Ironing board cover with “pressing effect”

Abstract

The invention concerns an ironing board cover (2) to cover the top surface of an ironing board and to form a support for the clothing during ironing, characterised in that it comprises an upper cover part (3) in the form of a cover, in particular of a material on which a pattern can be printed, for example cotton, and at least one part (5) defining a so-called active envelope containing air in an airtight manner to form at least one layer of air, the envelope being placed between the upper cover part and the side of the cover that comes into contact with the upper surface of the board.

Claims

1. Ironing cover to cover the top surface of an ironing board and form a support for the clothing to be ironed during ironing, characterized in that it comprises an upper covering part and at least one part defining an active envelope in the form of a sheet of plastic packaging or wrapping material which contains encapsulated air cells which is placed between the upper covering part and the side of the ironing cover that comes into contact with the upper surface of the board.

2. The ironing cover according to claim 1, characterized in that a layer of aluminum is laid on at least one face of the active envelope.

3. The ironing cover according to claim 2, wherein both an upper and a lower surface of the active envelope contain an aluminum layer.

4. The ironing cover according to claim 1, characterized in that between the upper covering part of the cover and the active envelope, a lining is placed to protect the active envelope.

5. The ironing cover according to claim 4, wherein the lining is a foam lining.

6. The ironing cover according to claim 1, characterized in that the active envelope consists of a sheet of plastic packaging or wrapping material which contains encapsulated air cells comprising a film from one side of which project the encapsulated air cells, the plastic packaging or wrapping material which contains encapsulated air cells being folded back on itself so that the encapsulated air cells on one side come into contact with the encapsulated air cells on the other side.

7. The ironing cover according to claim 6, wherein the plastic packaging or wrapping material which contains encapsulated air cells is BUBBLEWRAP®.

8. The ironing cover according to claim 6, characterized in that the plastic packaging or wrapping material which contains encapsulated air cells is covered with a layer of aluminum on the side opposite to the encapsulated air cells.

9. The ironing cover according to claim 8, wherein the plastic packaging or wrapping material which contains encapsulated air cells is BUBBLEWRAP®.

10. The ironing cover according to claim 1, characterized in that each encapsulated air cell has a diameter of between 5 mm and 15 mm.

11. The ironing cover according to claim 1, characterized in that there are between 15,000 and 20,000 encapsulated air cells per square meter.

12. An ironing board comprising a top surface covered with a cover according to claim 1.

13. The ironing cover according to claim 1, wherein the upper covering part is made from a material permitting a pattern to be printed on it.

14. The ironing cover according to claim 13, wherein the material permitting a pattern to be printed on it is cotton.

15. The ironing cover according to claim 1, wherein the plastic packaging or wrapping material which contains encapsulated air cells is BUBBLEWRAP®.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For example, a preferred method of implementation of the invention is described with reference to drawings, in which:

(2) FIG. 1 shows a part of an ironing board with a cover according to the invention, the latter having been partly pulled back to enable the various constituent parts to be seen

(3) FIG. 2 shows part of an ironing board with a cover according to the invention;

(4) FIG. 3 is a perspective view of the active part of the cover in FIGS. 1 and 2, with both sides intended to be folded back at a distance from each other;

(5) FIG. 4 is a perspective view of the active part in FIG. 3, in the position in which it is when used, namely with both sides folded back over each other;

(6) FIG. 5 is a cross-sectional view of the active part in FIG. 4; and

(7) FIG. 6 shows the cover used in FIGS. 1 and 2, and in particular its constituent parts.

DETAILED DESCRIPTION OF THE INVENTION

(8) FIG. 1 shows a part of an ironing board covered with a cover 2 according to one method of implementation of the invention.

(9) The cover 2 has the classical shape of an ironing board cover which is turned back all round its edge so that it can, in an essentially flexible manner, be adapted to the edge of the board with the central part of the cover stretched over the upper surface of the board. For this reason, the surrounding edge of the cover has a lining 6 containing a flexible bead that stretches the cover over the table. Instead of the flexible bead, a tightening cord could be fitted to adjust the cover to the board or any other similar means to perform the same function.

(10) FIG. 2 shows the first part of the cover, namely the upper part 3, the only part that can be seen when the cover is fitted over the board. This part is in general made from fabric, in particular cotton, and is preferably of a material that can be printed on to produce patterns.

(11) The whole cover 2 consists of three superimposed parts that are held together over the surface of the table by the flexible bead fitted in the folded back part 6 of the first part 3 of the cover. Apart from part 3 of the cover, there is a sheet of foam 4 and a film 5 known as the “bubble film” whose upper and lower surfaces have been covered with a layer of aluminium. The two parts 4 and 5 have a shape that effectively matches the upper surface of the ironing board, while part 2 is larger, but is turned back around its edge to give an edge that is turned back around the two parts 4 and 5 to hold the parts together and against the board when in use.

(12) According to another method of implementation, the cover can be made in a single part, the cover part 3, the foam sheet 4 and the bubble film 5 the latter being cut beforehand, preferably at the same time, to a size slightly larger than the ironing board, the three parts then being assembled by means of a stitched binding all round the cover forming a sheath in which a tightening cord (or a flexible bead or similar) slides freely for fitting the cover to the shape and size of the board.

(13) The foam sheet 4 protects the aluminium layer of the bubble film. The plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® 5 is a classical plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® consisting of a certain number of domes 7 each defining a small bubble or airtight space in which air is trapped. The bubbles are arranged in rows and columns. Each bubble has a diameter of between 5 and 15 mm, and in particular 10 mm. The number of bubbles per square meter may, for example, be 17,200.

(14) The material of the bubble film may in particular may be LDPE (low density Polyethylene), HDPE (high density Polyethylene), LLDPE (low linear density Polyethylene), Resy (recycled materials) or a mixture of these materials, in particular a LDPE 70%/HDPE 10%/LLPE 10%/Resy 10% mixture.

(15) The thickness of the plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® may be between 1 and 10 mm, in particular between 2 and 5 mm, for example 3.2 mm.

(16) The bubbles are arranged in staggered rows, in particular of 2 layers with a pitch between 5 and 15 mm, in particular 10.5 mm.

(17) The thickness of each layer constituting the film may be between 2 and 10 micrometers, in particular 5 micrometers.

(18) The plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® has been aluminised by the deposit of layers 9, 10 of aluminium on the upper and lower surfaces respectively of the bubble film.

(19) As seen in FIG. 3, the plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® 5 consists of a basic film 15 from which project domes 7 forming the bubbles and the plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® 5 has been folded back on itself so that the bubbles on one of the folded sheets come into contact with the bubbles on the other folded sheet, thereby producing the active envelope having two upper and lower surfaces respectively consisting of the two sheets of basic folded film and a layer of air formed by the two superimposed networks of bubbles. The surface of the basic film on the side opposite to the bubbles is covered with a layer of aluminium, so that the two upper and lower surfaces of the active envelope (each consisting of part of the basic folded film) are covered with a layer of aluminium.

(20) The layer of aluminium may be a BOPP (bioriented Polypropylene) metallised, coextruded film, with a thickness of between 0.010 mm and 0.020 mm, in particular 0.015 mm and a surface density of between 100 and 120 gr/m.sup.2, in particular 110.4 gr/m.sup.2.

(21) The BOPP film may consist of a layer of aluminium (vacuum deposited), a supporting metal receiving layer, a central OPP (oriented Polypropylene) layer and a heat-sealed layer.

(22) This method of implementation by folding a plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® is particularly simple, but, without exceeding the scope of the invention, a plastic packaging or wrapping material which contains encapsulated air cells such as BUBBLEWRAP® could be formed with two upper and lower films together defining one or more airtight spaces in which air is trapped.