A method for manufacturing an acoustic panel by welding of at least two acoustic components made of thermoplastic material, a thermal gradient being applied on the acoustic components during the welding operation so as to apply a temperature higher than the glass transition or melting temperature of the material on the area to be welded and so as to apply a temperature lower than or equal to the geometric stabilization temperature of the material on the parts furthest from the area to be welded.

A welding process of an inflatable product is provided that includes using isolating members between first and second portions of weldable tensioning members to resist the first and second portions of the weldable tensioning structures being welded together during welding of the first portions to a first sheet of weldable material and welding of the second portions to a second sheet of weldable material.

The present invention relates to a lighting device, which comprises a structure of interconnected sleeves and a light emitting arrangement arranged inside the sleeves. The structure forms a polygon mesh and light sources on the light emitting arrangement can be positioned by the structure so that the problem of glare can be reduced. The present invention also provides a sound-absorbing, flexible and collapsible structure which can be used in e.g. large scale architectural panels, horticulture and phototherapy devices. The lighting device can be produced by connecting the sleeves with thermoplastic material or by sewing.

A tool for fabrication of a thermoplastic panel includes a sealed vessel, a membrane and a heater. The sealed vessel defines a volume. The sealed vessel includes first and second fluid ports. The membrane is disposed within the volume to define first and second chambers. The first chamber receives a skin and a core of the thermoplastic panel. The first chamber selectively applies a first fluidic pressure to the skin and the core in response to receiving a first fluid via the first fluid port. The membrane abuts a major surface of the thermoplastic panel. The second chamber selectively applies a second fluidic pressure to the membrane in response to receiving a second fluid via the second fluid port. The heater selectively directs heat toward the first chamber. A method for fabrication of the thermoplastic panel is provided. Various examples of thermoplastic panels are also provided.

A method of forming a thermoplastic cellular structure includes positioning a lower surface of a trough of a first corrugated thermoplastic sheet against an upper surface of a crest of a second corrugated thermoplastic sheet; positioning a support against a lower surface of the crest of the second corrugated thermoplastic sheet; and pressing a thermoplastic welding element against an upper surface of the trough of the first corrugated thermoplastic sheet so that at least a portion of the lower surface of the trough of the first corrugated thermoplastic sheet melts and bonds to at least a portion of the upper surface of the crest of the second corrugated thermoplastic sheet.

Methods, systems, and apparatuses of a fluid bubble valve device or element can comprise a plurality of films or webs aligned over the top of each other. For example, two separate webs or film layers of material can be made with two or more different layers of films combined to provide different necessary benefits in manufacturing or forming the valve and sealing to a pouch or package later. The two individual forming webs or film layers are fed into a machine together where channel seals and a bubble pocket are created to form a pathway for a controlled direction for a fluid product to later flow through when the completed pouch or package is used by the consumer. The pocket is formed on both of the two individual forming webs or film layers at the same time. A separate lidding web or layer of material is introduced and sealed over the underside of the bubble pocket to trap air or gas between the lidding layer and the combined individual forming webs or film layers.

Methods, systems, and apparatuses of a fluid bubble valve device or element can comprise a plurality of films or webs aligned over the top of each other. For example, two separate webs or film layers of material can be made with two or more different layers of films combined to provide different necessary benefits in manufacturing or forming the valve and sealing to a pouch or package later. The two individual forming webs or film layers are fed into a machine together where channel seals and a bubble pocket are created to form a pathway for a controlled direction for a fluid product to later flow through when the completed pouch or package is used by the consumer. The pocket is formed on both of the two individual forming webs or film layers at the same time. A separate lidding web or layer of material is introduced and sealed over the underside of the bubble pocket to trap air or gas between the lidding layer and the combined individual forming webs or film layers.

An apparatus for forming deformations in a nonwoven web is disclosed. The apparatus includes a pair of forming members that form a nip therebetween. The forming members include: a first forming member having a surface comprising a plurality of discrete, spaced apart male forming elements; and a second forming member having a surface comprising a plurality of recesses in the second forming member, wherein the recesses are aligned and configured to receive the male forming elements therein, wherein the recesses have a plan view periphery that is larger than, and may completely surround, the plan view periphery of the male elements. At least one of the forming members has a plurality of discrete surface texture elements thereon.

A welding process of an inflatable product is provided that includes using isolating members between first and second portions of weldable tensioning members to resist the first and second portions of the weldable tensioning structures being welded together during welding of the first portions to a first sheet of weldable material and welding of the second portions to a second sheet of weldable material.

The present invention relates to a lighting device (100), which comprises a structure of interconnected sleeves (110) and a light emitting arrangement (140) arranged inside the sleeves. The structure forms a polygon mesh and light sources (116) on the light emitting arrangement (140) can be positioned by the structure so that the problem of glare can be reduced. The present invention also provides a sound-absorbing, flexible and collapsible structure which can be used in e.g. large scale architectural panels, horticulture and phototherapy devices. The lighting device (100) can be produced by connecting the sleeves (110) with thermoplastic material or by sewing.