DE102005002285A1 - Air pressure equalization system for use in interspace between panes of e.g. noise protection insulating glasses, has valve that keeps remaining portion of volume high in membrane tube, so that positive pressure of glass is adjusted - Google Patents

Abstract

The system has a stainless steel pipe with an isobutylene-isoprene-rubber membrane tube (9) having a sealing (7), and sealed at its ends. A capillary pipe (15) includes an end closed by a cap. A valve (12) at the end of the capillary pipe keeps the remaining portion of volume high in the membrane tube, so that a positive pressure of an insulating glass is adjusted. The valve is closed by the cap.

Description

The The invention relates to an insulating glass pressure equalization system in the following called ISO-DAS.

The Pressure compensation system can in particular in the space between the panes Heat insulating glass and Funktionsisoliergläser such as. Schallschutzisoliergläser, Sun protection and insulating glass with interior elements such as blinds, light guide elements and Sprouts are used.

The edge bond of the insulating glass consists of:
Spacer frame ( 14 ) Butyl seal ( 3 )
Dehumidifying agent ( 2 ) Polysulfide or polyurethane ( 1 )

It is an object of the present invention to provide a pressure equalization system of the type mentioned above, in order to ensure the caused by a possible difference in air pressure concave deformation of the individual float glass panes ( 4 ) to reduce in an insulating glass pane.

The concave deformation can be caused by air pressure differences, radiation, Convection, management and reflection are sustainably influenced and lead to disk breakage (Sketch 4).

The Reduction in the deformation of the float glass panes that the insulating glass pane created the space between the panes on the day of production maintains and the function of e.g. not obstructed inside elements becomes.

to solution This task is characterized by the pressure equalization system, that a connection through the edge bond of the insulating glass pane to the system that creates the external atmosphere with the closed system of insulating glass connects to a To bring pressure equalization.

By the low resistance of the membrane tube used over the Float glass pane expands this by a possible negative pressure in the space between the panes and expands to the limited maximum the inner tube diameter of about 14 mm, but it does not take direct influence on the gas office volume of the space between the panes.

Of the Space between panes of dry air and gases such as Filled with argon is, must be preserved.

In addition arises a reduction of the load of the edge composite by pumping the Insulating glass pane.

• 1. Das Druckausgleichsystem besteht aus einem Edelstahl-, Rund- oder Vierkantrohr, welches einen Isobutylen-Isopren-Rubber Membranschlauch (9) mit Dichtung (7) enthält, am Ende abgedichtet ist und mit einem Edelstahlrohr (Kapillarröhrchen) von ca. 1,0 × 0,2 × 35,0 mm (15) die Verbindung durch den Abstandhalter zur Außenatmosphäre herstellt (Skizze 3). Das Ende des Kapillarröhrchens (15) muss durch einen Dom oder eine Kappe (16) geschlossen sein, welche erst nach kompl. Versiegelung der Isolierglasscheibe mit Polyurethan oder Polysulfid entfernt werden darf.
• 2. Für die Verbindung der Membrane durch den Abstandhalter der Isolierglasscheibe kann auch ein Edelstahlrohr mit einem Durchmesser von ca. 5 bis 6 mm (statt Kapillarröhrchen) eingesetzt werden (8), um bei Anprallbelastung einer Scheibe den Überdruck im Scheibenzwischenraum schneller ausgleichen zu können und die gegenüberliegende Scheibe zu entlasten. Außerdem kann mit einem Ventil der Restluftvolumenanteil in der Schlauchmembrane erhöht werden, um nicht nur den Unterdruck sondern auch evtl. entstehenden Überdruck in der Isolierglasscheibe auszugleichen Das Ventil wird nach Fertigung der Isolierglasscheibe geöffnet. Bei Verwendung größerer Edelstahlrohre kann eine Primär- bzw. Sekundärdichtung (10 u. 11) verwendet werden. Das Ventil (12) muss durch einen Dorn oder eine Kappe (17) geschlossen sein, welche erst nach kompl. Versiegelung der Isolierglasscheibe mit Polyurethan oder Polysulfid entfernt werden darf.

The inside diameter of the pipe depends on the space between the panes ( 5 ). The length of the tube and the membrane is variable depending on the size of the disc and the air volume of the insulating glass pane.

• 1. The pressure compensation system consists of a stainless steel, round or square tube containing an isobutylene-isoprene-rubber membrane tube ( 9 ) with seal ( 7 is sealed at the end and with a stainless steel tube (capillary tube) of about 1.0 × 0.2 × 35.0 mm ( 15 ) makes the connection through the spacer to the outside atmosphere (sketch 3). The end of the capillary tube ( 15 ) must pass through a dome or cap ( 16 ) closed, which only after compl. Seal the insulating glass with polyurethane or polysulfide may be removed.
• 2. For the connection of the membrane through the spacer of the insulating glass pane, a stainless steel tube with a diameter of about 5 to 6 mm (instead of capillary tubes) can also be used ( 8th ), in order to be able to compensate for the overpressure in the space between the panes more quickly when the impact load of one pane is high and to relieve the opposite pane. In addition, with a valve, the residual air volume fraction in the tube membrane can be increased in order not only to compensate for the negative pressure but also any resulting overpressure in the insulating glass pane. The valve is opened after production of the insulating glass pane. When using larger stainless steel tubes, a primary or secondary seal ( 10 u. 11 ) be used. The valve ( 12 ) must by a thorn or a cap ( 17 ) closed, which only after compl. Seal the insulating glass with polyurethane or polysulfide may be removed.

In order not to influence the U _g value according to DIN EN 673 and 674, it is also possible to use UV-resistant plastic materials instead of the stainless steel tubes.

The membrane tube has a thickness of about 0.1 to 0.15 mm and has a diameter of about 15 mm ( 9 ).

The Length of the Systems depends on the size of the insulating glass pane and must remain variable.

The system is open to the space between the panes so that the pressure compensation can take place due to the expansion of the membrane ( 6 ).

During the Insulating glass production, the membrane hose may contain no air volume

The system is mounted on the spacer by providing it with holes and the stainless steel tube with retaining clips ( 13 ) is inserted into the spacer.

The complete system can also be used in the spacer of the insulating glass pane be accommodated, if this to the space between the panes in his moderation is enlarged.

Claims (12)

Insulating glass pressure equalization system (ISO-DAS), in particular for use in the space between the panes of heat insulating glass and Funktionsisoliergläser. The pressure compensation system according to claim 1, consists of a stainless steel, round or square tube, which is an isobutylene-isoprene-rubber membrane tube ( 9 ) with seal ( 7 is sealed at the end and with a stainless steel tube (capillary tube) of about 1.0 × 0.2 × 35.0 mm ( 15 ) makes the connection through the spacer to the outside atmosphere (sketch 3). The end of the capillary tube ( 15 ) must pass through a dome or cap ( 16 ) closed, which only after compl. Seal the insulating glass with polyurethane or polysulfide may be removed. Insulating glass pressure equalization system (ISO-DAS) according to claim 1 to 2, characterized in that for the connection of the membrane through the spacer of the insulating glass also a stainless steel tube with a diameter of about 5 to 6 mm (instead of capillary tube) can be used ( 8th ), in order to be able to compensate for the overpressure in the space between the panes more quickly when the impact load of one pane is high and to relieve the opposite pane. In addition, can be increased with a valve, the residual air volume fraction in the tube membrane to compensate not only the negative pressure but also any resulting pressure in the insulating glass pane. The valve is opened after manufacturing the insulating glass pane. When using larger stainless steel tubes, a primary or secondary seal ( 10 u. 11 ) be used. The valve ( 12 ) must by a thorn or a cap ( 17 ) closed, which only after compl. Seal the insulating glass with polyurethane or polysulfide may be removed. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 3, characterized in that a pressure equalization system for disposal which is a possible Air pressure difference between the outside atmosphere and the space between the panes balances. Due to the low resistance of the membrane hose used across from the float glass pane expands by a possible Negative pressure in the space between the panes, or it will be at overpressure in the space between the panes reduced in diameter. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 4, characterized in that a concave or convex Deformation of the float glass is reduced or prevented. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 5, characterized in that e.g. internal blinds, Light-guiding elements or decorative elements are not impaired in their function, there prevents an extremely concave deformation of the float glass panes becomes. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 6, characterized in that when using a valve at the end of the stainless steel tube, the residual volume fraction in the tube membrane can be kept as high as possible, also resulting overpressure to compensate for the insulating glass unit. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 7, characterized in that the dimensions of the im Insulating glass built-in pressure compensation system according to the existing moderation the edge bond and the size of the insulating glass pane judge. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 8, characterized in that it is also possible, instead of the stainless steel tubes UV-resistant plastic materials to use. Insulating glass pressure compensation system (ISO-DAS) according to claim 1 to 9, characterized in that at a disc space of eg 16 mm, a round tube or square tube is used, which has a width of about 14 mm. The membrane tube made of isobutylene-isoprene rubber has a thickness of about 0.1 to 0.15 mm and has a diameter of about 15 mm. The length of the membrane tube and the stainless steel tube depends on the size of the insulating glass pane, in order to be able to react accordingly with a larger gas or air volume. The capillary tube, which through the seal of the pressure compensation system and the edge seal of the insulating glass, dimensions approximately 1.0 × 0.2 × 35.0 mm. Insulating glass pressure equalization system (ISO-DAS) after Claims 1 to 10, characterized in that the pressure equalization system partly embedded in the lower spacer or the Spacer is enlarged, to completely accommodate the pressure equalization system. Of the Spacer must not be filled with dehumidifying agent. Insulating glass pressure equalization system (ISO-DAS) after Claim 1 to 11. According to drawings 3 sheets sketch 1 to 4