The invention relates to a packet of tissues.
The invention relates more particularly to a packet of stacked absorbent paper tissues.
Paper tissues are generally made from a sheet of absorbent paper which is folded and cut to a rectangular format, preferably a square format. The folded tissues are then juxtaposed or stacked then wrapped in a sheet of flexible material which may be a film of transparent plastic.
The packet of stacked tissues has a rectangular parallelepipedal shape, with a large rectangular face whose width is less than its height.
In general, an opening is made in a large face of the wrapper which is approximately parallel to the plane of the tissues, so as to uncover a region for grasping at least one tissue in order to extract it individually from the packet.
The opening may consist in a flap which can move about an axis which, when in the open position, allows the region for grasping to be uncovered.
Holding means, such as an adhesive strip, fixed to the mobile flap are needed to hold the flap in the closed position.
Such packets exhibit numerous drawbacks; they are bulky and indiscreet, as their dimensions and format are fairly large. They can thus deform and damage clothing, particularly pockets into which they are slipped.
Once the packet is open, the manipulation it undergoes gives rise to deformation such as folding which deforms the tissues. Thus, when these are taken out of the packet, they have folded or crumpled regions which detracts from their appearance.
When the packet undergoes deformation, particularly twisting roughly about an axis corresponding to its largest longitudinal dimension, the holding means are not always strong enough to seal the grasping region of the packet closed. The free edges of the moving flap often break contact with the free edges of the opening, dust thus being able to enter the packet and dirty the tissues.
The advantages that paper tissues offer per se, namely the fact that they are always clean and more hygienic than textile handkerchiefs because of their one-use nature, are then greatly diminished.
In addition, when the mobile flap is in the open position, the holding means which generally comprise an adhesive strip may, for example, stick to one of the tissues or to the user's fingers and thus impede the extraction of the tissues.
With a view to overcoming these drawbacks, the invention proposes a packet of stacked absorbent paper tissues of the type which comprises a sheet of flexible material, such as a plastic wrapping sheet which comprises opening means allowing a region to be uncovered for grasping at least one tissue so as to extract it individually from the wrapper, and of the type which is of parallelepipedal overall shape defined by a height, a width and a thickness, characterized in that the height and the width are equal so that the packet has square front and rear frontal faces.
According to other features of the invention:
each tissue is folded in such a way as to form a square, the number of absorbent paper thicknesses of which is a multiple of four;
each folded tissue has sixteen thicknesses of absorbent paper;
folding each tissue into sixteen thicknesses consists in folding four panels of approximately equal width, separated by longitudinal fold lines, the directions of folding of the panels with respect to the outer fold lines being mutually opposing, then in folding the panels in succession about a first fold line and a second fold line;
its height and its width are between 50 and 58 millimeters;
the opening means comprise a flap which can move between an open position uncovering the region for grasping at least one folded tissue and a closed position covering the region for grasping;
the surface of the region for grasping uncovered by the moving flap is between one third and half of the area of a face comprising the opening means;
the moving flap is articulated about an axis approximately parallel to one of the edges of the packet;
the moving flap comprises means for holding it in the closed position, such as an adhesive strip which can be unstuck and restuck several times onto a fixed part of the wrapper;
the moving flap is a part of the wrapping sheet delimited by a pre-cut or a cut in the wrapping sheet comprising two portions which are joined together and each of which extends over a separate face of the packet;
the moving flap is part of the wrapping sheet delimited by a precut or a cut in the wrapping sheet arranged in a corner of the packet and comprising three portions, each of which extends over a separate face of the packet, a first portion extends over a first face between two concurrent edges, and the second and third portions extend over a respective second and third face from each of the ends of the first portion;
the first portion is an arc of a circle, the centre of which corresponds approximately to the point of concurrency of the three edges which delimit the corner of the packet;
the first portion comprises at least one straight-line segment;
the first face is one of the frontal faces;
the first face is one of the faces adjacent to the frontal faces.
Other features and advantages of the invention will become apparent from reading the detailed description which follows, for the understanding of which reference will be made to the appended drawings among which:
To facilitate the understanding of the description and of the claims, the terms front, rear, right, left, top and bottom will be used, without any implied limitation, in accordance with the figures, particularly
The packet 20 of paper tissues is of rectangular parallelepipedal overall shape. It consists of a wrapping sheet 21 made of flexible material, such as a sheet of plastic, and comprises two frontal faces, front 22 and rear 24, and four side faces, left 26, right 28, upper 30 and lower 32.
The wrapping sheet 21 is made of a flexible material, generally a film of polyethylene of between 20 and 50 microns thick.
The packet 20 of tissues comprises, in this instance on its front frontal face 22, opening means 34 which consist in a flap 36 which is precut along dotted lines 38.
At the time of first use, pulling the lower part 40 of the flap 36 forwards and/or towards the top of the packet 20 allows it to be detached from the front frontal face 22. The flap 36 can then move between its closed position and an open position uncovering a region for grasping at least one paper tissue.
In order to hold the flap 36 in the closed position after its first use, holding means 42, such as an adhesive strip, are fixed to the lower part 40 of the triangular flap 36. The holding means 42 can be unstuck and restuck several times onto the front frontal face 22 of the wrapper 21.
The packet 20 of tissues is defined by a height H, a width L and a thickness E.
These two types of packet 20 of tissues have, in particular, the drawbacks mentioned above.
With a view to overcoming these drawbacks, the invention proposes, in accordance with
The dimensions of the height H3 and the width L3 of the packet 20 may, however, have a tolerance of plus or minus 4 millimeters for a standard deviation of the order of 2 mm.
This tolerance also applies on the dimension of the height with respect to the dimension of the width.
Thus, “equal height and width” is to be understood as meaning a height and width which may not be strictly equal and may vary to a certain extent with respect to one another.
As a preference, the width L3 of the packet 20 according to the invention is equal to the widths L1 and L2 of the packets 20 according to the state of the art, that is to say has a value of between 50 and 58 mm.
Thus, when the ratio between the height H3 and the width L3 is equal to 1, the height H3 is roughly equal to half the height H1, and is less than the height H2 of the packets 20 produced according to the state of the art.
The dimensions of the packet 20 according to the invention are reduced with respect to the packets 20 of tissues of known types.
The packet 20 according to the invention is discrete and is able to reduce the bulkiness, for example of pockets and handbags.
It also limits the risk of damaging garments, particularly pockets, into which it is slipped.
The parallelepipedal format of the packet 20, with square frontal faces 22 and 24, makes it possible to improve its rigidity. Thus, it is more rigid and retains its shape when stressed, particularly when in trouser pockets or in a handbag.
Tests have been performed on packets 20 of tissues of known types, particularly packets whose height H2 is roughly equal to 1.5 times its width L2, and packets 20 according to the invention.
A first test consists in evaluating the resistance of a packet 20 to crushing. To do this, a side face of the packet 20 is placed on a flat surface, then a deformation member presses on the opposite side face of the packet 20. The rate of displacement, for example 400 mm per minute, and the stroke of the member, for example 15 mm, are constant. Measurement means such as a dynamometer, determine the force measured on the packet 20. Thus, the greater the force applied to crush the packet 20, the more resistant the packet 20.
A second test consists in evaluating the bending strength of a packet 20.
Thus, for example, the rear frontal face 24 is placed on two linear supports located near the edges common to the rear frontal face 24 and the upper side face 30 and lower side face 32 respectively. Next, a deformation member presses on the front frontal face 22. The rate of displacement, for example 400 mm per minute, and the stroke of the member, for example 20 mm, are constant. The measurement means thus determine the force applied to the packet 20 needed to deform it through predetermined travel.
These tests were performed several times with packets 20 full or partially full of tissues.
In all instances, packets 20 according to the invention are more resistant to crushing and have better bending strengths than the packets 20 of known types.
For example, when the deformation member presses on the upper side face 30, a packet 20 filled with tissues according to the invention has a resistance 2.5 times higher than that of a packet 20 of known type.
When the packet 20 is partially filled, particularly when it contains three folded tissues, the ratio between the resistance of a packet 20 according to the invention and that of a packet 20 of known type may be as high as 16.
These tests show that the shape and dimensions of the packet of tissues 20 according to the invention greatly improve its resistance and strength. Its deformations during use are reduced.
The tissues are folded to then be placed inside the wrapper of flexible material or wrapped with the latter.
Such sheets are known and in widespread use in the state of the art.
The sheet 50 consists of at least one ply of flexible and absorbent material. When there are several plies, they may be joined together, for example by bonding or any other mechanical method of connection.
Longitudinal fold lines 54, 56 and 58, which delineate four strips or panels 60 of roughly equal width are depicted in dotted line in
The sheet 50 is then folded according to
The sheet 50 is then folded about a first transverse fold line 61 according to
In the remainder of the description, the sheet 50 folded into sixteen is termed the folded tissue and is denoted by the reference 64.
The dimensions C of the sides of the folded square tissues 64 are between 50 and 58 mm.
Advantageously, to simplify the manufacture of the folded tissue 64, a reel of flexible material pays out a web which is folded along the longitudinal fold lines 54, 56 and 58 (this folding preferably being performed in the direction of unrolling of the web). This web is then cut to form square sheets 50 which are then folded along the first and then the second transverse fold lines 61 and 62 respectively.
According to an alternative form, the sheet 50 is folded about the longitudinal line 56 then is folded in just one direction about longitudinal lines 54 and 58 which are then superimposed. The transverse folding may then consist in a folding operation similar to the one described above or in a folding operation of the M-fold type.
The folded tissue 64 may also be the result of two foldings of the sheet 50 of the M-fold type, one of them longitudinal and the other transversal.
Other combinations of folds which are not detailed here also make it possible to obtain folded square tissues 64.
Such folding operations make it possible to obtain tissues 64 which are symmetric particularly with respect to their diagonal, which is not the case with tissues of known types produced by a combination of folding into four, as described above, and folding into three, for example of the Z-fold type.
The packet 20 according to the invention has smaller dimensions than the packet 20 according to the state of the art, without decreasing the size of the tissues 64.
The folded tissues 64 are easier to extract from the packet 20 because their symmetric square shape allows for a uniform and balanced distribution of the forces of friction between the folded tissue 64 extracted and the inside of the wrapper 21.
In accordance with
Advantageously, for a pack as depicted in
According to an alternative form which has not been depicted, the flap 36 is made in one of the side faces 26 to 32 of the packet 20. The axis 70 may then be approximately perpendicular to the parallel planes containing the folded tissues 64.
According to another alternative form of the invention, depicted in
The precut 72 may comprise two portions which are joined together and each of which extend on a separate face of the packet 20.
In what follows, the precut 72 comprises three portions, each of which extends over a separate face of the wrapper 21.
A first, central or intermediate, portion 76 is made in a first face, in this instance the front frontal face 22. It consists, for example, of an arc of a circle, the centre of which approximately corresponds to the vertex, that is to say the point of concurrency of the three edges delimiting the corner 74 of the packet 20, and which extends between two concurrent edges 71 and 78 which correspond to the two edges of the front face 24. The dimensions of the arc of the circle are preferably similar to those of the end of a user's thumb.
The second and third, end, portions 80 and 82 each extend along a second and third face, in this instance along the upper side face 30 and the right-hand side face 28 respectively.
Each end portion 80, 82 is a straight-line segment parallel to the edge 84 which corresponds to the intersection of the faces 28 and 30, and extends over a short length of a few mm.
At the time of first use, according to
To remove a folded tissue 64 from the packet 20, the user has to continue the pressure he is exerting with his thumb so as to cause the mobile flap 36 to open, uncovering a region 86 for grasping, according to
Advantageously, the packet 20 may be opened with just one hand. For example, the packet 20 may be held between the thumb and middle finger and the index finger may uncover the region 86 for grasping.
The tissue 64 is extracted mainly along a diagonal of the front frontal face 22 of the packet 20 and is made easier because the friction forces are distributed across the two sides of the tissue 64 adjacent to the region 86 for grasping.
When the tissue 64 is removed from the wrapper 21, the region 86 for grasping is covered again by the moving flap 36.
The moving flap 36 may also automatically return to the closed position according to
The movement whereby the moving flap 36 returns to its closed position is brought about in particular by the elasticity of part of the wrapper 21 located in a region 88 lying between the two free ends of the second and third portions 80 and 82 respectively, which tends automatically to return the moving flap 36 to the closed position.
Such a packet 20 of folded tissues 64 makes it possible to dispense with the holding means 42, which reduces manufacturing costs.
In addition, the moving flap 36 allows the packet 20 to close again more hermetically than was the case in the state of the art. This is because the opening is narrower and the mobile flap 36 is held in the closed position by the elastic effect of the region 88. The folded tissues 64 are therefore better protected and do not get as dirty.
As the front frontal face 22 and rear frontal face 24 are square, the packet 20 is easier to manufacture because the precut 72 can be made in any one of the eight corners of one of the frontal faces 22 and 24.
The wrapping process is also simplified because it is not necessary to orientate the size of the folded tissues 64 with respect to the width L3 or height H3 of the packet 20.
For the same reasons, the packet 20 of tissues 64 is simpler to use. This is because whatever corner the mobile flap 36 is made in, rotating the packet 20 about one or more axes perpendicular to its faces allows the moving flap 36 to be brought into the most convenient position for the user. That is to say, for example, into the top right-hand corner for a right-handed person. There is no idea of height or width. Extracting a folded tissue 64 is therefore an act that the user will find easy and natural.
In addition, it is possible to open the packet 20 with just one hand, making it easier to use.
The first portion 76 may have a different shape, such as a straight-line segment shape, which may be perpendicular to a plane passing through the edge common to the second and third faces and through the bisector of the angle formed by the other two edges.
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00401294 | May 2000 | EP | regional |
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Number | Date | Country | |
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20010040107 A1 | Nov 2001 | US |