JP6650380B2 - palette - Google Patents

Description

  TECHNICAL FIELD The present invention relates to a pallet having an opening in a deck surface on which articles are placed.

  Patent Literature 1 describes an example of a pallet in which a storage section is opened on a deck surface. In such a pallet, a pair of fork insertion portions is formed so as to penetrate so as to open to the side wall of the pallet. In the pallet, a storage portion that opens to the deck surface is provided at an intermediate girder located between the pair of fork insertion portions. When the roll body is placed on the deck surface of such a pallet, by disposing the end of the core of the roll body in the housing portion, it is possible to suppress displacement of the roll body on the deck surface.

JP 2008-94431 A

  When a part of an article is accommodated in the accommodating portion opened on the deck surface as described above, a load may be input from the article to the peripheral wall of the accommodating portion. Therefore, there is a demand for an improvement in the rigidity of the peripheral wall so that the peripheral wall is not damaged by a load input from an article stored in the storage section.

  An object of the present invention is to provide a pallet capable of increasing the rigidity of a peripheral wall of a storage portion opened on a deck surface while suppressing a decrease in rigidity of a forklift inserted into a fork insertion portion with respect to a fork. .

  A pallet for solving the above-mentioned problem is a pair of end girders, an intermediate girder which is disposed between the both end girders and has a receiving portion opened to the deck surface, And a pair of connecting board portions disposed between the end girders. In the pallet, when the direction in which the girder is arranged is a first direction among directions along the deck surface and a second direction is a direction orthogonal to the first direction, the first direction On both sides of the intermediate girder, a pair of fork insertion portions extending in the second direction is defined by the intermediate girder, the end girder, and the connection board portion. In the pallet having such a premise, the connection board portion includes a plurality of first connection ribs extending in the first direction and a plurality of second connection ribs extending in the second direction. Are provided so as to form a lattice, and the intermediate girder is provided with a housing portion peripheral wall which is a peripheral wall of the housing portion, and is connected to the housing portion peripheral wall and radially extends from the housing portion peripheral wall. And a plurality of radial ribs.

  According to the above configuration, the connection board portion has the second connection rib extending substantially in the same direction as the direction in which the fork inserted into the fork insertion portion extends, and the first connection rib orthogonal to the second connection rib. The ribs are provided so as to form a lattice. Therefore, it is possible to suppress a decrease in the rigidity of the pallet (particularly, the connection board portion supported by the fork) with respect to the fork inserted into the fork insertion portion.

  Further, a plurality of radial ribs extending radially from the peripheral wall of the housing, which is the peripheral wall of the housing, are provided on the intermediate girder where the housing is formed. Therefore, the rigidity of the housing portion peripheral wall can be increased as compared with the case where the rib connected to the housing portion peripheral wall is a rib extending in the first direction or a rib extending in the second direction. .

  In one example of the pallet, the intermediate girder has an annular intermediate girder peripheral wall forming an outer shell of the intermediate girder. In this case, it is preferable that one end of each of the radial ribs is connected to the peripheral wall of the housing, and the other end of each of the radial ribs is connected to the peripheral wall of the intermediate girder.

  According to the above configuration, when a load is input to the peripheral wall of the storage unit from an article inserted into the storage unit, the load is input to the radial rib. At this time, the load input to the radial rib is transmitted to the peripheral wall of the intermediate girder. Therefore, compared with the case where the radial rib is not connected to the intermediate girder peripheral wall, the rigidity of the housing portion peripheral wall can be further increased.

  In an example of the pallet, the intermediate girder peripheral wall includes a pair of intermediate girder partition walls that are portions adjacent to the connection board part. In this case, each of the first connection ribs of the connection board portion is connected to the intermediate girder partition wall portion, and among the respective radial ribs, the radial ribs connected to the intermediate girder partition wall portion Is preferably connected to an intersection of the intermediate girder partition wall with the first connection rib.

  According to the above configuration, when a load is input to the radial rib connected to the intermediate girder partition wall from the peripheral wall of the housing, the load is easily input to the first connection rib. As a result, the load applied to the radial ribs can be easily dispersed, so that the rigidity of the housing portion peripheral wall can be further increased.

In one example of the pallet, the intermediate girder is provided with a connection rib intersecting with the radial rib and connected to the intermediate girder partition wall.
According to the above configuration, since the connection rib intersects with the radial rib, it is possible to suppress the radial rib from being bent by the weight of the article placed on the deck surface.

In one example of the pallet, the connection rib is connected to an intersection of the intermediate girder partition wall with the first connection rib.
According to the above configuration, the load input to the connection rib through the radial rib is easily transmitted to the first connection rib. Therefore, the rigidity of the radial ribs is increased, and the rigidity of the peripheral wall of the housing can be further increased.

  In one example of the pallet, each of the end girders has an annular end gird peripheral wall constituting an outer shell of the end girders. In this case, when a portion of the end girder peripheral wall adjacent to the connection board portion is defined as an end girder partition wall portion, each of the first connection ribs of the connection girder board is provided inside the end girder peripheral wall. Are preferably connected to intersections of the end girder ribs provided in the end girder and the end girder partition walls.

  According to the above configuration, since the first connection rib is connected to the end girder rib forming the end girder, the rigidity of the connection board portion can be increased.

  According to the pallet having the above configuration, it is possible to increase the rigidity of the peripheral wall of the storage portion that is open on the deck surface, while suppressing a decrease in rigidity of the forklift inserted into the fork insertion portion with respect to the fork.

The perspective view showing one embodiment of a pallet. The perspective view at the time of seeing the same pallet from the back side. The side view of the same pallet. FIG. 4 is a sectional view taken along line 4-4 in FIG. 3. The perspective view which shows a mode that a roll body is mounted on the deck surface of the same pallet. The perspective view showing the state where the core member was inserted in the accommodation part of the same pallet. The perspective view showing the state where the core member was inserted in the accommodation part of the same pallet.

An embodiment of the pallet will be described below with reference to FIGS.
As shown in FIGS. 1 and 2, the pallet 10 of the present embodiment is provided with a circular deck surface 11 on which articles such as rolls are placed, A pair of fork insertion portions 13 extending in the X direction (second direction) are formed. Among the directions along the deck surface 11, an intermediate girder 20 is disposed between the pair of fork insertion portions 13 in a Y direction (first direction) orthogonal to the X direction. An accommodation portion 21 extending in the Z direction, which is a direction orthogonal to the deck surface 11, is formed through. That is, the housing 21 is open to the deck surface 11.

  As shown in FIGS. 1 and 3, a pair of end girders 30 </ b> A and 30 </ b> B is disposed on the opposite side of the intermediate girder 20 across the fork insertion part 13 in the Y direction. Further, connecting board portions 40A, 40B are provided between the intermediate girder 20 and the end girders 30A, 30B. That is, the intermediate girder 20 and the end girder 30A are connected via the connection board 40A, and the intermediate girder 20 and the end girder 30B are connected via the connection board 40B. As shown in FIG. 3, of the two fork insertion portions 13, the right fork insertion portion 13 in the drawing is defined by the intermediate girder 20, the connecting board portion 40 </ b> A, and the end girder 30 </ b> A, and the left fork insertion portion 13 in the drawing. The fork insertion part 13 is defined by the intermediate girder 20, the connecting board part 40B and the end girder 30B. Further, in the present embodiment, the deck surface 11 of the pallet 10 is constituted by the upper surface of the intermediate girder 20 in the drawing, the upper surfaces of the two connecting board portions 40A and 40B in the drawing, and the upper surfaces of both end girders 30A and 30B in the drawing.

  In addition, as shown in FIGS. 1 and 3, in this specification, the opening of the storage portion 21 on the deck surface 11 is referred to as “storage opening 211”, and the opening of the fork insertion portion 13 in the side wall 12 of the pallet 10. This is referred to as “fork insertion opening 131”.

<Connecting board parts 40A, 40B>
As shown in FIG. 4, a plurality of (11 in the present embodiment) first connecting ribs 41 extending in the Y direction and a plurality of (11 in the present embodiment) extending in the X direction are provided on the connecting board portions 40A and 40B. (Two) second connection ribs 42. Each of the first connecting ribs 41 is arranged in the X direction, and each of the second connecting ribs 42 is arranged in the Y direction. Therefore, in the connection board portions 40A and 40B, a lattice is formed by each first connection rib 41 and each second connection rib 42. Note that both ends of the second connection rib 42 are connected to the side wall 12 of the pallet 10.

<Middle digit 20>
As shown in FIG. 4, the intermediate girder 20 is an annular intermediate girder peripheral wall 22 that forms the outer periphery of the intermediate girder 20, and a housing part peripheral wall that is a peripheral wall of the housing part 21 that is disposed inside the intermediate girder peripheral wall 22. 21A. In the present embodiment, the housing portion peripheral wall 21A has a cylindrical shape. The intermediate girder peripheral wall 22 includes a pair of intermediate girder partition walls 22A to which the connection board portions 40A and 40B are connected. Each of the intermediate girder partition walls 22A extends in the X direction. The first connecting ribs 41 of the connecting board portions 40A and 40B are connected to the intermediate girder partition wall portion 22A.

  The intermediate girder 20 is provided with a plurality of radial ribs 23 extending radially from the housing portion peripheral wall 21A. These radial ribs 23 are arranged at intervals in the circumferential direction around the central axis A of the housing portion peripheral wall 21A. An inner end (one end) of the radial rib 23 in the radial direction about the center axis A is connected to the housing portion peripheral wall 21A, and an outer end (the other end) of the radial rib 23 in the same radial direction. ) Is connected to the intermediate girder peripheral wall 22.

  Some of the radial ribs 23 are connected to the intermediate girder partition wall 22A. Thus, the end of the radial rib 23 connected to the intermediate girder partition wall 22A is connected to the intersection G1 between the intermediate girder partition wall 22A and the first connecting rib 41.

  The intermediate girder 20 has one end connected to one intermediate girder partition wall 22A of the two intermediate girder partition walls 22A, and the other end connected to the other intermediate girder partition wall 22A. A plurality of connection ribs 24 are provided. An end of each connection rib 24 is connected to an intersection G1 between the intermediate girder partition wall 22A and the first connection rib 41. Each connection rib 24 has an arc shape so as to extend in the circumferential direction. Therefore, each connection rib 24 crosses the plurality of radial ribs 23.

<End girder 30A, 30B>
As shown in FIG. 4, the end girders 30A, 30B have an annular end gird peripheral wall 31 that forms the outer shell of the end girders 30A, 30B. The end girder peripheral wall 31 includes an end girder partition wall portion 31A to which the connection board portions 40A and 40B are connected. The end girder partition wall 31A extends in the X direction. The second connecting ribs 42 of the connecting board portions 40A and 40B are connected to the end girder partition wall portion 31A.

  Further, a plurality of end girders ribs 32 extending in the radial direction are provided inside the end girder peripheral wall 31 in the end girders 30A and 30B. Each of the end girders 32 is arranged along the circumferential direction, and one end of each end girder rib 32 is located at an intersection G2 with the first connecting rib 41 in the end girder partition wall 31A. Each is connected.

  Next, with reference to FIG. 5, the operation of the pallet 10 of this embodiment will be described together with its effects. FIG. 5 shows an example in which the roll body 50 is placed on the deck surface 11 of the pallet 10. The roll body 50 has a core 51 extending in the Z direction, which is the vertical direction in the figure. Then, when the roll body 50 is placed on the deck surface 11, the end 511 of the core 51 is accommodated in the accommodation portion 21 opened on the deck surface 11.

  Then, for example, the roll body 50 is transported together with the pallet 10 in a state where the fork of the forklift is inserted into the fork insertion portion 13 of the pallet 10. In this case, the connection board portions 40A and 40B of the pallet 10 are arranged on the fork inserted into the fork insertion portion 13. In the present embodiment, the connection board portions 40A and 40B have the second connection ribs 42 extending in substantially the same direction (X direction) as the insertion direction of the fork, and each of the second connection ribs 42 is The two connecting ribs 42 are connected by a first connecting rib 41 extending in the Y direction orthogonal to the extending direction of the two connecting ribs 42. Therefore, compared to the case where the ribs provided on the connection board portions 40A and 40B are the ribs extending in the radial direction or the ribs extending in the circumferential direction, the connection board for the fork inserted into the fork insertion portion 13 is compared. The rigidity of the portions 40A and 40B can be increased.

  Each first connecting rib 41 is connected to an intersection G2 of the end girder partition wall 31A of the end girder peripheral wall 31 with the end girder rib 32. Therefore, the rigidity of the first connecting ribs 41, that is, the rigidity of the connecting board portions 40A and 40B, is increased because the load input to the first connecting ribs 41 is easily input to the ribs 32 for end girders. it can.

  When the roll body 50 is conveyed while being placed on the deck surface 11, the end 511 of the winding core 51 housed in the housing part 21 comes into contact with the housing part peripheral wall 21 </ b> A, and In some cases, a load is input to the housing portion peripheral wall 21A. In the present embodiment, a plurality of radial ribs 23 connected to the housing peripheral wall 21A are provided. That is, the intermediate girder 20 is provided with the ribs extending in the direction substantially the same as the direction of the load input from the winding core 51 at the intersection with the radial ribs 23 on the housing peripheral wall 21A, that is, the radial ribs 23. In this case, a load is input to the radial rib 23 from a direction parallel to its own extending direction. Therefore, the rigidity of the housing portion peripheral wall 21A can be increased as compared with the case where the rib provided on the intermediate girder 20 is a rib extending in the X direction or a rib extending in the Y direction.

  Each radial rib 23 is also connected to the intermediate girder peripheral wall 22, respectively. Therefore, when a load is input from the winding core 51 accommodated in the accommodating portion 21 to the accommodating portion peripheral wall 21 </ b> A, the load input to the radial ribs 23 is transmitted to the intermediate girder peripheral wall 22. Therefore, compared with the case where the radial ribs 23 are not connected to the intermediate girder peripheral wall 22, the rigidity of the housing portion peripheral wall 21A can be further increased.

  The radial rib 23 connected to the intermediate girder partition wall 22A of the intermediate girder peripheral wall 22 is connected to an intersection G1 with the first connecting rib 41 in the intermediate girder partition wall 22A. Therefore, when a load from the winding core 51 stored in the storage unit 21 is input to the radial rib 23, the load is easily input to the first connection rib 41. As a result, since the load input to the radial ribs 23 is easily dispersed, the rigidity of the housing portion peripheral wall 21A can be further increased.

  In the intermediate girder 20, a plurality of radial ribs 23 are connected by connecting ribs 24, and the connecting ribs 24 are connected to the intermediate girder partition wall 22A. Therefore, bending of the radial ribs 23 due to the weight of the roll body 50 placed on the deck surface 11 can be suppressed.

  The connection rib 24 is connected to an intersection G1 with the first connection rib 41 on the intermediate girder partition wall 22A. Therefore, the load input to the connection rib 24 through the radial rib 23 is easily transmitted to the first connection rib 41. Therefore, the rigidity of the radial ribs 23 is increased, and the rigidity of the housing portion peripheral wall 21A can be further increased.

  Furthermore, in the present embodiment, the extending direction of the ribs (radial ribs 23 and connection ribs 24) provided on the intermediate girder 20 and the ribs (first connection ribs 41 and 40) provided on the connection board portions 40A and 40B are provided. The extending directions of the second connecting ribs 42) are different from each other. Therefore, an operator who views the pallet 10 from the deck surface 11 side can easily specify the position of the fork insertion portion 13. Therefore, it becomes easy to insert the fork of the forklift into the fork insertion portion 13.

  In particular, in the case of a circular pallet, when the pallet is viewed from the deck surface side as shown in FIG. 1, it appears that the fork can be inserted into the pallet from both the X direction and the Y direction. In this regard, in the pallet 10 of the present embodiment, while the second connecting rib 42 extending in the X direction, which is the insertion direction of the fork, extends over the entire length of the pallet 10, the Y is perpendicular to the insertion direction. The first connecting rib 41 extending in the direction does not extend over the entire length of the pallet 10. For this reason, it is difficult for the operator to mistake the insertion direction of the fork into the pallet 10.

Next, with reference to FIGS. 6 and 7, an operation when the pallet 10 is used in a different manner from the case where an article such as the roll body 50 is conveyed while being placed on the deck surface 11 will be described.
In the example shown in FIGS. 6 and 7, the pallet 10 is set on the turntable 60. An end of a core member 61 for winding a long medium such as roll paper is accommodated in the accommodation section 21 of the pallet 10. The core member 61 has a shaft member 62, a plurality of fixing members 63 arranged on the outer periphery of the shaft member 62, and an urging member arranged between the shaft member 62 and the fixing member 63. I have. Then, in a state where the end of the core member 61 is housed in the housing portion 21, the fixing member 63 is pressed against the housing portion peripheral wall 21A as shown in FIG. By rotating the turntable 60 in the direction of the arrow shown in FIG. 7 in this state, a long medium can be wound around the core member 61.

  As described above, the fixing member 63 is pressed against the housing portion peripheral wall 21A. In the pallet 10 of the present embodiment, as described above, the rigidity of the housing portion peripheral wall 21A is increased by the ribs (radial ribs 23 and connection ribs 24) provided on the intermediate girder 20. Therefore, even if the fixing member 63 is pressed against the housing portion peripheral wall 21A, it is possible to prevent the housing portion peripheral wall 21A from being damaged.

The above embodiment may be changed to another embodiment as described below.
The rib 32 for the end girders provided on the end girders 30A and 30B may extend in the same direction as the Y direction which is the extending direction of the first connecting rib 41.

The end girders 30A and 30B may be configured such that the end girder ribs 32 are connected to the end girder partition wall 31A at a position different from the intersection G2.
-The connection rib 24 may be arranged so that the intersection with the connection rib 24 in the intermediate girder partition wall 22A is different from the intersection G1 with the first connection rib 41 in the intermediate girder partition wall 22A. .

  The connection rib 24 may have any other shape other than the arc shape in plan view as long as it is connected to the pair of intermediate girder partition walls 22A and crosses the plurality of radial ribs 23. . For example, the connection rib 24 may be a rib that extends in the Y direction and has a linear shape in plan view.

  The radial ribs 23 may be provided so that the intersection with the radial rib 23 on the intermediate girder partition wall 22A is different from the intersection G1 with the first connection rib 41 on the intermediate girder partition wall 22A. .

As long as one end of the radial rib is connected to the housing portion peripheral wall 21A, the other end may not be connected to the intermediate girder peripheral wall 22.
In the above embodiment, the accommodation portion 21 is formed in the intermediate girder 20 of the pallet 10 so as to penetrate in the Z-axis direction. However, the housing portion need not be a through hole as long as it is open on the deck surface 11. For example, the housing may be concave.

  DESCRIPTION OF SYMBOLS 10 ... Pallet, 11 ... Deck surface, 13 ... Fork insertion part, 20 ... Intermediate girder, 21 ... Housing part, 21A ... Housing part peripheral wall, 22 ... Intermediate girder peripheral wall, 22A ... Intermediate girder partition wall part, 23 ... Radial rib, Reference numeral 24: connection rib, 30A, 30B: end girder, 31: end girder peripheral wall, 31A: end girder partition wall portion, 32: end girder rib, 40A, 40B: connection board portion, 41: first connection rib, 42 ... Second connecting rib.

Claims (2)

A pair of end girders, an intermediate girder arranged between the both end girders and having a receiving portion open to the deck surface, and arranged between the intermediate girder and the end girder. And a pair of connecting board parts,
Of the directions along the deck surface, the direction in which the girder is lined up is defined as a first direction, and the direction orthogonal to the first direction is defined as a second direction. On a pallet, on both sides, a pair of fork insertion portions extending in the second direction is defined by the middle girder, the end girder, and the connection board portion.
The connection board portion includes a plurality of first connection ribs extending in the first direction and a plurality of second connection ribs extending in the second direction, forming a grid. Has been
Wherein the intermediate spar, and the housing peripheral wall is a wall of said housing portion, and a plurality of radial ribs which extend radially from be connected to the housing peripheral wall and the housing peripheral wall, it is provided with ,
The intermediate girder has an annular intermediate girder peripheral wall constituting an outer shell of the intermediate girder,
One end of each of the radial ribs is connected to the housing portion peripheral wall, and the other end of each of the radial ribs is connected to the intermediate girder peripheral wall, respectively.
The intermediate girder peripheral wall includes a pair of intermediate girder partition walls that are portions adjacent to the connection board unit,
Each of the first connection ribs of the connection board portion is connected to the intermediate girder partition wall portion, respectively,
Of the radial ribs, a radial rib connected to the intermediate girder partition wall is connected to an intersection of the intermediate girder partition wall with the first connection rib,
A pallet , wherein the intermediate girder is provided with a connection rib that intersects with the radial rib and is connected to an intersection of the intermediate girder partition wall with the first connection rib . Each of the end girders has an annular end gird peripheral wall constituting an outer shell of the end girder,
When a portion of the end girder peripheral wall adjacent to the connection board portion is an end girder partition wall portion, each of the first connection ribs of the connection girder portion is provided inside the end girder peripheral wall. The pallet according to claim 1, wherein the pallet is connected to intersections of the end girder ribs and the end girder partition wall.

Images