Disclosed is a packing system for a slide of an aircraft evacuation system, the packing system having: a rigid packboard having a first side end and a second side end that opposes the first side end; a first valise flap having a first outer end and a first inner end, the first outer end connected to the first side end of the rigid packboard; a second valise flap having a second outer end and a second inner end, the second outer end connected to the second side end of the rigid packboard; and lacing for tying together the first inner end of the first valise flap and the second inner end of the second valise flap, wherein the first valise flap and the second valise flap are formed of a heat shrink material.

A compressed hollow coreless roll of absorbent paper sheet produced by way of providing a roll of absorbent paper sheet by winding the sheet about a forming core member having a diameter in the range of 30 mm to 50 mm; removing the forming core member such that there is provided a hollow coreless roll of absorbent paper sheet with an axial cavity having a diameter in the range of 30 mm to 50 mm and compressing the hollow coreless roll such that, the axial cavity is substantially collapsed. The compressed hollow coreless rolls are readily re-formed into cylindrical shape. Space-saving packages of the rolls are overwrapped with tubular polymer film to provide a flexible reconfigurable package of a series of individually encased rolls. Volume reductions of about 10 to about 20%, about 14% to about 20%, 30%, 40% and more as compared with conventional products are realized.

A compressed hollow coreless roll of absorbent paper sheet produced by way of providing a roll of absorbent paper sheet by winding the sheet about a forming core member having a diameter in the range of 30 mm to 50 mm; removing the forming core member such that there is provided a hollow coreless roll of absorbent paper sheet with an axial cavity having a diameter in the range of 30 mm to 50 mm and compressing the hollow coreless roll such that, the axial cavity is substantially collapsed. The compressed hollow coreless rolls are readily re-formed into cylindrical shape. Space-saving packages of the rolls are overwrapped with tubular polymer film to provide a flexible reconfigurable package of a series of individually encased rolls. Volume reductions of about 10 to about 20%, about 14% to about 20%, 30%, 40% and more as compared with conventional products are realized.

A system and method for packaging pine straw and a packaged mass of pine straw made therefrom, the method including providing an electronically-controlled system configured for packaging pine straw, the system including system logic that controls conveying, fluffing, cleaning, compressing and packaging of the pine straw, and using the system to compress a mass of pine straw into a rectangular mass of pine straw and enclosing the rectangular mass of pine straw within a flexible plastic sheet thereby forming a substantially rectangular packaged mass of compressed pine straw.

A system and method for packaging pine straw and a packaged mass of pine straw made therefrom, the method including providing an electronically-controlled system configured for packaging pine straw, the system including system logic that controls conveying, fluffing, cleaning, compressing and packaging of the pine straw, and using the system to compress a mass of pine straw into a rectangular mass of pine straw and enclosing the rectangular mass of pine straw within a flexible plastic sheet thereby forming a substantially rectangular packaged mass of compressed pine straw.

There is illustrated and described a bundle (14) comprising packaging sleeves (10) and an outer packaging (15), comprising: a plurality of packaging sleeves (10) of a composite material, and an outer packaging (15) which surrounds the packaging sleeves (10), wherein each packaging sleeve (10) has a front side (12) and a rear side (13), wherein the front side (12) and the rear side (13) of each packaging sleeve (10) are separated from each other by means of folding edges (F), along which the packaging sleeve (10) is folded flat, wherein each packaging sleeve (10) has two openings which are arranged on opposite sides of the packaging sleeve (10), and wherein each packaging sleeve (10) has a longitudinal seam (11) which connects two edges of the composite material to form a circumferential packaging sleeve (10). In order to enable a space-saving, cost-effective and reliable transport of packaging sleeves (10), it is proposed that the outer packaging (15) be produced from a plastics material film (17).

There is illustrated and described a bundle (14) comprising packaging sleeves (10) and an outer packaging (15), comprising: a plurality of packaging sleeves (10) of a composite material, and an outer packaging (15) which surrounds the packaging sleeves (10), wherein each packaging sleeve (10) has a front side (12) and a rear side (13), wherein the front side (12) and the rear side (13) of each packaging sleeve (10) are separated from each other by means of folding edges (F), along which the packaging sleeve (10) is folded flat, wherein each packaging sleeve (10) has two openings which are arranged on opposite sides of the packaging sleeve (10), and wherein each packaging sleeve (10) has a longitudinal seam (11) which connects two edges of the composite material to form a circumferential packaging sleeve (10). In order to enable a space-saving, cost-effective and reliable transport of packaging sleeves (10), it is proposed that the outer packaging (15) be produced from a plastics material film (17).

A tissue paper package not prone to losing shape. Film-packaged tissue paper comprising a pop-up type substantially cuboid bundle of tissue paper packaged with a flexible resin packaging film, and characterized in that air vents for providing communication between the inside and the outside of the package are formed at positions on the packaging film facing short-side surfaces of the bundle of tissue paper where no folded edges are arranged.

A tissue paper package not prone to losing shape. Film-packaged tissue paper comprising a pop-up type substantially cuboid bundle of tissue paper packaged with a flexible resin packaging film, and characterized in that air vents for providing communication between the inside and the outside of the package are formed at positions on the packaging film facing short-side surfaces of the bundle of tissue paper where no folded edges are arranged.

A pack includes compressible insulation products that each have a longitudinal axis, a peripheral surface, and first and second ends. The pack includes a stack of at least two modules, where each module includes a row of insulation products positioned next to one another along a first direction. The modules of the stack are superimposed along a second direction perpendicular to the longitudinal axes of the insulation products and to the first direction. The pack also includes a cover that wraps the stack by covering five faces of the stack including the two end faces of the stack formed by the ends of the insulation products and at least the periphery of the sixth face of the stack.