JP4460091B2 - Assembly container - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a large assembly container that can be transported by a forklift.
[0002]
[Prior art]
Conventionally, a wooden container is known as a large container, and when transporting a stored item in the large wooden container, the wooden container is palletized because of its large capacity and heavy weight. However, the wooden container is not integrated with the pallet, so it must be placed on the pallet and unloaded from the pallet. When storing and transporting in an empty state, it takes a large space, and for these reasons, there is a problem that the distribution cost and the storage cost increase. In addition, because the container is large enough to put or remove things in or out of a large wooden container, the operator is placed on or inside the upper opening edge of the large wooden container. Therefore, there is a problem that the storage must be taken in and out beyond the side plate, which is very troublesome and troublesome.
[0003]
Therefore, the present applicant arranges side plates on the four sides of the upper surface of the pallet, and a substantially comb-shaped engagement portion provided at the end portion of one side plate at the corner portion where the side plates are adjacent to each other at right angles and the end of the other side plate. An assembly container that detachably meshes with a substantially comb-shaped meshing portion provided in the section, and inserts a coupling rod into the coupling hole provided in the meshing portion of both side plates and the pallet, and is screwed with a nut. No. 5-16106.
[0004]
This can be easily disassembled by removing the connecting rod, and disassembling can reduce the transportation cost and storage cost.
[0005]
However, in this conventional example, the connecting rod is connected to the pallet in a state where the substantially comb-like engaging portions of the side plates adjacent to each other at right angles are engaged with each other, and the side plates are erected on the lower surface of each side plate. In the state where the four side plates are assembled into a quadrangle by meshing the meshing portions, the fitting configuration is employed in which the fitting projections are fitted into the fitting recesses formed on the upper surface of each side portion of the pallet. The side plate cannot be built on the four sides of the pallet unless the procedure of fitting the fitting protrusions of the side plates into the fitting recesses of the pallet is taken. In other words, after assembling the three side plates in a U-shape and building them on the three sides of the pallet, even if you try to attach the remaining one side plate, the meshing parts are engaged by fitting from the horizontal direction. However, the fitting projection and the fitting recess are fitted from the vertical direction, and it is impossible to perform both at the same time. Therefore, the three side plates are assembled in a U-shape and the pallet 3 is assembled. After it is built in the side, the remaining one side plate cannot be attached.
[0006]
In the above conventional example, after the three side plates are assembled in a U shape and built on the three sides of the pallet, not only the remaining one side plate can be attached, but also the three side plates Assembled in a U-shape and built on the three sides of the pallet, the remaining one side plate is connected to one end of the side plate assembled and built in a U-shape with a connecting rod, and the other end Even if the part is released by releasing the connection by the connecting rod, the end of the engagement part of the conventional example is not shaped to be able to rotate without being obstructed by the end face of the adjacent side plate, By rotating and opening one side plate, it is not possible to make it easy to put in and out the stored items. In addition, as described above, since the fitting protrusion and the fitting recess need to be fitted in the vertical direction, in this respect as well, the conventional example pivots one side plate to open and pivots to close. It cannot be connected with a connecting rod.
[0007]
For the above reasons, in the conventional example, one side plate can be rotated as a side cover, one side of a large assembly container is opened, and the stored items are taken into and out of the assembly container from the opening. I could not.
[0008]
In view of this, the present inventor considered that in the course of reaching the present invention, the side plate can be rotated freely as a side lid, and one side of a large assembly container is opened, and a stored item is taken into and out of the assembly container from the opening. However, in order to make the side plate freely rotatable, only both ends are connected to the pallet by means of a detachable rotating shaft, and the intermediate part of the side plate can be rotated with respect to the pallet, that is, the side plate as in the past. The fitting projection that is integrally projected on the lower surface cannot be configured to fit into the fitting recess of the pallet. For this reason, the intermediate part of the side plate swells outward or is recessed inward due to the stored items. In particular, when the intermediate portion of the side plate is pushed by the stored item and bulges outward, the side plate and the rotating shaft portion may be damaged.
[0009]
[Problems to be solved by the invention]
The present invention has been made in view of the above points, and can be easily disassembled and made compact when not in use in a large assembly container, so that it does not take up a large space when it is transported and stored, When used, the side plate can be pivoted open with a simple structure, allowing the stored items to be easily put in and out of the assembly container. By connecting the middle part of the side plate to the pallet with the configuration, it is possible to prevent the side plate from bulging outward or indenting, and holding the lock member with a simple configuration while locked by the lock member, It is another object of the present invention to provide an assembly container that can hold the lock member in the unlocked state with a simple configuration.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, an assembly container according to the present invention has side plates 3 arranged on four sides of an upper surface portion of a pallet 2 having a fork insertion portion 1 into which a fork claw of a forklift is inserted. The end portions of the side plates 3 adjacent to each other are connected to each other by a rotating shaft 5 so as to be rotatable and detachable, and a lower end portion of the rotating shaft 5 is detachably connected to a corner portion of the pallet 2 so that an arbitrary side plate 3 is connected to both ends. One end is removed from the rotating shaft 5 which is connected to the end of the adjacent side plate 3 and the pallet 2 and the other end is connected to the end of the other adjacent side plate 3 and the pallet 2. The other rotating shaft 5 that is connected to the end of the other adjacent side plate and the pallet can be rotated around the other rotating shaft 5 without being detached from the other rotating shaft 5 connected. The locking member 23 is provided at the lower end of the side plate 3 so as to protrude downward. A lock groove 15 that opens upward is formed in the spar of the pallet 2, and a lock member 23 is provided in the lock groove 15 formed in the spar of the pallet 2. It is characterized in that it can be fitted freely. By adopting such a configuration, when not in use, the rotating shaft 4 can be removed, the connection between the side plates 3 and the connection between the side plate 3 and the pallet 2 can be released and disassembled, so that compactness can be achieved. In addition, it is possible to save space in storage, and in use, side plates 3 are arranged on the four sides of the upper surface of the pallet 2, and the end portions of the adjacent side plates 3 are rotatable and detachable by the rotation shaft 5. By freely connecting and connecting the lower end of the rotating shaft 5 to the corner of the pallet 2 detachably, the side plate 3 is assembled and built on the four sides of the pallet 2 and connected to the pallet 2 by the rotating shaft 5. The assembly container A can be configured by attaching the pallet 2 to the assembly container A, and the pallet 2 can be easily moved by transporting it with a forklift in a state in which the storage object is stored in the assembly container A. Put in and out When one end of one side plate 3 is removed from the end of the adjacent side plate 3 and the rotating shaft 5 connected to the pallet 2 and the other end of the side plate 3 is freed. By rotating and opening about the other rotating shaft 5 connected to the end of the adjacent side plate and the pallet, the stored item can be taken in and out of the assembly container A, and the stored item When the loading / unloading is completed, the side plate 3 is turned and closed, and the side plates 3 can be connected to each other and connected to the pallet 2 by the rotary shaft 5. The pallet 2 is provided with a lock member 23 which is provided on the pallet 2 and is movable up and down. Open upward in the girder part By fitting in the lock groove 15, it is possible to prevent the side plate 3 from bulging outward or dent inward, and when the side plate 3 is rotated, the lock member 23 is pulled upward. Thus, the side plate 3 can be easily rotated without being unlocked and being obstructed by the lock member 23.
[0011]
In addition, the lock member storage portion 16 is formed in the lower portion of the side plate 3, the lock member 23 is stored in the lock member storage portion 16, and the lower portion of the lock member 23 can protrude from below the side plate 3. It is preferable to provide a lock state holding means for holding the state of protruding below the side plate 3 and fitted in the lock groove 15. By adopting such a configuration, the lock is not released due to vibration or the like while being locked by the lock member 23.
[0012]
In addition, the lock member storage portion 16 is formed in the lower portion of the side plate 3, the lock member 23 is stored in the lock member storage portion 16, and the lower portion of the lock member 23 can protrude from below the side plate 3. However, it is preferable to provide a lifted state holding means for holding a state in which the lock member storage portion 16 is completely lifted. The lock member 23 is unlocked and lifted to prevent the lock member 23 from protruding downward due to vibration or the like in a state where the lock member 23 is completely stored in the lock member storage portion 16.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.
[0014]
As shown in FIGS. 1 and 2, the assembly container A is configured by detachably placing four side plates 3 made of synthetic resin on the four sides of the upper surface of the pallet 2 made of synthetic resin. .
[0015]
The pallet 2 has a square shape in plan view or a rectangular shape in plan view. In the embodiment shown in the accompanying drawings, an example of a square shape in plan view is shown. The pallet 2 is provided with a fork insertion portion 1 into which a fork claw of a forklift is inserted, and is opened laterally on the side surface of the pallet 2. Mounting holes 8 are formed at the four corners of the pallet 2 so as to penetrate vertically. The upper part of the mounting hole 8 is a large diameter hole 8a, and the lower part is a small diameter hole communicating with the large diameter hole 8a. This is part 8b.
[0016]
As shown in FIG. 4, a bolt 9 is inserted into the mounting hole 8 from below, and a nut 10 is screwed onto the top of the bolt 9. By tightening the nut 10, the head 9 a of the bolt 9 is inserted. Is pressed against the outer peripheral edge of the lower end opening of the small diameter hole portion 8b and the nut 10 is pressed against the stepped portion 11 connecting the lower end portion of the large diameter hole portion 8a and the upper end portion of the small diameter hole portion 8b through a washer, As a result, the bolt 9 is attached to the attachment hole 8. The bolt 9 attached in this way is such that the upper part of the nut 10 is positioned in the large-diameter hole 8a and does not protrude upward from the upper surface of the pallet 2. The head 9a of the bolt 9 protrudes below the mounting hole 8, but the outer periphery of the head 9a is covered with skirts 12 provided at the four corners of the pallet 2 so that it cannot be seen from the outside. is there.
[0017]
Further, a lock groove 15 as shown in FIG. 5 is formed in each intermediate part of the four sides of the pallet 2, and a drain hole 15 a is formed in the groove bottom of the lock groove 15.
[0018]
As shown in FIGS. 6 to 8, the side plate 3 is provided with bearings 4 at both ends. Here, on the end surface of the side plate 3, the bearing portions 4 are projected at a plurality of locations in the vertical direction, and the portions where the vertical bearing portions 4 on the end surface of the side plate 3 are not projected are the recessed portions 7. That is, the bearing portions 4 and the recessed portions 7 are alternately provided on the end surface portion of the side plate 3 in the vertical direction. The bearing 4 protrudes from the end face within the width of the end face of the side plate 3. Therefore, even if the bearing 4 is provided at both ends of the side plate 3, the bearing 4 intersects the front or back surface of the side plate 3. The flat state of the side plate 3 is maintained without protruding in the direction.
[0019]
The bearing 4 provided at one end of the side plate 3 is at a height position corresponding to the recess 7 provided at the other end, and the bearing 4 provided at the other end of the side plate 3 is at one end. The height position corresponds to the provided recess 7.
[0020]
The bearing portion 4 is provided with a hole 13 penetrating in the vertical direction. In the embodiment shown in FIGS. 6 to 8, the three bearing portions 4 and the recessed portions 7 are alternately provided in the vertical direction at both ends of the side plate 3, but of the three bearing portions 4 at both ends, The upper and lower two bearing portions 4 are each formed of a cylindrical body and are a hole 13 that vertically penetrates the cylindrical body, but the intermediate bearing portion 4 has a horizontal cross section U-shaped opening on the surface side. A U-shaped portion 14a and a U-shaped portion 14b having a U-shaped horizontal cross section that opens to the back surface side are alternately and integrally connected to each other, and the U-shape that opens to the front surface side. The hole 13 penetrating vertically is formed by continuously connecting the shaped part 14a and the U-shaped part 14b opened on the back side integrally.
[0021]
Here, the bearing portion 4 positioned in the middle may be formed of a cylindrical body, but if the bearing portion 4 positioned in the middle is configured of a cylindrical body, the intermediate cylindrical body is molded when molded with synthetic resin. However, as described above, the U-shaped portion 14a that opens the bearing portion 4 located in the middle on the front surface side and the U-shaped portion 14b that opens on the back surface side are integrally formed one above the other. By forming the holes 13 that are continuously provided so as to penetrate vertically, it is possible to mold the bearing portion 4 positioned in the middle by opening the mold on the front side and the back side.
[0022]
A lock member storage portion 16 is formed in the lower portion of the central portion on the surface side of the side plate 3. As shown in FIG. 11, the lock member storage portion 16 is formed with a groove portion 17 that is recessed from the front surface side to the back side. Only the upper portion of the groove portion 17 is opened to the front surface side, and the front surface side of the groove portion 17 is the front shielding portion 18. Further, an intermediate portion in the front and back direction (front-rear direction) of the lower portion of the groove portion 17 is partitioned by a partition portion 19, and the lower portion of the groove portion 17 is divided into a front groove portion 17a and a rear groove portion 17b that open up and down. A locking step 20 is formed at the rear upper end of the rear groove 17b. Further, a retaining protrusion 21 is provided on both sides of the upper portion of the groove portion 17, and a hook-like locking groove 22 is provided on the rear surface of the upper portion of the groove portion 17.
[0023]
The locking member 23 is as shown in FIG. 13, and an operation portion 25 having a square shape is formed on the upper portion of the vertical leg portion 24, and the front portion of the operation portion 25 is more forward than the front surface of the leg portion 24. The lower surface of the protruding portion is a contact portion 26. Further, protrusions 30 are provided on both side surfaces of the operation unit 25. A rearward projecting portion 27 having an L-shaped cross section is integrally provided from the upper end portion of the operating portion 25, and is inclined so as to be in the back from the lower end portion of the vertical piece of the back projecting portion 27. A first locking piece 28 having elasticity and a second locking piece 29 having elasticity are continuously provided downward. The first locking piece 28 extends from the lower end portions on both sides of the vertical piece of the back projecting portion 27, and a locking claw 28 a is provided at the tip portion, and the second locking piece 29 is provided on the back projecting portion 27. A locking protrusion 29a is formed from the lower end of the center of the vertical piece, has a continuous length shorter than that of the first locking piece 29, and has a back surface with a square shape.
[0024]
The lock member 23 having the above configuration is fitted into the groove portion 17 of the lock member storage portion 16 from the surface side as shown in FIG. In this case, the leg portion 24 of the lock member 23 is fitted into the front groove portion 17a of the lower front portion of the groove portion 17 so as to be movable up and down, and the protrusion 30 hits the back side of the retaining protrusion 21 so that the lock member 23 is The locking claw 28a of the first locking piece 28 is elastically locked to the locking step 20 so that the locking member 23 moves upward in the state of FIG. 11 (c). So that it cannot escape from the opening on the upper surface side of the groove portion 17. Also, the second locking piece 28 has a hook-like locking projection 29a which is elastically locked to the hook-shaped locking groove 22 to hold the lock member 23 in the state shown in FIG. In this embodiment, a lifting state holding means for holding a state in which the lock member 23 is completely pulled upward by elastic locking of the locking protrusion 29a to the locking groove 22 is configured. In the pulled-up holding state of the lock member 23, the lower end of the leg portion 24 of the lock member 23 is set so as not to protrude below the lower end of the side plate 3, and the lower end of the leg portion 24 is inadvertently lowered downward when not in use. It does not protrude and break.
[0025]
As shown in FIG. 2, the side plate 3 is arranged in an upright position on each of the four sides of the top surface of the pallet 2, and the ends of the adjacent side plates 3 and the pallet 2 are detachably attached by the rotating shaft 5. Such an assembly container A is assembled and formed.
[0026]
Here, the rotating shaft 5 is as shown in FIG. 9, and a nut portion 5b is embedded and fixed to the lower end portion of a metal cylindrical body 5a, and the upper end portion of the cylindrical body 5a has a larger diameter than the cylindrical body 5a. The part 5c is fixed, and an operation protrusion 5d is provided on the upper surface of the flange part 5c.
[0027]
Thus, the above-mentioned side plate 3 is stood on the four sides of the upper surface portion of the pallet 2, and the bearing portion 4 provided at the end portion of the side plate 3 is fitted into the recess portion 7 provided at the end portion of the adjacent side plate 3. The bearings 4 of the adjacent side plates 3 are arranged in a plurality of stages shifted vertically so that the holes 13 of the upper and lower stages of the bearings 4 communicate with each other in the vertical direction and communicate with the upper end opening of the mounting hole 8 of the pallet 2. . In this state, the rotary shaft 5 is inserted from the hole 13 of the uppermost bearing portion 4, and the lower end portion of the rotary shaft 5 is inserted into the large-diameter hole portion 8 a of the mounting hole portion 8 of the pallet 2. The nut portion 5b provided at the lower end of the screw is screwed into the upper portion of the bolt 9 positioned in the large-diameter hole portion 8a (the screwing operation is performed by picking the operation protrusion 5d with a finger and rotating it). By pressing the flange portion 5c against the upper surface of the uppermost bearing portion 4, the bearing portions 4 of the adjacent side plates 3 are connected to each other by the rotating shaft 5 and are connected to the pallet 2, thereby assembling and forming the assembly container A. Is. In this assembled state, the operation portion 25 of the lock member 23 is pulled down, the locking projection 29a is removed from the locking groove 22, and the leg portion 24 is locked as shown in FIG. The groove 15 is fitted and locked. In this case, the contact portion 26 abuts against the upper end portion of the front shielding portion 18 so that the lock member 23 does not move downward in the locked state of FIG. The protrusion 29a is elastically locked to the locking step portion 20 so that the lock member 23 does not move upward in the locked state of FIG. Therefore, in this embodiment, the locked state holding means is configured by the contact of the contact portion 26 with the upper end portion of the front shielding portion 18 and the elastic locking of the locking projection 29a to the locking step portion 20, and this locked state. In the lock holding state by the holding means, the side plate 3 is connected to the pallet 2 not only at both end portions but also at the intermediate portion to prevent the intermediate portion from bulging outward or being recessed inward.
[0028]
Here, in order to put in and out the stored items in the assembly container A, the bearing portion 4 at one end of one of the four side plates 3 is removed from the rotating shaft 5, and the intermediate portion of the corresponding side plate 3 is removed. The lock member 23 locked to the pallet 2 is lifted upward to release the lock as shown in FIG. 12B, and the other end of the side plate 3 is rotated around the rotation shaft 5 in this state. As shown in FIG. 3, the side plate 3 is opened to open one side surface of the assembly container A, and the stored items are taken in and out from the opening 31.
[0029]
In order to rotate one side plate 3 around a rotation shaft 5 inserted through the bearing portion 4 at the other end, the tip end portion of the bearing portion 4 does not hit the flange surface of the recessed portion 7 which is the end surface of the adjacent side plate 3. It is necessary to do so. For this reason, in the present invention, the other bearing portion 4 of the side plate 3 is rotatable about the rotation shaft 5 in a state where the one bearing portion 4 of the side plate 3 is detached from the rotation shaft 5 to be free. Thus, an arc surface portion 6 is formed at the tip portion of the other bearing portion 4 to avoid the tip portion from hitting the end surface of another side plate 3 adjacent thereto. In the embodiment shown in the accompanying drawings, a bearing portion 4 projecting within a substantial width of the side plate 3 and a recess portion 7 where the bearing portion 4 does not project are formed in the vertical direction of the end surface of the side plate 3. If the arc surface portion 6 is provided to prevent the inner surface side of the tip portion 4 from hitting the flange surface of the recessed portion 7 of another adjacent side plate 3 when the bearing portion 4 rotates, the side plate 3 is closed. The gap between the end portions of the side plate 3 is prevented from being generated, and the side plate 3 can be rotated without hindrance.
[0030]
In order to remove one end of the side plate 3 from the rotating shaft 5 for rotating as a side lid, the rotating shaft 5 is rotated in the opposite direction to that at the time of attachment, and the rotating shaft 5 is extracted upward and rotated as a side lid. The side plate 3 to be caused to rotate is rotated around the rotation shaft 5 on the other end side of the side plate 3 so that the bearing portion 4 at one end of the side plate 3 is separated from the bearing portion 4 at one end of the adjacent side plate 3. Thereafter, the rotating shaft 5 removed earlier is inserted into the hole 13 of the bearing portion 4 at one end of the adjacent side plate 3, and the nut portion 5b at the lower end portion of the rotating shaft 5 is positioned in the large-diameter hole portion 8a. As shown in FIG. 3, only the bearing portion 4 of the adjacent side plate 3 is connected to the pallet 2 by the rotating shaft 5 as shown in FIG.
[0031]
As shown in FIG. 3, when a side plate 3 is rotated and used to be assembled again as an assembly container A after being put into and out of the assembly container A in a state where the side plate 3 is rotated, it is used to rotate as a side cover. The rotating shaft 5 which connects the edge part of the adjacent side plate 3 corresponding to the one end part side used as the free end of the side plate 3 to the pallet 2 is removed, and then the bearing part 4 and the side of the edge part of the side plate 3 are removed. The bearing 4 at the end of the side plate 3 used to rotate as a lid is shifted up and down, and the adjacent bearings 4 are connected to each other by the rotating shaft 5 in the same manner as in assembly, and the pallet 2 is connected. Further, the lock member 23 attached to the side plate 3 used as a side cover is connected to operate the lock member 23 as shown in FIG.
[0032]
With the contents stored in the assembly container A, the fork lift fork is inserted into the fork insertion part 1 provided on the pallet 2 of the assembly container A and moved in a lifted state, and placed on a truck, wagon, ship, etc. It is to be transported.
[0033]
Here, with the storage container stored in the assembly container A, the upper cover 32 is placed on the upper opening of the assembly container A as shown in FIG. 14, and the assembly container A and the upper cover 32 are bound by the band 33. It may be.
[0034]
On the other hand, when the assembly container A is not used, the four rotary shafts 5 are removed, the connection between the side plates 3 and the connection between the side plate 3 and the pallet 2 are released and disassembled. Further, the lock member 23 attached to each side plate 3 is pulled upward to be in the state shown in FIG. By disassembling in this way, it can be transported in a compact manner, or by storing it, the space required for transport and storage can be reduced.
[0035]
For example, as shown in FIG. 15, the disassembled parts described above are stacked with a large number of pallets 2, and a plurality of upper lids 32 are stacked on the uppermost pallet 2, and are bound with a band as necessary. The lowermost pallet 2 is moved by lifting it using a forklift and is carried on a truck, a freight car, a ship, etc., or stored in a warehouse or the like.
[0036]
When disassembling and transporting or storing a large number of assembly containers A, most of the assembly containers A are disassembled with all side plates 3 removed, and the pallets 2 are stacked together as described above. The arbitrary assembly container A is formed by removing the other pair of opposing side plates 3 while leaving the pair of opposing side plates 3, and the pair of the upper surfaces of the pallet 2 leaving the pair of opposing side plates 3. A number of other side plates 3 are arranged between the side plates 3 as shown in FIG. Then, if necessary, the top lid 32 is put on and bound by the band 33 as shown in FIG. In the movement, the pallet 2 on which a large number of side plates 3 are placed is moved by lifting it using a forklift and is carried on a truck, a freight car, a ship, or stored in a warehouse or the like. In this case, the pallet 2 has a square shape in plan view, and the four side plates 3 have the same shape, so that the removed side plate 3 does not protrude from the pallet 2 and does not hinder the covering of the upper lid 32. It is.
[0037]
Further, as shown in FIG. 17, a large number of rotating shafts 5 are placed in an assembly container A that is not disassembled, covered with an upper lid 32, and bound by a band 33. For movement, a large number of side plates 3 are placed. The pallet 2 is moved by lifting it using a forklift, and is carried on a truck, a freight car, a ship, etc., or stored in a warehouse or the like.
[0038]
In FIGS. 16 and 17, the upper lid 32 is indicated by a broken line.
[0039]
By the way, in the embodiment shown in the accompanying drawings, both end portions of each side plate 3 are detachably connected to the four corner portions of the pallet 2 by the rotating shaft 5, and one end portion of both end portions of the side plate 3 is connected to the pallet 2. In order to be able to turn around the rotation shaft 5 at the other end when it is removed from the rotation shaft 5 connected to each other, the side plates 3 are provided at the end of one side plate 3 at a corner portion adjacent to each other at right angles. The bearing portion 4 and the bearing portion 4 provided at the end portion of the other side plate 3 are arranged so as to be shifted up and down, and the bearing portions 4 of the adjacent side plates 3 are connected to each other by a detachable rotating shaft 5 with respect to the pallet 2. However, in assembling the assembly container A, the side plate 3 is attached to the pallet 2 so as to be rotatable and detachable. The embodiment is not necessarily limited to the embodiment shown in the accompanying drawings. For example, both end portions of each side plate 3 can be rotatably and detachably attached to the pallet 2 by independent rotary shafts 5, or the side plate 3 can be freely attached to and detached from the pallet 2 by any other means. You may make it attach freely. Of course, in any case, the side plate 3 is provided with a lock member 23 that can be protruded downward in a portion between both ends of the lower end portion of the side plate 3 so that the lock member 23 can be fitted in the lock groove 15 formed in the pallet 2. In order not to bulge outward or to be indented and deformed, when the side plate 3 is rotated, the lock member 23 is unlocked so that the rotation of the side plate 3 is not hindered.
[0040]
【The invention's effect】
As described above, in the first aspect of the present invention, the side plates are arranged on the four sides of the upper surface of the pallet having the fork insertion portion into which the fork claw of the forklift is inserted, and each corner of the pallet is arranged. The end portions of adjacent side plates are connected to each other in a rotatable and detachable manner by a rotating shaft and the lower end portion of the rotating shaft is detachably connected to a corner of the pallet. Can be disassembled by releasing the connection between the side plate and the pallet, so that it can be made compact so that it does not take up space during transportation and storage. By assembling on the four sides of the pallet and connecting to the pallet with a rotating shaft, the side plates and the assembly container in which the side plates and the pallet are connected can be easily configured and stored in the assembly container. It can be easily moved by transporting the pallet with a forklift in a state where an object is stored, and any side plate can be connected to one end of the side plate and the end of the next side plate to the pallet. The other end of the other side plate is removed from the end of the other side plate in a state where the other end is not removed from the other rotary shaft connected to the end of the other side plate and the pallet. Because it can rotate around the other rotating shaft connected to the pallet and the pallet, three side plates other than the arbitrary side plate to be used as a side cover are connected to the pallet with the rotating shaft. In this state, the side plate to be used as the side lid can be opened and opened, so that the stored items can be easily taken in and out of the assembly container. Even if there is something in the assembly container There is no need for the operator to put on and take out the loading / unloading work on the edge of the upper opening of the assembly container, and the loading / unloading work can be done easily and quickly, and at the lower end of the side plate Provide a lock member that can protrude downward, A lock groove that opens upward is formed in the pallet girder, and a lock member is inserted into the lock groove formed in the pallet girder. Since it can be fitted freely, when using it as an assembly container, a lock member provided on the side plate that can be moved up and down is palletized. Digit part It is possible to prevent the side plate from being swollen outward or recessed from the inside by fitting it into the lock groove that opens upward, and when rotating the side plate, The side plate can be easily rotated without being disturbed by the lock member by being lifted upward.
[0041]
In addition, in the invention described in claim 2, in addition to the effect of the invention described in claim 1, a lock member storage portion is formed in the lower portion on the surface side of the side plate, and the lock member is stored in the lock member storage portion. In addition, since the lower part of the lock member can be protruded from below the side plate, and the lower part of the lock member protrudes below the side plate and is held in the lock groove, a lock state holding means is provided. In the locked state, the lock is not released by vibration or the like, and the swelling and deformation of the side plate can be reliably prevented.
[0042]
According to the invention of claim 3, in addition to the effect of the invention of claim 1 or claim 2, a lock member housing portion is formed in the lower part on the surface side of the side plate, and the lock member is used as the lock member. Since the lower part of the lock member can be protruded from the lower side of the side plate while being housed in the storage part, and the lower part of the lock member is provided with the lifted state holding means for holding the state fully lifted in the lock member storage part, The lock member can be unlocked and pulled up to completely prevent the lock member from popping downwards due to vibration or the like in the state where the lock member is completely stored in the lock member storage portion. It is possible to prevent a situation in which the lock member protrudes downward and breaks when being disassembled and transported, stored, or assembled.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an assembly container according to the present invention.
FIG. 2 is a perspective view of an assembly state of the assembly container of the above.
FIG. 3 is a perspective view showing a state in which a stored item that is rotated by detaching one end portion of the same side plate from the rotating shaft is taken in and out.
FIG. 4 is a cross section of a mounting hole for a pallet used in the above.
FIG. 5 is a sectional view of a lock groove of the pallet used in the above.
FIG. 6 is a perspective view of a bearing portion on one end portion side of the side plate used in the same as seen from the surface side.
FIG. 7 is a perspective view of a bearing portion on one end side of the side plate used in the same as seen from the back side.
8A is a plan view of a side plate used in the above, FIG. 8B is a cross-sectional view taken along line XX in FIG. 6, and FIG. 8C is a cross-sectional view taken along line YY in FIG. is there.
9A and 9B show a rotating shaft used in the above, wherein FIG. 9A is a front view, FIG. 9B is a plan view, FIG. 9C is a bottom view, and FIG. 9D is a side view.
FIG. 10 is a longitudinal sectional view of a portion where adjacent side plates and a pallet are connected by the same rotating shaft.
11A and 11B show a lock member storage portion provided on the side plate of the same, wherein FIG. 11A is a front view, FIG. 11B is a sectional view, and FIG. 11C is a view in which the lock member is stored in the lock member storage portion. It is sectional drawing which shows the state which exists.
12A is a cross-sectional view showing a state where the side plate intermediate portion is locked to the pallet by the lock member, and FIG.
FIGS. 13A and 13B show a locking member used in the above, wherein FIG. 13A is a front view, FIG. 13B is a side view, FIG. 13C is a rear view, and FIG. 13D is a bottom view; ) Is a cross-sectional view of the first locking piece portion, and (f) is a cross-sectional view of the second locking piece portion.
FIG. 14 is a front view showing a state in which the assembly container of the present invention is covered with an upper lid and bound by a band.
FIG. 15 is a front view showing a state in which a plurality of disassembled pallets and an upper lid are stacked.
FIG. 16A is a plan view of a state in which a number of side plates disassembled are housed in one pallet, and FIG. 16B is a front view.
17A is a plan view of a state in which a number of disassembled rotary shafts are housed in one assembly container, and FIG. 17B is a front view.
[Explanation of symbols]
1 Fork insertion part
2 Palette
3 Side plate
5 Rotating shaft
15 Lock groove
16 Locking member storage
23 Locking member
A assembly container

Claims (3)

Side plates are arranged on the four sides of the top surface of the pallet having a fork insertion part into which the fork claw of the forklift is inserted. The rotation which connects and connects the lower end part of this rotating shaft to the corner part of a pallet so that attachment or detachment is possible, and connects one end part with the end part of an adjacent side board and a pallet. The other end is removed from the shaft and the other end is connected to the end of the other adjacent side plate and the other rotating shaft, and the other end is connected to the end of the other adjacent side plate and the pallet. It is possible to turn around the other rotation shaft connected to the above, and a lock member that can be protruded downward is provided at the lower end portion of the side plate, and a lock groove that is opened upward is formed in the pallet of the pallet, The lock is formed in the lock groove formed in the pallet girder. Assembling container, characterized by comprising a movable fitting member.   A lock member storage portion is formed at the lower portion of the side plate, the lock member is stored in the lock member storage portion, and the lower portion of the lock member can be protruded from below the side plate. 2. An assembly container according to claim 1, further comprising a lock state holding means for holding the fitted state.   A lock member storage portion is formed in the lower portion of the side plate, the lock member is stored in the lock member storage portion, and the lower portion of the lock member can be protruded from below the side plate. The assembly container according to claim 1 or 2, further comprising a pulled-up state holding means for holding the closed state.

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