JP4038444B2 - Box divider - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a box partition body that partitions a plurality of articles arranged and stored in a box.
[0002]
[Prior art]
In general, for example, in the case of fruits and vegetables such as apples, these are arranged and stored in a box, and are transported or stored. In order to prevent the article from being damaged by preventing the article from colliding with each other, or to prevent the article from moving messed up by shaking, the arrangement is not disturbed. Perform partitioning and storing.
[0003]
Conventionally, what was described in patent document 1 (Unexamined-Japanese-Patent No. 2000-318739) is known as this kind of box partition.
As shown in FIG. 11, the box partition Pa partitions a plurality of articles stored in the box in a matrix, and includes a column partition plate 1 and a row partition plate 2.
The column partition plate 1 is formed by forming a plurality of fold lines parallel to each other on a single plate, forming a plurality of strip-shaped strip portions 3 sandwiching the fold lines, and presenting every other two strip portions 3 connected in series. The bottom plate portion 4 is formed by arranging a plurality of strip portions 3 to be formed, and the two continuous strip portions 3 are folded at a folding line and overlapped to stand. A lower notch 5 is provided at the lower part of the row partition plate 1, and an insertion groove 6 is provided on an extension line of the lower notch 5 at the bottom plate part. On the other hand, the row partition plate 2 is folded in two, and an upper cut 7 is formed in the upper part. The row partition plate 2 is inserted into the insertion groove 6 from below, and the lower cut 5 and the upper cut 7 are engaged with each other and fixed.
[0004]
When using, for example, apples (not shown) as fruits and vegetables using such a box divider Pa, select apples of the same size in advance and set the size of the apples. The baskets having the same size are stored in a bowl-shaped individual storage space S formed by four sides of the side surfaces of the row partition plate and the row partition plate.
[0005]
[Patent Document 1]
JP 2000-318739 A
[0006]
[Problems to be solved by the invention]
By the way, in the articles such as the above-mentioned apples, even if the sizes are uniform to some extent, there is an error in the size to some extent.
In the above-described conventional box partition Pa, the row partition plate 1 and the row partition plate 2 are fixedly engaged with each other, so that an article such as an apple with a slight error in size can be obtained. In the case of storage, the partition plates 1 and 2 cannot follow the error in the size of the article, resulting in the following problems.
[0007]
That is, when the apple is smaller than the individual storage space S, a gap is generated between the apple stored in the individual storage space S and the row partition plate 1 and the row partition plate 2 forming the individual storage space S. May rattle in the individual storage space S and be damaged during the transport process.
If the apples are larger than the individual storage space S, the row partition plate 1 or the row partition plate 2 is stretched, and an excessive force is applied to the stored apples. May be damaged.
[0008]
Further, in the conventional box partition Pa, since it is stored one by one in each bowl-shaped individual storage space S, as shown in FIGS. It is not possible to arrange the phase of the row so that the apple A in the next row comes between the apples A and A. Depending on the size of the apple A, the inside of the box may not be used effectively. There was also a problem.
[0009]
The present invention has been made in view of the above-described problems, and even if an article that produces an error in its size, such as fruits and vegetables, absorbs the error. An object of the present invention is to provide a box partition body that prevents the occurrence of sticking or excessive force and improves the protection performance of the article by improving the fit of the article.
Another object of the present invention is to make it possible to arrange the rows of articles so that the inside of the box can be used effectively.
[0010]
[Means for Solving the Problems]
In order to achieve such an object, the box divider of the present invention is a box divider for dividing a plurality of articles arranged and stored in a box.
A bottom plate portion laid on the bottom surface of the box and on which articles are placed; and a row partition plate integrally provided on the bottom plate portion and interposed between the rows of the rows of articles, the row partition plate A plurality of notches extending downward from the upper edge of the column are formed at predetermined intervals along the longitudinal direction of the row partition plate, and a plurality of row partition units obtained by dividing the row partition plate by the cut are provided.
[0011]
When the articles are stored in the box partition, the articles are arranged in rows formed between the row partition plates. In this case, even if the articles are sorted and arranged to some extent like apples, there will be some errors in the size of the articles. However, in this box divider, the column dividers are separated by cutting, so they can be flexed individually, and the width can be freely changed. Bends following the irregularities on the outside of the. Thereby, the error of the size of the article is absorbed, and the fit is improved. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article is improved.
[0012]
In addition, since the row partition unit is formed by cutting the row partition plate, the followability is good, so even if the number of articles arranged in the row direction is increased or decreased, it can follow the outside of the row of articles. Various ways of packing can be performed even in the design. In addition, the columns of articles can be arranged out of phase, and the inside of the box can be used effectively.
[0013]
Further, if necessary, a plurality of fold lines parallel to each other are formed on a single flexible resin plate, and a plurality of strip-shaped strip portions sandwiching the fold lines are formed,
The strip portions present in the two strip portions arranged in a row are arranged to form a bottom plate portion, and the two strip portions arranged in a row are folded along a folding line to be overlapped to form the row partition plate.
Since it is only necessary to mold a single flexible resin plate with a press or the like and bend the resin plate, the manufacturing becomes extremely easy.
[0014]
Further, if necessary, the strip part forming the row partition plate is compressed so that the thickness thereof is thinner than the thickness of the strip part constituting the bottom plate part.
In the state in which the articles are stored, the strip portion forming the row partition plate is compressed so that the thickness of the strip portion forming the bottom plate portion is thinner than the thickness of the row partition plate, Since the thickness of the bottom plate is the same, the row partition plate has a higher density and higher rigidity than the bottom plate, so the movement of apples due to being too soft is suppressed. This ensures the holding of the article.
[0015]
Furthermore, if necessary, presser plates that hold down the outermost row of articles are integrally provided on both side edges of the bottom plate portion parallel to the row partition plate.
The outermost row among the rows of articles in which the pressing plate forms a plurality of rows can be protected, and the protection of the articles is ensured.
[0016]
Further, in a box partition body for partitioning a plurality of articles stored in a row in a box, a plurality of individual partition units interposed between the adjacent items in the column direction, and each individual partition unit It is set as the structure provided with the flexible connection rope connected in order at the upper end.
[0017]
When storing articles using this box divider, in a plurality of rows of articles in a row, individual partitions are inserted between the articles, but apples that are fruits and vegetables as articles are sorted out. Even if the sizes are arranged to some extent, there is an error in the size to some extent. For this reason, the position of an article is not unambiguous in a plurality of rows of articles forming a row. When the row of articles is partitioned by this box divider, the individual partitions are connected by connecting ropes, so the movement is free and the width can be freely changed. Can be inserted between the articles, absorbing the size error of the articles and improving the fit. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article is improved.
[0018]
In addition, since the individual partitions are connected by connecting ropes, the movement is free and the width can be freely changed. Can be partitioned individually, and the inside of the box can be used effectively.
Furthermore, even if the number of articles is increased or decreased in the direction of the line in the line formed by the articles stored in the box, it is possible to easily form a partition body with individual partitions corresponding to this number. It can be prepared and various ways of packing can be performed.
[0019]
Moreover, since the individual partition unit is connected by the connecting rope, it does not fall apart and is easy to handle.
Further, since the connecting rope of the box partitioning body is interposed at the upper part of the article, even if there is a similar article packed in a box lid or multiple stages on the article, the connecting rope is used as a packing. It will function and will also ensure protection of the top of the article. In other words, it means that it is unnecessary to use a packing in the form of a sheet, which has been placed between the upper part of the article and the lid of the box, or between the upper part and the upper stage of the lower article. In addition, the number of parts can be reduced.
[0020]
Further, as necessary, the plurality of individual partitions and the connecting rope are integrally formed of resin. Since the plurality of individual partitions and the connecting rope are integrally formed of resin, the manufacturing is extremely easy.
Further, if necessary, the intermediate portion of the rectangular flexible resin plate is formed by continuously punching in a substantially S shape, and the side edge in the longitudinal direction of the resin plate is used as a connecting rope, The intermediate part connected to the edge part and cut out is formed as a single individual partition.
Since the middle part of the flexible resin plate is continuously cut in a substantially S shape, two box partitions can be formed simultaneously, and the production efficiency is extremely good.
[0021]
The individual partitions are compressed and formed so that the thickness of the individual partition is thinner than the thickness of the connecting rope. Since the individual partition unit is compressed and formed so that the thickness of the single unit is thinner than the thickness of the connecting rope, the density is high and the rigidity is high. In this respect, the holding of the article is ensured. On the other hand, the connecting cord is softer than the individual partition unit and can function reliably as a packing.
[0022]
Further, if necessary, both end portions of the individual partition unit are bent toward one surface side of the individual partition unit. Since the individual partition is bent toward one side of the single partition, it is possible to hold the article at both ends, thereby ensuring the holding of the article and improving the protection performance of the stored article. Can be made.
[0023]
Then, if necessary, a box partition including a row partition plate provided with a plurality of single row partition members on the bottom plate portion is used as a first partition member, and the plurality of individual partition single members are connected by a connecting cable. The body is a second partition, and both the first and second partitions are provided. The synergistic action of both the first and second partitions further enhances the fit of the article, reliably prevents rattling and excessive force, and protects the article. Can be improved.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, based on an accompanying drawing, a partition for boxes concerning an embodiment of the invention is explained in detail.
As shown in FIG. 1, the box partition P according to the embodiment of the present invention includes a first partition P <b> 1 and a second partition P <b> 2 inside the box B.
[0025]
As shown in FIG. 2, the first partition P1 is formed by bending a single flexible resin plate 10 made of, for example, foamed polystyrene, and is laid on the bottom surface 30 of the box and on which the article G is placed. 11 and a plurality of row partition plates 12 interposed between rows of articles G that are erected integrally with the bottom plate portion 11 and arranged in a row.
The row partition plate 12 includes a plurality of notches 13 extending downward from the upper end edge 12a at predetermined intervals along the longitudinal direction, and a plurality of row partition units 14 formed by dividing the row partition plate 12 by the notches 13. ing.
[0026]
Specifically, as shown in FIG. 3, a plurality of fold lines 15 parallel to each other are formed on a single flexible resin plate 10, and a plurality of strip-shaped strip portions 16 sandwiching the fold lines are formed. A plurality of strip portions 16 existing in two provided strip portions 16 are arranged to form the bottom plate portion 11, and the two strip portions 16 provided in a row are folded at a folding line 15 so as to overlap each other. 12 and so on.
[0027]
Further, in the first partition P1, as shown in FIGS. 1 to 3, the thickness of the strip portion 16 forming the row partition plate 12 is thinner than the thickness of the strip portion 16 constituting the bottom plate portion 11. It is compressed and formed. In the embodiment, the thickness D2 of the strip portion 16 forming the row partition plate 12 is set to half the thickness D1 of the strip portion 16 configuring the bottom plate portion 11, and as a result. The thickness D of the row partition plate 12 and the thickness D1 of the bottom plate portion 11 are the same. Therefore, the row partition plate 12 has a higher plate density and higher rigidity than the bottom plate portion 11.
[0028]
Further, on both side edges of the bottom plate portion 11 parallel to the row partition plate 12, presser plates 17 that hold down the rows of the outermost articles G are erected integrally with the bottom plate portion 11. The thickness of the presser plate 17 is D1.
[0029]
Next, the case where this 1st partition P1 is manufactured is demonstrated. First, as shown in FIG. 3A, a plurality of fold lines 15 parallel to each other are formed on a single flexible resin plate 10, and a plurality of strip-shaped strip portions 16 sandwiching the fold lines 15 are formed. Then, as shown in FIG. 3 (2), the strips 16 existing in the two strips 16 arranged in a row are used as the bottom plate 11, and the two strips 16 arranged in a row are used as the partition plates 12. The outermost strip 16 is defined as a presser plate 17. Then, the two strip portions 16 and the outermost strip portion 16 that are provided continuously are compressed using a press machine, and the notches 13 that are orthogonal to the folding line 15 are provided in the two strip portions 16 that are provided continuously. Put in.
[0030]
Next, as shown in FIG. 3 (3), the fold line 15 is bent. At this time, the two strip portions 16 that are continuously provided are picked up and stacked to form the row partition plate 12, and the outermost strip portion 16 is also erected to form the presser plate 17. In addition, a plurality of strip portions 16 existing in the two strip portions 16 arranged in a row are connected to form the bottom plate portion 11. Thereby, the first partition P1 as shown in FIG. 3 (4) is completed. In this case, since it is only necessary to form a single flexible resin plate with a press or the like and bend it, the manufacturing becomes extremely easy.
[0031]
As shown in FIGS. 1, 4, and 5, the second partition P <b> 2 includes a plurality of individual partition units 20 interposed between the articles G adjacent in the column direction, and each individual partition unit 20 at the upper end thereof. And a flexible connecting line 21 connected in order. The plurality of individual partition units 20 and the connecting ropes 21 are integrally formed of a resin such as polystyrene foam.
[0032]
Further, both end portions 23 of the individual partition unit 20 are bent toward one surface side of the individual partition unit 20. For a circular article G or the like, the area in contact with the outside of the article G can be increased. The corners of the lower end 22 of the individual partition unit 20 are chamfered in a round shape.
[0033]
Further, as shown in FIG. 6, the second partition P2 is formed by continuously punching a middle portion 26 of a rectangular flexible resin plate 24 of, for example, styrene foam in a substantially S shape, The side edge 25 in the longitudinal direction of the resin plate 24 is used as a connecting line 21, and the intermediate part 26 that is connected to the side edge 25 and cut out is used as an individual partition unit 20. Further, the intermediate portion 26 of the rectangular resin plate 24 is compression-formed, and the intermediate portion 26 is continuously die-cut in a substantially S shape, thereby forming the individual partition unit 20, and the longitudinal direction of the resin plate 24. The side edge portion 25 is used as the connecting rope 21.
[0034]
Further, the second partition body P2 is compressed and formed so that the thickness of the individual partition unit 20 is thinner than the thickness of the connecting cord 21. As shown in FIGS. 4 and 5, the thickness T <b> 1 of the individual partition unit 20 is set to a half or less of the thickness T <b> 2 of the connecting line 21. Therefore, the connecting cable 21 is softer than the individual partition unit 20 and can function as a packing.
[0035]
Next, the case where this 2nd partition P2 is manufactured is demonstrated. First, as shown in FIG. 6 (1), a single flexible resin plate 24 is prepared, and as shown in FIG. 6 (2), an intermediate portion 26 of the flexible resin plate 24 is obtained by a press machine or the like. Are continuously punched in a substantially S shape, and the intermediate portion 26 is compressed. Thereby, the second partition P2 is formed on the left and right. Next, as shown in FIGS. 6 (3) and (4), the left and right second partitions P2 are cut off. Then, as shown in FIG. 6 (5), both side end portions 23 of the individual partition unit 20 are bent toward one surface side of the individual partition unit 20 by a press machine or the like. Thereby, as shown in FIG. 6 (6), the 2nd partition P2 is completed. In this case, since the second partition P2 is formed by integrally forming the plurality of individual partitions 20 and the connecting cord 21 with resin, the second partition P2 is manufactured very easily. Moreover, since the intermediate part 26 of the flexible resin plate 24 is continuously die-cut in a substantially S shape, two second partitions P2 can be formed at the same time, and the manufacturing efficiency is extremely good.
[0036]
Next, for example, when the apple A as the article G is stored in a box using the box partition P composed of the first partition P1 and the second partition P2, the following is performed. Since the size of the apple A varies depending on the growing state, etc., for example, the apple A is ranked in large, medium, small, etc., and is arranged in advance to have the same size.
[0037]
Here, how to pack the apple A will be described. As shown in FIG. 7, for example, 16 boxes (a), 14 packs (b), 12 packs (c), and 20 packs (d) are performed in a box of a predetermined size. In 16-packing, 14-packing, and 12-packing, for example, apples A with a rank of “large” are packed, and for 20-packing, for example, apples A with a rank of “medium” are packed. That is, in the 16-pack (a), the apple A is arranged in each row (first row, second row, third row, fourth row) = (four, four, four, four). The apples A whose phases are shifted are arranged so that the apples A in the adjacent row come between the apples A arranged in the direction. 14 packs (b), apples A in each row (first row, second row, third row, fourth row) = (4 pieces, 3, 4 pieces, 3 pieces) The apples A are arranged by shifting the phase in the same manner as in the individual packing. 12-pack (c) is (1st row, 2nd row, 3rd row, 4th row) = (3, 3, 3, 3) and the phase is the same as the above 16-pack. Shift and place Apple A. Packing 20 pieces (d) puts apple A in each row (1st row, 2nd row, 3rd row, 4th row) = (5 ・ 5 ・ 5 ・ 5) Arrange in a matrix. In these, all the apples A are packed in four rows, and can be packed using the same box partition P1, P2.
[0038]
In other words, the partition P can be used in any packing method. For example, as shown in FIG. 1, a box B having an outer dimension of 430 mm × 360 mm × 125 mm and a single resin plate The dimension of 10 is 420 mm × 1220 mm, the thickness D1 of the bottom plate portion 11 is D1 = 6 mm, the thickness D1 of the row partition plate 12 is D2 = 3 mm, the width of the bottom plate portion 11 is 84 mm, and the height of the row partition plate 12 is 110 mm. The first partition P1 having 12 notches 13 and 13 row partitioning units 14 and the individual connecting unit 20 having a width of 100 mm, a height of 110 mm, and the connecting cord 21 connecting the individual partitioning units 20 are formed. A second partition P2 formed with a length of 110 mm between the individual partitions 20 is used.
[0039]
First, the case of 16 packing will be described.
As shown in FIG.1 and FIG.8, the 1st partition P1 which standingly arranged the row partition plate 12 and the presser plate 17 is put into the box B so that the baseplate part 11 may be laid by the bottom face 30 of a box. Then, the first row, the second row, the third row, the fourth row) = (4 pieces, 4 pieces, 4 pieces, 4 pieces). The apples A are stored in the first partition P1 with the phase shifted so that the apple A comes. In this case, 16 apples A are stored in the box B at a time by a known boxing machine.
[0040]
Next, as shown in FIGS. 9 and 10, the second partition P <b> 2, the individual partition unit 20 between the apples A adjacent in the row direction, and the inner wall 32 of the outermost apple A and the box B in the row direction. Intervene between. At this time, the connecting rope 21 is bent to the left and right so as to cover the upper part of the apple A in a saw blade shape in the row direction. In this case, since the individual partition unit 20 is connected by the connecting rope 21, it does not fall apart and is easy to handle.
Finally, the lid 31 of the box B is closed and the apple A is stored.
[0041]
Thus, in the state where the apples A are stored, the articles G such as the apples A are somewhat different in size even if their sizes are uniform to some extent. As shown in FIG. 10, in the first partition P1, the row partition unit 14 is separated by the notches 13, so that the width can be changed individually. As a result, the row partitioning unit 14 bends following the irregularities on the outside of the apple A, absorbs an error in the size of the apple A, and improves the fit. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article G is improved.
[0042]
Further, even if the sizes of the apples A are uniform to some extent, there is an error in the size of the apples A, so the position of the apples A in each row is not unambiguous. In P2, since the individual partition unit 20 is connected by the connecting rope 21, the movement is free and the width can be freely changed. Therefore, the apple A follows the position of the apple A and is inserted between the apples A. Can absorb the error of the size of the apple A, and the fit is improved. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article G is improved.
[0043]
Furthermore, in the state in which the apple A is accommodated, it is compressed and formed so that the thickness of the strip portion 16 forming the row partition plate 12 is thinner than the thickness of the strip portion 16 constituting the bottom plate portion 11. Since the thickness D of the row partition plate 12 and the thickness D1 of the bottom plate portion 11 are the same, the row partition plate 12 has a higher plate density and higher rigidity than the bottom plate portion 11. Therefore, the movement of the apple A due to being too soft is suppressed, and the holding of the apple A is ensured.
Moreover, since the second partition P2 is formed by compression so that the thickness of the individual partition unit 20 is thinner than the thickness of the connecting rope 21, the density is high and the rigidity is high. Therefore, the movement of the apple A due to being too soft is suppressed, and also in this respect, the apple A is securely held.
[0044]
Furthermore, since the presser plates 17 that hold down the rows of the outermost articles G are integrally provided on both side edges of the bottom plate portion 11 parallel to the row partition plates 12, the apples A in the rows on both sides are reliably protected. become.
Further, since both side end portions 23 of the individual partition unit 20 are bent toward one surface side of the individual partition unit 20, the apples A are held at both ends, and therefore, the apple The holding of A is ensured, and the protection performance of the article G to be stored can be improved.
[0045]
Moreover, as shown in FIG. 10, since the connection line 21 of the 2nd partition P2 will interpose on the upper part of each apple A, if there is packing between the lid 31 of the box B and the apple A, Since it becomes equivalent, the protection of the upper part of the apple A is also ensured. This also means that the sheet-like packing that has conventionally been placed between the upper part of the apple A and the box lid 31 can be eliminated, and the number of parts can be reduced.
[0046]
Furthermore, according to the second partition P2, the individual partitions 20 are connected by the connecting rope 21, and the movement is free and the width can be changed. Therefore, the position of the apple A in the row formed by the apples A can be determined. Whether the phase is shifted or inserted, the apples A can be individually partitioned by the second partition P2, and the inside of the box B can be used effectively.
[0047]
Next, the case of 14 packing will be described.
The first partition P <b> 1 erected with the row partition plate 12 and the presser plate 17 is put into the box B so that the bottom plate portion 11 is laid on the bottom surface 30 of the box B. Then, as shown in FIG. 7 (b), the apples A in the row direction are set as (first row, second row, third row, fourth row) = (4 pieces, 3, 4 pieces, 3 pieces). Are placed in the first partition P1 with the phase shifted such that the apples A in the next row come between the apples A lined up. In this case, 14 apples A are stored in the box B at a time by a known boxing machine.
[0048]
Next, the second partition P <b> 2 is interposed between the apples A adjacent in the row direction and between the outermost apples A in the row direction and the inner wall 32 of the box B. At this time, the connecting rope 21 is bent to the left and right so as to cover the upper part of the apple A in a saw blade shape in the row direction. Finally, the lid 31 of the box B is closed and the apple A is stored.
[0049]
At this time, even if the number of apples A in the row direction is reduced, since the row partition unit 14 is separated by the notches 13 in the first partition P1, it can be bent individually. The change can be freely made, and the row partition unit 14 bends following the irregularities on the outside of the apple A. Therefore, it is possible to securely hold the apples A at both ends of the row with few apples A (3 rows of apples A). To be done. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article G is improved. In the second partition P2, the number of the individual partitions 20 may be cut and reduced in correspondence with the number of apples A arranged in the row.
[0050]
Subsequently, the case of twelve packing will be described.
The first partition P <b> 1 erected with the row partition plate 12 and the presser plate 17 is put into the box B so that the bottom plate portion 11 is laid on the bottom surface 30 of the box B. Then, as shown in FIG. 7 (c), the apple A in the row direction is set as (first row, second row, third row, fourth row) = (3, 3, 3, 3). Are placed in the first partition P1 with the phase shifted such that the apples A in the next row come between the apples A lined up. In this case, twelve apples A are stored in the box B at a time by a known boxing machine.
[0051]
Next, the second partition P2 is interposed between the apples A adjacent in the row direction and between the outermost apples A in the row direction and the inner wall 32 of the box. At this time, the connecting rope 21 is bent to the left and right so as to cover the upper part of the apple A in a saw blade shape in the row direction. Finally, the lid 31 of the box B is closed and the apple A is stored.
[0052]
Also in this case, according to the first partition P1, since the row partition plate 12 is formed by cutting the row partition plate 12, the followability is good, so the number of apples A in the row direction is increased or decreased. The apple A can follow the outside of the row of apples A, and the apple A can be held securely. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article G is improved.
[0053]
Next, the case of 20 packing will be described.
First, in the same manner as described above, the first partition member P1 provided with the row partition plate 12 and the presser plate 17 is put into the box B so that the bottom plate portion 11 is laid on the bottom surface 30 of the box. Then, as shown in FIG. 7 (d), the apple A with (1st row, 2nd row, 3rd row, 4th row) = (5, 5, 5, 5) is in a grid shape Then, it is stored in the first partition P1. In this case, 20 apples A are stored in the box B at a time by a known boxing machine. Next, the second partition P2 is interposed between the individual apples A adjacent in the row direction and between the outermost apples A in the row direction and the inner wall 32 of the box B, and finally. The lid 31 of the box B is closed and the apple A is stored.
[0054]
In this case as well, according to the first partition P1, the notches 13 are formed in the row partition plate 12 to form the row partition unit 14 so that the followability is good. Done. For this reason, the situation where rattling occurs or an excessive force is applied is prevented, and the protection performance of the article G is improved. That is, even when the size of the apple A is slightly reduced and many apples are packed in a box, the apple A can be dealt with.
[0055]
In the above embodiment, the case where the apples A are packed in one stage has been described. However, the present invention is not necessarily limited to this, and the apples A may be packed in multiple stages such as two stages. Also in this case, the connecting line 21 of the lower second partition P2 can function as a packing between the upper and lower stages. Therefore, the sheet-like packing that has been conventionally placed between the upper and lower stages can be eliminated, and the number of parts can be reduced. Further, it is possible to omit the step of inserting the sheet-like packing, and the efficiency of the storing operation can be improved accordingly.
[0056]
In addition, the size of each part of the partition plate and the interval between the partition plates may be appropriately changed according to the size of the apple to be packed.
Moreover, in the said embodiment, although it applied to the apple A as an article | item, it is not necessarily limited to this, Of course, what kind of article | item may be sufficient.
[0057]
【The invention's effect】
As described above, according to the box partition body of the present invention, the bottom plate portion laid on the bottom surface of the box and on which the article is placed, and the row of articles arranged in a row on the bottom plate portion. A plurality of notches extending downward from the upper edge of the box partition body at predetermined intervals along the longitudinal direction of the box partition, and dividing the row partition plate by the notches Since the single column divider can be flexed individually, the width can be freely changed. Thus, an error in the size of the article can be absorbed and the fit can be improved. For this reason, the situation where rattling occurs or an excessive force is applied can be prevented, and the protection performance of the article can be improved.
In addition, since the row partition plate is formed by cutting the row partition plate, the followability is good, so even if the number of articles arranged in the row direction is increased or decreased, it can follow the outside of the apple row, and the same Various ways of packing can be performed even in the design.
[0058]
In addition, according to the box partition body of the present invention, a plurality of individual partition units interposed between the adjacent articles in the column direction, and a flexible connecting cable for sequentially connecting each individual partition unit at the upper end thereof Therefore, the individual partitions can be moved freely and the width can be freely changed.Therefore, it can be inserted between the articles following the position of the articles, and the size error of the articles can be reduced. Absorb and improve fit. For this reason, the situation where rattling occurs or an excessive force is applied can be prevented, and the protection performance of the article can be improved.
[0059]
Moreover, since the individual partition unit is connected by the connecting rope, it does not fall apart and is easy to handle.
Further, since the connecting rope of the box partitioning body is interposed in the upper part of the article, it can function as a packing, and the upper part of the article is also reliably protected. This means that the conventionally used sheet-like packing can be eliminated, and the number of parts can be reduced.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a box partition according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a first partition in the box partition according to the embodiment of the present invention.
FIG. 3 is a diagram showing a manufacturing process of the first partition in the box partition according to the embodiment of the present invention.
FIG. 4 is a perspective view showing a second partition body in the box partition body according to the embodiment of the present invention.
FIG. 5 is a cross-sectional view taken along line AA in FIG. 6 of the second partition in the box partition according to the embodiment of the present invention.
FIG. 6 is a diagram showing a manufacturing process of the second partition body in the box partition body according to the embodiment of the present invention.
FIG. 7 is a diagram showing an example of how to pack apples applied to the box partition according to the embodiment of the present invention.
FIG. 8 is a cross-sectional view showing a state in which articles are packed in the first partition of the box partition according to the embodiment of the present invention.
FIG. 9 is a cross-sectional view showing a state in which the second partition of the box partition according to the embodiment of the present invention is interposed between articles.
FIG. 10 is an enlarged plan view of an essential part showing a state in which articles are boxed using the box partition according to the embodiment of the present invention.
FIG. 11 is a perspective view showing an example of a conventional box partition.
[Explanation of symbols]
B box
G article
A apple
P1 first partition
P2 second partition
10 Resin plate
11 Bottom plate
12 row divider
12a Top edge
13 notches
14 Row partition unit
15 Folding line
16 Strips
17 Presser plate
20 Individual partition unit
21 Connecting cable
22 Bottom
23 Both ends
24 resin plate
25 Side edge
26 Middle part
30 Bottom
31 lid
32 inner wall

Claims (8)

A box partition that partitions a plurality of articles stored in a row in a box ,
A bottom plate portion which article is laid on the bottom of the box is placed, the bottom plate into a box for a partition body and a column partition plate interposed between the rows of articles are the arrayed erected integrally In
Forming a plurality of fold lines parallel to each other on a single flexible resin plate, forming a plurality of strip-shaped strip portions sandwiching the fold lines;
A plurality of strip portions existing in two continuous strip portions are arranged to form a bottom plate portion, and the two continuous strip portions are folded at a folding line so as to be overlapped to form the row partition plate.
A plurality of incisions directed downward from the upper edge of the row partition plate may be formed in the row partition plate at predetermined intervals along the longitudinal direction, and the notches can be individually bent following the irregularities on the outside of the article. box for partitioning member, characterized in that a plurality of rows partition itself obtained by dividing the column partition plate as possible. 2. A box partition according to claim 1 , wherein the box partition is formed by compression so that the thickness of the strip portion forming the row partition plate is thinner than the thickness of the strip portion constituting the bottom plate portion. The box partition body according to claim 1 or 2, wherein a pressing plate for pressing the outermost row of articles is integrally provided on both side edges of the bottom plate portion parallel to the row partition plate. The box partition body according to any one of claims 1 to 3 is used as a first partition body, and a plurality of individual partition units interposed between the adjacent articles in the row direction, and each individual partition unit A box partition body comprising a flexible partition line connected in order at the upper end as a second partition body, the box partition body including both the first and second partition bodies. 5. The box partition according to claim 4, wherein the plurality of individual partitions and the connecting rope are integrally formed of resin. It is formed by continuously punching the middle part of the rectangular flexible resin plate in a substantially S shape, and the longitudinal side edge of the resin plate is used as a connecting line, and is connected to the side edge. 6. The box divider according to claim 5, wherein the stamped intermediate portion is a single individual partition. The box partition body according to claim 6, wherein the individual partition unit is compressed and formed so that the thickness of the individual partition unit is thinner than the thickness of the connecting rope. The box partition body according to claim 5, 6 or 7 , wherein both side end portions of the individual partition unit are bent toward one surface side of the individual partition unit.

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