Container for a stack of inter-folded tissue sheets

Description

TECHNICAL AREA:

[0001] The invention pertains to a stack of interfolded tissue-sheets packed in a container according to the preamble of claim 1.

BACKGROUND OF THE INVENTION:

[0002] Soft tissue sheets such as facial tissue sheets are commonly offered as a stack of tissue sheets packed in a dispensing box. The dispensing box has an opening through which the user pulls the tissue sheets. In order to facilitate the removal of the tissue sheets from the dispensing box, the tissue sheets are interfolded, which means that the tissue sheets are folded into one-another, so that they form a chain of tissue sheets being interconnected by folded portions. In this manner, when removing the top tissue sheet from the stack of tissue sheets and pulling the tissue sheet completely through the dispensing opening in the dispensing box, the pulled-out tissue sheet will automatically bring a portion of the next tissue sheet in the stack out through the opening thereby making it readily available for gripping and removing from the dispensing box. The praxis of interfolding tissue sheets in this manner is a convenient way of ascertaining that all of the tissue sheets can be easily removed from the container. There are many types of interfolding, e.g. Z-folding, but neither the type of interfolding, nor the type of tissue is important to the invention.

[0003] A dispenser of this type is known from US-A-6,053,357 (YOH), which discloses a box with a dispensing opening having a curvilinear or "S"-shape. The opening facilitates the dispensing of interfolded tissues from a box by fixing the top sheet in a position extending out through the opening, where it is readily accessible to a user. Furthermore, the document JP 09323771 A discloses a container according to the preamble of claim 1.

[0004] However, a problem arises when it is desired to dispense a flat tissue sheet from the stack of tissue sheets. After opening the dispensing box, which basically means exposing the opening in the box, the user must try and get a grip on the first tissue sheet in order to remove it. In ordinary boxes of this type, the uppermost tissue is usually wrinkled when it is presented to the user through the opening in the box. The reason for this is that the width of the tissue is broader than the opening in the box, in order to fix the tissue in a position ready to use. To dispense a flat tissue sheet it is therefore necessary to have a wider opening in the box. Although a wider opening in the box solves the problem with tissues being wrinkled as they are pulled out of the box, it creates a further problem with tissues falling back into the box where they are inaccessible for the user.

[0005] Hence, there exists a great need of improving the dispensing of flat tissue sheets from a stack of tissue sheets. The sheets should both be presented to a user, without falling back into the box, and be possible to withdraw without causing the sheet to wrinkle. Hence, the box requires a dispensing means that enables a tissue to be gripped and held securely in a presentation position, while allowing it to be pulled freely from the box by the user.

DISCLOSURE OF INVENTION

[0006] The present invention offers a simple and expedient means of solving the problem of dispensing a flat tissue sheet from a stack of interfolded tissue sheets which are packed in a container having a dispensing opening. In a preferred embodiment, the opening is wider than the width of said tissue sheets. The invention will, however, also be applicable for openings of equal or narrower width than the width of the tissue sheets.

[0007] In accordance with the invention the dispensing opening is provided with means for presenting a tissue blocked in a fixed position, with a flat configuration. This allows the user to pull the presented tissue out flat, whereby potential wrinkling is smoothened out by the presenting means. The presented tissue may be a single sheet, or may itself have additional folding.

[0008] The means for presenting the tissue is in the form of a number of elongated projections or fingers extending from opposite sides of the dispensing opening of the box. The dispensing opening is provided in at least the top wall of the box. In order to fix a tissue in position the fingers are overlapping by extending between each other in the plane of the top wall. When the box is to be opened the fingers are initially arranged in substantially the same plane, until the first tissue has been extracted through the dispensing opening. The fingers may be attached to the underside of the top wall of the box, on opposite sides of the opening. It is also possible to attach the means including said fingers on the upper side of the top wall of the box, or to integrate it into the top wall itself, e.g. by making the fingers part of the top wall. When the first tissue is being pulled out through the opening, the fingers will be pulled upwards by the tissue on either side thereof. The pulled-out tissue will automatically bring a portion of the next tissue out through the opening, where it will pass between the fingers. As the first tissue is removed, the subsequent tissue will be held in position and prevented from falling back into the box by the gripping action of the opposing fingers. The fingers must be sufficiently flexible to allow a tissue to be pulled out, while at the same time being sufficiently stiff to retain the tissue and prevent it from falling back. Accordingly, the thickness and stiffness of a plastic film, or other suitable material, used for the fingers must be selected to match the stiffness and material properties of the tissue.

[0009] It is possible to produce opposing sets of fingers from a continuous sheet of material by using an interlocking profile for the projections or fingers extending from opposite sides of the edge of an opening in said sheet This is achieved by allowing each projection to extend across said top wall, and in the plane thereof, into a recess adjoining at least one opposing projection. If the finger profile is substantially V- or U-shaped, a shaped zig-zag cut can be made along the longitudinal axis of a prospective opening in the continuous sheet. Fingers of this type can be arranged staggered, having fingers arranged side-by-side and overlapping by extending across the dispensing opening of the box, perpendicular to the longitudinal axis of the opening. Alternatively the fingers can be angled relative to the longitudinal axis of the opening. The shape of the projections or fingers will be described in more detail below.

[0010] In the following text the term "overlap", in the context of pairs of interacting projections, is used to denote that the tips of a pair of adjacent projections, which are not necessarily in contact, extend past each other, as seen in a plan view. This is the case when the fingers are in their initial positions, before the first tissue has been dispensed. Once a tissue has been withdrawn, the opposing fingers are placed on opposite sides of the subsequent tissue to present it to the user. The fingers are then bent or flexed away from the top wall, to assume a dispensing position in the form of a mainly curved shape. An opposing pair of fingers, or the tips thereof, on either side of a tissue will be in point or line contact with said tissue, thus creating sufficient friction to prevent the tissue from falling back into the box. The shape of the fingers is important in order to retain a gripping position. Particularly, the tips of a pair of opposing fingers should be relatively large or "fat" to provide said point or line contact with a tissue.

[0011] According to the invention, the container comprises all the technical features of claim 1.

[0012] According to a first embodiment, at least one pair of opposing projections is provided with at least one outer section with a surface area that is larger than the surface area of a corresponding length of an inner section. Said first and second sections may or may not partially overlap. In one particular version of this embodiment, the area of the outer section extending past a central longitudinal axis of the opening is larger than the surface area of the inner section from said axis to a base of the projection.

[0013] According to a second embodiment, the widths can be measured at any point on the main axis of said projection. Also, said width of the respective inner and outer sections is the cross-sectional width in the perpendicular direction of either the main axis of said projection or the main, longitudinal axis of said opening.

[0014] According to a third embodiment, the radius of a projection at the point of contact with an opposing projection, in the dispensing position, is greater than half the width of the projection at its narrowest section.

[0015] According to a fourth embodiment, the opening in the top wall comprises a shaped slot provided with said projections. In addition, said slot can have at least one cut-out section for allowing access to said uppermost tissue-sheet. Said cut-out section may be removed during the manufacture of the box, or during opening of the box to allow access to the tissues.

[0016] According to a fifth embodiment, the main, longitudinal axis of the opening containing said slot extends across the top wall along or parallel to a longitudinal axis of the top wall. The opening may thus be positioned along the centreline of the box, or on either side thereof.

[0017] According to a sixth embodiment, the main axis of the opening containing said slot extends across the top wall at an angle relative to the longitudinal axis of the top wall. The angle can be given any value on either side of said longitudinal axis up to and including an angle corresponding to the angle of a diagonal line between opposing corners of the top wall.

[0018] According to a seventh embodiment, the main axis of the opening containing said slot extends across the top wall in a generally S-shaped curve extending in the general direction of a line connecting the ends of the opening

[0019] The shape of the edges of the opening can follow the shape or curvature of the main axis of the opening, but can also follow a curved or broken line in the general direction of said axis. In general, the width of the opening is greater or greatest near the middle of the top wall, while its narrowest section is at or near the end sections of the top wall. The end sections of the opening may end in a straight line at the respective edges of the top wall. However they may also end with a rounded section, either near the edges of the top wall or extending a small distance down the respective end walls of the box.

[0020] According to a further embodiment, said slot is an insert attached to the top wall, which insert covers the opening. The insert may be made from a plastic material, such as polypropylene, in order to give both sufficient flexibility and stiffness. The flexibility and stiffness may also be varied by using plastic materials of different thickness.

[0021] The opening can be used to control the flexibility and stiffness of the fingers arranging the edge of the opening at a predetermined distance from said fingers. A wide opening positioned away from the base of the fingers will give high flexibility and low stiffness. On the other hand, an opening having an edge overlapping the recesses of opposing fingers will give low flexibility and high stiffness. In this way the fingers may be adapted for tissues of different materials and materials of different thickness.

[0022] According to a further embodiment, said slot is arranged in the top wall, which then makes up the opening. In this case the box itself is made from a plastic material, having projections or fingers cut or perforated in the top wall. The opening, which would normally control the movement of the fingers, can be embossed directly on the top wall. It is also possible to provide each individual finger with a specific embossing or pattern, in order to give each finger a predetermined flexibility. The shape of the slot containing the projections or fingers or the positioning and shape of the embossed opening can be the same as described in connections with the embodiments above.

[0023] In a further embodiment, any two consecutive pairs of opposing fingers should co-operate independently. Hence, a cut line between adjacent fingers of two pairs of opposing fingers should only have one inflection point. In the vicinity of the inflection point, the cut line should be straight or have a comparatively large curvature. In this way it is ensured that each pair of opposing fingers can move and flex together without interference from adjacent pairs of fingers.

BRIEF DESCRIPTION OF DRAWINGS

[0024] Particular embodiments of the invention are described below, with reference to the drawings, wherein;

Figure 1A

shows a plan view of a top wall and two folded out end walls of a box, which box is provided with a dispensing opening having a first alternative shape;

Figure 1B

shows a plan view of a box as in Fig. 1, provided with an opening having a second alternative shape;

Figure 1C

shows a plan view of a box as in Fig. 1, provided with an opening having a third alternative shape;

Figure 1D

shows a plan view of a box as in Fig. 1, provided with an opening having a fourth alternative shape;

Figure 1E

shows a plan view of a box as in Fig. 1, provided with an opening having a fifth alternative shape;

Figure 1F

shows a plan view of a box as in Fig. 1, provided with an opening having a sixth alternative shape;

Figure 2A

shows a plan view of a top wall with an opening as shown in Fig. 1D provided with fingers according to a first embodiment;

Figure 2B

shows an enlarged view of a pair of fingers in point contact;

Figure 2C

shows an enlarged view of a pair of fingers in line contact;

Figure 2D

shows an cross-section of a finger as disclosed in Figure 2C;

Figure 2E

shows a side view of a box, wherein one finger is in point contact and one finger is in line contact;

Figure 3

shows a plan view of a top wall with an opening as shown in Fig. 1E provided with fingers according to a first embodiment;

Figure 4

shows a plan view of a top wall with an opening as shown in Fig. 1F provided with fingers according to a first embodiment;

Figure 5

shows a plan view of a top wall with an opening as shown in Fig. 1E, having a narrower width;

Figure 6

shows a plan view of a top wall with an opening as shown in Fig. 1E provided with fingers according to an alternative first embodiment;

Figure 7

shows a plan view of a top wall with an opening as shown in Fig. 1A provided with fingers according to a further alternative first embodiment;

Figure 8

shows a plan view of a top wall with an opening as shown in Fig. 1C provided with fingers according to a further alternative first embodiment

Figure 9

shows a plan view of a top wall with an opening as shown in Fig. 1B provided with fingers according to a second embodiment;

Figure 10

shows a plan view of a top wall with an opening as shown in Fig. 1A provided with fingers according to a third embodiment;

Figure 11

shows a plan view of a top wall with an opening as shown in Fig. 1A provided with fingers according to an alternative third embodiment.

[0025] The above figures show schematic representations of various parts of a limited number of possible embodiments of a box according to the invention.

MODES FOR CARRYING OUT THE INVENTION

[0026] Figures 1A-F show a plan view of a top wall 1 of a box including a pair of folded out end walls 2, 3. The box also includes two side walls, which together with the end walls connect the top wall with a bottom wall (not shown). The box encloses a stack of interfolded tissues to be dispensed through an opening. The following examples describe the opening arranged in the top wall, but it can of course be arranged in any of the said walls. Obviously, the stack of folded tissues would need to be adapted accordingly.

[0027] The figures illustrate a number of different configurations for a dispensing opening 4 in the top wall 1. In Figure 1A the edges 5, 6 of the opening are arranged symmetrically on either side of a central longitudinal axis A_X of the box, thus coinciding with the main axis of the opening 4. The opening 4 has its minimum width W₁ in the top wall at a folding line 7, 8 between the top wall 1 and each respective end wall 2, 3. The maximum width W₂ of the opening 4 is placed at a central transverse axis A_Y of the box. In this first alternative shape, each edge 5, 6 is made up of straight lines 9, 10, 11,12 from a point 13, 14, 15, 16 where the edge intersects said folding line 7, 8 to a point 17, 18 where the edge 5, 6 intersects the transverse axis A_Y and the opening 4 reaches its maximum width W₂. In this particular embodiment, the opening 4 extends past the folding line 7, 8 a short distance X into the respective end wall 2, 3. The opening 4 is terminated by a rounded edge 19, 20, having a substantially semicircular shape. The invention is, however not limited to this shape.

[0028] The embodiment of Figure 1A shows an opening wherein the straight lines continue a short distance into the end walls before being terminated. It is, however, also possible to place the rounded edge on or immediately after the folding edge, or to terminate the opening along the folding line (see Fig. 1B). If a stack of tissues (not shown) does not take up the entire space between the end walls, it is also possible to terminate the opening before it reaches the folding lines.

[0029] Figure 1B shows an opening 4 having a second alternative shape. In this case, each of the edges 5, 6 are in the shape of a curve 21, 22 having a fixed radius R1 placed symmetrically on both sides of the longitudinal axis A_X. Hence, the curve 21 will intersect the points 13 and 14 on the folding line 7, as well as the point 17 on the transverse axis A_Y. This embodiment also shows an opening having its ends terminated along the folding lines 7, 8. However the opening 4 does not extend into the side walls 2, 3, but ends at the folding lines 7, 8.

[0030] Figure 1C shows an opening 4 having a third alternative shape. Here, the edges 5, 6 have a composite shape comprising straight lines and curves placed symmetrically on both sides of the longitudinal axis A_X. Starting from any one point 13, 14, 15, 16 on the folding line 7, 8, a first straight line 23, 24, 25, 26 making up the edge 5, 6 extends parallel to the axis A_X a predetermined distance L₁. At an intersection point P₁ the line will transform into a curve 27, 28 having a fixed radius R₂, which curve will intersect the point 17, 18 on the transverse axis A_Y. The edge 5, 6 can make either a smooth or a sharp transition at the intersection point P₁. This embodiment also shows an opening 4 having both its ends terminated along the folding lines 7, 8.

[0031] For all the above examples, it is also possible to displace the opening in the top wall in the direction of the transverse axis A_Y, parallel to the longitudinal axis A_X.

[0032] Figure 1D shows an opening 4 having a fourth alternative shape. In this example the main axis A_M of the opening 4 is placed at an angle α relative to the longitudinal axis A_X of the box. The main axis A_M has thereby been rotated around the point P_XY of intersection between the longitudinal and transverse axes A_X and A_Y. The points 34, 35, 36, 37 where the edges 5, 6 intersect the folding lines 7, 8 have been placed symmetrically on either side of a point P_M, where the main axis A_M intersects said folding line 7, 8. When starting from the point 34, 36 on the folding line 7, 8 furthest away from the longitudinal axis A_X, the edge 5, 6 is initially in the shape of a first curve 30, 31 that is concave in relation to the main axis A_M. The radius R₃ of this curve 30, 31 has its centre located outside the opening 4 and on the same side of the main axis A_M. The curve 30, 31 extends a predetermined distance L₂ to a point P₂, P₃, a short distance past the transverse axis A_Y. At the point P₂, P₃ the first, concave curve 30, 31 will transform into a second, convex curve 32, 33 having a fixed radius R₄. The radius R₄ of this curve 32, 33 has its centre located outside the opening 4 and on the opposite side of the main axis A_M as the curve. The second curve 32, 33 extends from the transition point P₂, P₃ to the point 35, 37 on the folding line 7 closest to the longitudinal axis A_X. The transition between the curves 30, 32 and 31, 33 respectively at the point P₂, P₃, can be either smooth or sharp. The second edge 6 of the opening is inversely symmetrical to the first edge 5 relative to the main axis A_M. Hence the centreline C_S of the opening will follow a substantially S-shaped curve. Depending on the choice of radii R₃, R₄ and the positioning of their centres in relation to the transverse axis A_Y, the position of the maximum width W₂ need not coincide with said axis A_Y. In the current example, the width W₂ is substantially constant in the space between the transition points P₂, P₃. As in the case of the embodiment shown in Figure 1A, the opening 4 extends past the folding line 7, 8 a short distance X into the respective end wall 2, 3. The opening 4 is terminated by a rounded edge 19, 20, having a substantially semicircular shape.

[0033] Figure 1E shows an opening 4 having a fifth alternative shape, which is substantially identical to the shape shown in Fig. 1D. The major difference is that the main axis A_M of the opening has been rotated anti-clockwise to coincide with the central axis A_X of the box. Hence, the points 34, 35, 36, 37 on the folding line are positioned symmetrically on either side of both the main axis A_M and the longitudinal axis A_X.

[0034] Figure 1 F shows an opening 4 having a sixth alternative shape. As shown in Figure 1D, the main axis A_M in this example has been rotated an angle α relative to the longitudinal axis A_X, around the point of intersection between the two main axes A_X and A_Y. The points 44, 45, 46, 47 where the edges 5, 6 intersect the folding lines 7, 8 have been placed symmetrically on either side of the point P_M, where the main axis A_M intersects said folding line 7, 8. When starting from the point 44, 46 on the folding line 7, 8 furthest away from the longitudinal axis A_X, the edge 5, 6 is initially in the shape of a straight line 40, 41 parallel with the longitudinal axis A_X. The line 40, 41 extends a predetermined distance L₄ to a point P₄, P₅, a short distance past the transverse axis A_Y. At the point P₄, P₅ the straight line 40, 41 will transform into a convex curve 42, 43 having a fixed radius R₅. The radius R₅ of this curve 42, 43 has its centre located outside the opening 4 and on the opposite side of the main axis A_M as the curve. This curve 42, 43 extends from the transition point P₄, P₅ to the point 45, 47 on the folding line 7 closest to the longitudinal axis A_X. The transition between the lines 40, 42 and the curves 41, 43 respectively at the point P₄, P₅, can be either smooth or sharp. The second edge 6 of the opening is inversely symmetrical to the first edge 5 relative to the main axis A_M. As can be seen from Figure 1F, the maximum width W₂ is substantially constant in the space between the transition points P₄, P₅. Also, as in the case of the embodiment shown in Figure 1A, the opening 4 extends past the folding line 7, 8 a short distance X into the respective end wall 2, 3. The opening 4 is terminated by a rounded edge 19, 20, having a substantially semicircular shape.

[0035] As for the embodiments shown in Figures 1A-C, it is also possible to displace the opening in the top wall in the direction of the transverse axis A_Y, parallel to the longitudinal axis A_X, for the above embodiments of Figures 1 D-F. The angle α of the main axis A_M can be given any value between 0° and the angle of a diagonal line between two opposing corners of the top wall. For practical reasons, however, the maximum angle is reached when one or both of the outer points 34, 36 or 44, 46, respectively, where the opening 4 intersects the folding line reaches the edge of the top wall. The general shape of the opening in the top wall need not be limited to the examples described above.

[0036] Figure 2A shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1D. Attached to the underside of said top wall 1, is a sheet of plastic film provided with a cut line defining a number of fingers and cut-out sections. The fingers 51, 52; 53, 54; 55, 56; 57, 58; 59, 60; 61, 62 are arranged in co-operating pairs. In order to avoid interference from any of the neighbouring pairs of fingers, the cut line between each pair of fingers has only one inflection point. As can be seen from Figure 2A, the fingers are wider in the region of their tips. The main axes A₁, A₂ are indicated for the fingers 55 and 56, which make up a pair. The minimum width W_Min, at right angles to the main axis of each finger 55, 56 occurs in an inner section. Similarly, the maximum width W_Max, at right angles to the main axis of each finger 55, 56 occurs in an outer section. The minimum width W_Min and the maximum width W_Max occur on opposite sides of the main axis A_M of the opening. An outer section with an increased width allows a larger radius R_T for the tip of each finger, which radius R_T is greater than half the minimum width W_Min. By enlarging the tip of each finger, a sufficient grip is ensured between two co-operating fingers when placed in the dispensing position.
In this embodiment, each finger extends from a base adjacent one edge of the opening, to a tip near, but not overlapping, an opposite edge of the opening. As described in connection with Figure 1D, the opening has its largest width near the central transverse axis A_Y and its smallest width near the end walls of the box. Hence the length of each consecutive finger decreases from the central transverse axis A_Y in the direction of the ends of the opening. The example comprises three pairs of fingers, placed inversely symmetrical on either side of said transverse axis A_Y. The main axes A₁-A₆ of all the fingers are placed at substantially the same angle β in relation to the main axis A_M of the opening. The main axis A_M of the opening 4 is placed at an angle α relative to the central longitudinal axis A_X of the top wall. Hence, the main axes A₁, A₂ of the fingers are at an angle β-α relative to said longitudinal axis A_X. As described in relation to Figure 1D, the centreline C_S of the opening 4 follows an S-shaped curve. Also, both a main axis A_F and a centreline C_F (not shown) of the cut line for the slot making up the fingers will have a substantially identical main axis and centreline as the opening 4.

[0037] The length, width and angle of each finger is chosen with respect to the type and width of tissue to be dispensed, the material and thickness of the fingers and other relevant factors. The width of the opening may be used to influence the behaviour of the fingers in the dispensing position, as described above.

[0038] A central cut-out portion 63 is arranged between two inner pairs of fingers 55, 56; 57, 58 placed on either side of the transverse axis A_Y of the top wall 1. Both the innermost fingers 56, 57, adjacent the central cut-out, are arranged in substantially opposite directions, with their parallel axes A₁ diverging from the point of intersection of said longitudinal and transverse axes A_X, A_Y. Two further, outer cut-out portions 64, 65 are arranged at either end of the opening 4. Each outer cut-out 64, 65 is placed between and extending into, the end wall 2, 3 of the box and an outer pair of fingers 51, 52; 61, 62. The central cut-out must be sufficiently wide to allow a user to properly grip and pull a tissue up through the opening. At the same time, the width W₃ must not be too large, as this can cause a tissue held by the fingers to sag in its middle section. The outer cut-outs 64, 65 allow the edges of the tissues to pass through the opening without catching or snagging any part of the opening or the fingers. However, the width W₄ of the outer cut-outs 64, 65 must not be too large, as this can cause the corners of a tissue held by the fingers to fold. The above widths W₃ and W₄ are both measured along the main axis A_M of the opening. The sizes of said widths are mainly decided by the properties, such as stiffness and thickness, of the tissue to be dispensed.

[0039] When the uppermost tissue is pulled through the central cut-out 63, the fingers will be lifted from a first, initial position, in which all fingers are in the same plane as shown in Figure 2A, to a second, active dispensing position, in which they are bent upwards on either side of the tissue. Depending on the selected properties of the fingers, the pairs of opposing fingers will grip and hold the tissue in point or line contact therewith.

[0040] Fingers with a relatively high stiffness, narrow width and/or short length, will tend to be in point contact with the tissue. Figure 2B shows an outer pair of fingers 51, 52 in the dispensing position on either side of a tissue T. Each finger contacts the tissue at a point of contact P_C, which point preferably but not necessarily coincides with the main axes A₅, A₆ of the respective finger. Figure 2C shows an inner pair of fingers 55, 56 in the dispensing position. Being longer and wider, said inner pair of fingers may curve slightly around an axis parallel to the main axes A₁, A₂ of each finger. This is illustrated by the cross-section C-C, shown in Figure 2D. Due to this curvature, the fingers will be in line contact with the tissue T along a short segment L_C of the edge of each tip. Said segments will preferably but not necessarily overlap, so that the main axes A₅, A₆ at the tip of the respective finger 55, 56 coincides.

[0041] Figures 2B-E are shown as an example only. Depending on the desired properties for finger to be used for a specific type of tissue, it is possible to design the fingers so that all are in either point or line contact, or to use a mixture of the two.

[0042] Figure 3 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1E. The difference between this embodiment and the embodiment of Figure 2A, is that the main axis A_M of the opening has been pivoted to coincide with the central longitudinal axis A_X of the top wall. As an effect of this the fingers 51, 52; 53, 54; 55, 56; 57, 58; 59, 60; 61, 62 are placed at an angle β relative to the central longitudinal axis A_X, giving the fingers a more upright position when gripping and holding a tissue.

[0043] Figure 4 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1F. One of the main differences between this embodiment and the embodiments of Figures 2 and 3, is that the fingers are placed at different angles relative to the main axis A_M of the opening 4. The main axis A_M of the opening is placed at a predetermined angle a relative to the longitudinal axis A_X of the top wall 1. However, the main axes A₁-A₆ of each consecutive finger 51, 52; 53, 54; 55, 56; 57, 58; 59, 60; 61, 62 on either side of the central transverse axis A_Y are placed at decreasing angles relative to the main axis A_M of the opening 4. Hence, the inner fingers 56, 57 on either side of the cut-out 63 have an angle β₁ relative to the main axis A_M. Each adjacent and opposing finger 55, 58 have an angle β₂, smaller than β₁. Similarly, the consecutive fingers 54, 59; 53, 60; 52, 61 and 51, 62 have the angles β₃, β₄, β₅ and β₆ respectively, and the relation between the angles is β₁ > β₂> β₃> β₄> β₅> β₆.

[0044] Figure 5 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1E and fingers as defined in Figures 2 and 3. This embodiment has an opening with a main axis A_M placed at an angle a in relation to the central longitudinal axis A_X of the top wall, similar to the embodiment of Figure 2A. The opening 4 also has a reduced width W₁, W₂ both at its ends and at at its centre near the central transverse axis A_Y.

[0045] However, the main axis A_F of the slot making up the fingers coincides with said longitudinal axis A_X. This causes the tips of the fingers 51, 52; 53, 54; 55, 56; 57, 58; 59, 60; 61, 62 to overlap the edges 5, 6 of the opening 4. By adjusting the transverse width W₁, W₂ of the opening it is possible to adapt the stiffness and/or flexibility of the fingers to different types of tissues.

[0046] This embodiment illustrates how a variation of the size and shape of the opening can be used for adapting the properties of the fingers. This is achieved without having to replace or modify the insert containing the cut line for the slot making up the fingers. The overlap will also help to keep the fingers in their initial positions before the first tissue is removed, especially if the top wall is not provided with some kind of protective material or cover.

[0047] Figure 6 shows a plan view of the underside of a top wall 1 provided with an opening 4 as defined in relation to Figure 1E. Attached to the underside is an insert 69, comprising a plastic film with a cut line making up the fingers. The fingers have been generally defined in relation to Figures 2 and 3. However, the embodiment of Figure 6 is only provided with two pairs of opposed, co-operating fingers 70, 71; 72, 73; 74, 75; 76, 77 on either side of the central transverse axis A_Y. An inner, first pair of fingers 72, 73; 74, 75 are placed on either side of a central cut-out 82. A second pair of fingers 70, 71; 76, 77 are placed adjacent and on either side of said first pair of fingers. An outer cut-out 83, 84 is positioned one on either side of said second pair of fingers. A further, third pair of fingers 78, 79; 80, 81 is placed between said outer cut-outs 83, 84 and the end of the opening 4 adjacent the end walls 2, 3. Said third pair of fingers 78, 79; 80, 81 have the same basic shape as the first and second pairs of fingers, which shapes have been described in connection with Figure 2A. However, the third pair of fingers are considerably shorter than any of the other fingers shown in this embodiment, as they do not extend across the entire width of the opening 4. The purpose of these outer fingers 78, 79; 80, 81 is to support the edges of a tissue held in the dispensing position. This embodiment is used for certain types of tissues where the edges are prone to sag or curl if not properly supported. Alternatively, it will also help to smoothen the edges of a tissue as it is pulled from the box.

[0048] Figure 7 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1A. The fingers have been generally defined in relation to Figures 2 and 3. However, the embodiment shown in Figure 7 is provided with fingers wherein the centreline C_F for the cut line of the slot is a straight line coinciding with both the main axis A_M of the opening 4 and the central longitudinal axis A_X of the top wall 1. The shape of the fingers 90, 91; 92, 93; 94, 95; 96, 97; 98, 99; 100, 101 has been defined in connection with Figure 2A. A central cut-out portion 102 is arranged between two inner pairs of fingers 94, 95; 96, 97 placed on either side of the central transverse axis A_Y Two further, outer cut-out portions 103, 104 are arranged at either end of the opening 4. The main axes A₁-A₆ of the fingers are all placed at substantially the same angle a in relation to the longitudinal axis A_X.

[0049] However, the fingers are arranged symmetrically around the central transverse axis A_Y only. As a consequence, the main axes of each of the corresponding fingers on either side of the transverse axis A_Y will intersect on that axis A_Y. Hence the innermost fingers 94, 96 will diverge from each other on either side of the transverse axis A_Y, but on the same side of the longitudinal axis A_X. This arrangement allows a larger central cut-out 102, which makes the upper tissue more accessible to the user when the first tissue is to be pulled out. In addition, the diverging innermost fingers 94, 96 will to a certain extent stretch and smoothen the central part of a tissue held in the presentation position.

[0050] Figure 8 shows an alternative embodiment of the arrangement in Figure 7, using a top wall with an opening as described in connection with Figure 1C. As stated above, adjusting the transverse width W₁, W₂ of the opening makes it possible to adapt the stiffness and/or flexibility of the fingers to different types of tissues.

[0051] Figure 9 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1B. In this second embodiment of the fingers, the shape has been modified in order to allow the tips to be enlarged further. The embodiment shown in Figure 9 is provided with fingers wherein the centreline C_F for the cut line of the slot is a straight line coinciding with both the main axis A_M of the opening 4 and the central longitudinal axis A_X of the top wall 1. The fingers 110, 111; 112, 113; 114, 115; 116, 117; 118, 119; 120, 121 have their main axes A1-A12 placed at substantially the same angle α relative to the longitudinal axis A_X. According to this embodiment, the minimum width W_Min, at right angles to the main axis of each finger occurs in an inner section. Similarly, the maximum width W_Max, at right angles to the main axis of each finger occurs in an outer section. The minimum width W_Min and the maximum width W_Max occur on opposite sides of the main axis A_M of the opening. In this embodiment the maximum width W_Max is in excess of twice the minimum width W_Min. The outer section having an increased width allows a larger radius R_T for the tip of each finger, which radius R_T is greater than the minimum width W_Min.

[0052] This has been achieved by curving the cut line outer section of each finger of a co-operating pair towards the inner section of a corresponding opposing finger. The cut line between each pair of fingers will only have one inflection point, in order to avoid interference between adjacent fingers. In their plane, initial position the fingers of each pair of fingers will be curved into one another in an interlocking position. The surface area of an outer section of a finger is made larger than the surface area of an inner section. In this case the inner and outer sections are arranged on either side of the centreline C_F for the cut line of the slot, coinciding with the central longitudinal axis A_X. Hence the area of the outer section is encompassed by the edge of an outer part of a finger, including the tip, delimited by the centreline of the opening. The area of the inner section is encompassed by a pair of edges on either side of an inner part of a finger, delimited by the centreline of the opening on one side and a line drawn at a tangent to, and extrapolated past the tips of all adjacent fingers on the respective sides of the opening. The latter line is the base of the finger.

[0053] The maximum and minimum widths of each finger can be varied to achieve a desired tip radius. However, the widths must be in proportion to the extended length and required stiffness of a finger. The length of a finger is dependent on the transverse width of the opening in the region of the finger. In order to maintain a certain stiffness and flexibility for a finger having a predetermined length, there will be a lower limit for the minimum width W_Min. This will determine an upper limit for the maximum width W_Max, which in turn decides the largest possible tip radius R_T.

[0054] As for several of the above embodiments, a central cut-out portion 123 is arranged between two inner pairs of fingers 114, 115; 116, 117 placed on either side of the transverse axis A_Y of the top wall 1. Both the innermost fingers 115, 116, adjacent the central cut-out, are arranged in substantially opposite directions, with their parallel axes A₁ diverging from the point P₀ of intersection of said longitudinal and transverse axes A_X, A_Y. Two further, outer cut-out portions 123, 124 are arranged at either end of the opening 4.

[0055] Each outer cut-out 123, 124 is placed between and extending into, the end wall 2, 3 of the box and an outer pair of fingers 110, 111; 120, 121.

[0056] Figure 10 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1A. This figure shows a third embodiment of the fingers, which have been given a shape that allows a relatively large tip radius without enlarging the surface area of an outer section of the finger. The opening 4 in this embodiment is provided with fingers having a centreline C_F for the cut line of the slot is a straight line coinciding with both the main axis A_M of the opening 4 and the central longitudinal axis A_X of the top wall 1. The fingers 130, 131; 132, 133; 134, 135; 136, 137; 138, 139; 140, 141 have their main axes A₁-A₆ placed at substantially the same angle a relative to the longitudinal axis A_X.

[0057] In order to increase the width of an outer section of the fingers, each of the tips of a pair of adjacent, opposing fingers have been angled towards each other. This has been achieved by curving or bending the cut line of the outer section of each tip of a co-operating pair of fingers towards the inner section, or base, of a corresponding opposing finger. Each such finger has a general J- or L-shape, depending on the curvature or the angle of the tip. By extending the curved or bent section of the tip in the longitudinal direction of the opening 4, it is possible to achieve a larger tip radius R_T. The cut line between each pair of fingers will only have one inflection point, in order to avoid interference between adjacent pairs of fingers. In their plane, initial position the tips of each pair of fingers will be curved or bent into a corresponding recess in the other in an interlocking position.

[0058] As the angled tip extends into the base or lower section of an adjacent finger, the width of the tip is limited by the required stiffness and flexibility of the adjacent finger at that point. In the example shown, the maximum width W_Max of the outer section, or tip, of a particular finger is substantially equal to the corresponding inner section at the base of said finger. The minimum width W_Min will instead occur near the inner corner of the J- or L-shaped finger, in the vicinity of the tip. Hence both the maximum and minimum widths occur on the same side of the central longitudinal axis A_X.

[0059] A central cut-out portion 143 is arranged between two inner pairs of fingers 134, 135; 136, 137 placed on either side of the transverse axis A_Y of the top wall 1. Both the innermost fingers 135, 136, adjacent the central cut-out, are arranged in substantially opposite directions, with their parallel axes A₁ diverging from the point P₀ of intersection of said longitudinal and transverse axes A_X, A_Y. Two further, outer cut-out portions 143, 144 are arranged at either end of the opening 4. Each outer cut-out 143, 144 is placed between and extending into, the end wall 2, 3 of the box and an outer pair of fingers 130, 131; 130, 131.

[0060] Although the example shows fingers having tips with a general J- or L-shape, alternative shapes, or combinations of shapes, are of course possible. One such alternative tip could for instance have a T-shape. A cut line for the slot making up the fingers could also contain a number of pairs of fingers, wherein each pair could have differently shaped fingers

[0061] Figure 11 shows a plan view of a top wall 1 provided with an opening 4 as defined in relation to Figure 1A. The embodiment shown in Figure 11 is provided with fingers wherein the centreline C_F for the cut line of the slot is a straight line coinciding with both the main axis A_M of the opening 4 and the central longitudinal axis A_X of the top wall 1. The shape of the fingers 150, 151; 152, 153; 154, 155; 156, 157; 158, 159; 160, 161 has been defined in connection with Figure 10. A central cut-out portion 162 is arranged between two inner pairs of fingers 154, 155; 156, 157 placed on either side of the central transverse axis A_Y Two further, outer cut-out portions 163, 164 are arranged at either end of the opening 4. The main axes A₁-A₆ of the fingers are all placed at substantially the same angle a in relation to the longitudinal axis A_X.

[0062] However, the fingers are arranged symmetrically around the central transverse axis A_Y only. As a consequence, the main axes of each of the corresponding fingers on either side of the transverse axis A_Y will intersect on that axis A_Y. Hence the innermost fingers 154, 156 will diverge from each other on either side of the transverse axis A_Y, but on the same side of the longitudinal axis A_X. This arrangement allows a larger central cut-out 162, which makes the upper tissue more accessible to the user when the first tissue is to be pulled out. In addition, the diverging innermost fingers 154, 156 will to a certain extent stretch and smoothen the central part of a tissue held in the presentation position.

[0063] According to a further embodiment of the invention, the top wall includes the opening and the fingers in one piece. In this case the cut line of the slot making up the fingers is arranged directly in the top wall. In this case the box itself, or at least the top wall, is made from a plastic material, having projections or fingers cut or perforated in the top wall. A line defining the opening, which would normally control the movement of the fingers, can be embossed directly on the top wall. It is also possible to provide each individual finger with a specific embossing or pattern, in order to give each finger a predetermined flexibility. The stiffness and flexibility of the fingers can also be controlled by the thickness of the material in the top wall. The shape of the slot containing the projections or fingers or the positioning and shape of the embossed opening varied in accordance with the above examples.

[0064] This embodiment, wherein a closed opening is cut directly in the top wall, can be used for all examples described above, with the exception of that of Figure 5, which discloses fingers that overlap the edge of the opening. In this particular case, the opening would need to comprise two separate sets of fingers cut in a top wall made up of two halves on opposite sides of a blank for a box. When folded into a box, the blank including the opposed halves of the top wall will be folded along folding lines substantially parallel to the final opening. The two halves of the top wall will eventually be folded around until they reach a position where the cut fingers face each other in a common plane. In this way the fingers can be made longer than what would be possible using a single cut line between opposing fingers. The amount of overlap can be controlled by adjusting the length of the fingers. Similarly, the embossed line defining the opening can be made at any desired position adjacent or overlapping the base of the fingers.

Claims

1. A container for a collection of interfolded or mechanically connected tissue-sheets, said container having a generally planar bottom wall and a top wall (1) and a pair of side walls and end walls (2, 3) connecting said bottom wall with said top wall (1) and an opening (4) provided in at least said top wall (1) for the removal of said tissue-sheets (T) from the container, said stack of interfolded tissue-sheets being placed in said container with at least a pair of edges of a lowermost tissue-sheet placed on said bottom wall and an uppermost tissue-sheet (T) placed near or in contact with the top wall and adjacent to the opening in the top wall, wherein the opening (4) is provided with projections (51, 52; 53, 54; 55, 56; 57, 58; 59, 60, 61, 62) extending from opposite sides of the opening (4), each projection in an initial position extending across the opening (4) in the plane of said top wall (1) and being positioned adjoining at least one opposing projection, and the projections being arranged in co-operating pairs, characterized in that the projections are elongated and wherein each projection has at least one inner section having a smaller width than an adjacent outer section.

2. A container according to claim 1, characterized in that each projection has its minimum and maximum widths (W_Min, W_Max)respectively in their respective inner and outer sections in a direction perpendicular to a main axis (A₁-A₆) of said projection.

3. A container according to claim 1, characterized in that each projection has its minimum and maximum widths (W_Min, W_Max) respectively in their respective inner and outer sections in a direction perpendicular to a central longitudinal axis (A_X) of said opening (4).

4. A container according to any of the claims 1-3, characterized in that a projection has a radius (R_T) at its tip that is greater than half the width (W_Min) of the projection at its narrowest section.

5. A container according to any of the claims 1-4, characterized in that the projections of at least one pair of opposing projections are provided with at least one outer section with a surface area that is larger than the surface area of an inner section, having a corresponding length along a main axis (A₁-A₆) of each respective projection.

6. A container according to claim 5, characterized in that the area of the outer section extending past a central longitudinal axis (A_X) of the opening (4) is larger than the surface area of the inner section from said axis to a base of the projection.

7. A container according to any of the claims 1-6, characterized in that the tips of each pair of co-operating projections are in line contact with a tissue (T), when moved from the initial position to a dispensing position.

8. A container according to any of the claims 1-6, characterized in that the tips of each pair of co-operating projections are in point contact with a tissue (T), when moved from the initial position to a dispensing position.

9. A container according to any of the claims 1-8, characterized in the main axis of the opening (A_M) containing said projections extends across the top wall parallel to a central longitudinal axis (A_X) of the top wall (1).

10. A container according to any of the claims 1-8, characterized in the main axis of the opening (A_M) containing said projections extends across the top wall at an angle (α) the central longitudinal axis (A_X) of the top wall (1).

11. A container according to claim 10, characterized in the angle (α) can be given any value on either side of said longitudinal axis up to and including an angle corresponding to the angle of a diagonal line between opposing corners of the top wall.

12. A container according to any of the claims 1-8, characterized in a centreline (C_S) of the opening (4) containing said projections extends across the top wall (1) in a generally S-shaped curve extending in the direction of the main axis (A_M) of the opening (4).

13. A container according to any one of the above claims, characterized in that the projections extend across the opening (4) to overlap an edge (5, 6) of the opposing side of the opening (4), so that the tips of the projections extend past said edges (5, 6).

14. A container according to any one of the above claims, characterized in that the opening (4) is provided with a shaped cut line that forms said opposing projections.

15. A container according to claim 14, characterized in said cut line is arranged in an insert or sheet (69) attached to the underside of the top wall (1), which contains the opening (4).

16. A container according to claim 14, characterized in that said cut line is cut directly in the top wall (1).

17. A container according to claim 16, characterized in that a pair of edges (5, 6) corresponding to the shape of the opening (4) are embossed in the top wall (1) on either side of the cut line.

18. A container according to any one of claims 14-17, characterized in that said cut line has at least one removable cut-out section giving access to said uppermost tissue-sheet (12).

19. A container according to claim 18, characterized in that a first cut-out is arranged at the centre of the opening (4), having a pair of projections arranged on either side thereof.

20. A container according to claim 18 or 19, characterized in that a pair of second cut-outs are arranged one at either end of the opening (4), between a pair of projections and an end wall (2, 3).

21. A container according to claim 18 or 19, characterized in that a pair of second cut-outs are arranged one near either end of the opening (4), having a pair of projections arranged on either side thereof.

Ansprüche

1. Behälter für eine Sammlung ineinandergefalteter oder mechanisch verbundener Tissueblätter, wobei der Behälter eine allgemein ebene untere Wand und eine obere Wand (1) und ein Paar von Seitenwänden und Endwänden (2, 3), welche die untere Wand mit der oberen Wand (1) verbinden, und eine Öffnung (4) besitzt, die zumindest in der oberen Wand (1) zum Entnehmen der Tissueblätter (T) von dem Behälter vorgesehen ist, wobei der Stapel der ineinandergefalteten Tissueblätter in dem Behälter derart platziert ist, dass zumindest ein Paar von Rändern eines untersten Tissueblatts an der unteren Wand platziert ist und ein oberstes Tissueblatt (T) nahe oder in Kontakt mit der oberen Wand und benachbart zu der Öffnung in der oberen Wand platziert ist, wobei die Öffnung (4) mit Vorsprüngen (51, 52; 53, 54; 55, 56; 57, 58; 59, 60, 61, 62) ausgestattet ist, die sich von gegenüberliegenden Seiten der Öffnung (4) erstrecken, wobei jeder Vorsprung sich in einer anfänglichen Position über die Öffnung(4) in der Ebene der oberen Wand (1) erstreckt und benachbart zu zumindest einem gegenüberliegenden Vorsprung positioniert ist, und wobei die Vorsprünge in zusammenwirkenden Paaren angeordnet sind, dadurch gekennzeichnet, dass die Vorsprünge länglich sind, und wobei jeder Vorsprung zumindest einen inneren Abschnitt besitzt, der eine geringere Breite besitzt als ein benachbarter äußerer Abschnitt.

2. Behälter nach Anspruch 1, dadurch gekennzeichnet, dass jeder Vorsprung seine minimale und maximale Breite (W_min,, W_Max) jeweils in seinem inneren bzw. äußeren Abschnitt in einer Richtung senkrecht zu einer Hauptachse (A₁-A₆) des Vorsprungs besitzt.

3. Behälter nach Anspruch 1, dadurch gekennzeichnet, dass jeder Vorsprung seine minimale und maximale Breite (W_min,, W_Max) jeweils in seinem inneren bzw. äußeren Abschnitt in einer Richtung senkrecht zu einer zentralen Längsachse (A_X) der Öffnung (4) besitzt.

4. Behälter nach einem der Ansprüche 1-3, dadurch gekennzeichnet, dass ein Vorsprung einen Radius (R_T) an seiner Spitze besitzt, der größer ist als die Hälfte der Breite (W_Min) des Vorsprungs an seinem schmalsten Abschnitt.

5. Behälter nach einem der Ansprüche 1-4, dadurch gekennzeichnet, dass die Vorsprünge zumindest eines Paares gegenüberliegender Vorsprünge mit zumindest einem äußeren Abschnitt ausgestattet sind, der eine Oberfläche besitzt, der größer ist als der Oberfläche des inneren Abschnitts, welcher eine entsprechende Länge entlang einer Hauptachse (A₁-A₆) des jeweiligen Vorsprungs besitzt.

6. Behälter nach Anspruch 5, dadurch gekennzeichnet, dass die Fläche der sich über eine zentrale Längsachse (A_x) der Öffnung (4) erstreckenden, äußeren Abschnitts größer ist als die Oberfläche des inneren Abschnitts von der Achse zu einer Basis des Vorsprungs.

7. Behälter nach einem der Ansprüche 1-6, dadurch gekennzeichnet, dass die Spitzen jedes Paares zusammenwirkender Vorsprünge in Linienkontakt mit einem Tissue (T) sind, wenn sie von einer anfänglichen Position in eine Spendeposition bewegt sind.

8. Behälter nach einem der Ansprüche 1-6, dadurch gekennzeichnet, dass die Spitzen jedes Paares zusammenwirkender Vorsprünge in Punktkontakt mit einem Tissue (T) sind, wenn sie von der anfänglichen Position in eine Spendeposition bewegt sind.

9. Behälter nach einem der Ansprüche 1-8, dadurch gekennzeichnet, dass die Hauptachse der Öffnung (A_M), welche die Vorsprünge enthält, sich über die obere Wand parallel zu einer zentralen Längsachse (A_X) der oberen Wand (1) erstreckt.

10. Behälter nach einem der Ansprüche 1-8, dadurch gekennzeichnet, dass die Hauptachse der Öffnung (A_M), welche die Vorsprünge enthält, sich über die obere Wand unter einem Winkel (α) zu der zentralen Längsache (A_X) der oberen Wand (1) erstreckt.

11. Behälter nach Anspruch 10, dadurch gekennzeichnet, dass der Winkel (α) jeglichen Wert auf beiden Seiten der Längsachse bis zu und einschließlich eines Winkels annehmen kann, der dem Winkel einer Diagonallinie zwischen gegenüberliegenden Ecken der oberen Wand entspricht.

12. Behälter nach einem der Ansprüche 1-8, dadurch gekennzeichnet, dass eine Mittellinie (C_S) der Öffnung (4), welche die Vorsprünge enthält, sich über die obere Wand (1) in einer allgemein S-förmigen Kurve erstreckt, die sich in der Richtung der Hauptachse (A_M) der Öffnung (4) erstreckt.

13. Behälter nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass sich die Vorsprünge über die Öffnung (4) erstrecken, um einen Rand (5, 6) der gegenüberliegenden Seite der Öffnung (4) zu überlappen, so dass die Spitzen der Vorsprünge sich hinter die Ränder (5, 6) erstrecken.

14. Behälter nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Öffnung (4) mit einer geformten Schnittlinie versehen ist, welche die gegenüberliegenden Vorsprünge bildet.

15. Behälter nach Anspruch 14, dadurch gekennzeichnet, dass die Schnittlinie in einem Insert oder Blatt (69) angeordnet ist, das auf der Unterseite der oberen Wand (1) angebracht ist, welche die Öffnung (4) enthält.

16. Behälter nach Anspruch 14, dadurch gekennzeichnet, dass die Schnittlinie direkt in die obere Wand (1) geschnitten ist.

17. Behälter nach Anspruch 16, dadurch gekennzeichnet, dass ein Paar von Rändern (5, 6) entsprechend der Form der Öffnung (4) in die obere Wand (1) auf beiden Seiten der Schnittlinie geprägt ist.

18. Behälter nach einem der Ansprüche 14-17, dadurch gekennzeichnet, dass die Schnittlinie zumindest einen entfernbaren Ausschnittabschnitt besitzt, der Zugang zu dem obersten Tissueblatt (12) verleiht.

19. Behälter nach Anspruch 18, dadurch gekennzeichnet, dass ein erster Ausschnitt in dem Mittelpunkt der Öffnung(4) angeordnet ist, der ein Paar von Vorsprüngen besitzt, die auf beiden Seiten davon angeordnet sind.

20. Behälter nach Anspruch 18 oder 19, dadurch gekennzeichnet, dass ein Paar zweiter Ausschnitte jeweils einzeln auf beiden Enden der Öffnung (4) angeordnet ist, und zwar zwischen einem Paar von Vorsprüngen und einer Endwand (2, 3).

21. Behälter nach Anspruch 18 oder 19, dadurch gekennzeichnet, dass ein Paar zweiter Ausschnitte jeweils einzeln nahe beider Enden der Öffnungen (4) angeordnet sind, die ein Paar von Vorsprüngen besitzen, die auf beiden Seiten davon angeordnet sind.

Revendications

1. Récipient pour un ensemble de feuilles en papier-mouchoir pliées entre elles ou mécaniquement reliées, ledit récipient comportant une paroi de fond globalement plane et une paroi supérieure (1) et une paire de parois latérales et des parois d'extrémité (2, 3) reliant ladite paroi de fond à ladite paroi supérieure (1) et une ouverture (4) prévue au moins dans ladite paroi supérieure (1) pour permettre le retrait desdites feuilles en papier-mouchoir (T) du récipient, ladite pile de feuilles en papier-mouchoir pliées entre elles étant placée dans ledit récipient avec au moins une paire de bords d'une feuille en papier-mouchoir la plus basse placés sur ladite paroi de fond et une feuille en papier-mouchoir la plus haute (T) placée près ou au contact de la paroi supérieure et adjacente à l'ouverture de la paroi supérieure, dans lequel l'ouverture (4) est munie de protubérances (51, 52 ; 53, 54 ; 55, 56 ; 57, 58 ; 59, 60, 61, 62) s'étendant depuis les côtés opposés de l'ouverture (4), chaque protubérance s'étendant, dans une position initiale, d'un bord à l'autre de l'ouverture (4) dans le plan de ladite paroi supérieure (1) et étant positionnée en jonction avec au moins une protubérance opposée, et les protubérances étant agencées par paires coopérantes, caractérisé en ce que les protubérances sont allongées et dans lequel chaque protubérance comporte au moins une section intérieure ayant une largeur plus petite qu'une section extérieure adjacente.

2. Récipient selon la revendication 1, caractérisé en ce que chaque protubérance a ses largeurs minimale et maximale (W_Min, W_Max) respectivement dans ses sections intérieure et extérieure respectives dans une direction perpendiculaire à un axe principal (A₁-A₆) de ladite protubérance.

3. Récipient selon la revendication 1, caractérisé en ce que chaque protubérance a ses largeurs minimale et maximale (W_Min, W_Max) respectivement dans ses sections intérieure et extérieure respectives dans une direction perpendiculaire à un axe central longitudinal (A_x) de ladite ouverture (4).

4. Récipient selon l'une quelconque des revendications 1 à 3, caractérisé en ce qu'une protubérance a un rayon (R_T) en son bout qui est supérieur à la moitié de la largeur (W_Min) de la protubérance au niveau de sa section la plus étroite.

5. Récipient selon l'une quelconque des revendications 1 à 4, caractérisé en ce que les protubérances d'au moins une paire de protubérances opposées sont munies d'au moins une section extérieure ayant une superficie supérieure à la superficie d'une section intérieure, ayant une longueur correspondante le long d'un axe principal (A₁-A₆) de chaque protubérance respective.

6. Récipient selon la revendication 5, caractérisé en ce que l'aire de la section extérieure s'étendant devant un axe central longitudinal (A_x) de l'ouverture (4) est supérieure à la superficie de la section intérieure dudit axe à une base de la protubérance.

7. Récipient selon l'une quelconque des revendications 1 à 6, caractérisé en ce que les bouts de chaque paire de protubérances coopérantes sont en contact linéaire avec une feuille de papier-mouchoir (T), lorsqu'elles passent de la position initiale à une position de distribution.

8. Récipient selon l'une quelconque des revendications 1 à 6, caractérisé en ce que les bouts de chaque paire de protubérances coopérantes sont en contact ponctuel avec une feuille de papier-mouchoir (T), lorsqu'elles passent de la position initiale à une position de distribution.

9. Récipient selon l'une quelconque des revendications 1 à 8, caractérisé en ce que l'axe principal de l'ouverture (A_M) contenant lesdites protubérances s'étend d'un bord à l'autre de la paroi supérieure parallèlement à un axe central longitudinal (A_x) de la paroi supérieure (1).

10. Récipient selon l'une quelconque des revendications 1 à 8, caractérisé en ce que l'axe principal de l'ouverture (A_M) contenant lesdites protubérances s'étend d'un bord à l'autre de la paroi supérieure en formant un angle (α) avec l'axe central longitudinal (A_x) de la paroi supérieure (1).

11. Récipient selon la revendication 10, caractérisé en ce que l'angle (α) peut prendre n'importe quelle valeur de chaque côté dudit axe longitudinal jusqu'à et y compris un angle correspondant à l'angle d'une diagonale entre des coins opposés de la paroi supérieure.

12. Récipient selon l'une quelconque des revendications 1 à 8, caractérisé en ce qu'une ligne centrale (C_S) de l'ouverture (4) contenant lesdites protubérances s'étend d'un bord à l'autre de la paroi supérieure (1) en une courbe de forme sensiblement en S s'étendant dans la direction de l'axe principal (A_M) de l'ouverture (4).

13. Récipient selon l'une quelconque des revendications précédentes, caractérisé en ce que les protubérances s'étendent d'un bord à l'autre de l'ouverture (4) pour recouvrir un bord (5, 6) du côté opposé de l'ouverture (4), de sorte que les bouts des protubérances s'étendent devant lesdits bords (5, 6).

14. Récipient selon l'une quelconque des revendications précédentes, caractérisé en ce que l'ouverture (4) est pourvue d'une ligne découpée qui forme lesdites protubérances opposées.

15. Récipient selon la revendication 14, caractérisé en ce que ladite ligne découpée est placée dans un insert ou une feuille (69) fixée à la face inférieure de la paroi supérieure (1), qui contient l'ouverture (4).

16. Récipient selon la revendication 14, caractérisé en ce que ladite ligne découpée est coupée directement dans la paroi supérieure (1).

17. Récipient selon la revendication 16, caractérisé en ce qu'une paire de bords (5, 6) correspondant à la forme de l'ouverture (4) sont gaufrés dans la paroi supérieure (1) de chaque côté de la ligne découpée.

18. Récipient selon l'une quelconque des revendications 14 à 17, caractérisé en ce que ladite ligne découpée comporte au moins une section découpée amovible donnant accès à ladite feuille en papier-mouchoir la plus haute (12).

19. Récipient selon la revendication 18, caractérisé en ce qu'une première entaille est pratiquée au centre de l'ouverture (4), comportant une paire de protubérances placées de chaque côté de celle-ci.

20. Récipient selon la revendication 18 ou 19, caractérisé en ce qu'une paire de deuxièmes entailles est pratiquée à chaque extrémité de l'ouverture (4), entre une paire de protubérances et une paroi d'extrémité (2, 3).

21. Récipient selon la revendication 18 ou 19, caractérisé en ce qu'une paire de deuxièmes entailles est pratiquée à proximité de chaque extrémité de l'ouverture (4), avec une paire de protubérances placée de chaque côté de celle-ci.

Drawing