The present disclosure provides a method for fabricating a door provided at a laundry treating apparatus, the method including: mounting a front glass to a front glass mounting jig, and mounting a door frame to a door frame mounting jig; applying an adhesive to the door frame; lifting the front glass by absorption, and then mounting onto the door frame; moving the door frame mounting jig to a compression jig; attaching the front glass to the door frame by using the compression jig; separating the door frame mounting jig from the compression jig, and moving to an initial position; and separating an assembly of the front glass attached to the door frame, from the door frame mounting jig, wherein in the applying of the adhesive to the door frame, the adhesive is applied along an adhesive filling groove formed to enclose an opening of the door frame, plural times in a divided manner.

The present disclosure provides a method for fabricating a door provided at a laundry treating apparatus, the method including: mounting a front glass to a front glass mounting jig, and mounting a door frame to a door frame mounting jig; applying an adhesive to the door frame; lifting the front glass by absorption, and then mounting onto the door frame; moving the door frame mounting jig to a compression jig; attaching the front glass to the door frame by using the compression jig; separating the door frame mounting jig from the compression jig, and moving to an initial position; and separating an assembly of the front glass attached to the door frame, from the door frame mounting jig, wherein in the applying of the adhesive to the door frame, the adhesive is applied along an adhesive filling groove formed to enclose an opening of the door frame, plural times in a divided manner.

Provided is a hot melt adhesive for insulating glass spacer, prepared from raw meterials comprising the following components: 1-10 parts by weight of butyl rubber, 25-50 parts by weight of a polyisobutylene mixture; 5-15 parts by weight of a tackifying resin; 1-15 parts by weight of a tackifier; 5-15 parts by weight of a polymer; 0.1-1 part by weight of a lubricant; 0.1-1 part by weight of an antioxidant; 15-50 parts by weight of a filler; 1-10 parts by weight of a water absorbent; and 5-25 parts by weight of carbon black. Compared with the prior art, in the hot melt adhesive for insulating glass spacer provided in the present disclosure, components with specific contents are used, such that relatively good overall interaction is achieved, the thixotropy of the product is good, and the adhesion to both silicone sealant and glass is excellent.

A spacer tool for assembling a glass panel on a frame is provided. The spacer tool includes a body defining a central axis and a width along the central axis. The spacer tool includes a bore disposed within the body and axially aligned along the central axis. The bore is adapted to receive an alignment pin disposed on the frame. The spacer tool also includes a plurality of lands disposed on the body. Each of the plurality of lands is disposed substantially parallel to and spaced apart from the central axis, each of the plurality of lands is adapted to selectively contact an edge of the glass panel. Each of the plurality of lands is disposed at a distance relative to the central axis different from one another.

A spacer tool for assembling a glass panel on a frame is provided. The spacer tool includes a body defining a central axis and a width along the central axis. The spacer tool includes a bore disposed within the body and axially aligned along the central axis. The bore is adapted to receive an alignment pin disposed on the frame. The spacer tool also includes a plurality of lands disposed on the body. Each of the plurality of lands is disposed substantially parallel to and spaced apart from the central axis, each of the plurality of lands is adapted to selectively contact an edge of the glass panel. Each of the plurality of lands is disposed at a distance relative to the central axis different from one another.

The present disclosure relates to a roof window (1) with a vacuum insulated glass unit (3). The roof window (1) comprises a VIG unit (3) and a frame arrangement (2). The frame arrangement 2 comprises a fixation frame (7) and a sash (6) fixed to the a VIG unit (3), and the sash (6) is movably connected to the fixation frame (7) by means of a hinge connection (80) so that a top end part (16a) of the sash (6) is configured to move inwards and a bottom end part (16b) of the sash is configured to move outwards when opening the sash (6) from a closed position. The bottom end part (16b) of the sash (6) comprises an elongated, structural bottom member (6c) having an inner surface (41) facing towards the top end part (16a) of the sash, and an opposite exterior surface (42) facing away from the top end part (16a). The VIG unit (3) comprises an overlapping part (9b) where the evacuated gap (4) overlaps the elongated, structural bottom member (6c) of the sash (6). The overlapping part (9b) of the VIG unit moreover overlaps at least a part of an elongated bottom frame member (7c) of the fixation frame 7.

The present disclosure relates to a roof window (1) with a vacuum insulated glass unit (3). The roof window (1) comprises a VIG unit (3) and a frame arrangement (2). The frame arrangement 2 comprises a fixation frame (7) and a sash (6) fixed to the a VIG unit (3), and the sash (6) is movably connected to the fixation frame (7) by means of a hinge connection (80) so that a top end part (16a) of the sash (6) is configured to move inwards and a bottom end part (16b) of the sash is configured to move outwards when opening the sash (6) from a closed position. The bottom end part (16b) of the sash (6) comprises an elongated, structural bottom member (6c) having an inner surface (41) facing towards the top end part (16a) of the sash, and an opposite exterior surface (42) facing away from the top end part (16a). The VIG unit (3) comprises an overlapping part (9b) where the evacuated gap (4) overlaps the elongated, structural bottom member (6c) of the sash (6). The overlapping part (9b) of the VIG unit moreover overlaps at least a part of an elongated bottom frame member (7c) of the fixation frame 7.

A light transmitting panel assembly includes a first panel, a second panel, a frame, a gap between the first panel and the second panel, and a first active component located between the first panel and the second panel.

A glass fastening system includes a glass portion, a support structure defining a recess, a first adhesive layer disposed on an exterior surface of the glass portion facing the recess in the support structure, a second adhesive layer disposed within the recess of the support structure, and a fastener having a first portion secured to the first adhesive layer and a second portion extending away from the first portion and into the second adhesive layer to secure the glass portion to the support structure.

A glass fastening system includes a glass portion, a support structure defining a recess, a first adhesive layer disposed on an exterior surface of the glass portion facing the recess in the support structure, a second adhesive layer disposed within the recess of the support structure, and a fastener having a first portion secured to the first adhesive layer and a second portion extending away from the first portion and into the second adhesive layer to secure the glass portion to the support structure.