Examples of the present disclosure provide an overhead door panel. The overhead door panel includes a pair of parallel glass panes, a metal frame with parallel lateral stiles oriented perpendicular to the pair of parallel glass panes, a first seal system located at a first lateral stile, and a second seal system located at a second lateral stile, wherein the first seal system and the second seal system engage with at least one glass pane of the pair of parallel glass panes and a lateral stile of the parallel lateral stiles of the metal frame such that the first seal system and the second seal system are between the at least one glass pane and the lateral stile.

A glass door includes a glass assembly, a door frame, a decoration element and a door sealing element. The glass assembly includes a front glass having four outer side surfaces connected with each other end to end. The door frame surrounds the front glass and includes four inner side surfaces connected with each other end to end, a first surface connected with the inner side surfaces, and a second surface opposite to the first surface and connected with the inner side surfaces. The decoration element includes a first decoration sheet and four second decoration sheets vertically connected with the first decoration sheet and formed by vertically bending. The first decoration sheet covers a periphery region of a front surface of the front glass, and the second decoration sheets cover the four outer side surfaces of the front glass respectively. The door sealing element covers the second surface.

A glass door includes a glass assembly, a door frame, a decoration element and a door sealing element. The glass assembly includes a front glass having four outer side surfaces connected with each other end to end. The door frame surrounds the front glass and includes four inner side surfaces connected with each other end to end, a first surface connected with the inner side surfaces, and a second surface opposite to the first surface and connected with the inner side surfaces. The decoration element includes a first decoration sheet and four second decoration sheets vertically connected with the first decoration sheet and formed by vertically bending. The first decoration sheet covers a periphery region of a front surface of the front glass, and the second decoration sheets cover the four outer side surfaces of the front glass respectively. The door sealing element covers the second surface.

An integrated sash unit including a first sash portion. The first sash portion a first body portion and a first receiving wall extending inwardly from the first body portion. The first receiving wall has a first inner wall surface and a first peripheral wall surface opposing the first inner wall surface. The first body portion defines a first receiving surface and a first coupling surface and a first body peripheral surface opposite the first receiving surface and the first coupling surface. The integrated sash unit also includes a second sash portion forming a second body portion and a second receiving wall extending inwardly from the second body portion. The second receiving wall has a second inner wall surface and a second peripheral wall surface opposing the second inner wall surface. The second body portion defines a second receiving surface and a second coupling surface and a second body peripheral surface. The first coupling surface of the first sash portion is coupled to the second coupling surface of the second sash portion. The integrated sash unit also includes a first glazing panel supported by and coupled to the first inner wall surface of the first sash portion without being coupled to the second sash portion and a second glazing panel supported by and coupled to the second inner wall surface of the second sash portion without being coupled to the first sash portion.

An integrated sash unit including a first sash portion. The first sash portion a first body portion and a first receiving wall extending inwardly from the first body portion. The first receiving wall has a first inner wall surface and a first peripheral wall surface opposing the first inner wall surface. The first body portion defines a first receiving surface and a first coupling surface and a first body peripheral surface opposite the first receiving surface and the first coupling surface. The integrated sash unit also includes a second sash portion forming a second body portion and a second receiving wall extending inwardly from the second body portion. The second receiving wall has a second inner wall surface and a second peripheral wall surface opposing the second inner wall surface. The second body portion defines a second receiving surface and a second coupling surface and a second body peripheral surface. The first coupling surface of the first sash portion is coupled to the second coupling surface of the second sash portion. The integrated sash unit also includes a first glazing panel supported by and coupled to the first inner wall surface of the first sash portion without being coupled to the second sash portion and a second glazing panel supported by and coupled to the second inner wall surface of the second sash portion without being coupled to the first sash portion.

The present invention concerns a zeolitic adsorbent comprising a zeolitic agglomerate comprising at least one zeolite and at least one agglomeration binder, said agglomerate being coated with a coating comprising at least one pigment.

Disclosed is a pane unit (10), which comprises a frame structure (12) formed from a plurality of profiles (14), at least two outer panes (16, 16′), and at least one middle pane (18). The panes are each connected or attached to the frame structure (12). The pane unit (10) moreover comprises at least one functional element (20) used for the illumination of the at least one middle pane (18), which functional element (20) is inserted into at least one chamber (24) provided in the profiles (14). The plurality of profiles (14) are coupled with each other by means of at least one connection element (28), wherein the at least one connection element (28) engages with the profiles (14) in such a manner that the pane unit (10) is hermetically sealed.

Disclosed is a pane unit (10), which comprises a frame structure (12) formed from a plurality of profiles (14), at least two outer panes (16, 16′), and at least one middle pane (18). The panes are each connected or attached to the frame structure (12). The pane unit (10) moreover comprises at least one functional element (20) used for the illumination of the at least one middle pane (18), which functional element (20) is inserted into at least one chamber (24) provided in the profiles (14). The plurality of profiles (14) are coupled with each other by means of at least one connection element (28), wherein the at least one connection element (28) engages with the profiles (14) in such a manner that the pane unit (10) is hermetically sealed.

An insulating glazing unit includes at least one spacer, which is shaped around the periphery to produce a spacer frame and delimits an inner region, a first glass pane, which is arranged on a first pane contact surface of the spacer frame, and a second glass pane, which is arranged on a second pane contact surface of the spacer frame, and the glass panes project beyond the spacer frame and an outer region is formed, which is filled at least in some sections, with a sealing element, wherein at least one RFID transponder is arranged in the outer region or in the outer edge region of the glass panes, and the RFID transponder contains a slot antenna.

An insulating glazing unit includes at least one spacer, which is shaped around the periphery to produce a spacer frame and delimits an inner region, a first glass pane, which is arranged on a first pane contact surface of the spacer frame, and a second glass pane, which is arranged on a second pane contact surface of the spacer frame, and the glass panes project beyond the spacer frame and an outer region is formed, which is filled at least in some sections, with a sealing element, wherein at least one RFID transponder is arranged in the outer region or in the outer edge region of the glass panes, and the RFID transponder contains a slot antenna.