JP3669582B2 - Box material, method of using box material, and article - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a box material, a box material utilization method, and an article, and in particular, has a box material or a plurality of bent portions that are changed from a substantially flat state to a box state by being bent at a predetermined portion, and is bent at the plurality of bent portions. The present invention relates to a box material that becomes a box state by the above, a method of using the box material, and an article packed in the box material.
[0002]
[Prior art]
In general, a paper box is used as a box for packing, transporting, and storing cans and bottles. Such paper boxes are not generally intended for reuse. In the initial state, the box material can maintain a flat state according to its own characteristics. However, once the box is folded into a box shape at the hinge portion when packing an article, the flat state depends on its own characteristics. Can not be maintained. More specifically, the box material once put into a box state is left on a flat surface such as a floor or a table or the like because the hook remains or the strength of the hinge part becomes weak. The plane state cannot be maintained unless the force for maintaining the distance is continuously received from the outside.
[0003]
Neither a boxing device for packing an article using a box material nor a peripheral device thereof has a special function for reusing the collected box material. In other words, existing boxing equipment and its peripheral devices are currently designed on the assumption that the box material that is maintained in a flat state is supplied. Box materials that can no longer be used cannot be used.
[0004]
As described above, at present, the boxing device handles the box material once it has been put into a box (typically, the box material used to ship goods) and tries to reuse it. Not done.
[0005]
[Problems to be solved by the invention]
Under the current situation as described above, in order to be able to reuse the box material, it is necessary to newly develop a boxing apparatus capable of this and replace the existing boxing apparatus with such a new apparatus. Such a solution may be impractical because it requires enormous development costs and capital investment.
[0006]
However, the current situation as described above cannot be overlooked from the viewpoint of effective use of resources or reduction of waste.
[0007]
Therefore, it can be said that it is an important issue to enable reuse of the box material while using an existing boxing device or without adding a new function to the boxing device.
[0008]
The present invention has been made based on the above-described recognition of the current situation, and an object of the present invention is to provide a box material that can be reused even in an existing boxing device, for example.
[0009]
[Means for Solving the Problems]
A first aspect of the present invention relates to a box material that is changed from a substantially flat state to a box state by being bent at a predetermined portion, and when the box material is changed from a box state to a substantially flat state, a force of a predetermined value or more is applied. Unless it is added, it has a shape maintaining means for maintaining the box material in a substantially flat state. According to such a box material, the box material can be reused even in an apparatus in which processing such as boxing cannot be performed unless the box material itself maintains a substantially flat state.
[0010]
According to a preferred embodiment of the present invention, the shape maintaining means is provided at or near a portion that becomes a side when the box material is in a box state.
[0011]
According to a preferred embodiment of the present invention, it is preferable that the shape maintaining means is configured by cutting a box material. By forming the shape maintaining means by cutting, the manufacturing process of the box material can be simplified, and the manufacturing cost can be reduced.
[0012]
According to a preferred embodiment of the present invention, the incision includes a first portion in which the box material is cut in a direction inclined with respect to a plane perpendicular to the surface of the box material. By making the inclined cuts in this way, the resistance force (critical value) to the force in the bending direction can be increased. Such a resistance force can be adjusted by changing the inclination angle of the cut. For example, the first portion is arranged at a position slightly shifted from a line that becomes a side when the box material is in a box state. The notch further includes a second portion extending from one end of the first portion in the direction of the line serving as the side, and a third portion extending from the other end of the first portion in the direction of the line serving as the side. It is preferable to include. The shape of the cut formed by the first, second and third portions can be, for example, a convex shape or a trapezoidal shape.
[0013]
According to a preferred embodiment of the present invention, the box material is configured to accommodate a plurality of columnar articles in a box state, and the shape maintaining means is an adjacent cylinder. It is preferably provided between the shaped articles and in the vicinity of a portion that becomes a side when the box material is in a box state. According to such an arrangement, for example, the deformation of the box due to the load of the columnar article can be suppressed to be small and / or the space in the box can be used effectively.
[0014]
According to a preferred embodiment of the present invention, the box material is preferably formed by processing one plate-like member. According to this, since it is not necessary to prepare and assemble many parts, the manufacturing process can be simplified and the manufacturing cost can be reduced.
[0015]
According to a preferred embodiment of the present invention, the box material is shaped and dimensioned so that, for example, a plurality of cans can be boxed. Examples of cans include, for example, those filled with alcoholic beverages such as beer, sparkling liquor, whiskey and shochu, or soft drinks and water.
[0016]
The second aspect of the present invention relates to a box material that has a plurality of bent portions and is boxed by being bent at the plurality of bent portions, and at least one bent portion of the plurality of bent portions is: When the box material is not bent from the bent portion at the bent portion, the box material is maintained in a state where the bent portion is not bent at a predetermined angle or more unless a force of a predetermined value or more is applied. It is characterized by having a shape maintaining means. According to such a box material, if the box material or a part thereof (for example, one or more bent portions and its periphery) does not maintain a predetermined shape, the box material cannot be processed. A box material can also be used in the apparatus.
[0017]
A third aspect of the present invention relates to a box material that has a plurality of bent portions and is boxed by being bent at the plurality of bent portions, and at least one bent portion of the plurality of hinge portions includes: When the box material is not bent from the bent state at the bent portion, the box material is maintained at the bent portion at a first angle or more unless a force exceeding a predetermined value is applied. The shape maintaining means includes the shape maintaining means, even when a force smaller than the predetermined value is applied in a state where the box material is bent at least at the first angle at the bent portion. The box material is allowed to bend up to a second angle larger than the first angle at the bent portion. According to such a box material, if the box material or a part thereof (for example, one or more bent portions and its periphery) does not maintain a predetermined shape, the box material cannot be processed. A box material can also be used in the apparatus.
[0018]
Here, according to a preferred embodiment of the present invention, the first angle is preferably an angle within a range of 0 to 15 degrees, and the second angle is preferably about 90 degrees. .
[0019]
According to a fourth aspect of the present invention, there is provided a box material having a plurality of bent portions and being boxed by being bent at the plurality of bent portions, wherein at least one bent portion of the plurality of bent portions is: When the box material is not bent from the bent state at the bent portion, the box material is maintained at the bent portion at a first angle or more unless a force exceeding a predetermined value is applied. In the state where the box material is bent to the first angle at the bent portion, the shape maintaining means substantially maintains the state unless force is applied, and the shape maintaining means When added, the box material is allowed to bend up to a second angle larger than the first angle at the bent portion. According to such a box material, if the box material or a part thereof (for example, one or more bent portions and its periphery) does not maintain a predetermined shape, the box material cannot be processed. A box material can also be used in the apparatus.
[0020]
Here, according to a preferred embodiment of the present invention, the first angle is preferably an angle within a range of 0 to 15 degrees, and the second angle is preferably about 90 degrees. .
[0021]
The box material of the present invention is a container such as a can, a bottle, a plastic bottle or a box containing a beverage containing alcohol (alcohol) or a beverage not containing alcohol, food, daily necessities (for example, detergent), etc. It can be applied to boxing any article that is preferably packed and transported in a predetermined quantity. Here, the article packed in the box material of the present invention may be a product packed in a container such as a container, box, or bag, and if possible, not packed in such a container. It may be a thing.
[0022]
According to a fifth aspect of the present invention, there is provided a method for using the box material, a boxing process for packing an article with the box material by a boxing device, a shipping process for shipping the boxed article, and collecting the box material. The recovered box material is used in a new boxing process. Here, the boxing device is, for example, a device that receives a box material in a substantially flat state and boxes the articles with the box material.
[0023]
The sixth aspect of the present invention relates to an article boxed with the above box material. Examples of the articles include cans filled with alcoholic beverages such as beer, sparkling liquor, whiskey and shochu, or beverages such as soft drinks and water.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of the present invention will be described below with reference to the accompanying drawings.
[0025]
In addition, although the example which applied this invention to the box material utilized for the boxing of a beer can is given below, this invention is applied to the box material used for the boxing of not only beer cans but all other articles. Yes. And it goes without saying that the box material of the present invention can be designed according to the shape, size, number, weight, handling mode, number of reuses, specifications of the processing device such as the boxing device, etc.
[0026]
First, before describing the box material according to a preferred embodiment of the present invention, typical specifications of the boxing apparatus and problems in reuse of the box material under such specifications will be described.
[0027]
FIG. 1 is a diagram (development diagram) showing a box material that has been unfolded into a flat state. In a typical boxing device (caser) and peripheral devices (for example, a box material supply device), among the entire box material 100, for example, the supported portion 101 with hatching is supported from below.
[0028]
FIG. 2 is a diagram schematically showing a support state of the box material in a typical boxing device (caser). If the box material 100 in the initial state, that is, the box material 100 that has never been bent, the box material 100 can maintain the flat state by itself, and is supported by the support device 201 provided in the boxing device. Even in the state, the planar state is maintained as shown in FIG. However, in the general box material 100, after the hinge part is once bent, the hook remains or the strength of the hinge part becomes weak. It cannot be maintained by itself (that is, in order to maintain a flat state, it is necessary to put it on a flat floor, a table or the like, or to continuously apply a force from the outside so as to be flat). Therefore, once the hinge part is bent, for example, the box material 100 in a box state is bent downward due to its own weight and the weight of the box material loaded thereon as shown in FIG. 2 (b). become. In a general boxing apparatus, the box material 100 having such a deflection cannot be used.
[0029]
Such a problem may occur not only in the boxing device but also in its peripheral devices (for example, a box material supply device or a sheet supply device). FIG. 3 is a diagram showing a support state of the box material in a box material supply device (sheet supply device) as a typical peripheral device. In this box material supply apparatus, as shown in FIG. 3, there is a state in which the box material 100 is supported diagonally. If the box material 100 in the initial state, that is, the box material 100 that has never been bent, the box material 100 can maintain the flat state by itself, and is supported by the support device 202 provided in the box material supply device. Even in this state, the plane state is maintained as shown in FIG. However, in the general box material 100, as described above, the box material 100 cannot maintain the flat state by itself. Therefore, the hinge 100 is once bent, for example, the box material 100 in the box state is As shown in FIG. 3 (b), it is bent downward due to its own weight and the weight of the box material loaded thereon. If the support device 202 is not configured to allow such a bend, or if the bend increases beyond a predetermined amount, the box material 100 will fall or the box material from the support device 202. 100 cannot be removed.
[0030]
The above description is a problem in the case where the box material 100 cannot maintain the flat state by itself. However, in a general boxing device (for example, a wrap round caser), the characteristics of the hinge portion at a specific location of the box material are also included. It becomes a problem. Hereinafter, the problem regarding the characteristic of the hinge part of such a specific location is demonstrated.
[0031]
First, a boxing process (packaging process) by a typical boxing apparatus will be described with reference to FIG. First, as shown in S401, a bundle of box members 100 is supported obliquely, and then one box member 100 is taken out from the bundle, and as shown in S402, a specific hinge among a plurality of hinge portions 130 is selected. By bending the box material 100 at the portion 130, the box material 100 is preferably formed in a “U” shape and the can 120 is prepared for reception. Next, as shown in S <b> 403, the cans 120 aligned with the box material 100 folded in a “U” shape are pushed in from the side. Thereafter, the remaining hinge portion 130 is bent and a predetermined portion of the box material 100 is fixed by glueing or the like, and the boxing is completed.
[0032]
Here, as shown in FIG. 5A, when the upper surface 100a of the box material 100 ready to receive the can 120 does not block the introduction path of the can 120, the process shown in S403. The can 120 can be pushed into a predetermined position of the box material 100 from the side. However, as shown in FIG. 5B, for example, when the upper surface 100a is bent too much (for example, bent more than 90 degrees) and the introduction path of the can 120 is blocked, it is shown in S403. In the process, the can 120 cannot be pushed into a predetermined position of the box material 100 from the side.
[0033]
Hereinafter, as a preferred embodiment of the present invention, processing is performed in the above-described boxing device, box material supply device, etc. even when the box is flattened (for example, collected after shipment). A possible box material, that is, a box material that can be easily reused (returnable carton) will be described.
[0034]
FIG. 6 is a diagram illustrating a state in which the box material 100 according to the preferred embodiment of the present invention is unfolded to be in a flat state, and FIG. 7 is a state in which the box material 100 is bent at the hinge portion 130 to be in a box state (that is, , Box or carton). The hinge part 130 is a part of a part (folded part) that becomes a side in the box state. The box material 100 according to a preferred embodiment of the present invention has a predetermined value or more when the box material 100 is changed from a box state to a substantially flat state at or near a portion (bending portion) that becomes a side in the box state. A plurality of shape maintaining means 110 are provided for maintaining the box material 100 in a substantially planar state unless a force is applied. Here, when attention is paid to each side (folded portion) when the box is in a box state instead of the entire box material 100, the shape maintaining means 110 is bent from a state in which the box material 100 is bent at the hinge portion 130, for example. It can also be grasped as means for maintaining the box material 100 in a state in which the box part 100 is not bent more than a predetermined angle at the hinge part 130 unless a force of a predetermined value or more is applied.
[0035]
Although the material of the box material 100 is not specifically limited, For example, a plastic, paper, etc. are suitable.
[0036]
The shape maintaining means 110 is arranged in a portion (folded portion) that becomes a side in the box state or in the vicinity thereof, and between the beer can 120 and the beer can 120 (that is, a position that does not contact the beer can 120). Is preferred. The reason for this is that when the shape maintaining means 120 is configured by making a cut in the box material 100 as will be described later, the strength of the cut portion is weakened, so the shape maintaining means 110 is disposed at a position in contact with the beer can 120. In this case, the load of the beer can 120 is concentrated on the shape maintaining means 110 and the box (carton) is inflated. Even when the shape maintaining means 110 having a corresponding size is provided, the space in the box can be used effectively by arranging the shape maintaining means 110 at the position as described above. An increase in size can be prevented.
[0037]
FIG. 8 is a view exemplarily showing a preferable characteristic of a bent portion constituted by the shape maintaining means 110 and the hinge portion 130. In the example shown in FIG. 8, point a is a state in which an external force for bending is not applied to the box material 100 (folding angle = 0 degree). When an external force applied to the box material 100 (more specifically, two surfaces connected by the hinge portion) to be bent at the hinge portion 130 provided with the shape maintaining means 110 is gradually increased from zero, a certain seaside When the value (Fc) is reached (when the bending angle indicated by the point b (for example, an angle within the range of 0 to 15) is reached), the drag force against the external force becomes very small. Here, the section from point b to point c is a section in which the shape maintaining means 100 maintains the folding angle of the box material 100 at the hinge portion 130 constant even if the external force applied to the box material 100 is substantially zero. Thereafter (that is, after the point c), the box material 100 can be further bent by the hinge portion 130 provided with the shape maintaining means 110 even if the external force is smaller than the critical value (Fc). In this way, the shape maintaining means 110 has the hinge part 130 provided with the shape maintaining means 110 up to a folding angle of 90 degrees (or more) with a force smaller than the critical value (Fc) after the point c. The box material 100 is allowed to be bent.
[0038]
FIG. 9 is a view exemplarily showing another preferable characteristic of the bent portion constituted by the shape maintaining means 110 and the hinge portion 130. FIG. 9 shows three examples (A, B, C, and D). In the example of A, when the external force applied to the box material 100 is gradually increased to bend the box material 100 by the hinge portion 130 provided with the shape maintaining means 110, the folding angle rapidly increases when a certain critical value (Fc) is exceeded. After that, when the force is further increased, the folding angle becomes 90 degrees accordingly. The example of B is almost the same as the example of A, but the force required after the critical value (Fc) is exceeded is smaller than the example of A. In the example of C, after exceeding the critical value (Fc), the box material can be bent with a force smaller than the critical value (Fc). In the example of D, after exceeding the critical value (Fc), the box material can be bent with a smaller force than in the example of C. The shape maintaining means 110 is not limited to the example shown here, and can have various characteristics. That is, when the box material 100 is changed from a box state to a substantially planar state, the shape maintaining means 110 can maintain the box material 100 in a substantially planar state unless a force equal to or greater than a predetermined value (critical value) is applied. I can do it. Alternatively, when focusing attention on a part of the box material 100 (for example, a portion (that is, a bent portion) and both sides thereof as one side), the shape maintaining means 110 is in a state where the box material 100 is bent at the hinge portion 130. It is only necessary that when the box material 100 is not bent, the box material 100 can be maintained at the hinge portion 130 so as not to be bent more than a predetermined angle unless a force of a predetermined value or more is applied.
[0039]
Various problems described with reference to FIGS. 2 to 6 can be solved by making the shape maintaining means 110 have the characteristics as described above, for example. That is, according to the shape maintaining means 110 of this embodiment, in the boxing device or its peripheral devices, the box material 100 related to reuse is prevented from dropping and the box material from being taken out of the supporting device of the device is prevented. In addition, it is possible to prevent a poor receiving of the can due to excessive bending of the box material 100.
[0040]
FIG. 10 is a diagram showing one shape maintaining means 110 provided in the box material 100 and its periphery. In the example shown in FIG. 10, the shape maintaining means 110 is configured by cutting a box material 100.
[0041]
The shape maintaining means 110 is formed in parallel to the line 150 at a position slightly deviated from the line 150 that is a side when the box material 100 is in a box state (for example, a position deviated by about 1 to 5 mm from the line 150). The first notch 111, the second notch 112 extending from one end of the first notch 111 in the direction of the line 150, and the third notch 113 extending from the other end of the first notch 111 in the direction of the line 150. Including. The first to third cut portions 111 to 113 are complete cuts from one surface of the box material 100 to the other surface. The 1st-3rd cut | notch parts 111-113 may be formed in convex shape or trapezoid shape, for example.
[0042]
As shown in FIG. 10B, the first cut portion 111 is preferably in a direction inclined with respect to a plane perpendicular to the surface of the box material 100 (surface in the unfolded state). By changing the cut angle of the first cut portion 111 with respect to the vertical plane, the characteristics of the shape maintaining means 110 (for example, a critical value Fc or a curve indicating the characteristics as shown in FIG. 8 or FIG. 9) are changed. Can do. The material and thickness of the box material 100 are factors that determine the characteristics of the shape maintaining means 110.
[0043]
The hinge part 130 constitutes a bent part (typically together with the shape maintaining means 110), and is constituted by, for example, grooves 131 to 133 as shown in FIGS. 10 (a) and 10 (c).
[0044]
FIG. 11 is a diagram schematically showing the state of the shape maintaining means 110 when the box material 100 is bent. (A) is a state in the middle of bending (before the bending force reaches the critical value Fc), and (b) shows a state in which the box material 100 is bent at a right angle. When FIG. 11 and FIG. 8 are compared, the state shown in FIG. 11A is a state from the point a to the point b, and the opposite end portions 111a and 111b constituted by the first cut portions 111 are shown in FIG. As a result of being caught, a corresponding drag force is generated against the external force for bending. When the folding angle reaches the angle indicated by the point b (or point c) in FIG. 8, the opposing ends 111a and 111b are released and can be further bent with a force smaller than the critical value (Fc). (B point to d point).
[0045]
In the above embodiment, the shape maintaining means 110 is formed by cutting the box material 100, but the separately prepared shape maintaining means 110 may be fixed to the box material 100. For example, the structure shown in FIG. 10A may be separately produced and fixed (for example, bonded) to a normal box material (a box material having no shape maintaining means). In this case, it is preferable that the shape maintaining means is fixed to a portion that becomes the inside of the box when the box material is formed into a box shape. In this way, the shape maintaining means does not get in the way when the boxes are stacked. Further, as shown in FIG. 6, the position for fixing the shape maintaining means is a portion that becomes a side in the box state or the vicinity thereof, and is between a beer can and a beer can as a cylindrical container or a cylindrical article. It is preferable.
[0046]
Hereinafter, a method of using the box material according to the preferred embodiment of the present invention will be described. First, a new box material or a collected box material is prepared, and when it is not in a flat state, it is set in a flat state and set in a box material receiving position of a boxing device. Thereafter, the apparatus (in this example, a beer can) is boxed by the apparatus. Thereafter, the boxed goods are shipped. The shipped goods are, for example, taken out of the box and arranged in the store, or delivered to the consumer while being packed. Thereafter, the box materials that are no longer necessary in the market are collected in a flat state by bundling them. The collected box material is used again for boxing of articles.
[0047]
【The invention's effect】
According to the present invention, for example, a box material that can be reused in an existing boxing device can be provided.
[Brief description of the drawings]
FIG. 1 is a diagram (development view) showing a box material that is unfolded into a flat state.
FIG. 2 is a diagram schematically showing a support state of a box material in a typical boxing device (caser).
FIG. 3 is a diagram showing a support state of a box material in a box material supply apparatus (sheet supply apparatus) as a typical peripheral device.
FIG. 4 is a diagram for explaining a boxing process (packaging process) by a typical boxing apparatus.
FIG. 5 is a view for explaining a poor reception of a can due to bending of a box material at a hinge portion.
FIG. 6 is a diagram showing a state in which the box material according to a preferred embodiment of the present invention is developed and brought into a planar state.
FIG. 7 is a view showing a state (ie, a box or a carton) in which a box material is bent at a hinge portion to form a box state.
FIG. 8 is a diagram exemplarily illustrating a preferable characteristic of a bent portion including shape maintaining means and a hinge portion.
FIG. 9 is a view exemplarily showing another preferable characteristic of the bent portion constituted by the shape maintaining means and the hinge portion 130;
FIG. 10 is a diagram showing shape maintaining means provided in the box material and its periphery.
FIG. 11 is a diagram schematically showing the state of the shape maintaining means when the box material is bent.
[Explanation of symbols]
100 box material
101 Supported parts
110 Shape maintenance means
111 1st notch part
112 Second notch
113 Third notch
120 beer can (cylindrical container)
130 Hinge part
131, 132, 133 grooves
Line indicating the part that becomes 150 sides
201, 202 support device

Claims (17)

It is a box material that changes from a substantially flat state to a box state by bending at a predetermined part,
When the box material is a box state to a substantially planar state, it has a shape maintaining means for maintaining the box material in a substantially planar state unless applied predetermined value or more force,
The shape maintaining means is configured by cutting the box material at or near the portion that becomes a side when the box material is in a box state, and is inclined with respect to a plane perpendicular to the surface of the box material. Including a first portion cut in the box material in the direction
Box material characterized by that. It is a box material that changes from a substantially flat state to a box state by bending at a predetermined part,
When the box material is changed from a box state to a substantially planar state, it has shape maintaining means for maintaining the box material in a substantially planar state unless a force of a predetermined value or more is applied.
The box material is configured to accommodate a plurality of columnar articles in a box state, and the shape maintaining means is between adjacent cylindrical articles, and the box material is A box material characterized by being provided in the vicinity of a portion that becomes a side when a box is formed.   The box material according to claim 2, wherein the shape maintaining means is configured by cutting the box material.   The box material according to claim 3, wherein the cut includes a first portion in which the box material is cut in a direction inclined with respect to a plane perpendicular to the surface of the box material. The box material according to claim 1 or 4, wherein the first portion is arranged at a position slightly shifted from a line that becomes a side when the box material is in a box state.   The notch further includes a second portion extending from one end of the first portion in the direction of the line serving as the side, and a third portion extending from the other end of the first portion in the direction of the line serving as the side. The box material according to claim 5, which is included.   The box material according to claim 6, wherein a convex or trapezoidal cut is formed by the first, second and third portions. It is a box material that changes from a substantially flat state to a box state by bending at a predetermined part,
Having a notch formed in or near the part that becomes the side when the box material is in a box state,
The notch includes a first part extending in parallel to the line serving as the side, a second part extending from one end of the first part in the direction of the line serving as the side, and the side from the other end of the first part. A third portion extending in the direction of the line to be 1 The portion is configured by cutting the box material in a direction inclined with respect to a plane perpendicular to the surface of the box material.
Box goods characterized by that.   The box material according to any one of claims 1 to 8, wherein the box material is formed by processing one plate-like member.   The box material according to any one of claims 1 to 9, wherein a shape and a dimension are determined so that a plurality of cans can be boxed. A box material that has a plurality of bent portions and is boxed by being bent at the plurality of bent portions,
At least one bent portion of the plurality of bent portions is the box material unless a force of a predetermined value or more is applied when the box material is not bent from the bent portion at the bent portion. have a shape maintaining means for maintaining a state in which avoid bending predetermined angle or more in the bent portion,
The shape maintaining means is formed by making a cut in the box material, the cut being in parallel with the line that becomes the side, and the direction of the line that becomes the side from one end of the first part And a third portion extending in the direction of the side line from the other end of the first portion, the first portion being perpendicular to the surface of the box material The box material is cut into the inclined direction ,
Box material characterized by that. A box material that has a plurality of bent portions and is boxed by being bent at the plurality of bent portions,
At least one bent portion of the plurality of bent portions is the box material unless a force of a predetermined value or more is applied when the box material is not bent from the bent portion at the bent portion. It has a shape maintaining means for maintaining the bent portion in a state where it is not bent more than a first angle, and the shape maintaining means is configured by making a cut in the box material, and the cut is formed on the line that becomes the side. A first portion extending in parallel, a second portion extending from one end of the first portion in the direction of the line serving as the side, and a third portion extending from the other end of the first portion in the direction of the line serving as the side. The first portion is configured by cutting the box material in a direction inclined with respect to a plane perpendicular to the surface of the box material,
In the state where the box material is bent to at least the first angle at the bent portion, the shape maintaining means is configured so that the box material is at the bent portion even when a force smaller than the predetermined value is applied. A box material characterized by allowing bending to a second angle larger than the first angle.   The box material according to claim 12, wherein the first angle is an angle within a range of 0 to 15 degrees, and the second angle is approximately 90 degrees. A box material that has a plurality of bent portions and is boxed by being bent at the plurality of bent portions,
At least one bent portion of the plurality of bent portions is the box material unless a force of a predetermined value or more is applied when the box material is not bent from the bent portion at the bent portion. Having a shape maintaining means for maintaining the bent portion so as not to be bent more than the first angle;
The shape maintaining means is formed by making a cut in the box material, the cut being in parallel with the line that becomes the side, and the direction of the line that becomes the side from one end of the first part And a third portion extending in the direction of the side line from the other end of the first portion, the first portion being perpendicular to the surface of the box material The box material is cut in the inclined direction,
In the state where the box material is bent to the first angle at the bent portion, the shape maintaining means substantially maintains the state as long as no force is applied. When the force is applied, the box material is maintained. Is allowed to be bent up to a second angle larger than the first angle at the bent portion.   The box material according to claim 14, wherein the first angle is an angle within a range of 0 to 15 degrees, and the second angle is approximately 90 degrees. A boxing step of packing an article with the box material according to any one of claims 1 to 15 by a boxing device;
A shipping process for shipping boxed goods;
A recovery process for recovering the box material;
The collected box material is used in a new boxing process, and the boxing device is a device that receives the box material in a substantially flat state and boxes the article with the box material. How to use box materials.   An article which is boxed with the box material according to any one of claims 1 to 15.

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