The present invention is primarily of use in the area of support dressings. As a rule, such dressings are used for bone fractures and other avulsions. Bandages treated with plaster of Paris are used in both these cases. Applying such a support dressing is very messy and, furthermore, it takes some time for the dressing to set. Using a laminate, the previously mentioned disadvantages can be eliminated.
It has proved appropriate to use a laminate comprising a number of layers. The two it can be used to create any sort of body, which, when a vacuum is set up, can remain in the desired position.
As per the present invention, the laminate can thus be made up of two outside layers that are impervious to gaseous media and a number of intermediary layers, which have to be pervious to gaseous media. In this way, a large number of compartments can be created. When a vacuum is set up in these, a rigid laminate is formed.
Other characteristics of the present invention are contained in the patent claims below.
An example of the use of a laminate (as per the present invention) intended to serve as a support dressing is described in connection with an examination of the three attached drawings where;
FIG. 1 shows a four-sided laminate viewed from one side,
FIG. 2 shows the four-sided laminate viewed from the other side, and
FIG. 3 shows a cross section of the laminate shown in FIGS. 1 and 2.
Looking first at FIG. 3, it is plain and clear that the support dressing is built up of 3 layers (1-3). Layers 1 and 3 are of a material that does not allow gaseous media to pass through. The layer designated as 2 in this figure is, on the other hand, of a material that does allow gaseous media to pass through. Layers 1 and 2 are used to create a number of compartments (4-10 in FIG. 1). The edges of these compartments are joined to each other to create pockets for a filler. This can be a granulate, for example polypropylene or any other material with similar properties. The bottom of every such compartment formed by layer 2 is pervious to gaseous media. Provided that it allows gaseous media to pass through, layer 2 can be made of any suitable material whatsoever. Both outside layers may appropriately be made of polyurethane or of any other material that has the same properties. Instead of using a granulate, other fillers having the same properties as a granulate can be used. Thus, materials with fluid or semi-fluid consistancies can be considered. Making use of the intermediary layer (2) and the other outside layer (3), compartments are created by circumferential sealing effected by walding or bonding. Via the intermediary layer (2), these compartments are so arranged that each of them is connected to two compartments on the other side of said layer. Thus, in FIG. 3, compartment 8 is connected to compartments 15 and 16. The laminate, which has four sides (25-28 in FIG. 2, they have been given the identifying numbers 18-23.
The laminate shown in FIG. 1 can be used, for example, to wrap around an arm in which a bone has fractured. When wrapping has finished, the laminate can be fixed in place by bringing the Velcro strips into contact with each other. When this has been done, the valve (24) is used to set up a vacuum inside the laminate. This renders the laminate rigid. Easily, extremely quickly and without any mess, the laminate is now functioning exactly as a plaster of Paris dressing.
If it is made to an appropriate size, a rectangular laminate such as that illustrated in FIG. 1 can also be used as a stretcher. In this case, the laminate should have some form of handle in each of its four corners. A rectangular laminate can even be used as a wall element for covering undesired openings. Furthermore, a laminate as per the present invention can be given any shape whatsoever. By taking the laminate to its rigid condition, a rigid shape is then achieved.
It is clear that the laminate as per the present invention has a good number of uses that are not restricted to medical car alone, but extend to all situations needing a formable laminate capable of being brought to a rigid condition when the required form has been established.
The filling material in each compartment must be of such a nature that it becomes rigid when a vacuum is set up. A wide range of materials satisfying this requirement can be considered. As regards the two types of layer, namely, pervious to gaseous media and impervious to gaseous media, all types of materials having these properties can be used. The use of plastic foils, metal foils and rubber products is imaginable.