RU120126U1 - REMOTE FRAME UNIT WITH SEALANT - Google Patents

Abstract

The inventive utility model relates to the field of construction, namely, to the construction of window blocks containing single, double or multi-chamber double-glazed windows, and can be used in any sectors of the economy. The technical result, which is achieved by the claimed utility model, is to increase the mechanical, for example, stiffness, and operational properties, including heat, moisture and corrosion resistance and reduce the coefficient of thermal conductivity. The specified technical result is achieved by the fact that the block of the distance frame with sealant, including the supporting element of the seal, the flat surface of which is limited by the first and second edges having at least one fold; an insert in the form of a wave-like tape, at least one bend of which is in contact with the first and second edges of the support element of the seal, a sealant with a desiccant deposited on the flat surface of the support element of the seal and a stiffener in contact with at least the first and second edges of the support element of the seal, made of a multilayer material consisting of at least two layers of polymeric materials between which aluminum foil is placed, and the liner and stiffener are made of polymer material, with the supporting seal element, the liner and the stiffening element are interconnected by means of adhesives, and the multilayer material for the supporting seal element contains an additional layer of aluminum foil, fixed to the first layer using adhesive bonding, as a polymer material for the liner and element stiffnesses use polypropylene or its copolymers, and to connect the support element of the seal, liner and stiffener to each other, one adhesive is used, the height of which It is at least 75% of the liner wave height on each side of the edge. The thickness of the additional layer of aluminum foil is 10-20 microns. The thickness of the liner and stiffener is 0.40-1.00 mm, mainly 0.45-0.6 mm Butyl rubber is used as a sealant and adhesive. Silica gel is used as a desiccant; The liner and stiffener are made of steel, stainless steel, aluminum, surface-treated paper, cardboard, plastic, including metallized, laminates, or any combination of these materials. The waviness of the liner may consist of folds, ribs, folds, waves. The vertices of the bends of the liner in the cross section may be rounded or flat. The liner and the stiffener are made of the same thickness. The liner and the stiffener are made of the same width. The inventive utility model allows to increase the mechanical and operational properties of the glass, in particular, its heat-insulating properties, water and gas impermeability (when using the filling of the glass with inert gases), as well as the moisture and corrosion resistance of the distance frame.

1 n.p.f., 3 fig.

Description

The inventive utility model relates to the field of construction, namely, to the construction of window blocks containing single, double or multi-chamber double-glazed windows, and can be used in any sectors of the economy.

Double-glazed windows are voluminous products consisting of two, three or four sheets of glass, interconnected along the contour using either distance frames and sealants, or a flexible spacer; forming hermetically sealed chambers filled with dried air or other gas.

Multi-chamber double-glazed windows, mainly two-chamber, have been widely used in construction, due to the increased performance in heat and sound insulation. As a rule, multilayer packets consist of at least two glasses located in parallel, which are interconnected in the edge region in such a way as to isolate as much as possible the gap formed between the glasses from ambient air and moisture penetration. This gap can be filled with dried gases, which serve to improve heat and sound insulation.

The prior art device is a window unit with laminated glazing, including: a first glass having an inner surface with an edge portion and an outer surface with an edge portion, a second glass having an inner surface with an edge portion and an outer surface with an edge portion, a remote frame comprising: a hollow profile configured to fill with moisture-absorbing material, and the cavity for the moisture-absorbing material is limited by at least two side walls and a back the wall, the cavity communicating with the gap between the glasses, and between the side walls of the hollow profile and the inner surfaces of the first and second glasses is the first sealant or gasket of non-flowing polymeric material; a window frame or a box with a groove that holds the glass, and a second layer of adhesive-sealant for gluing the glasses and the distance frame to the window frame in the form of a tight tight fit, the hollow profile being located on the edge section of the inner surfaces of the first and second glass so that the outer surface the back wall was in line with the outer edges of the glass, and the gap between the back wall, outer edges and the inner surface of the groove was filled with glue-sealant for gluing the multilayer glass to the windows a protruding rib (see patent for invention No. 2413828 “Window block”, PCT application EP 20061216220061218, publication of PCT application WO 2007/082578).

The TRUSPACER composite expansion and sealing tape is known, containing aluminum-based alloys and having the same thickness, a wavy gasket and a smooth stiffening element, an aluminum foil moisture penetration barrier coated with plastic, and an adhesive layer (see).

The disadvantages of this device are due to the unreliability and fragility of the sealing tape, as well as its lower thermal insulation index. This is due to the fact that the coating of the moisture penetration barrier is very fragile and easily detaches from the foil, as a result of which the foil is deformed.

The closest technical solution to the claimed utility model is a distance frame unit with a sealant, consisting of a support element of the seal, the flat surface of which is limited by the first and second edges, where the first and second edge have at least one fold; a liner, at least one bend of which is in contact with the first and second edge of the support element of the seal so that at least one fold is directed into at least one bend of the liner; and sealant connected to at least the first and second edges of the seal support member.

The sealing support element is a water-gas-tight membrane made of a multilayer material consisting of two layers of polymer material, between which an aluminum layer is placed, while polyester is used as one layer of polymer material, and ethylene copolymer is used as the second.

The block contains a stiffener in contact with the support element of the seal, as well as the top layer of sealant with a dehumidifier applied to it or a desiccant can be added to the sealant.

The liner connected to the sealant has an undulation along the longitudinal axis. The stiffening element is glued to the support element of the seal using the first adhesive, and to the liner - using the second adhesive.

The sealant used is polysulfide, urethane, acrylic or styrene-butadiene polymers, preferably butyl rubber.

The seal support member may be made of aluminum foil, plastic, paper, plastic paper, metallized plastic, metal or laminates, consisting of any suitable combination, preferably in the form of a multilayer structure comprising one layer of aluminum foil, a layer of polyester or nylon and a layer of ethylene copolymer .

The liner can be made of any material with sufficient rigidity, able to withstand compression forces acting in the direction perpendicular to the longitudinal axis of the block, for example, of metal, including steel, stainless steel, aluminum, surface treated paper, cardboard, plastic , including metallized, laminates, or from any combination of the listed materials.

The stiffener can be made of plastic, aluminum, steel, stainless steel, coated paper or any other thermoset or thermoplastic foam, as well as any laminate from a combination of the above materials (see US patent 7877858 "Continuous flexible spacer assembly having sealant support member", application filing date 02.24.2009, publication US20090223150, publication date September 10, 2009).

The technical result, which is achieved by the claimed utility model, is to increase the mechanical, for example, stiffness, and operational properties, including heat, moisture and corrosion resistance and reduce the coefficient of thermal conductivity.

The specified technical result is achieved by the fact that the block of the distance frame with a sealant, including the supporting element of the seal, the flat surface of which is bounded by the first and second edges having at least one fold; an insert in the form of a wave-like tape, at least one bend of which is in contact with the first and second edges of the seal support member, a sealant with a desiccant applied to the flat surface of the seal support member and a stiffener in contact with at least the first and second edges of the seal support member, made of a multilayer material consisting of at least two layers of polymeric materials between which aluminum foil is placed, and the liner and stiffener are made of polymer material, wherein the seal support element, the liner and the stiffener are interconnected by means of adhesives, according to a utility model, the multilayer material for the seal support element contains an additional layer of aluminum foil fixed to the first layer with an adhesive joint, as a polymer material for the liner and a stiffener, polypropylene or its copolymers are used, and one adhesive is used to connect the seal support member, liner and stiffener to each other GUSTs whose height is not less than 75% of the height of each insert wave side edge.

The thickness of the additional layer of aluminum foil is 10-20 microns.

The thickness of the liner and stiffener is 0.40-1.00 mm, mainly 0.45-0.6 mm

Butyl rubber is used as a sealant and adhesive. Silica gel is used as a desiccant;

The liner and stiffener are made of steel, stainless steel, aluminum, surface-treated paper, cardboard, plastic, including metallized, laminates, or any combination of these materials.

The waviness of the liner may consist of folds, ribs, folds, waves.

The vertices of the bends of the liner in the cross section may be rounded or flat.

The liner and the stiffener are made of the same thickness.

The liner and the stiffener are made of the same width.

No technical solutions coinciding with the set of essential features of the claimed utility model have been identified, which allows us to conclude that the claimed utility model conforms to such a patentability condition as “novelty”.

The patentability condition "industrial applicability" is confirmed by the example of a specific implementation of the claimed device.

The inventive utility model is illustrated by drawings, where

Figure 1 is a fragment of a multilayer double-glazed window with a distance frame block with sealant;

Figure 2 - General view of the block distance frame;

Figure 3 is a side view of a multilayer double-glazed window with a spacer unit with a sealant in section.

The implementation of the utility model is confirmed by examples of specific performance.

A spacer unit with a sealant is located along the perimeter of the glass packet between the edge sections of two glasses located parallel to each other, for example, 1.1, whose outer surface is facing the environment, and 1.2, whose outer surface is respectively facing the inside of the room. The block includes a liner 2, which is a corrugated tape with wave-shaped bends, a stiffening element 3 located in the same plane on one side of the tape and connected at a certain interval with the vertices of the bends of the liner 2, the support element of the seal 4, which is a water-tight multilayer membrane.

The cross-sectional profile of the liner has the form of a sinusoid, the wave height of which is 4.0-4.5 mm, a pitch of 8-9.2 mm, a radius of 1.5-2.0 mm.

The liner 2 and the stiffener 3 are made of the same thickness, mainly 0.45-0.6 mm, and can be interconnected by means of an adhesive, hot pressing, welding, including spot welding, soldering or otherwise.

The liner 2 and the stiffening element 3 are made of a polymeric material, in particular, a polyolefin polymer, which is used as polypropylene or its copolymers having increased hardness, resistance to abrasion and moisture, and almost not subject to corrosion damage.

To the outer surface of the stiffening element 3 and the sides of the liner 2 by means of an adhesive joint 5, which is used as a sealant, for example, butyl rubber, a water-gas tight multilayer membrane 4 of the U-shape is attached. The membrane 4 is made of a multilayer material, consisting of located between two layers of polymeric material and bonded to each other using adhesive bonding of two layers of aluminum foil. This design of a water-tight multi-layer membrane 4 provides the necessary tensile strength and prevents the penetration of atmospheric moisture into the glass and, vice versa, the evaporation of inert gases pumped into the glass. In addition, the membrane gives the necessary structural rigidity, allowing you to save the geometry of the side surface when forming the angles of the glass.

A water-gas-tight multilayer membrane of this design is able to withstand the mechanical stresses at high temperature, which it is exposed to during the production process. In addition, the multilayer membrane is resistant to damage, but at the same time, it can stretch without the risk of tearing.

A layer of sealant 5 is deposited on the inner surface of the waterproof membrane 4 and repeats its U-shape.

The height of the adhesive layer of the sealant 5 should be at least 75% of the wave height of the liner 2 on each side of the edge. The thickness of the sealant layer is 5-0.3-0.7 mm. The adhesive layer of sealant 5 is an important binder of structural rigidity of all elements of the distance frame unit.

Sealants 6.1 and 6.2 are applied to the outer side surfaces of the support element of the seal 4, which form a gap between the structural elements and the glass surface 1.1, 1.2 and ensure not only their strong connection, but also the gas tightness of the glass packet. The width of the sealant layer should be sufficient to ensure the tightness of the double-glazed window, namely, in accordance with the requirements of GOST R 54175-2010 "Double-glazed windows glued. Specifications "width is at least 4 mm.

The thickness of the sealant layer 6.1 and 6.2, equal to 0.5-1 mm, provides the necessary bonding strength, as well as the necessary clearance between the block elements and glass panes 1.1,1.2.

The water-gas-tight multilayer membrane 4 prevents the penetration of moisture, and its flat surface is the basis on which a layer of a mixture of sealant with a desiccant 7 is applied, which is used as silica gel. The sealant layer with desiccant 7 also participates in the formation of the gap between the structural elements and the glass surface, and its width corresponds to the distance between the glasses 1.1 and 1.2. A desiccant is used to reduce the concentration of moisture entering the air chamber between glasses 1.1 and 1.2. when assembling a double-glazed window.

The adhesive layers 6.1, 6.2 and 7 form a single continuous U-shaped layer, the length of which corresponds to the perimeter of the glass unit, and seals the gap between the distance frame unit and the glass surface.

The parameters of the distance frame unit with sealant will depend on the design of the window, in which the length, as a rule, corresponds to the perimeter of the glass packet.

The inventive device is made as follows.

The manufacturing process is carried out on an automatic line by two-stage extrusion of the sealant onto the distance frame unit: First stage: extrusion of the sealant between the liner 2 and the stiffener 3, for gluing these elements together and subsequent installation of a water-tight membrane on them 4. Second stage: extrusion of two types of sealant lateral adhesive layers 6.1, 6.2 and the upper layer with silica gel 7 on the outer parts obtained at the first stage of production of the base unit of the distance frame.

The inventive utility model allows to increase the mechanical and operational properties of the glass, in particular, its heat-insulating properties, water and gas impermeability (when using glass filling with inert gases), as well as the moisture and corrosion resistance of the spacer.

Claims (10)

1. The block remote frame with a sealant, comprising a support element of the seal, the flat surface of which is limited by the first and second edges having at least one fold; at least one bend of the liner in contact with the first and second edges of the seal support element, a sealant with a dryer applied to the flat surface of the seal support element and a stiffener in contact with at least the first and second edges of the seal support element made of multilayer material, consisting of at least two layers of polymeric materials, between which aluminum foil is placed, and the liner and stiffener are made of polymer material terial, wherein the sealing support element, the liner and the stiffening element are interconnected by means of adhesives, according to a utility model, the multilayer material for the sealing support element contains an additional layer of aluminum foil fixed to the first layer by means of an adhesive joint, as a polymer material for the liner and the stiffener, polypropylene or its copolymers are used, and one adhesive is used to connect the seal support member, liner and stiffener to each other in height which is at least 75% of the height of each insert wave side edge. 2. The distance frame block with sealant according to claim 1, characterized in that the thickness of the additional layer of aluminum foil is 10-20 microns. 3. The distance frame block with sealant according to claim 1, characterized in that the thickness of the liner and the stiffener is 0.40-1.00 mm, preferably 0.45-0.6 mm. 4. The distance frame block with sealant according to claim 1, characterized in that butyl rubber is used as sealant and adhesive. 5. The remote frame block with sealant according to claim 1, characterized in that silica gel is used as a desiccant. 6. The remote frame block with sealant according to claim 1, characterized in that the liner and stiffener are made of steel, stainless steel, aluminum, surface treated paper, cardboard, plastic, including metallized, laminates, or any combination of the above materials . 7. The distance frame block with sealant according to claim 1, characterized in that the waviness of the liner may consist of folds, ribs, bends, waves. 8. The distance frame block with sealant according to claim 1, characterized in that the vertices of the bends of the liner in the cross section can be rounded or flat. 9. The distance frame unit with sealant according to claim 1, characterized in that the liner and the stiffener are made of the same thickness. 10. The distance frame block with sealant according to claim 1, characterized in that the liner and the stiffener are made of the same width.