PL70330Y1 - Fireproof aluminium profile with a thermal spacer - Google Patents

Abstract

The object of the utility model is a fire-resistant aluminum profile of a warm system, especially for doors or windows. The fire-resistant aluminum profile of the warm system has an external profile (1) and an internal profile, connected with thermal breaks (3), creating a thermal chamber (4). The connected sections (1, 2) form three-chamber profiles. The outer profile (1) has an outer chamber (5), and the inner profile (2) an inner chamber (6). The thermal chamber (4) and the outer chamber (5) with the inner chamber (6) have fire retardant material (7) inside. The inner wall (8) of the outer profile (1) and the inner wall (9) of the inner profile (2) have one guide (10), cooperating with a fire-resistant connector (11) permanently connected with the fire-resistant material (7), located in the outer chamber ( 5) and in the inner chamber (6).

Description

EN 70 330 Y1 2 Description of the design The subject of the utility model is a fire-resistant aluminum profile of the heating system, especially for doors or windows. The aluminum profiles of the frame or door leaf of the heating system consist of an external and internal profile, connected with each other by thermal breaks. Connected with each other shapes create three-chamber profiles. The outer shape has an outer chamber, and the inner shape has an inner chamber, and the chamber created by joining the outer shape with the inner one by means of thermal spacers is a thermal chamber. Due to their construction, the multi-layer profiles have a low heat transfer coefficient. In order to increase the thermal insulation coefficient, the thermal chamber and / or the outer and inner chambers of the profile are filled with insulating material. The insulating material, once in place, prevents air migration and heat transfer. There are known profiles in which the cross-section of the inner or outer chamber is a rectangle or a rectangle with one corner selected. Such a shape of the chambers causes that the insert inside the chambers during the melting of the profile during a fire may fall out. The purpose of the utility pattern is to develop a profile shape in which the fireproof insert will adhere to its structure and will stay in place for a longer time unit during the melting and firing of the profile. According to the utility pattern, the fireproof aluminum profile of the heating system has an external profile and an internal profile, connected with each other with thermal breaks, creating a thermal chamber. Connected with each other shapes create three-chamber profiles. The outer shape has an outer chamber and the inner shape has an inner chamber. The thermal chamber and the outer chamber with the inner chamber have fireproof and / or insulating material inside. The inner wall of the outer profile and the inner wall of the inner profile have guides cooperating with the element of the fireproof connector permanently connected with the fireproof material located in the outer and inner chamber. Preferably, the inner wall of the outer profile and the inner wall of the inner profile have two guides cooperating with the element of the fireproof connector permanently connected to the fireproof material in the outer and inner chamber. Preferably, the inner wall of the outer profile has guides cooperating with the element of the fireproof connector permanently attached to the fireproof material in the outer chamber. Preferably, the inner wall of the inner profile has guides cooperating with the element of the fireproof connector permanently connected to the fireproof material in the outer and inner chamber. Such a construction of the outer shape and the inner shape of the profile causes that the fireproof insert inside their chambers will remain in place for a longer time unit during the profile melting. Thus, the time during which the escape route remains clear will be longer. Such a geometry of aluminum profiles enables the extension of the time of the fireproof core in its original position limiting the spread of external fire as much as possible. The subject of the utility model is shown in the example of the embodiment in the drawing, in which Fig. 1 shows a profile with a guide in the inner wall of the outer and inner profile in cross-section, Fig. 2 - profile with a guide in the inner wall of the outer profile in cross-section , fig. 3 - profile with a guide in the inner wall of the inner profile in cross section, and fig. 4 - profile with two guides in the inner wall of the outer and inner profile in cross-section. C o l a d I. The fire-resistant aluminum profile of the heating system has an external profile 1 and an internal profile 2, connected with each other by thermal spacers 3, creating a thermal chamber 4. Connected profiles 1, 2 form three-chamber profiles. The outer shape 1 has an outer chamber 5, and an inner shape 2 inner chamber 6. Thermal chamber 4 and outer chamber 5 with an inner chamber 6 have a fireproof material on the inside 7. Inner wall 8 outer profile 1 and inner corner 9 inner corner the guides 10 cooperating with the element of the fireproof connector 11 permanently connected to the fireproof material 7 in the outer chamber 5 and in the inner chamber 6. PL 70 330 Y1 3 Example II. The fire-resistant aluminum profile differs from the one described in example I in that the inner wall 8 of the outer profile 1 has one guide 10 cooperating with the element of the fire-resistant fastener 11 permanently connected with the fire-resistant material 7 located in the outer chamber 5. C o l d III. The fire-resistant aluminum profile differs from the one described in Example I in that the inner wall 9 of the inner profile 2 has one guide 10 cooperating with the element of the fire-resistant fastener 11 permanently connected with the fire-resistant material 7 in the inner chamber 6. C o l a d IV. The fireproof aluminum profile differs from the one described in example I in that the inner wall 8 of the outer profile 1 and the inner wall 9 of the inner profile 2 have two guides 10 cooperating with the element of the fireproof connector 11 permanently connected to the fireproof material 7 inside the chamber 5 and inner chamber 6. PL PL

Claims (4)

1. Protective reservations 1. The fire-resistant aluminum profile of the heating system has an external profile and an internal profile, connected with each other with thermal breaks, creating a thermal chamber, and the profiles connected with each other form three-chamber profiles, while the external profile has an internal chamber, and an internal chamber. The thermal chamber and the outer chamber as well as the inner chamber have a fireproof and / or insulating material inside, characterized in that the inner wall (8) of the outer profile (1) and the inner wall (9) of the inner profile (2) have guides (10). ) cooperating with the element of the fireproof connector (11) permanently attached to the fireproof material (7) located in the outer chamber (5) and the inner chamber (6). 2. Fireproof profile according to claim A method according to claim 1, characterized in that the inner wall (8) of the outer profile (1) and the inner wall (9) of the inner profile (2) have two guides (10) cooperating with the element of the fireproof connector (11) permanently connected to the fireproof material (7) located in the outer chamber (5) and in the inner chamber (6). 3. Fireproof profile according to claims The method of claim 1, characterized in that the inner wall (8) of the outer profile (1) has guides (10) cooperating with the element of the fireproof connector (11) permanently connected to the fireproof material (7) located in the outer chamber (5). 4. Fireproof profile according to claims The method of claim 1, characterized in that the inner wall (9) of the inner section (2) has guides (10) cooperating with the element of the fireproof connector (11) permanently connected to the fireproof material (7) located in the inner chamber (6). PL PL