WO1999006289A1 - Method for making cross-braces for blocking bottles of different diameters from a single blank and corresponding blank - Google Patents

Abstract

The invention concerns a method for making a cut from a rectangular cardboard blank (2) for mounting a cross-brace designed to be placed inside a case of half-dozen or a dozen bottles all having the same diameter <u>D</u> which can vary between a minimum value <u>D</u>m and a maximum value <u>D</u>M comprising a rectangular or square base (4), creasing lines (5<u>a</u>-5<u>b</u>) raised perpendicular to the base (4) sides, corresponding foldable flaps (6<u>a</u>-6<u>d</u>) raised perpendicular to the base (4) and locked into one another in this position, each flap (6<u>a</u>-6<u>d</u>) extending, over a protected height <u>H</u> opposite each bottle, equal to the distance between the cleavage line (5<u>a</u>-5d) and the corresponding flap (6<u>a</u>-6<u>d</u>) edge. The invention is characterised in that it consists in using one and the same blank (2) whatever the diameter <u>D</u> of the bottles and in varying the position of each cleavage line (5<u>a</u>-5<u>d</u>) and hence the protected height <u>H</u> of each flat (6<u>a</u>-6<u>d</u>) depending on the diameter <u>D</u> of the bottles. The invention also concerns a blank for implementing the method.

Description

 METHOD OF MANUFACTURING SPACERS FOR THE SETTING OF

BOTTLES OF DIFFERENT DIAMETERS FROM A BLANK

UNIQUE AND CORRESPONDING FLAN

The present invention relates to a method of manufacturing a blank from a rectangular cardboard blank for mounting a crosspiece intended to be placed inside a case of six or twelve bottles.

For the shipment of bottles containing various liquids, cardboard boxes are generally used inside of which a crosspiece is placed to separate the bottles from each other, these bottles being held vertically in abutment on the bottom of the box. The spider which is produced from a cut out of a cardboard blank, constitutes a separating element aiming to avoid the noise caused by impacts between bottles during transport, and a deterioration of their labels resulting from a possible friction relative. For this purpose, the spider, once mounted, has a height, called "protected height", which is greater than the height of the upper edge of the label of the bottle relative to its bottom. A problem has arisen during the manufacture of the cutouts for the braces, because the body of the bottles shipped in the cardboard boxes may have different diameters; we know that 95% of the bottles used have a diameter close to 80 mm and in any case between 68 and 100 mm; in addition, there are small variations of the order of a millimeter between the Tradition, Normal or Light versions of the same traditional form (Burgundy or Bordeaux for example). However, the boxes that the cross delimits, must each have dimensions corresponding closely to the diameter of the bottles housed in the box. In other words, the horizontal section of each box delimited by the cross must have the shape of a square circumscribing the diameter of the bottle housed in the box. Therefore, to meet this requirement, up to Now, for each type of bottle with a different diameter, a rectangular cutout whose width and length dimensions corresponded to the type of bottle to be placed in the spider. Indeed, the cutout from which a crosspiece is mounted, always comprises a central square or rectangular part to the sides of which are attached, along creasing lines, foldable flaps which extend to the edges of the rectangular cutout . These flaps are folded by 90 ° on the machine used for the manufacture of the braces so as to extend perpendicularly between them and at the bottom of this brace and they are interlaced and hooked to each other, thanks to locking means such as tabs, slots, etc ... so as to define the six or twelve vertical boxes of the cross.

As indicated above, therefore, for the manufacture of the braces, cutouts of different dimensions corresponding respectively to the different diameters of the bottles to be conditioned. It is therefore clear that such a manufacturing method has several drawbacks because it requires, for the machine for manufacturing the cross-pieces, a change of adjustment of the positioning tabs each time a cut corresponding to a bottle diameter at another cut corresponding to another bottle diameter, and for the manufacturer or the user of braces, to permanently have stocks of each type of cut. The present invention aims to remedy these drawbacks by providing a process which allows, a. from a single blank of cardboard, to make cutouts suitable for braces to receive bottles of different diameters, and this by simple positioning adjustments of the punching or creasing tools on the manufacturing machine, at each change in diameter of the bottles, which one wishes to cash in by 6 or by 12. To this end, this method of manufacturing a blank from a rectangular cardboard blank for mounting a crosspiece intended to be placed inside a case of six or twelve bottles each having the same diameter which can vary between a minimum value and a maximum value, in which one delimits, in the central part of the cutout having at least one axis of symmetry, a rectangular or square bottom, by creasing lines constituting the sides from which come from the respective folding flaps which can be erected perpendicular to the bottom and locked with respect to each other in this position, to constitute the spider, each flap extending, in the upright position, over a protected height opposite each bottle, which is equal to the distance between the grooving line and the edge of the respective flap, is characterized in that one and the same cut is used regardless of the diameter of the bottles illes and we vary the position of each crease line and therefore the protected height of each flap depending on the diameter of the bottles.

The method according to the invention offers the advantage that, whatever the diameter of the bottles, the same width of cardboard is used, which considerably simplifies the storage of the raw material. According to another object of the invention, there is also proposed a particular blank optimizing as will be said in the following description, the material falls during machine cutting, and this, thanks to an advantageous combination of cuts and separations to obtain two braces to wedge twelve bottles in a single pass. In addition, manufacturing is simplified since only the settings of the creasing and punching tools are required when changing the diameter of the bottles; the amount of machine investment is naturally lower as well as its maintenance cost.

An embodiment of the present invention will be described below, by way of non-limiting example, with reference in the attached drawing in which:

- Figure 1 is a plan view of a cutout formed from a cardboard blank, intended for mounting a spider for casing twelve bottles, obtained by the implementation of the method according to the invention ,

FIG. 2 is a plan view of the spider mounted from the cutout shown in FIG. 1,

FIG. 3 is a view in vertical section taken along line III-III of FIG. 2, showing in the vertical approach position, the central separation plate,

FIG. 4 is a view in vertical section taken along the line IV-IV of FIG. 2, showing in the vertical approach position, the central separation plate,

- Figure 5 is a plan view of a rectangular cardboard blank, of standardized dimensions, from which two cuts similar to that shown in Figure 1 and also two central dividing plates can be obtained.

The process according to the invention is intended for the production, with a minimum loss of material, of blanks 1, an embodiment of which is shown in FIG. 1, from a cardboard blank intended to cross twelve bottles, rectangular , of standardized dimensions and in any case constant, represented in FIG. 5. In the description which follows, we will consider the manufacture of cutouts 1 intended to form braces, placed in cardboard boxes intended to contain six or twelve bottles. , for transportation. These bottles have a diameter D which can have several values varying for example from D _m = 68, 80 to D _M = 100 mm in the case of wine bottles. The cutout 1 used for mounting the crosspiece has a rectangular shape of length L and width 1. According to an important characteristic of the invention, the blank 2, implementing the method for producing crosspieces for wedging twelve bottles of diameter D formed from a cutout 1 and a separation plate 3, hereinafter called separation 3, arranged in the axis of symmetry yy 'of cutout 1 once mounted, is remarkable in that rectangular and of fixed dimensions whatever the diameter D chosen from the bottles, it is formed by two cutouts 1 juxtaposed by their width, and by a plate extending them in length to determine two identical partitions 3 arranged so that their embedding slots 31, 32 are head to tail, the one below the other in the direction of the width 1, the dimensions of the cutouts 1 and the partitions 3 being taken so that they correspond to each other and provide, without loss of material, two wedging braces for twelve bottles; for this purpose, this blank 2 will be chosen so that its width is equal to 1 and its length is equal to twice the length L of a cutout 1, plus an additional length Li corresponding to the width of a separation 3, coming, in accordance with FIGS. 2, 3 and 4, being housed in the plane of symmetry passing through yy ′ of FIG. 1 of the mounted spider, at least when it is a spider for twelve bottles. In the case of wine bottles, the length L of each cut is for example equal to 560 mm, the additional length LL is equal to a maximum of three times the diameter D _m of the smallest bottles envisaged (68 mm) increased by two thicknesses e perpendicular wedging flaps on which the partition 3 fits (2 x 2 = 4 mm), or at most 208 mm (beyond, the external bottles would no longer be wedged by the side walls of the box), and the width 1 of the blank 2 and of each cut 1 is 480 mm; it will be noted that the minimum value of L1 will be taken in such a way that there remains on either side of the central setting, a setting relating to at least half of the maximum diameter envisaged D _M of the bottles (that is to say say 100 mm); in this case the minimum value is 100 (central wedging) plus twice 50, increased by two thicknesses and wedging flaps (4 mm), ie a minimum total of L1 = 204 mm. This can easily be generalized by the formula giving the minimum and maximum values of the additional length L1 of the blank 2, namely:

3 D _m + 2 _e >Ll> 2 (D _M + e). Or, in the case of wine bottles with a minimum diameter of 68 and maximum diameter of 100: 204>Ll> 208.

It goes without saying that apart from certain special cases, the lowest value will be adopted, here 204 mm, for obvious reasons of economy. It is therefore seen in FIG. 5 that a blank 2 with a total length of 1324 mm makes it possible to produce, without loss of material, two cutouts 1A, 1B and two separations 3A and 3B usable in the braces for twelve bottles mounted from respective cuts 1A and 1B as will be specified below.

If we now refer to Figure 1, we see that each cutout 1 intended to cross twelve bottles, is symmetrical along two perpendicular axes xx 'and yy' and has, in its central part, a rectangular bottom 4, also symmetrical relative to the axes xx 'and yy' and the four sides of which are delimited by creasing lines 5a, 5b, 5c_ and 5d. These crease lines constitute separation lines between the central bottom 4 and the rest of the cutout 1 which is formed by four independent flaps, the result of the cutout, extending to the sides of the cutout, namely shutters 6a, 6b, 6ç and 6d. The shape of these flaps which results from cutting, is chosen so as to allow each of these flaps to be able to pivot relative to the associated creasing line, by which it is attached to the bottom 4, to come to be placed in a perpendicular position. at the bottom 4, in order to constitute the mounted cross member as shown in FIGS. 2 to 4.

The foldable flaps 6a-6d are naturally provided with locking means, well known in the art, which ensure the attachment of the various flaps together when these are perpendicular to the bottom 4 and perpendicular to each other. In the nonlimiting embodiment shown in the drawing, the cutout 1 is intended to constitute a cross for a case intended to contain twelve bottles. In this case, the spider is completed by a separation 3, which is for example one of the plates 3A and 3B obtained from the blank 2; this partition 3 is provided with vertical slots 31, 32, opening into its lower edge, so as to be able to thread it on the two parallel vertical flaps 6a, 6c which extend along the length of the cutout 1, that is ie parallel to the axis xx '. As a result, the mounted spider, provided with the partition 3, delimits, between the flaps 6a-6d and jointly with the partition 3, twelve boxes so as to be able to accommodate there twelve bottles which the box must contain, as can be seen on the figure 2.

Once the spider mounted, its bottom 4 which is applied to the bottom of the box not shown, is intended to receive two adjacent bottles having a diameter D. Therefore, the short sides 5b, 5d of the rectangular bottom 4 must have a length equal to diameter D and the long sides 5a, 5c of the bottom must have a length equal to twice the diameter D. The distance between each of the sides or crease lines 5a-5d and the edge of the corresponding folding flap 6a-6d , corresponds to the "protected height" H which is the height over which each flap extends when it is folded perpendicular to the bottom 4. This protected height H must be greater than the height of the upper edge of the label of each bottle , in order to best protect this label.

According to the invention, the cutout 1 always has the same external dimensions, that is to say the same length L and the same width 1, regardless of the diameter D of the bottles to be housed in the spider. To allow adaptation of the cutout 1 to the different diameter D of the bottles, it is therefore provided, according to the invention, to vary the position of the creasing lines 5a-5d and correspondingly the position of the tools cutting, depending on the diameter D of the bottles. In other words we make sure that we always have the relation 2D + 2H = L in the direction of the length and D + 2H = 1, in the direction of the width. More particularly, if it is assumed that the distance D shown in FIG. 1 corresponds to the smallest diameter of the bottles, that is to say D _Ξ = 68 mm and if it is desired to proceed to a manufacture of cutouts 1 suitable for bottles having the maximum diameter D „= 100 mm, that is to say an increase in the diameter D of 32 mm, it suffices to move each of the crease lines 5a-5d towards the outside by half of this increase in diameter, that is to say say 16 mm. This offset of the creasing lines towards the outside naturally results in a reduction of the same value of the protected height H which is thus reduced by 16 mm. This reduction is entirely acceptable insofar as the minimum protected height, resulting from the maximum diameter of the bottles, is always greater than the distance between the upper edge of the label of each bottle and the bottom thereof. Furthermore, it is also necessary to ensure that the end portions of each of the flaps 6a-6d which, if we consider the plan view of FIG. 2, extend outwards beyond the rectangular bottom 4, have a sufficient length at least equal to half of the largest diameter envisaged (D „100 mm) for each bottle. Finally, it will be necessary to position all the tools to offset all the cutouts forming and delimiting the flaps 6a-6d as well as the cutouts corresponding to the slots 31 and 32 of the partitions 3A and 3B so that between them, there is now the maximum value D _M of the diameter D of the bottles.

Of course, the blank 2 comprising here two cutouts 1A and 1B and two separations 3A and 3B will conventionally be provided with fasteners 7, in number and position that will easily be defined by a person skilled in the art, allowing the easy detachment of the cutouts 1A, 1B and 3 partitions at the time of use.

Although the foregoing description has focused on a cutout 1 provided for mounting a crosspiece intended to receive twelve bottles in a matrix arrangement of the 4 X 3 type, it goes without saying that the process according to the invention can also be applied to the manufacture of a cutout designed for mounting a crosspiece intended to receive only six bottles, this cut coming from the cut 1 shown in FIG. 1, by a separation in two of the latter, along the axis of symmetry yy '. In this case, the cutout provided for six bottles, constituted by each half of the cutout 1, has a single axis of symmetry, namely the axis xx 'and the bottom 4 has a square shape on the side D. The relationships between the dimensions D and H variable according to the diameter of the bottles are always D + H = constant = L / 2 in the width direction and D + 2H = constant = 1. in the direction of the length.

Finally and according to a last characteristic of the invention, the direction of the grooves 8 of the corrugated cardboard used for the blank 2 is parallel to the width 1 of said plane, also corresponding to the height of the partitions 3.

Claims

1 - Method of manufacturing a blank from a blank (2) of rectangular cardboard for mounting a crosspiece intended to be placed inside a case of six or twelve bottles each having the same diameters D being able to vary between a minimum value O _m , a maximum value D _M in which one delimits, in the central part of the cutout (1) having at least one axis of symmetry (xx '), a rectangular or square bottom (4) , by creasing lines (5a-5d) constituting the sides from which the respective folding flaps (6a-6d) originate which can be erected perpendicular to the bottom (4) and locked with respect to each other in this position, to constitute the spider, each flap (6a-6d) extending, in the upright position, over a so-called protected height H opposite each bottle, which is equal to the distance between the crease line (5a-5d) and the edge of the respective flap (6a-6d), characterized in that the blank ( 2) has a fixed length and width regardless of the diameter D of the bottles which are adapted by varying the position of each creasing line (5a-5d) parallel to itself with the consequence of varying the protected height H of each flap (6a-6d). 2 - Manufacturing method according to the preceding claim applied to a cutout (1) intended to form a cross for twelve bottles, having a first axis of symmetry (xx ') extending in the direction of its length L and a second axis of symmetry (yy ') extending in the direction of its width 1, characterized in that the protected height H and the diameter D of the bottles are linked by the relationships 2D + 2H = L in the direction of the length and D + 2H = 1 across the width. 3 - The manufacturing method according to claim 1 applied to a cutout intended to form a cross for six bottles, having a length 1 and a single axis of symmetry (xx ') extending in the direction of its width L / 2 characterized in what the protected height H and the diameter D of the bottles are linked by the relationships D + 2H = 1. in the length direction and D + H = L / 2 in the width direction. 4 - blank (2) implementing the method according to claim 2 for the production of braces for the setting of twelve bottles of diameter D formed from a cutout (1) and a separation (3) disposed in the 'axis of symmetry (yy') of the cutout (1) once mounted, characterized in that the blank (2), rectangular and of fixed dimensions, whatever the diameter D chosen of the bottles, is formed by two cutouts ( 1) juxtaposed by their width by means of attachment points (7) and a plate extending in length the two cutouts (1) to determine two identical partitions (3) arranged so that their embedding slots (31,32 ) are head to tail, one below the other in the width direction 1 of a cutout (1) to which they are attached by attachment points (7), the dimensions of the cutouts (1 ) and separations (3) being taken so that they correspond to each other and provide without loss of material era two wedging braces for twelve bottles. 5 - blank (2) of thickness e according to the preceding claim and implementing the method according to claim 2 for the production of braces for the setting of twelve bottles of diameter D which can vary from D ^ to D _m according to a protected height H characterized in that said rectangular blank (2) has a width equal to 1 = D + 2H and a length equal to 2L + Ll in which: L = 2 (D + H) and 3D _m + 2e> Ll > 2 (D _M + e) providing two cuts (1) and two dividers (3) without loss of material to obtain two cross-pieces in a single tool pass. 6 - Blank (2) in corrugated cardboard according to any one of claims 4 or 5 characterized in that the direction of its grooves (8) is parallel to the width 1 _. of said blank (2).