the adhering foam (2) is made. The supplementing foam (3) along with the previously prepared basic part of the profile is also covered with the layer of resin (4), and then with the layer of fiber (5).
    • 4. 发明公开
    • TERRACE SKYLIGHT
    • EP3677734A3
    • 2020-09-02
    • EP19217296.3
    • 2019-12-18
    • Ergo Plus Polska
    • Boruszewski, Artur
    • E04D13/03E06B3/66
    • The skylight has a frame (O) with a support frame (1) made of an non-isosceles profile with a "Z" profile, directed outwards by a horizontal lower arm (1a) longer than the upper arm (1b). A peripheral layer of thermal insulation (T) adheres to the web (1c). The frame (O) is sealed from above by a glass panel (S) composed of at least two transparent plates (8, 10), tightly connected at the edges with a spacer (11). The upper outer plate (8) has dimensions larger than the lower inner plate (10), and both plates (8, 10) tightly adhere to the support surface on the upper arm (1b) and the upper surface of the thermal insulation (T) by edge seals (12). The thermal insulation layer (I) made of low density insulation material has a height (h) greater than the web height (1c) by the distance between the bottom surfaces of the inner (10) and outer (8) plates. At the length of each side, the support frame (1) is provided with at least two mounting brackets (K), which with a vertical arm (14) are threaded through the slots (15) cut in the corners of the upper arm (1b) of the support frame (1) and adhere to the inner surface of the web (1c). With a horizontal arm (12), they covers the edge area of the inner plate (10) from above and presses it through the flexible pad (16) against the seal (12) on the lower arm (1a) of the support frame (1). At the same time, the outer plate (8) combined with the inner plate (10) is pressed through the seal (12) to the upper surface of the thermal insulation layer (T), whereby the mounting brackets (K) in the pressure position of the glass panel (S) are fastened with screws (18) ) to the web (1c) of the support frame (1).
    • 6. 发明公开
    • PROFILE FOR THE FASTENING AND THERMAL INSULATION SYSTEM OF WINDOWS, DOORS AND FACADES
    • EP3350400A1
    • 2018-07-25
    • EP16787575.6
    • 2016-09-16
    • Ergo Plus Polska
    • BORUSZEWSKI, Artur
    • E06B1/00
    • E06B1/003E06B1/6015
    • The subject of the invention is the profile for the fastening and thermal insulation system of windows, doors and facades, an essential element of which is the angle iron (1), made of any material, preferably of steel, with the cross section resembling the letter "L", which has longitudinal inflection points (2) arranged along the edges of its both arms, which are bent towards the inside of the angle iron (1), preferably at an angle of 90°. The angle iron (1) "L" is filled with the filling compound (3). In addition, thanks to rolling of the edges of the angle iron (1) and the presence of longitudinal inflection points (2) of the iron angle (1) formed this way, it is possible to place the brace (4) between them, which expands the arms of the angle iron (1). The brace (4) may be substantially the longitudinal flat bar, whereby it can have holes or protrusions; optionally the brace (4) can be made of small boards arranged respectively along the length of the angle iron (1) "L". The aforementioned brace (4) always forms an acute angle - with the arm of the angle iron (1), which it is adjacent to and with longitudinal inflection points (2) going out of this arm - which angle is typically 45°. The brace (4) is then the bisector of the angle defined by the arm of the angle iron (1) and of the longitudinal inflection point (2). In the basic solution - the profile is fixed to the wall face by means of fasteners, pins or screws (7). The screw (7) passing through the horizontal arm of the angle iron (1) fixes the frame of the window, door or other facade elements to the angle iron (1) "L". The installation may be also performed with the use of fixing anchors (6), directly connected to the profile, relatively supporting the profile, and then also connected to the building wall. Fixing anchors (6) may be equipped with one or several swivels (8). They may also be made of several sliding elements (9), enabling the separation, and thus the elongation of fixing anchors (6). The use of swivels (8), which may have the form of hinges, is improved by the strength of fixing anchors (6).
    • 7. 发明授权
    • SYSTEM AND METHOD OF MOUNTING, SEALING AND THERMAL INSULATION OF WINDOWS, FACADES AND DOORS PROFITABLY IN THE WARMING ZONE
    • EP3119971B1
    • 2018-07-11
    • EP14806743.2
    • 2014-09-05
    • Ergo Plus Polska
    • BORUSZEWSKI, Artur
    • E06B1/60E06B1/02
    • E06B1/6015E06B1/02
    • In the developed system of mounting, sealing and thermal insulating of windows, facades and doors (out of PVC, aluminium or wood)favourably in the building warming zone, basic elements are beams (1) (with various cross sections) with anchors (2) embedded into them, which are placed around window hole. We have foreseen a possibility of using various types of anchors (2), with trebly resolved joints, which can be: stiff joints (3), hinged joints (4) or relatively extending elements (5), wherein each of anchors (2) described above has an option to use chunk (6) made out of plastic material or metal or wood or out of other hard material which is cut out and has any shape, and also with an option with a chunk (6) made out of plastic material or metal or other hard material, which is extruded and has any shape, wherein chunks (6) are embedded in the beam (1). Anchors (2) are placed in the beam (1) so to say in two rows. Configuration of the joints and extending elements (5) in the anchor (2) is free, however always - if it is hinged joint (4) then after its deployment, and if its extending element (5) after its protrusion - peripheral parts of the anchor (2) from one of the rows are mounted in the window hole, and from the other row are mounted to the wall (7). In not embedded parts of the anchors - independently if they are outer parts of extending element (5), or hinged joint (4), or stiff joints (3) - there are favourably made two holes which can be oval, in which you put montage screws (9), then inserted by the anchor (2) to the wall (7), via triple nut (10) or double nut (11). Part of the anchor (2) that is embedded in the beam (1) - is at least one tube (16) made favourably out of plastic material or metal, allowing you to insert montage screw (15). After screwing the montage screw (15) the tube (16) is sealed and covered. In the developed method of mounting, sealing and thermal insulating of windows, facades and doors (out of PVC, aluminium or wood)favourably in the building warming zone, you do some steps in sequence - wherein the sequence can be changed. You start from dismantling the window sash, then you measure lower beam (1a) to the width of window subtracted by 10mm and you cut the beam (1a). Then you measure two beams (1b and 1c) to the height of the window adding thickness of the beam (1a) to it and subtracting 5mm from it, then you cut it, wherein beam (1b and 1c) will be placed on the sides of window hole. After that you measure a width of the window adding two thicknesses of the beam (1b and 1c) to it and then you cut the beam (1d). Next part of the montage is done according to one of the schemes: described elements which are two beams (la and 1b and 1c and 1d) are precisely joined together keeping in mind that you need to keep 90 degree angle, forming an "L" shape, described elements which are three beams(1a and 1b and 1c) precisely joined together keeping in mind that you need to keep 90 degree angle, forming an "U" shape or described elements which are four beams (1a and 1b and 1c and 1d) precisely joined together, keeping in mind that you need to keep 90 degree angle, forming an "O" shape. Module joined like that is then leveled and set vertically. After that you secure it with montage screw (9) to the wall (7), on the window hole, or in it, then using montage screws (15) it is secured to the window frame, relatively in the reverse order described order: is joined together using screws (15) with window frame, then it is being leveled and placed vertically, after that you secure it inside window hole, on it, or to the wall using montage screws (9), wherein in both cases, if module described like that is missing one beam (1c or 1d) - that beam (1c or 1d) is added and joined with wall (7), window frame and window hole. During that step you favorably precisely level it and check whether it is vertical, you make sure that is secured properly using washer (12) and triple nut (11), relatively double nut (10), tube (16), through which screws (15) were moved in are sealed.
    • 8. 发明公开
    • SYSTEM AND METHOD OF MOUNTING, SEALING AND THERMAL INSULATION OF WINDOWS, FACADES AND DOORS PROFITABLY IN THE WARMING ZONE
    • 系统和方法用于收集有利,热身区封窗户,墙壁和门房间绝热
    • EP3119971A2
    • 2017-01-25
    • EP14806743.2
    • 2014-09-05
    • Ergo Plus Polska
    • BORUSZEWSKI, Artur
    • E06B1/60E06B1/02
    • E06B1/6015E06B1/02
    • In the developed system of mounting, sealing and thermal insulating of windows, facades and doors (out of PVC, aluminium or wood)favourably in the building warming zone, basic elements are beams (1) (with various cross sections) with anchors (2) embedded into them, which are placed around window hole. We have foreseen a possibility of using various types of anchors (2), with trebly resolved joints, which can be: stiff joints (3), hinged joints (4) or relatively extending elements (5), wherein each of anchors (2) described above has an option to use chunk (6) made out of plastic material or metal or wood or out of other hard material which is cut out and has any shape, and also with an option with a chunk (6) made out of plastic material or metal or other hard material, which is extruded and has any shape, wherein chunks (6) are embedded in the beam (1). Anchors (2) are placed in the beam (1) so to say in two rows. Configuration of the joints and extending elements (5) in the anchor (2) is free, however always - if it is hinged joint (4) then after its deployment, and if its extending element (5) after its protrusion - peripheral parts of the anchor (2) from one of the rows are mounted in the window hole, and from the other row are mounted to the wall (7). In not embedded parts of the anchors - independently if they are outer parts of extending element (5), or hinged joint (4), or stiff joints (3) - there are favourably made two holes which can be oval, in which you put montage screws (9), then inserted by the anchor (2) to the wall (7), via triple nut (10) or double nut (11). Part of the anchor (2) that is embedded in the beam (1) - is at least one tube (16) made favourably out of plastic material or metal, allowing you to insert montage screw (15). After screwing the montage screw (15) the tube (16) is sealed and covered. In the developed method of mounting, sealing and thermal insulating of windows, facades and doors (out of PVC, aluminium or wood)favourably in the building warming zone, you do some steps in sequence - wherein the sequence can be changed. You start from dismantling the window sash, then you measure lower beam (1a) to the width of window subtracted by 10mm and you cut the beam (1a). Then you measure two beams (1b and 1c) to the height of the window adding thickness of the beam (1a) to it and subtracting 5mm from it, then you cut it, wherein beam (1b and 1c) will be placed on the sides of window hole. After that you measure a width of the window adding two thicknesses of the beam (1b and 1c) to it and then you cut the beam (1d). Next part of the montage is done according to one of the schemes: described elements which are two beams (la and 1b and 1c and 1d) are precisely joined together keeping in mind that you need to keep 90 degree angle, forming an "L" shape, described elements which are three beams(1a and 1b and 1c) precisely joined together keeping in mind that you need to keep 90 degree angle, forming an "U" shape or described elements which are four beams (1a and 1b and 1c and 1d) precisely joined together, keeping in mind that you need to keep 90 degree angle, forming an "O" shape. Module joined like that is then leveled and set vertically. After that you secure it with montage screw (9) to the wall (7), on the window hole, or in it, then using montage screws (15) it is secured to the window frame, relatively in the reverse order described order: is joined together using screws (15) with window frame, then it is being leveled and placed vertically, after that you secure it inside window hole, on it, or to the wall using montage screws (9), wherein in both cases, if module described like that is missing one beam (1c or 1d) - that beam (1c or 1d) is added and joined with wall (7), window frame and window hole. During that step you favorably precisely level it and check whether it is vertical, you make sure that is secured properly using washer (12) and triple nut (11), relatively double nut (10), tube (16), through which screws (15) were moved in are sealed.
    • 在安装时,在建筑物变暖区良好地密封和的窗户,外墙和门的热绝缘(在PVC,铝或木头)的开发的系统,基本元件是梁(1)(具有不同的横截面)与锚(2 )嵌入到他们,这是围绕窗孔放置。 我们已经预见到使用各种类型的锚(2),与trebly解决关节,可的的可能性:关节僵硬(3),铰接接头(4)或相对延长元件(5),其中每个锚(2) 上述具有使用块(6)做出来的塑料材料或金属或木头或出其它硬质材料的所有被切割出来,并具有任何形状,并且因此与具有组块的选项的选项(6)由塑料制成 材料或金属或其它硬质材料,所有这一切都被挤压并具有任何形状,worin块(6)被嵌入在梁(1)。 锚(2)在光束被放置(1)所以要在两行说。 关节的配置和扩展单元(5)在锚(2)不含然而总是 - 如果它被铰接接头(4),然后它的部署之后,如果它的延伸元件(5)后的凸部 - 的周缘部 从行中的一个锚(2)被安装在窗口孔,并从其它行安装在壁(7)。 在锚不预埋件 - unabhängig如果他们是扩张元件的外部部件(5),或铰接接头(4),或关节僵硬(3) - 有最好由两个洞里面可以是椭圆形,在其中放 安装螺钉(9),然后通过锚(2)向所述壁(7)插入时,通过三重螺母(10)或双螺母(11)。 (2)锚定的部分没有被嵌入在梁(1) - 是至少一个管(16),由从优出塑料材料或金属制成,允许你插入安装螺钉(15)。 拧紧安装螺钉(15)的管(16)被密封且覆盖后。 在安装时,有利地在建筑物变暖区和密封的窗户,外墙和门绝热(满分PVC,铝或木头)的建立的方法,这样做的一些步骤的顺序 - worin的顺序可以改变。 你从拆解窗扇启动,则测量下梁(1a)中,以10毫米中减去窗口的宽度和您剪切梁(1a)中。 然后,你测量两个光束(1B和1C)的窗口添加梁(1a)的,以它的厚度并减去从它为5mm的高度,那么你把它,worin光束(1B和1C)将在侧面上被放置 的窗孔。 之后你测量窗口中添加的光束的两个厚度的宽度(1B和1C)给它,然后你切割光束(1D)。 安装的下一部分是做雅鼎的方案之一:所描述的元素这是两个梁(1A和1B和1C和1D)正是结合在一起牢记做你需要保持90度角,形成一个“L” 形状,所描述的元件其是三个梁(1a和1b和1c)精确地连接在一起,同时考虑做你需要保持90度的角,从而形成一个“U”形或描述的元件,其有四个梁(1a和1b和1c和 1D)正是结合在一起,牢记做你需要保持90度角,形成一个“O”形。 模块接合那样然后拉平和垂直设置。 之后你与窗孔安装螺钉(9)的壁(7)将其固定,或者在它,然后使用安装螺丝(15)被固定到所述窗框的,相对以相反的顺序描述的顺序: 接合在一起使用具有窗框螺钉(15),则它是被整平,垂直放置,之后你将其固定窗口孔的内部,在其上,或是用安装螺丝(9),worin在这两种情况下,如果壁 描述这样的模块缺少一个光束(1C或1D) - 即光束(1C或1D)加入并与壁(7),窗框和窗孔接合。 在该步骤期间你有利精确整平,并检查它是否是垂直的,你让surethat正确地固定用垫圈(12)和三重螺母(11)相对的双螺母(10),管(16),通过所述螺钉( 15)在被密封被移动了。