NL1027504C2 - Packaging insulating material and method for manufacturing it. - Google Patents

Description

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Packaging insulating material and method for manufacturing it.

The present invention relates to a package of insulating material comprising a web of insulating film with a reflective layer and adjacent to it a double gas-tight plastic layer, wherein a large number of gas-filled chambers is limited between those gas-tight plastic layers.

Such a package is generally known in the prior art. Depending on the application, rollers are manufactured from the web. Such rollers can have a length between 10 and 300 meters. Such rollers are placed in a truck in rolled-up condition and driven to the place of collection. This can be a wholesaler or hardware store or a new construction site. The reflective layer is present for reflecting light and / or heat (infrared radiation).

Such webs of film material have a low weight, so that the volume is the limiting factor during transport. Therefore, the aim is to reduce the volume as much as possible in order to limit the transport costs as much as possible.

It is the object of the present invention to further optimize the handling and transportation of such insulation material.

This object is achieved with a package of insulating material described above in that said web is folded in a harmonica-like manner according to a zigzag pattern.

In contrast to the prior art, the foil material is folded in a zigzag shape with an accordion pattern. In contrast to the existing prejudices in the prior art, such a fold can be carried out with a relatively small radius without damage occurring at the location of the fold. That is, the insulating value does not diminish at the location of the fold and, moreover, no damage to the metallic reflective layer has been observed.

In this way the transport volume can be optimized considerably. Savings in the "dead" volume of 25-40% have been observed.

Moreover, the zigzag folding makes it possible to determine the length of a part to be removed from a larger length of material by counting the number of folds. A fold can then be easily cut with a knife and the relevant part removed. As a result, the remaining package consisting of zigzag folds is not affected. This is in contrast to working with rollers in which firstly too much or too little is unrolled and secondly the remaining part is put back in an unorganized manner.

It has been found that the insulating foil used here, consisting of a combination of air cushions (studs) and a reflective layer, has a considerable shape memory, so that the remaining material after separating, for example, a part of a stack, does not tend to immediately resume the shape of take a continuous job and the remaining folds appear to be maintained.

The length of the web can vary depending on the use. A length of at least 10 meters is mentioned as an example and more particularly a length of about 50 meters.

The advantageous effect of the invention is obtained in particular with a package assembly consisting of a number of packages described above and a pallet. Instead of the loose transport in trucks, it is proposed according to the invention to transport the packages of insulating material on a pallet. This makes it easier to fit into logistics systems that are based on pallet transport. This can also be better integrated into logistics at the drop-off points that are generally also designed for storing pallets. The folding length of the web, i.e. the web length between two folds, is thereby chosen such that the space on the pallet is optimally filled by placing a number of packages next to each other. The same applies to the width of the track. Preferably, each package or a group of packages is provided with one or more binding strips to hold all of this together, which is particularly true when transported on a pallet. Naturally, the aim is then to choose the height of the pallet including loading in such a way that the transport space of a truck is optimally filled.

In addition to "horizontal" transport on a pallet, it is also possible to place a package standing on a pallet. That is, the end face where the folds are visible is placed on the bearing surface of the pallet.

It is to be understood that the insulating foil described above may comprise both a single reflective metallic layer and a two-sided reflective metallic layer. This metallic layer may comprise a vapor-deposited layer as well as a thin (aluminum) layer. It is also possible to design the gas chambers in a single row or as a double row adjacent to each other, so that a double-walled film is formed.

The present invention also relates to a method for manufacturing an insulating foil or to produce an endless web of foil material with a reflective metallic layer and adjacent to it a double gas-tight plastic layer, wherein a large number of gas-filled chambers between those gas-tight plastic layers and cutting said web of film material at predetermined distances, wherein it is zigzag-shaped into a harmonica immediately after production of that web of film material.

As a result, immediately after production, use can be made of optimized handling and storage of the packaging thus obtained.

According to a further advantageous embodiment, a binding strip is then also applied.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. It shows:

FIG. 1 is a rear view of a truck filled with packages according to the prior art;

FIG. 2 schematically an insulating film at the time of folding; and

FIG. 3 schematically shows a number of packages on a pallet.

In Fig. 1, the usual method of transporting rolls of insulating film is also known as bubble film with reflective layer. Such a foil is wound into rolls starting from a web of material, and such rolls, which may have a length of, for example, 50 m, are stacked on top of each other in a truck. The weight of the foil is low. After all, this largely consists of air or another gas that provides insulation. The truck in question is indicated by 3, the loading space by 2 and the rollers by 1.

In order to meet the problem of the large empty spaces in the transport means such as a truck, it is proposed according to the present invention to fold the film.

A web of film material is indicated by 7 in Fig. 2 and is folded along fold 8. Fig. 2 also shows that the web consists of a reflective (aluminum) layer under which two foil layers 4 and 5 are arranged which define air chambers 10 between them.

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Although such a film is known per se in the prior art, such a film has never been folded in a zigzag form, as schematically shown in Figs. 2 and 3. The length between two folds is indicated by c. According to the invention, this length is between 30 and 100 cm and is more particularly approximately 50 cm.

Fig. 3 shows a packaging assembly consisting of a number of packages 6 and a pallet 12 placed underneath. The packages 6 are placed on the bearing surface 13 of the pallets. Each vein packing 16 consists of a web of material 7 that is folded in the manner shown in Fig. 2. To maintain the position of the web of material, one or more binding strips 11 are provided. These binding strips 11 can also be attached to and / or on the pallet.

The height of a package is indicated by h and the width by b. By appropriately determining the lengths b and c, a standard pallet can be optimally filled and the transport space of, for example, a truck, warehouse and the like can be fully utilized. As examples for the size of a pallet are mentioned 100 x 1.20; 0.80 x 1.20 and 1.20 x 1.20 m. Suitably, the width c of a fold of film material is preferably about 50 cm and the length c of a fold is, for example, about 120 cm, 125 cm or 150 cm. The height is such that when stacking a number of pallets on top of each other a total height Ht including the height of the relevant pallets of approximately 250 cm is achieved.

As indicated by the knife 15 and arrow 16, it is possible after (upon) removal of the binding strips to remove part of a web of foil material from a package. For example, if a web of film material has a length of 5 m and each fold has a length of ½ meter, a length of 10 m can be removed by counting the number of folds. This removal takes place particularly easily by performing the cutting operation at the location of a fold 8.

After the above, those skilled in the art will immediately come up with variants of what has been described here. These are considered to be within the scope of the appended claims.

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Claims (9)

A package (6) insulating material comprising a web (6) insulating film with a reflective layer (9) and adjacent a double gas-tight plastic layer, wherein a large number of gas-filled chambers (10) is bounded between said gas-tight plastic layers, characterized in that: wherein said web is folded in a harmonica-like manner according to a zigzag pattern. A package according to claim 1, wherein the length of said web is at least 10 m 10. 3. Packaging as claimed in any of the foregoing claims, wherein binding strips (11) are arranged around said packaging. A package assembly comprising a number of packages (6) according to one of the preceding claims and a pallet (12), wherein said packages are stacked on that pallet. 5. Packaging assembly as claimed in claim 4, wherein the dimensions of said packages and said pallets are matched to each other such that substantially the entire bearing surface (13) of said pallet is covered with packages. A packaging assembly according to any of claims 4 or 5, wherein said packaging is arranged upright on said pallet. 25 7. Method for manufacturing an insulating film or for producing an endless web of film material with a reflective metallic layer and adjacent a double gas-tight plastic layer, wherein a large number of gas-filled chambers is bounded between said gas-tight plastic layers, and cutting predetermined distances from that web of film material, characterized in that immediately after the production of that web of film material, it is folded zigzag into a harmonica. 1027504% A method according to claim 7, wherein after that folding the package thus obtained is provided with a binding strip. 9. Method as claimed in claim 7 or 8, wherein after folding the package thus obtained is placed on a pallet. 1027504