This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2021-135258 filed Aug. 23, 2021.
The present disclosure relates to a shock-absorbing structure and a transportation pallet.
A known transportation pallet has a structure where corrugated fiberboard is placed on a wooden pallet, a cushioning member made of, for example, expanded polystyrene is disposed on the corrugated fiberboard, and a product such as a device to be transported is placed on the cushioning member. To receive the product such as a device to be transported at an accurate position, such a transportation pallet with this structure has to have the cushioning member fixed in position. Japanese Unexamined Patent Application Publication No. 7-205989, No. 2000-296833, and No. 2002-104395 disclose positioning structures where corrugated fiberboard has holes, and protrusions included in a cushioning member are received in the holes of the corrugated fiberboard.
A transportation pallet with the above structure may receive a lateral force when hitting against any obstacle during transportation. In this case, upon receipt of the lateral force, the cushioning member may be displaced together with the product such as a transported device, and the protrusions of the cushioning member received in the holes of the corrugated fiberboard may be torn. The torn pieces of the protrusions of the cushioning member may enter the product such as a transported device and adversely affect the operation of the product. To address this, the cushioning member is to be prevented from being torn regardless of when being displaced.
Aspects of non-limiting embodiments of the present disclosure relate to a shock-absorbing structure and a transportation pallet including a cushioning member fixed in position, and where, compared to a structure where protrusions of a cushioning member are received in holes in corrugated fiberboard, components are prevented from being partially torn regardless of when the cushioning member receives a lateral force.
Aspects of certain non-limiting embodiments of the present disclosure address the above advantages and/or other advantages not described above. However, aspects of the non-limiting embodiments are not required to address the advantages described above, and aspects of the non-limiting embodiments of the present disclosure may not address advantages described above.
According to an aspect of the present disclosure, there is provided a shock-absorbing structure including an underlay placed on a base, and a cushioning member disposed on the underlay, wherein the underlay includes at least one positioning portion that includes a slope raised in a position inclined with respect to another area of the positioning portion and fixes the cushioning member in position, and a support portion that supports the slope in an obliquely raised position, and wherein the cushioning member includes at least one hollow that receives the positioning portion.
Exemplary embodiments of the present disclosure will be described in detail based on the following figures, wherein:
First, a comparative example compared with exemplary embodiments of the disclosure will be described below, and then, exemplary embodiments of the disclosure will be described.
As illustrated in
A cushioning member 30 made of, for example, expanded polystyrene is placed on the corrugated fiberboard piece 20. The cushioning member 30 includes a base portion 31 and a wall 32 standing erect from the base portion 31, and the wall 32 is disposed along the erect wall 22 of the corrugated fiberboard piece 20 at the corners of the pallet 10. The cushioning member 30 includes protrusions 33 on the underside, and the protrusions 33 are fitted into the holes 21 formed in the corrugated fiberboard piece 20. Then, a product 40, which is an object to be transported, is placed on the base portion 31 of the cushioning member 30 placed on the corrugated fiberboard piece 20, and the four corners at the bottom of the product 40 are protected by the cushioning member 30.
Assume a case where, for example, a strong horizontal force that is unbearable for the corrugated fiberboard piece 20 of the comparative example is applied to the product 40 during transportation with a forklift. In this case, the cushioning member 30 is pushed by the product 40 to move in the direction. At this time, the protrusions 33 may be torn.
Although not illustrated, in contrast to the comparative example illustrated above, in another conceivable structure, the corrugated fiberboard piece 20 may include cut pieces standing upright, and the cushioning member 30 has slits that receive the cut pieces. However, in this structure, the cut pieces of the corrugated fiberboard piece 20 received in the cushioning member 30 may be torn.
Exemplary embodiments described below have structures that prevent such pieces from being torn.
A corrugated fiberboard piece 20 is placed on a pallet 10. An edge portion of the corrugated fiberboard piece 20 is folded upward to form an erect wall 22, and the corrugated fiberboard piece 20 has a dish shape as a whole. The corrugated fiberboard piece 20 includes four positioning portions 23 at positions slightly inward from four corners 12 of the pallet 10 to fix the position of the cushioning member. These positioning portions 23 include slopes 24 (24a, 24b, 24c, 24d) raised in a position inclined with respect to another area. The slope 24 forming each positioning portion 23 is raised in a position leaning toward the closest one of the four corners 12 of the pallet 10. The detailed structure of each positioning portion 23 including the slope 24 will be described later.
The cushioning member 30 has, at the bottom, positioning holes 34 that are recessed to receive the positioning portions 23 of the corrugated fiberboard piece 20. When the cushioning member 30 is placed on the corrugated fiberboard piece 20 while receiving the positioning portions 23 of the corrugated fiberboard piece 20 in the positioning holes 34, the cushioning member 30 is fixed in position. Then, the product 40 is placed on the cushioning member 30 fixed in position.
For example, assume a case where, a strong horizontal force that is unbearable for the erect wall 22 of the corrugated fiberboard piece 20 is applied to the product 40 during transportation with a forklift. In this case, the cushioning member 30 is pushed by the product 40 to move. At this time, a force in the same direction is also applied to the positioning portions 23 of the corrugated fiberboard piece 20 received in the positioning holes 34 of the cushioning member 30. The positioning portions descried below have a structure that is less easily torn regardless of receiving such a force.
The pallet 10 corresponds to an example of a base in the disclosure, and the corrugated fiberboard piece 20 corresponds to an example of an underlay in the disclosure.
The positioning portions will be described now.
The corrugated fiberboard piece 20 is cut along the solid line illustrated in
Then, as illustrated in
In this example, the folded pieces 25 are disposed on both sides of the slope 24. Thus, compared to a case where the folded piece 25 is disposed on only one side, this structure stably retains the angle of the slope 24.
Assume a case where a force in a direction indicated with arrow F, that is, in a direction in which the slope 24 is further inclined is applied. At this time, the folded pieces 25 on both sides of the slope 24 are folded down and collapsed to press down the slope 24 into an approximately flat position. Thus, a force of pressing down the slope 24 is exerted on the positioning portion 23, and thus the positioning portion 23 is substantially prevented from being torn and separated from the corrugated fiberboard piece 20. Regardless of when each positioning portion 23 receives a force in a direction of pressing down the slope 24 that is inclined further than arrow F indicated here, although the folded pieces 25 are crushed differently between the left and right sides, the positioning portion 23 is substantially prevented from being torn and separated from the corrugated fiberboard piece 20.
As described above, as illustrated in
Assume a case where, for example, a force in the direction of arrow F illustrated in
As in the case of
After being cut, the portion is folded along a folding line 26, and, as illustrated in
Then, as illustrated in
Again assume a case where a force in a direction indicated with arrow F, that is, in a direction in which the slope 24 is further inclined is applied. At this time, as illustrated in
A folded piece 25 in a positioning portion 23 according to the third example is cut into a shape including a narrow portion 25d having a small width, and raised along the folding line 26. Then, the folded piece 25 is folded along the folding line 27, and the end portions of the folded piece 25 are hooked on edges 29 of the hole 28 partially forming the narrow portion 25d. In this third example, a combination of the folded piece 25 and the edges 29 of the hole 28 on which the end portions of the folded piece 25 are hooked corresponds to an example of a support portion in the disclosure. The degree of the slope 24 to fall when receiving a force in the direction of arrow F is adjusted by changing, for example, the width or length of the narrow portion 25d of the folded piece 25.
The positioning portion 23 according to a fourth example is cut in a trapezoid while leaving a side along the folding line 26 uncut, and at the same time, cut into a rectangular while leaving a side along the folding line 27 uncut. Then, the positioning portion 23 is raised along the folding line 26, and the folded piece 25 is folded along the folding line 27 back in a direction of arrow X, and the end portion of the folded piece 25 is hooked on the edge 29 of the hole 28. In the fourth example, a combination of the folded piece 25 and the edge 29 of the hole 28 on which the end portion of the folded piece 25 is hooked corresponds to an example of a support portion in the disclosure. The degree of the slope 24 to fall when receiving a force in the direction of arrow F is adjusted by changing, for example, the width or length of the folded piece 25.
In the positioning portion 23 according to the fifth example, the slope 24 and the folded piece 25 are separately cut and raised to form two holes 28a and 28b. The slope 24 is cut in a shape having a recess 24e at the end in the middle, and folded along the folding line 26. On the other hand, the folded piece 25 is cut into a shape including a wide hook 25e at the end, and folded along the folding line 27. The hook 25e of the folded piece 25 is hooked on the recess 24e of the slope 24. Thus, the slope 24 is supported in an oblique position. In this fifth example, the folded piece 25 corresponds to an example of a support portion in the present disclosure.
The above exemplary embodiment of the disclosure provides a shock-absorbing structure and a transportation pallet capable of at least partially preventing pieces of components from being torn when receiving a lateral force while the cushioning member 30 is fixed in position.
The foregoing description of the exemplary embodiments of the present disclosure has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the disclosure and its practical applications, thereby enabling others skilled in the art to understand the disclosure for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the disclosure be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2021-135258 | Aug 2021 | JP | national |
Number | Name | Date | Kind |
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4375261 | Kitchell | Mar 1983 | A |
20020056386 | Sekino | May 2002 | A1 |
Number | Date | Country |
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4119363 | Feb 1993 | DE |
202009016816 | Apr 2010 | DE |
H07205989 | Aug 1995 | JP |
2000296833 | Oct 2000 | JP |
2002104395 | Apr 2002 | JP |
201103840 | Feb 2011 | TW |
Entry |
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DE_4119363_A1_translation.pdf (Year: 1993). |
Number | Date | Country | |
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20230055883 A1 | Feb 2023 | US |