JP5083555B2 - Assembled container - Google Patents

Description

  The present invention relates to a prefabricated container that accommodates a desired container and transports or stores it, and particularly relates to a suitable prefabricated container that accommodates precision equipment having casters.

Conventionally, as a container used for transporting and storing any article, a side panel (side plate) is assembled on a pallet to accommodate a desired container when used, and after use, the side plate is disassembled to be a pallet. There is known a prefabricated container that is stacked on top of each other to reduce the volume for collection.
For example, in Patent Document 1, a resin frame is attached to the edge of a plastic honeycomb structure board (plastic corrugated cardboard) as an assembly-type container that is lightweight and has high strength and can be easily disassembled and assembled. A prefabricated container having a side wall panel fitted with is disclosed.
JP 2006-44775 A

By the way, in order to transport medical equipment, measuring equipment, precision equipment, etc. (hereinafter collectively referred to as precision equipment) by this type of container, the buffering property, vibration resistance, and vibration damping properties for the contained items. (Hereinafter, these are collectively referred to as anti-vibration performance or anti-vibration performance). For this reason, conventionally, when a precision device is transported using such an assembly-type container, a shock absorbing member or a vibration damping member to which vibration damping rubber or the like is attached is installed to support the precision device.
However, such a conventional method is very complicated in accommodating a container such as a precision instrument, and may not be able to ensure an appropriate anti-vibration performance for the container. It is rare.

  Specifically, a support member such as a buffer member is usually installed on a container floor plate on a pallet, but in order to support a stored item such as a precision device by this, the stored item is once lifted and placed on the support member. It is necessary to place it, and it is a harsh work by a plurality of workers, or another machine or device such as a forklift is required, and in any case, the contents cannot be easily accommodated. Note that this type of precision equipment, which is particularly heavy, often has casters attached to the legs, but even in such cases, the equipment is ultimately supported on the container. It is the same that a device such as a manpower or a forklift is necessary when placing on a member.

  In addition, vibration damping rubber, cushioning material, and the like (hereinafter collectively referred to as cushioning material) attached to the support member that supports the stored object, depending on the weight of the supported object, etc. Accordingly, it is necessary to provide a member having appropriate characteristics and appropriate pressure resistance. However, normally, such a cushioning material or support member is not configured to be easily replaceable, and it is necessary to continue to use a cushioning material whose performance is not appropriate for the weight of the contents, or In addition, it has become necessary to perform complicated replacement work in order to replace the cushioning material or the support member.

In addition, as described above, many of these types of precision equipment are equipped with casters, but even such equipment can be easily moved to the equipment accommodation location in the container using the casters. There were cases where it was not possible.
For example, in the case where the above-described support member is installed on the floor, the device may not reach the final accommodation location unless the caster gets over the device by temporarily lifting the device or the like.

In addition, some containers have a detachable slope for moving the casters to move the equipment on the pallet, but in the case of an assembly-type container, the length of the slope is limited because the necessary members are folded on the pallet. There is a limit. Therefore, the slope becomes a steep angle, and the road surface angle of the connecting portion between the ground and the slope, or the slope and the container floor becomes steep, and the caster or the floor of the equipment may interfere with this, and the caster may not move smoothly.
Furthermore, when the equipment is heavy, the slope may be deformed.
In any case, the case where the equipment cannot be moved directly onto the container by the caster due to such a cause often occurs particularly in heavy equipment having a heavy weight.

  The present invention has been made in view of such a problem, and provides an assembly-type container capable of easily and appropriately storing and transporting stored items such as precision equipment in a highly vibration-proof state. There is to do. In other words, an object of the present invention is to provide a highly versatile assembly-type container that is easy to be accommodated and that can accommodate the accommodated items with appropriate vibration proofing for each accommodated item. In particular, the object of the present invention is to easily accommodate an apparatus with casters by using the casters. Furthermore, even an apparatus having a caster can easily accommodate even heavy items. It is to provide a prefabricated container that can be made.

  In order to solve the above-mentioned problems, the assembly-type container of the present invention is detachably mounted on a pallet, a side plate standing on the periphery of the pallet, a bottom plate installed on the top surface of the pallet, and an upper surface of the bottom plate. A cushioning material is mounted on the upper surface, and a supporting part that supports the stored object via the buffering material, and a lifting platform that supports the container so as to be movable up and down in the upper space of the bottom plate, It has a raising / lowering part which moves the said accommodation to the state mounted in the said baseplate, or the state which can be mounted in the said support part, It is characterized by the above-mentioned.

  Suitably, the said raising / lowering part has a mechanical raising / lowering means.

  Preferably, the support portion has a metal prism member as a base material, and has an insertion plate that can be fixed by being inserted into an insertion portion formed on the bottom plate at one end of the prism member. And it has a latching member which can fix the said prismatic member to the said baseplate in the other edge part of the said prismatic member.

  Preferably, the support part is replaceable depending on the contents.

  Preferably, the elevating part is formed integrally with the elevating table by forming a guide shaft extending in the elevating direction of the elevating table fixed to the pallet, and a guide hole fitted to the guide shaft. There are a plurality of guide portions each having a guide frame portion that moves to the periphery of the lifting platform.

  Preferably, the slope is detachably attached to the peripheral edge of the pallet so that the caster can be moved with respect to the upper surface of the pallet, and is formed with respect to a peripheral plane of the assembled container and the upper surface of the pallet. It further has a slope that has a sufficient length to be connected at a predetermined gentle inclination angle and that can be folded when housed.

  Preferably, the apparatus further includes a support member that supports a lower portion of the folding portion of the slope.

  Preferably, the apparatus further includes a slope storage portion for storing the slope that is detached from the pallet and folded.

ADVANTAGE OF THE INVENTION According to this invention, the assembly-type container which can accommodate accommodations, such as a precision instrument, easily and appropriately in a state with high vibration-proof property, can convey, etc. can be provided.
In particular, according to the present invention, it is possible to provide a highly versatile assembly-type container that can accommodate the stored items with appropriate vibration-proofing properties for each stored item.
Further, an assembly-type container that can be easily accommodated by using the caster for an apparatus with casters, and can be easily accommodated even if a heavy article is provided with an apparatus with casters. Can be provided.

One embodiment of the assembly-type container of the present invention will be described with reference to FIGS.
In the present embodiment, the present invention will be described by exemplifying a container suitable for carrying and storing precision equipment and medical equipment that are weak against vibration and require high vibration proofing properties for movement and transportation. To do. More specifically, for example, a container such as an electron microscope in which a caster is mounted on a housing and can accommodate a device having a certain weight is illustrated.

FIG. 1 is an exploded perspective view showing the configuration of the assembly-type container 1 of the present embodiment.
As shown in FIG. 1, the assembly-type container 1 includes a pallet 10, a bottom plate 20, a slope 30, a lift unit 40, a support unit 50, a side plate 60, and an upper lid 70 as main components.

  The pallet 10 is a base of the assembly-type container 1 and is formed by joining steel pipe materials by welding or the like. The pallet 10 of the present embodiment has a rectangular planar shape as shown in the drawing, and the central part thereof is formed in the opening 11 in which no pipe material is disposed for installing the elevating part 40. Further, a lift hole 12 into which a forklift pawl is inserted is formed on the side surface.

  On the upper surface of the pallet 10, a lower metal frame 13 is installed along the four sides of the periphery, and a lower metal fitting 14 is erected at the four corner positions. The lower metal frame 13 and the lower metal fitting 14 are engaging members for standing the side plate 60 on the peripheral edge of the upper surface of the pallet 10. Four side plates 60 described later (two first side plates 61 and two second side plates 62 arranged to face each other) have engaging pins formed on the frame member, for example, the lower metal frame 13 or the lower plate. The first side plate 61 and the second side plate 62 that are fitted in the engagement holes formed in the metal fitting 14 are engaged with each other, and finally the lower metal frame 13 and the lower metal fitting 14 are engaged. It is attached so that it does not easily leave.

A bottom plate 20 is placed in a range surrounded by the lower metal frame 13 on the upper surface of the pallet 10. A buffer material 17 is mounted on the upper surface of the pipe material constituting the pallet 10 in this range. In the present embodiment, the cushioning material 17 is a rubber material.
Further, a slope storage portion 18 for storing the slope 30 is installed on any side surface portion of the pallet 10.

The bottom plate 20 is a plate member that is placed in a range surrounded by the lower metal frame 13 on the upper surface of the pallet 10 as described above. In the present embodiment, the bottom plate 20 is formed of plywood.
An opening 21 is formed at the center of the bottom plate 20 so that the lifting platform 404 of the lifting unit 40 can pass vertically. The lifting platform passage opening 21 is formed at a position of the bottom plate 20 corresponding to the lifting section 40 installed at the center of the pallet 10.

Two liners 22, which are steel plate members, are attached to the upper surface of the bottom plate 20 so that each of them extends in the longitudinal direction of the bottom plate 20 in parallel with the opening 21 for passing the elevator table therebetween. . One end of each liner 22 is disposed so as to contact one short side edge of the bottom plate 20, and the other end is in contact with the other short side edge of the bottom plate 20. Although it is not, it is arranged to reach the vicinity of the other side of the short side.
The two parallel liners 22 form a runway for running a caster such as a device housed in the assembly-type container 1. When two parallel slopes 30 to be described later are installed on one short side edge of the pallet 10 (bottom plate 20), the liner 22 is loaded with a caster passage continuing to the slope 30, that is, the pallet 10 is mounted. It becomes a caster traveling path for moving the equipment to be accommodated from the placed ground to the bottom plate 20 on the upper surface of the pallet 10.
A stopper 23 that restricts the movement of the casters is installed at the other end of the two parallel liners 22 so that the casters of the equipment do not go too far toward the other short side of the bottom plate 20. . The stopper 23 is, for example, a rubber member.

  Two support portions 50 are installed on the upper surface of the bottom plate 20 so as to cross the two parallel liners 22, which will be described in detail later.

Further, several leg slip stoppers 24 are provided on the upper surface of the bottom plate 20. The leg slip stopper 24 is a rubber member for seating a stopper attached to the accommodated device after the device accommodated in the assemblable container 1 is installed on a support 50 described later. That is, the leg slip stopper 24 uses the stopper 50 of the accommodated device in addition to the support of the accommodated device by the support portion 50 described later, and further supports the accommodated device and latches in the horizontal direction. It is a receiving member.
Therefore, the leg slip stopper 24 needs to be arranged at a position corresponding to the position of the stopper of the equipment to be accommodated. For this purpose, a plurality of leg slip stoppers 24 may be arranged in advance at positions where the stopper is expected to be disposed, or the leg slip stoppers 24 can be attached to and detached from the bottom plate 20. In other words, it may be configured to move to the position of the stopper according to the equipment to be accommodated.

  The slope 30 is a member for forming an oblique path on which a caster can travel between the floor surface (ground surface) on which the assembly type container 1 (pallet 10) is placed and the upper surface of the pallet 10 (bottom plate 20). . As shown in FIG. 1, the slope 30 is an elongated plate-like member, and two of them are arranged in parallel to form a traveling path for the caster.

A detailed configuration of the slope 30 will be described with reference to FIG.
2A and 2B are views showing a state in which the slope 30 is installed, FIG. 2A is a plan view thereof, and FIG. 2B is a side view thereof.
As shown in FIG. 2, the slope 30 includes a first plate member 301, a second plate member 302, a first support member 303, and a second support member 304.
The first plate member 301 and the second plate member 302 are steel belt-like plate members having substantially the same length, and are coupled to each other at a coupling portion 305 to form a single slope 30. Accordingly, the slope 30 is configured to be foldable to a half length in the vicinity of its approximate center.

  The first plate member 301 and the second plate member 302 are formed on side walls 306 and 307, respectively, in which both edges in the width direction are folded at a predetermined width to prevent the caster from being removed. In addition, the 1st board member 301 and the 2nd board member 302 become a structure folded so that the driving | running | working road surface side of a caster may become an opposing surface. Accordingly, the first plate member 301 is formed to have a slightly shorter width than the second plate member 302 so as to be accommodated inside the side wall 307 of the second plate member 302 including the side wall 306.

  A connecting portion 309 connected to the bottom plate 20 on the pallet 10 is formed at the end of the slope 30 on the first plate member 301 side. The connection portion 309 is a plate-like member that forms a channel of a caster having a side wall similarly to the first plate member 301 and the second plate member 302, but the length thereof is short as shown in the figure, The plate surface is slightly bent convexly in the direction of the caster traveling road surface. As a result, when the first plate member 301 and the second plate member 302 are installed so as to form an oblique path connecting the ground surface and the upper surface of the bottom plate 20 on the pallet 10, the connecting portion 309 is connected to the pallet 10. It is preferably arranged so as to form a plane substantially parallel to the bottom plate 20 so as to be a plane parallel to the upper bottom plate 20.

  At the end of the connecting portion 309, a locking portion 308 for locking the slope 30 to the lower metal frame 13 of the pallet 10 is formed, and the locking portion 308 is hooked to the lower metal frame 13 of the pallet 10. By stopping, the slope 30 is installed with respect to the pallet 10, and an oblique path is formed that connects the upper surface of the bottom plate 20 of the pallet 10 and the ground so that the caster can travel. In the assembled container 1, the slope 30 is formed to be long by joining the first plate member 301 and the second plate member 302, and therefore, the inclination angle of the slope 30 is a very shallow angle. The angle is preferably 3 ° to 10 °. Specifically, it is about 6 ° in the present embodiment.

  A first support member 303 is installed under the connection portion 309 when the slope 30 is installed on the pallet 10. The first support member 303 has a length substantially equal to the portion of the connection portion 309 that does not cover the lower metal frame 13 of the pallet 10 and is a metal prismatic shape having a width substantially equal to the width of the connection portion 309. It is a member. The end of the slope 30 on the pallet 10 side is firmly supported by the first support member 303.

  In addition, a second support member 304 is installed below the coupling portion 305 between the first plate member 301 and the second plate member 302 in the middle of the slope 30, that is, below the folded portion of the slope 30. The second support member 304 has a length sufficient for both the first plate member 301 and the second plate member 302 to be stably placed, and has a width substantially equal to the width of the slope 30. It is a metal prismatic member. If the slope 30 is configured to be foldable, there is a possibility that the slope sinks at the folded portion or the inclination angle changes, but in the assembled container 1 of the present embodiment, it is thus located under the coupling portion 305 in this way. Since the second support member 304 is disposed, the coupling portion 305 of the slope 30 is firmly supported by the second support member 304, and such sinking or change in the inclination angle does not occur in the slope 30. .

  The assembly-type container 1 has two sets of slopes 30 having such a configuration. When the contents are mounted on the pallet 10 or lowered from the pallet 10, as shown in FIG. The slopes 30 are installed so as to be continuous with the liner 22 of the bottom plate 20. As a result, a caster runway from the slope 30 to the liner 22 on the bottom plate 20 is formed, and the device can be easily moved by the caster.

  When the loading and unloading of the equipment is completed, the slopes 30 are folded by the coupling portions 305 and stored in the slope storage portion 18 provided in the pallet 10 together with the first support member 303 and the second support member 304. Is done.

  The elevating unit 40 is a mechanism that is installed at a substantially central portion of the pallet 10 and lifts the contents disposed on the bottom plate 20 upward from the bottom plate 20. In the assembly-type container 1, the contents are finally placed on a support unit 50 (described later) installed on the bottom plate 20, fixed, and transported. The lifting unit 40 moves the caster on the slope 30 and the liner 22 of the bottom plate 20 when the stored item is received, and places the stored item that has been moved onto the bottom plate 20 on the support unit 50, or stores the stored item. When the object placed on the support part 50 is taken down onto the liner 22 of the bottom plate 20 when the object is taken out, the object is not supported by either the liner 22 or the support part 50. The contents are temporarily supported and lifted and maintained in the space above the bottom plate 20.

The structure of the raising / lowering part 40 is demonstrated in detail with reference to FIG.
3A and 3B are diagrams illustrating the configuration of the elevating unit 40, in which FIG. 3A is a plan view and FIG. 3B is a side view thereof.
The elevating unit 40 includes a lower surface frame member 401, a jack 402, an elevating table support frame 403, an elevating table 404, a jack driving unit 406, a guide frame unit 410, a guide hole 411, and a guide shaft 412.

  The lower surface frame member 401 is a member that forms the base of the elevating unit 40, and is a member that ensures the strength by bending the periphery of the steel plate. As shown in FIG. 3B, the lower frame member 401 is welded to the pipe material constituting the pallet 10, so that the elevating unit 40 is installed inside the pallet 10.

  A jack 402 is installed at the center of the upper surface of the lower surface frame member 401, and a lifting platform 404 is installed on the upper end surface of the jack 402 via a lifting platform support frame 403. The jack 402 is a pantograph type jack in this embodiment, but any device may be used as long as it is a mechanical lifting means. The lifting platform support frame 403 and the lifting platform 404 are members that secure the strength by bending the periphery of the steel plate in the same manner as the lower surface frame member 401. The lifting platform 404 is configured to move up and down as the surface moves up and down.

  In addition, a cross arm (not shown) is installed between the lower surface frame member 401 and the side surface of the lifting frame 404, and the lifting table 404 is configured to always move up and down in parallel with the lower surface frame member 401. Yes.

  Moreover, with respect to the jack 402, as a drive mechanism for driving the jack 402, a jack driving shaft 406 is pulled out from the elevating unit 40 toward the end of the pallet 10 as shown. The operator can connect the handle or the like for operation to the jack drive shaft 406 as appropriate and rotate the jack drive shaft 406 to expand and contract the jack 402, that is, move the lifting platform 404 up and down.

  As shown in FIG. 3A, the elevating unit 40 is provided with a guide shaft 412 and a guide hole (shaft holder) 411 movably fitted thereto, outside each corner. Yes. The guide shaft 412 is installed with respect to the pipe of the pallet 10 to which the lower surface frame member 401 is welded as shown in FIG. The guide hole 411 is formed in a guide frame portion 410 that is horizontally installed outward from the side surface of the lifting platform 404, and the guide frame portion 410 and the guide hole 411 are also integrated with the vertical movement of the lifting platform 404. It is formed to move up and down. The guide hole 411 and the guide shaft 412 are arranged so that the guide shaft 412 penetrates the guide hole 411 as illustrated, and the guide hole 411 is formed on the guide shaft 412 according to the vertical movement of the lifting platform 404. It is comprised so that it may move up and down along. The guide frame portion 410, the guide hole 411, and the guide shaft 412 are collectively referred to as a guide portion. The number of the guide portions is preferably plural, that is, two or more, more preferably 2 to 4, but most preferably four as in the present embodiment.

  By providing such guide holes 411 and guide shafts 412 at the four corners of the lifting platform 404, each corner of the lifting platform 404 moves vertically along the guide shaft 412. As a result, the four corners of the lifting platform 404 are guaranteed to translate along the guide shaft 412, and the lifting platform 404 is greatly inclined even if the load on the lifting platform 404 is not uniformly loaded. Or the entire lifting mechanism of the lifting unit 40 can be prevented from being out of balance.

  In this type of mechanism, when the load is not uniformly applied to the lifting platform 404 or when the lifting platform 404 is tilted, the connection mechanisms cannot be properly slid or rotated, and the jack 402 substantially There may be a situation where it cannot move up and down. However, in the lifting unit 40 of the present embodiment, since the guide hole 411 and the guide shaft 412 are provided in addition to the cross arm described above, the posture of the lifting platform 404 can always be maintained appropriately. Such a problem is prevented, and the lifting mechanism of the lifting unit 40 can appropriately move the lifting platform 404 up and down even when a large load is applied.

  When the jack 40 is lowered to the lowest position, the elevating unit 40 having such a configuration has the upper surface of the elevating table 404 substantially the same as the plate surface of the bottom plate 20 of the assembly-type container 1 as shown in FIG. It is installed with respect to the pallet 10 so as to have the same height.

  In addition, the elevating unit 40 prepares for a case where a predetermined support location on the lower surface of the object cannot be properly supported in the movement range of the upper surface of the elevating table 404, in other words, the contents at a height exceeding the movement range. In preparation for support, an adjustment plate 420 as shown in FIG. 3B is provided. The adjustment plate member 420 is a hard plate member such as a PP material or a PE material having a foaming rate of 2 times or less. By installing one or a plurality of such adjustment plate materials 420 on the lifting platform 404 as necessary, the height of the support portion on the bottom surface of the accommodation (accommodating equipment) can be adjusted. Even so, it is possible to appropriately support the container and move it vertically.

  The support unit 50 is a member that finally supports the stored items when the stored items are stored in the assemblable container 1 and transported. When accommodating the contents in the assemblable container 1, the support portion 50 is finally inserted under the contents, that is, disposed between the contents and the bottom plate 20, thereby supporting the contents. .

The support part 50 is installed under the storage object or removed from the bottom of the storage object by the operator when the storage object is lifted and supported by the elevating unit 40 in the space above the bottom plate 20.
That is, when the stored items are stored in the assembly container 1 to be transported or the like, when the stored items moved on the liner 22 are lifted upward by the elevating unit 40, The supporting part 50 is installed between the bottom plate 20 and then the elevating part 40 is lowered to place the contents on the supporting part 50.

  In addition, when taking out the transferred contents, the operator removes the support part 50 and removes it from the bottom plate 20 when the storage object placed on the support part 50 is lifted upward by the elevating part 40. . Thereafter, by lowering the elevating unit 40, the contents are placed on the liner 22 of the bottom plate 20, can be moved by a caster, and are taken out from the assembling container 1 through the slope 30.

The structure of such a support part 50 is demonstrated in detail with reference to FIG.
As shown in FIG. 4, the support portion 50 includes a metal square pipe 501, a buffer material 502, an insertion plate 503, a latch member 504, and an insertion portion 510.
As shown in FIG. 4, the support part 50 is configured by attaching a cushioning material 502 to the upper surface of a metal square pipe 501. The surface to which the cushioning material 502 is attached is the upper surface, and the contents are placed and supported on the cushioning material 502 on this surface.

  The opposite surface of the surface to which the cushioning material 502 is attached is a surface that contacts the bottom plate 20, and an insertion plate 503 is formed on one end side of this surface as it is in the form of extending the surface as it is. Has been. An insertion portion 510 having an opening into which the insertion plate 503 is inserted is fixedly installed at the installation location of the support portion 50 on the bottom plate 20, and this insertion is performed when the support portion 50 is installed on the bottom plate 20. By inserting the insertion plate 503 into the portion 510, one end of the support portion 50 is fixed on the bottom plate 20.

Further, a latch member 504 for fixing the support portion 50 to the bottom plate 20 is attached to the other end portion of the support portion 50. In the present embodiment, an L-shaped metal fitting is joined to this end portion of the support portion 50 as shown. The L-shaped metal fitting is disposed so that one surface is joined to one surface of the metal square pipe 501 and the other surface orthogonal to the one is joined to the bottom plate 20.
Therefore, the metal square pipe 501 is fixed on the bottom plate 20 by inserting the insertion plate 503 into the insertion portion 510 and then fixing the retaining member 504 to the bottom plate 20 with screws or the like. In addition, it is preferable from the surface of intensity | strength that the latching member 504 is metal.

In the assembly type container 1 of the present embodiment, two support portions 50 are installed on the bottom plate 20 to support a desired accommodation.
It is preferable that the specific support part 50 is used for the support part 50 according to the accommodation to accommodate.
For example, the height of the metal square pipe 501 needs to be high enough for the caster of the contents to be lifted from the plate surface of the bottom plate 20, while the height of the metal square pipe 501 is the stopper when the device stopper is extended. Is limited to such a height that it contacts the leg slip stopper 24 on the bottom plate 20. In addition, in order to stably hold the contents, it is not necessary to keep the contents higher than necessary, and it is preferable to set the height appropriately according to the contents based on such conditions.
In addition, the cushioning material 502 also appropriately selects the material and the thickness of the cushioning material 502 according to the cushioning property, vibration resistance, weight, etc. required for the contained material, so It is preferable to use a cushioning material 502 having vibration performance.

  Thus, in the assembly type container 1 of this embodiment, the suitable support part 50 is selected according to each accommodation, and, thereby, each accommodation is supported. Thus, also when changing the support part 50 according to an accommodation thing, since the support part 50 can be easily attached or detached with respect to the baseplate 20, the change of the support part 50 can be performed easily.

The side plate 60 is a plate-like member that is erected on the pallet 10 in order to form a space for accommodating the contents on the pallet 10.
The side plate 60 includes a pair of first side plates 61 and a pair of second side plates 62 that are disposed to face each other.

  In the present embodiment, each of the first side plate 61 and the second side plate 62 has a configuration in which two plate members (panels) arranged on the upper and lower sides are connected so as to be foldable. That is, the first side plate 61 erected along the longitudinal direction of the pallet 10 has a configuration in which the upper panel 63 and the lower panel 64 are connected by the hinge 65, and stands along the short direction of the pallet 10. The provided second side plate 62 has a configuration in which an upper panel 66 and a lower panel 67 are connected by a hinge (not shown).

  The first side plate 61 and the second side plate 62 are engaged with the lower metal frame 13 and the lower metal fitting 14 installed along the four peripheral edges of the upper surface of the pallet 10 in the lower side portion. The pallet 10 is erected on the peripheral edge.

  Further, in the intermediate portion, the engagement pin provided in the frame of the lower panel 67 of the second side plate 62 is fitted into the engagement hole provided in the lower panel 64 of the first side plate 61, and further the second The first side plate 61 and the second side plate 62 are engaged with each other by holding the panel 67 so as not to be tilted with respect to the panel 64 by the fasteners 68 provided on the outside of the panel made of the side plate 62.

Furthermore, in the upper part, the first side plate 61 and the second side plate 62 are engaged with each other by the engagement metal fitting 69 provided on the upper panel 66 of the second side plate 62, thereby The second side plate 62 is engaged.
Accordingly, the first side plate 61 and the second side plate 62 are each erected on the peripheral edge of the pallet 10.
As a result, an accommodation space surrounded by the bottom plate 20, the first side plate 61, and the second side plate 62 is formed on the pallet 10 of the assembly-type container 1.

  The upper lid 70 is a member for closing the upper opening of the accommodation space of the things formed on the pallet 10 by the first side plate 61 and the second side plate 62.

  In the present embodiment, the first side plate 61, the second side plate 62, and the upper lid 70 constituting the assembly-type container 1 are made of a plastic honeycomb structure board (plastic cardboard) or an independent foam as a board material or a lid material. The periphery of the low foamed resin is constituted by a member surrounded by a metal or resin frame.

Next, the operation in the case of accommodating the precision device equipped with casters in the assembly type container 1 having such a configuration will be described with reference to FIGS.
First, as shown in FIG. 5A, the slope 30 is set on the pallet 10, and the caster 810 of the accommodation target device 800 is run on the slope 30 and the liner 22, so that the accommodation target device 800 is moved to the bottom plate 20. Move up. At this time, the position of the device 800 on the bottom plate 20 is determined so that a portion capable of supporting the device on the lower surface of the housing of the device is disposed on the elevating unit 40.

  Next, as shown in FIG. 5B, the lifting unit 40 is driven to raise the lifting platform 404, and the device 800 is lifted by the lifting unit 40. Thereby, the caster 810 of the device 800 is in a state of floating from the bottom plate 20.

  If it will be in such a state, as shown in FIG.5 (C), the support part 50 suitable for the apparatus is inserted on the baseplate 20. FIG. As described above with reference to FIG. 4, the support portion 50 inserts the insertion plate 503 into the insertion portion 510 installed on the bottom plate 20, and fastens the latch member 504 on the bottom plate 20. Fixed to.

  Next, as illustrated in FIG. 6D, the device 800 is lowered by operating the elevating unit 40. As a result, the caster 810 is in a floating state, and the device 800 is supported by the support unit 50.

  Then, as shown in FIG. 6E, the stopper 820 of the device 800 is lowered to a state where it is lightly abutted on the leg slip stopper 24 of the bottom plate 20.

Thereafter, the first side plate 61 and the second side plate 62 are erected around the pallet 10, and the upper space is closed by the upper lid 70, thereby completing the housing of the device 800.
If necessary, the device 800 may be further fixed on the pallet 10 by a lashing belt or the like.
In addition, when taking out the accommodated apparatus 800, the operation | work contrary to the above-mentioned flow should just be performed.

  As described above, according to the assembly type container 1 of the present embodiment, the contents moved onto the bottom plate 20 are lifted by the elevating part 40 incorporated in the pallet 10 and placed on the support part 50. Alternatively, the contents placed on the support unit 50 are lifted by the elevating unit 40 and placed on the bottom plate 20 of the pallet 10. Therefore, there is no need to lift the contents manually or use a separate machine such as a forklift, and the contents can be replaced easily, that is, accommodated or taken out.

  Moreover, since the support part 50 which supports a thing can be easily attached or detached with respect to the baseplate 20, the support part 50 which has a suitable shock absorbing material with a suitable shape for every thing can be used. As a result, it is possible to realize a highly versatile and high-performance assembled container 1 capable of storing and transporting various items under appropriate conditions.

  Moreover, in the assembly-type container 1, the equipment with casters is moved on the pallet 10 or moved from the pallet 10 by using the foldable slope 30 having a long overall length, that is, using the slope 30 having a gentle inclination angle. I try to let them. Accordingly, the change in the step and the inclination angle at the end of the slope 30 can be reduced, and the corner portion of the pallet 10 can be used even in a device equipped with a caster having a small diameter or a device having a low height under the floor. It can be appropriately moved without interfering with the road surface. Therefore, a device with casters can be accommodated more easily.

  Further, since the second support member 304 is installed under the connecting portion of the slope 30, even if the device is heavy, the bottom plate can be moved appropriately without causing the slope 30 to bend. 20 can be moved up.

  The present invention is not limited to the above-described embodiments, and can be variously modified within the scope of the present invention.

FIG. 1 is an exploded perspective view showing a configuration of an assembly-type container according to an embodiment of the present invention. FIG. 2 is a diagram showing the configuration of the slope of the assembly-type container shown in FIG. FIG. 3 is a diagram showing the configuration of the lifting unit of the assembly-type container shown in FIG. FIG. 4 is a diagram illustrating a configuration of a support portion of the assembly-type container illustrated in FIG. 1. FIG. 5 is a first diagram illustrating a method for accommodating the contents in the assembly-type container illustrated in FIG. 1. FIG. 6 is a second diagram for explaining a method of accommodating the contents in the assembly type container shown in FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Assembling type container 10 ... Pallet 11 ... Lifting part opening 12 ... Lifting hole 13 ... Lower metal frame 14 ... Lower metal fitting 17 ... Buffer material 18 ... Slope storage part 20 ... Bottom plate 21 ... Lifting board passing opening 22 ... Liner 23 ... Stopper 24 ... Leg slip stopper 30 ... Slope 301 ... First plate member 302 ... Second plate member 303 ... First support member 304 ... Second support member 305 ... Coupling portions 306, 307 ... Side wall 308 ... Locking part 309 ... Connection part 40 ... Elevating part 401 ... Bottom frame member 402 ... Jack 403 ... Elevating stage support frame 404 ... Elevating stage 406 ... Jack drive shaft 410 ... Guide frame part 411 ... Guide hole 412 ... Guide shaft 50 ... Support portion 501 ... Metal square pipe 502 ... Buffer material 503 ... Insertion plate 504 ... Hanging member 510 ... Insertion portion 60 ... Side plate 1 ... first side plate 62 ... second side plate 63, 66 ... upper panel 64, 67 ... lower panel 65 ... hinge 68 ... fasteners 69 ... engaging alloy tool 70 ... upper cover 800 ... precision equipment (contained goods)
810 ... Caster 820 ... Stopper

Claims (7)

A palette,
Side plates standing on the periphery of the pallet;
A bottom plate installed on the top surface of the pallet;
A support portion that is detachably mounted on the upper surface of the bottom plate, a buffer material is mounted on the upper surface, and a support to be placed via the buffer material;
An elevating unit that supports the container so as to be movable up and down in an upper space of the bottom plate, and moves the container to a state of being placed on the bottom plate or a state of being able to be placed on the support unit; Have
The elevating unit includes a guide shaft extending in the elevating direction of the elevating table fixed to the pallet, and a guide frame that is integrally formed with the elevating table by forming a guide hole fitted to the guide shaft. An assembly-type container comprising a plurality of guide portions each having a portion around the lifting platform .   The assembly type container according to claim 1, wherein the elevating part has mechanical elevating means.   The support portion has a metal prism member as a base material, and has an insertion plate that can be fixed by being inserted into an insertion portion formed on the bottom plate at one end of the prism member, and the prism member The assembly type container according to claim 1 or 2, further comprising a latching member capable of fixing the prism member to the bottom plate at the other end of the container.   The assembly type container according to any one of claims 1 to 3, wherein the support portion is replaceable according to the contents. A slope which is detachably attached to the peripheral edge of the pallet and allows a caster to move with respect to the upper surface of the pallet, and has a predetermined gentle inclination angle with respect to the peripheral plane of the prefabricated container and the upper surface of the pallet The assembly-type container according to any one of claims 1 to 4 , further comprising a slope that has a sufficient length to be connected at the top and that can be folded when housed. The assembly-type container of Claim 5 which further has a supporting member which supports the lower part of the said folding location of the said slope. The assembly-type container according to claim 5 or 6 which further has a slope storage part which stores said slope which detached and folded from said pallet.

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