JP3408756B2 - Container equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] [0001] The present invention relates to, for example,
When transporting bundled goods in a stacked state
It relates to the container device used. [0002] 2. Description of the Related Art Conventionally, as shown in FIGS.
Then, many long steel materials 183 (such as round bars) are
Multiple loads 179 tied together at 4 etc. are stacked and stacked
When transporting in a state, the container device 170 is used.
I have. That is, the container body 171 has a pair of front and rear
Between the frame 172 and the ends of the front and rear frames 172.
A pair of left and right frames 173 provided,
Intermediate frame provided between front and rear intermediate portions of frame 173
And a frame 174. At the four corners of the container main body 171, there is a support 1.
75, and the upper end of each column 175 is provided with a spreader.
A mounting locking hole 176 is formed. These locking holes
176, spreader of container carrier (not shown)
By inserting the locking piece 177 of the device (not shown),
Therefore, the container device 170 can be lifted and transported.
Wear. Further, the front and rear frames 172 and the intermediate frame
Each upper surface with the frame 174 is formed as a load bearing surface 178.
The load 179 has a fork 180 that can be moved up and down.
Loaded on the load support surface 178 by the crawling crane 181
It is impregnated. For example, multiple
A number (three in FIG. 22) of the load 179 is lifted and the container is lifted.
The load 179 is placed on the load support surface 178 of the main body 171 and
On top of, a horizontal cross sleeper 182 is installed at a plurality of front and rear places,
After that, another crawler 181 again
Lift the load 179 (three in FIG. 22) to the sleeper 1
82. At this time, the height H of the sleeper 182 is
181 is larger than the thickness T of the fork 180.
The fork 180 is connected to the lower load 179 and the upper load 1
79 can easily be removed. In this way, a plurality of containers
Is loaded in the upper and lower tiers, and then
Insert locking piece 177 of spreader device of antenna carrier
By lifting the container device 170,
The container device 170 is moved by the traveling of the antenna carrier.
Transport. Further, the load 179 is removed from the container device 170.
When unloading, after lowering the container device 170,
Place the fork 180 of the crane 181 on the lower load 179
Insert between the load 179 of the step and lift the load 179 of the upper step
And remove it from the container device 170, and then
2 and remove the claw crane 181
Container 180 by lifting the lower load 179 with
Remove from 70. [0008] SUMMARY OF THE INVENTION
In the conventional method, a worker holds a plurality of sleepers 182 each time.
Raised and installed or removed from the container device 170
A great deal of labor is required for carrying work by the container device 170
Was required. Also, as shown in FIG.
If the diameter of the lower load 179 is large or small, the lower load
The sleeper 182 installed on the 179 is inclined,
As a result, it becomes difficult to load the upper load 179.
Such a problem has arisen. [0009] The present invention is to reduce manual work.
With multiple loads of different diameters stacked
Provide a container device that can be easily transported
The purpose is to: [0010] The above-mentioned object is achieved.
Therefore, the invention of claim 1 of the present invention
And the container body and a support
A container device to be formed, wherein the container body includes:
A lower load support portion capable of supporting the lower load is formed,
The holding body consists of the lower load supported by the lower load support
Multiple support frames between the upper load
And a connecting member for connecting these support frames,
The support frame is placed on the
And supporting legs for supporting the supporting members above.
The upper load support section is formed on the frame to support the upper load.
AndAn arc-shaped concave portion is formed in the upper load supporting portion,the above
Fork insertion hole in connecting memberAnd eye bolts are provided
AndThe connecting member is located below the upper load supporting portion.
The upper stage load supported by the connecting member and the upper load support portion.
Fork insertion space for fork insertion between top and bottom
Is formed,The upper end of the eyebolt is from the upper load support
Is also located below,On each of the above-mentioned supports,
Guides the support legs up and down to prevent displacement in the front, back, left and right directions
A guide frame that stops
The vertical distance between the holding frame and the connecting member is
It is formed higher than the height of the load of the step. [0011] According to this, a plurality of loads are provided by using a fork.
Lift and load it into the lower load support, then
The fork from the bottom of the load, and then attach the fork to the support
Inserted into the fork insertion hole and supported using the above fork
Lift the body and lower the support legs on the container body
You. As a result, the support legs placed on the container body
The support frame is loaded into the lower load support via
It is supported horizontally above the load on the tier. Then, insert the fork into the fork insertion hole.
And remove the load again using the above fork.
Lift and lower to the upper load support of the support frame. this
In this case, the fork moves between the connecting member of the support and the upper load.
Is inserted into the fork insertion space,
The load is supported by the support frame. Then,
To remove the oak from the above fork insertion space
Therefore, loading of the load to the container device is completed. Therefore, the diameters of the plurality of loads at the lower
Support frame, even if they are different
Is supported horizontally above the lower load via support legs
Because the upper load support does not tilt, use the above fork.
The upper stage load can be easily loaded on the upper load support
it can.At this time, the upper load is
Because the load is supported by the load support section, the upper stage load is inadvertently
Rolling on the load support can be prevented. Further, the fork is inserted into the fork insertion hole.
And lift the support with a forkOr Aibol
Through a wire, etc. and lift the support with an overhead crane
GerBy installing the support on the container body
Significantly reduce manual labor
Can be reduced.In addition, support on the container body
When placing the support, the support legs of the support are guided by the guide frame
On the container body without shifting
Lowered and fixed. [0015] [0016] [0017] [0018] [0019] [0020] [0021] [0022] [0023] [0024] [0025] [0026] [0027] [0028] [0029] BEST MODE FOR CARRYING OUT THE INVENTIONThe present inventionThe first fruit corresponding to
An embodiment will be described with reference to FIGS. In addition, load 17
9 and the claw crane 181 are each of the conventional construction described above.
Since it is the same as the configuration, the description is omitted. As shown in FIGS. 1 to 3, reference numeral 1 denotes a plurality of loads 1.
When transporting 79 with a container carrier (not shown)
Container device used. This container device 1
Is detachable from the container body 9 and the container body 9
And a suitable support 10. The container body 9 includes a pair of front and rear frames.
Provided between the front and rear frames 11
Pair of left and right frames 12 and both left and right frames 1
2 and the intermediate frame 13 provided between the front and rear intermediate portions.
It is formed in a frame shape. At the four corners of the container body 9, square tubular supports are provided.
Pillars 14 are erected, and the upper ends of these pillars 14 are sprayed.
A locking hole 15 for the head device is formed.
The locking piece 1 of the spreader device of the container carrier
6 to lift the container body 9
Can be transported in a container carrier. The front and rear frames 11 and the intermediate frame 1
3 is a lower surface capable of supporting the lower load 179, respectively.
It is formed as a cargo support surface 17 (an example of a lower cargo support).
ing. Note that the lower load supporting surface 17 is
Of the load placed on the lower load support surface 17
The vertical spacing 18 between the left and right frames 179 and
-Larger than the thickness T of the fork 180 of the crane 181
It is set to become. The support 10 is supported on the lower load support surface 17.
The lower load 179 held and the upper load 179 above it
A pair of front and rear support frames 20 located between
A connecting member 21 for connecting the support frame 20 of the
The support frame is placed on both left and right frames 12 of the main body.
For supporting the arm 20 above the lower load supporting surface 17
And a leg 22. The support frame 20 is arranged horizontally in the horizontal direction.
The support legs 22 are provided from both ends of the support frame 20.
Are suspended from the lower load support surface 17
Vertical gaps 29a, 29b up to 20 and connecting member 21
Are formed higher than the height of the lower load 179, respectively.
I have. Also, on the upper surface of the support frame 20, an upper load 1
79 supporting one of the upper load support portions 79 (one of the upper load support portions).
Example) is formed. In addition, this upper load support surface 23
Has three arc-shaped concave portions 24 formed on the left and right. The right and left frames 12 have four
Guide the support legs 22 in the vertical direction,
The angled guide frame 31 that prevents the
Has been established. The connecting member 21 includes a pair of upper and lower horizontal frames.
Plate 25, and between the two horizontal frame plates 25.
A plurality of vertical frame plates 26 are provided. Also,
The connecting member 21 includes the horizontal frame plate 25 and the vertical frame plate.
26, a pair of fork insertion holes 27 are formed.
ing. The connecting member 21 is moved from the upper load supporting surface 23
Is also located below, and is supported by the connecting member 21 and the upper load supporting surface 23.
Fork can be inserted between the top and bottom of the held load 179
Fork insertion space 28 is formed. Also at the top
The horizontal frame plate 25 has a plurality of hanging eyebolts 30.
The upper ends of these eyebolts 30 are in the upper part.
It is located below the load support surface 23. The operation of the above configuration will be described below.
You. Loading multiple loads 179 into the empty container body 9
At first, as shown in FIG.
A plurality of (three in FIG. 4) loads 179 are suspended by the fork 180
5 and lower part of the container body 9 as shown in FIG.
After being placed on the load support surface 17, the fork 180 is
From the lower part of the container body 9 to one side. this
When loading, the load 179 placed on the lower load support surface 17
The vertical distance 18 from the arm 12 is the thickness T of the fork 180
The fork 180 can be easily removed.
You. Next, as shown in FIG.
80 into the fork insertion hole 27 of the support 10, and
The support body 10 is lifted by the workpiece 180, and each support leg 22 is
Lower it on the left and right frames 12 of the antenna body 9. On this occasion,
Each support leg 22 is guided by the guide frame 31 and is
It is fixed on the left and right frames 12 without shifting to the right.
As a result, the support legs 2 placed on the left and right
2, the support frame 20 is stacked on the lower load support surface 17.
It is horizontally supported above the loaded lower load 179. Then, fork 180 is inserted
Withdraw from the inlet hole 27 and use the fork 180 again.
To lift and support another (three in the figure) loads 179
It is lowered on the upper load supporting surface 23 of the frame 20. At this time,
The fork 180 is inserted into the fork insertion space 28.
As a result, the upper load 179 is attached to the support frame 20.
Therefore, it is supported. Then, fork 180
Outside the container device 1 from the fork insertion space 28
By pulling out to the container, as shown in FIG.
Loading of the load 179 into the apparatus 1 is completed. Therefore, as shown in FIG.
In the case where the diameters of the loads 179 are different from each other,
Also, the support frame 20 of the support 10 is
Is supported horizontally above the lower load 179,
The load support surface 23 does not tilt, and the fork 180 is
To easily load the upper load 179 on the upper load support surface 23.
You can see it. At this time, the upper load 179 is
4 is supported by the upper load supporting surface 23 in a state where
Therefore, the upper load 179 is accidentally rolled on the upper load support surface 23.
It is possible to prevent peeling. In this way, a plurality of loads 179 are stored in a container.
After stacking and loading the equipment 1, the container carrier
Insert the locking piece 16 of the spreader device into the locking hole 15.
And the container device 1 is lifted to
Transport to destination by carrier. Thereafter, the container device 1 is moved to the container carrier.
A) to the target place, and the locking piece 16 of the spreader device.
From the locking hole 15 and hang it on the hook of the overhead crane.
And wire supported by the upper load support surface 23.
And lift the upper load 179 one by one with an overhead crane
Unloading from container device 1 and further to eyebolt 30
Hang the support 10 with an overhead crane by inserting wires etc.
Lift and unload from container body 9, then support lower load
The lower load 179 placed on the surface 17 is
And carried out of the container body 9. to this
From the container device 1
Can be. Thus, the fork 180 is inserted
Insert the support 10 with the fork 180
Raise or insert a wire or the like into the eyebolt 30, and
By lifting the support 10 with a crane,
For installing or removing the support 10 from the tena body 9
Can significantly reduce manual labor.
Wear. In the above embodiment, the load 179 is
Three units are stacked on top of each other on device 1, but limited to three units
Not stacked, stacking up or down by three or more than three
You may look. In the above embodiment, the support 10
The eyebolt 30 is provided, but an eye plate is provided.
You may. In the above embodiment, the concave portion 24 supports the upper load.
Surface 23, but also on the lower load support surface 17
It may be formed. In the above embodiment, the fork 180 is
Insert the support 10 into the oak insertion hole 27 and close the support 10
Is lifted up by the container 181 and installed in the container body 9.
However, a supporting wire is inserted through the eyebolt 30 through a hanging wire.
10 is lifted by an overhead crane and installed in the container body 9
May be. [0049]Next, a second embodiment8 to 10
It will be described based on the following. Note that the first embodiment described above also
The same numbers are assigned to members that have the same configuration as
Description is omitted. The container device 40 includes a container body 9 and
The container body 9 comprises a detachable support 41.
Have been. The support 41 is supported on the lower load supporting surface 17.
Between the lower load 179 and the upper load 179 thereabove.
A pair of front and rear rectangular tube-shaped support frames 42 located therebetween,
With the connecting member 43 connecting these support frames 42,
It is configured. The connecting member 43 is a pair of right and left rectangular cylindrical members.
The connecting frame 45 and the center of both connecting frames 45
A pair of front and rear mounted on the lower surface of
And a fork holding frame 46. Ma
The support frame 42 is provided horizontally in the left-right direction.
And an end of the connecting frame 45 on the lower surface of the support frame 42.
The upper surface is connected, and on the upper surface of the support frame 42,
The upper load support surface 47 (upper load support) supporting the upper load 179
Holding part) is formed. These upper load support surfaces 4
From the upper load 179 supported by 7 and the upper load support surface 47
Between the top and bottom of the connection frame 45 located below.
A fork insertion space 48 into which an oak can be inserted is formed.
You. The connecting frame 45 has a plurality of suspension arms.
An eyebolt 52 is provided.
Is located lower than the upper load supporting surface 47. The fork holding frame 46 is
The connecting member 4 is formed in a channel shape having an open upper surface.
3 includes the fork holding frame 46 and the connecting frame.
And a fork insertion hole 49 surrounded by the
You. Also, they face each other before and after each of the columns 14.
A supporting member 50 for supporting the support 41 is provided on each side.
Is provided. That is, the support frame of the support 41
The lower surfaces of both ends of the system 42 are placed on the support members 50, respectively.
It is supported. Thus, the support member 50 supports
The vertical distance 51 between the support 41 and the lower load supporting surface 17 is
It is formed higher than the height of the lower load 179. The operation of the above configuration will be described below.
You. Loading multiple loads 179 into the empty container body 9
First, the fork 180 of the craw crane 181
The number of loads 179 are lifted, and the lower load of the container body 9 is lifted.
After being placed on the support surface 17, the fork 180 is
The container body 9 is pulled out from below to one side. On this occasion,
Load 179 and left and right frames placed on lower load support surface 17
The vertical spacing 18 with the fork 180 is greater than the thickness T
Since it is large, the fork 180 can be easily removed. Next, the fork 180 is
It is inserted into the fork insertion hole 49 and the fork 180
41 and lift each support frame 42 on the support member 50
Lower. As a result, as shown in FIGS.
The holding body 41 has a support member 50 interposed between the columns 14.
Then, it is horizontally supported above the lower load 179. Then, fork 180 is inserted
Withdraw from the inlet hole 49 and use the fork 180 again.
To lift another load 179 and
Lower it on the upper load support surface 47. At this time, the fork 180
It is inserted into the fork insertion space 48,
The upper load 179 is supported by the support frame 42.
You. Thereafter, the fork 180 is inserted into the fork insertion slot.
Withdrawing from the pace 48 to the outside of the container device 1
As a result, the loading of the load 179 into the container device 1 is completed.
Complete. Therefore, as shown in FIG.
In the case where the diameters of the loads 179 are different from each other,
Also, the support frame 42 of the support 41 is
And is horizontally supported above the lower load 179,
The load supporting surface 47 does not tilt, and the fork 180
To easily load the upper load 179 on the upper load support surface 47.
Can be loaded. In this way, a plurality of loads 179 are stored in a container.
After stacking and loading in the device 40, the container carrier
Insert the locking piece 16 of the spreader device into the locking hole 15
As a result, the container device 40 is
Transport by tena carrier to the destination. After that, the container device 40 is
Lower it from the rear to the destination, and lock the spreader device 1
6 is pulled out from the locking hole 15 and suspended from the hook of the overhead crane.
And wire supported by the upper load support surface 47.
Lifted load 179 one by one with an overhead crane
Out of the container device 40, and furthermore, the eyebolt 5
2 through a wire or the like, and the support 41 is
Lift the container out of the container body 9 and then
The lower load 179 placed on the support surface 17 is placed on the ceiling one by one.
Lifted by a crane and carried out of the container body 9. This
As a result, all loads 179 are unloaded from the container device 40.
can do. As described above, the fork 180 is
Insert into the hole 49 and hold the support 41 with the fork 180
Lift or insert a wire or the like into the eyebolt 52 to
By lifting the support 41 with a crane,
Installing or removing the support 41 from the tena body 9
Can significantly reduce manual labor.
Wear. Incidentally, the concave portion in the first embodiment described above.
The portion 24 is connected to the upper load supporting surface 4 in the second embodiment.
7 and the lower load supporting surface 17.Next, the third
EmbodimentWill be described with reference to FIGS. still,
A member having the same configuration as that of the first embodiment described above is used.
Therefore, the same numbers are given and the description is omitted. The container body 61 of the container device 60
A pair of front and rear end frames 62,
Pair of left and right frames 63 provided between the ends of the
Provided between the front and rear intermediate portions of these left and right frames 12.
And a pair of front and rear intermediate frames 64 formed in a frame shape.
ing. The left and right frames 63 include a front and rear middle
A rectangular column-shaped support 65 located outside the frame 64 is
Four stand, and one side of both front and rear end frames 62
The two square tubular mounting posts 66 are provided upright.
You. The upper surfaces of the front and rear intermediate frames 64 are
Each of the lower load supporting surfaces 67 (the lower load
It is formed as an example of a support part). In addition, the lower load
The support surface 67 includes left and right frames 63 and front and rear end frames.
62, and is placed on the lower load support surface 67.
The vertical spacing 68 between the load 179 and the left and right frames 63 is
-Larger than the thickness T of the fork 180 of the crane 181
It is set to become. Before being located on the same side as the mounting column 66
The rear pair of supports 65 are mounted on the lower load support surface 67.
The position between the lower load 179 and the upper load 179 above it
A pair of square tubular support frames 69 before and after
It is provided via an int 72. In addition, both support
The upper surface of the frame 69 supports the upper load 179.
A load supporting surface 70 (an example of an upper load supporting portion) is formed.
You. Each of the two support frames 69 has a pin
Lower load support centered on vertical pin 73 of joint 72
A load support position that rushes onto the surface 67 and supports the upper load 179.
A, and retreat to one side from above the lower load support surface 67 and lower
With the retreat position B which does not hinder the loading and unloading of the load 179
It is rotatable in the horizontal direction between the pin joints 72.
Load support position by built-in spring (not shown)
It is biased to the A side. The thickness 74 of the support frame 69 is less than
Min than the thickness T of the fork 180 of the low crane 181
It is formed thick. Also, from the lower load support surface 67
The vertical distance 75 from the load support position A to the support frame 69 is
It is formed higher than the height of the load 179 at the lower end. Further, it is located on the opposite side of the mounting column 66.
The load support position A
Supports the free end of the support frame 69 from below
A support member 76 is provided. The upper end of the mounting column 66 is
And a lock device for fixing the support frame 69 at the retracted position B.
An arrangement 77 is provided. That is, the locking device 77
Is the load support position of the support frame 69 at the retreat position B.
A lock position La (a virtual position in FIG.
Line) and the lock release retracting below the support frame 69
Rotate up and down between position Lb (solid line in FIG. 13)
It has a lock piece 78. The operation of the above configuration will be described below.
You. Loading a plurality of loads 179 into the empty container device 60
At this time, as shown by the imaginary line in FIG.
By rotating the frame 69 to the retreat position B, the lower load supporting surface 6
7 and retract both lock pieces 78 to the lock position La.
Rotate the support frames 69 to their retracted positions.
Fixed to B. Thereby, the support frame 69
Is inadvertently loaded by spring (not shown).
It is possible to prevent troubles such as turning to the position A side.
You. Then, the fork of the claw crane 181
At 180, the plurality of loads 179 are lifted and the lower load support surface 67 is lifted.
After placing the fork 180 under the load 179,
Pull out to one side of the antenna device 60. At this time, the lower load
Between the load 179 placed on the holding surface 67 and the left and right frames 63
The vertical interval 68 is larger than the thickness T of the fork 180.
Therefore, the fork 180 can be easily removed. Next, the two lock pieces 78 are moved to the lock position La.
To the lock release position Lb from the position shown by the solid line in FIG.
Move both support frames 69 to the retreat position B
From the lower load support surface 67 to the load support position A.
Plunge into. As a result, both support frames 69 are
Water is placed above the lower load 179 placed on the load supporting surface 67.
It is located flat. Then, using the fork 180 again,
Lifting a plurality of loads 179 to the load support position A
Is lowered on the upper load support surface 70 of both support frames 69. This
At this time, the fork 180 is moved between the lower load 179 and the upper load 17.
9 is inserted into the space 79 formed between
The load 179 in the upper stage is
Supported. Then, fork 180 is moved to space 7
9 to the outside of the container device 60.
Then, the loading of the load 179 into the container device 1 is completed.
You. Therefore, as shown in FIG.
This is the case when the diameters of the plurality of loads 179 are different from each other.
However, the support frame 69 rotates to the load support position A and moves downward.
Because it is located horizontally above the step load 179, it supports the upper load.
The surface 70 does not tilt, and the fork 180 is used.
To easily load the upper load 179 on the upper load support surface 70.
Can be taken. At this time, the free end of the support frame 69 is supported.
Because it is supported by the member 76, the upper load 179
The load can be sufficiently received by the support frame 69 in terms of strength.
it can. The support frame 69 is provided with a spring (not shown).
) Is biased toward the load support position A,
The support frame 69 is inadvertently retracted due to vibration or the like.
The danger of turning to the side can be prevented. In this way, a plurality of loads 179 are
After stacking and loading the equipment 1, the container carrier
Insert the locking piece 16 of the spreader device into the locking hole 15.
And the container device 1 is lifted to
Transport to destination by carrier. After that, the container device 1 is
A) to the target place, and the locking piece 16 of the spreader device.
From the locking hole 15 and hang it on the hook of the overhead crane.
Wire and the like are supported by the upper load support surface 70.
And lift the upper load 179 one by one with an overhead crane
It is carried out of the container device 1. Thereafter, as shown by the virtual line in FIG.
Rotate the support frame 69 from the load support position A to the retreat position B
To retract from above the lower load supporting surface 67,
At 8, it is fixed at the retreat position B. As a result, the lower load 17
9 is removed from the lower load support surface 67 when the support frame 69 is removed.
Is not in the way. Thus, the support frame 6
9 between the load support position A and the retreat position B
As a result, the support frame 69 projects onto the lower load support surface 67.
Into or withdraw from the lower load support surface 67.
Can significantly reduce manual labor.
You. In the third embodiment, the support frame
The rotation of 69 is performed manually, but the motor or cylinder
The rotation may be performed automatically using a device. The third fruit
In the embodiment, the rotation of the lock piece 78 is manually performed.
However, it is automatically rotated using a motor or cylinder device.
You may. [0080]Next, a fourth embodiment14 to 16
It will be described based on. The container device 86 includes the lower support 8
7 and an upper support 88. Of which, below
The part support 87 includes a pair of front and rear lower front and rear end frames 89.
a, 89b and both lower front and rear end frames 89a, 89b
A pair of lower front / rear intermediate frames 9 arranged in parallel with each other
0a, 90b and a pair of left and right lower left and right frames 91, 9
2a and 92b. Of these, one of the lower left and right frames 91 is
One end of lower front and rear end frame 89a and lower front and rear end frame
89b and one end of the lower part.
One end of each of the rear intermediate frames 90a and 90b has one lower left and right side.
The frame 91 is integrally connected to an intermediate portion. Also,
The other lower left and right frames 92a and 92b are
The lower left and right frames 92a are divided into lower front and rear ends.
The other end of the frame 89a and the lower front / rear intermediate frame 90a
Connected to the other end, and the remaining lower left and right frames 92b
Is the other end of the lower front and rear end frame 89b and the lower front and rear intermediate frame.
Connected to the other end of the arm 90b. The above one lower front / rear intermediate frame 90
a and the other lower front / rear intermediate frame 90b.
A fork insertion space 93 into which an oak can be inserted is formed.
ing. The lower front and rear end frames 89a and 89b
Each upper surface of the lower front and rear intermediate frames 90a and 90b is
The lower load support surface 94 (lower load support surface 94) capable of supporting the lower load 179, respectively.
It is formed as an example of a cargo support portion). Further, the upper support 88 has a pair of front and rear
The upper front and rear end frames 97 and the upper and lower front and rear end frames
A pair of left and right upper left and right frames provided between the ends of the
And the front and rear middle part of these upper left and right frames 98
A pair of front and rear intermediate frames 99 provided between the front and rear
It is composed of The upper front and rear end frames 97 and the upper front and rear middle
Each upper surface with the intermediate frame 99 carries the upper load 179, respectively.
Upper load support surface 100 that can be supported (an example of an upper load support portion)
It is formed as. The upper load supporting surface 100 is
It is located above the upper left and right frames 98 and supports the upper load.
Upper load 179 placed on surface 100 and upper left and right frames
The vertical distance 95 from the claw crane 181 is
The thickness is set to be larger than the thickness T of the workpiece 180. Ma
Square pillars are provided at the front, rear, left and right corners of the upper support 88.
101 are provided upright.
An engagement hole 15 for the predder device is formed. Further, one lower left side of the lower support 87
The right frame 91 has a plurality of vertical pillars 102 in the form of a square tube.
The upper ends of these vertical columns 102 are connected to the upper support 8.
8 is integrally connected to one upper left and right frame 98.
You. In addition, the upper support from the lower load support surface 94 of the lower support 87.
The vertical distance 103 to the holder 88 is the height of the lower load 179.
Higher. According to this, the empty container device 86 is
When loading a number of loads 179, first, the crawler crane 18
A plurality of loads 179 are lifted by one fork 180 or the like,
Insert the fork 180 into the fork insertion space 93
After placing the load 179 on the lower load support surface 94,
Oak 180 from fork insertion space 93 into container
Pull out to the outside of the device 86. Further, using the fork 180, another
Lift multiple loads 179 and place them on the upper load support surface 100
After that, the fork 180 is moved below the upper load 179.
From the container device 86 to the outside. At this time,
The load 179 placed on the load support surface 100 and the upper left and right frames
The vertical distance 95 from the fork 180 is greater than the thickness T of the fork 180
, The fork 180 can be easily removed. In this way, a plurality of loads 179 are
As shown in FIG.
Between the lower load support surface 94 and the upper support 88.
The gap 103 is formed higher than the height of the lower load 179.
Therefore, the diameters of the plurality of loads 179 at the bottom are different from each other.
Even if it is, the upper load 179 is placed on the upper load support surface.
100 can be easily loaded. After loading the load 179, the container carry
A. Insert the locking piece 16 of the spreader device into the locking hole 15.
By lifting the container device 86,
Transport to the destination with an antenna carrier. Also mentioned above
As a fifth embodiment similar to the fourth embodiment,
A container device 110 having the configuration shown in FIG.
The configuration of the container device 110 will be described below. In addition, above
The members having the same configuration as those of the fourth embodiment described above have the same numbers.
Numbers are appended and description is omitted. That is, the upper support 8
8, a pair of front and rear L-shaped lower frames 111 is provided.
ing. Horizontal frame of both lower frames 111
The portion 112 corresponds to the lower support, and each horizontal frame portion 11
2 has a lower load support capable of supporting the lower load 179
A surface 113 (an example of a lower load supporting portion) is formed. Ma
The vertical frame portions 114 of both lower frames 111 are vertically
The upper end of the vertical frame part 114 corresponds to the support, and the upper end is supported.
It is integrally connected to the lower surface of one upper left and right frame 98 of the body 88.
Is tied. Then, from the lower load support surface 113 to the upper support
The vertical distance 115 to the holding body 88 is the height of the lower load 179.
Higher. [0092]Next, a sixth embodiment18 and FIG.
It will be described based on. Container device 125 is a lower support
126 and an upper support 127. this house,
The lower support 126 is a pair of front and rear lower front and rear end frames.
Frames 128a and 128b and both lower front and rear end frames 128
a, a pair of front and rear lower parts arranged in parallel between 128a and 128b
Intermediate frames 129a and 129b and a pair of left and right lower left parts
Composed of right frames 130, 131a and 131b
I have. One of the lower left and right frames 130
Is one end of the lower front and rear end frame 128a and the lower front and rear end frame
Provided between one end of the arm 128b and
One end of the intermediate frames 129a and 129b is at the lower left of one
It is integrally connected to the middle part of the right frame 130. Ma
The other lower left and right frames 131a and 131b are
The lower left and right frame 131a is divided into two parts
The other end of the lower front / rear end frame 128a and the lower front / rear intermediate frame
Connected to the other end of the arm 129a.
Frame 131b is the other end of lower front and rear end frame 128b
And the other end of the lower front / rear intermediate frame 129b.
Have been. The lower one of the front and rear intermediate frames 12
9a and the other lower front / rear intermediate frame 129b
Is a lower fork insertion space 13 into which a fork can be inserted.
2 are formed. The lower front and rear end frames 128a, 128
b and each of the lower front and rear intermediate frames 129a and 129b
The surface is a lower load support surface that can support the lower load 179, respectively.
133 (an example of a lower load supporting portion). The upper support 127 is also a lower support 1
26, upper and lower end frames 136a, 136b
And upper and lower intermediate frames 137a and 137b, and upper part
Left and right frames 138, 139a, 139b
I have. Further, both upper and lower intermediate frames 137a, 137
Between the front and rear of 7b, an upper fork
An entry space 140 is formed. Also in front of the above
Rear frame 136a, 136b and upper middle frame
137a and 137b are on top of the load 1
The upper load support surface 141 (which can support the upper load support portion 79)
It is formed as an example). The lower left and right sides of one of the lower supports 126
At each end of the frame 130, a rectangular column-shaped vertical support 14 is provided.
3 is erected, and in the upper and lower middle part of both vertical struts 143,
One end of the upper front and rear end frames 136a and 136b and the upper end
And the ends of the left and right frames 138 are integrally connected.
You. Lower load support surface 133 and upper portion of lower support 126
The vertical distance 147 from the support 127 is the height of the lower load 179.
Higher than the height. Further, a square frame is provided at the upper end of each of the vertical supports 143.
A top frame body 144 is provided. This sky
The body 144 includes a pair of front and rear frames 145,
It comprises a pair of left and right frames 146. In addition, Tenfu
Spreader devices are located at the four corners of the frame 144
Locking hole 15 is formed. Also, the upper support 1
27 on the upper load support surface 141 and the top frame 144
The lower interval 148 is formed higher than the height of the load 179 in the upper stage.
Have been. According to this, the empty container device 125
When loading a plurality of loads 179, first, the crawler crane 1
A plurality of loads 179 are lifted by a fork 180 of 81, and
Insert fork 180 into lower fork insertion space 132
Then, the load 179 was placed on the lower load support surface 133.
Then, the fork 180 is inserted into the lower fork insertion space 132.
From the container device 125 to the outside. Further, using the fork 180, another
Lift a plurality of loads 179, and fork 180
And insert the load 179 into the
After placing the fork 180 on the cargo support surface 141,
From the fork insertion space 140 to the container device 125
Pull out outside. In this way, a plurality of loads 179 are stored in a container.
After being stacked in the upper and lower two stages on the device 125, the container
A. Insert the locking piece 16 of the spreader device into the locking hole 15.
By lifting the container device 125,
Transport to destination by container carrier. Further, the third embodiment is similar to the sixth embodiment.
As a seventh embodiment, a container having the configuration shown in FIG.
Container device 150, and the structure of the container device 150.
The configuration will be described below. Note that the sixth embodiment described above
Members having the same configuration as those described above are denoted by the same reference numerals and description thereof is omitted.
You. That is, the container device 150 is supported at the lower part.
It has a body 151 and an upper support 152. This
The lower support 150 is a pair of front and rear lower front and rear frames.
Arm 153 and one end of both lower front and rear frames 153.
And a lower horizontal frame 154 that is shaved.
The upper surfaces of the lower front and rear frames 153 are respectively
Lower load supporting surface 155 (lower portion) capable of supporting lower load 179
It is formed as an example of a load supporting portion). The upper support 152 has a pair of front and rear upper members.
The front and rear frames 157
Each upper surface of the rear frame 157 holds the upper load 179, respectively.
Upper load support surface 158 that can be supported (an example of an upper load support portion)
It is formed as. The lower horizontal frame 1 of the lower support 151
At each end of 54, a rectangular column-shaped vertical column 159 is erected.
The upper and lower middle parts of both vertical supports 159 are located in front of each upper part.
One end of the rear frame 157 is integrally connected. still,
From the lower load support surface 155 to the upper front and rear frame 157
The vertical interval 160 is formed higher than the height of the lower load 179.
Have been. The upper frame 159 has a ceiling frame at the upper end thereof.
Body 144 is provided from the upper load support surface 158
The vertical interval 161 up to the top frame 144 is the upper load 1
It is formed higher than the height of 79. [0107] As described above, according to the present invention, the claims
According to the invention described in Item 1, the diameters of the plurality of loads at the lower stage are each
Support frame, even if they are different
Is supported horizontally above the lower load via support legs
Because the upper load support does not tilt, use a fork
The upper load can be easily loaded on the upper load support.
Wear.At this time, the load on the upper stage is
The upper load is inadvertently loaded on the upper
Rolling on the support portion can be prevented. [0108] Insert the fork into the fork insertion hole.
And lift the support with a forkOr Aibol
Through a wire, etc. and lift the support with an overhead crane
GerBy installing the support on the container body
Significantly reduce manual labor
Can be reduced.In addition, support on the container body
When placing the support, the support legs of the support are guided by the guide frame
On the container body without shifting
Lowered and fixed. [0109] [0110] [0111] [0112] [0113] [0114]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a container device according to a first embodiment of the present invention. FIG. 2 is a side view of the same container device. FIG. 3 is a view taken along the line XX in FIG. 2; FIG. 4 is a perspective view showing a procedure for loading a load into the container device. FIG. 5 is a perspective view showing a procedure for loading a load into the container device. FIG. 6 is a perspective view showing a procedure for loading a load into the container device. FIG. 7 is a perspective view when the load is loaded in the container device in two vertical stages. FIG. 8 is a perspective view of a container device according to a second embodiment of the present invention. FIG. 9 is a front view of the container device. FIG. 10 is a side view of the container device. FIG. 11 is a perspective view of a container device according to a third embodiment of the present invention. FIG. 12 is a front view of the container device. 13 is a view as viewed in the direction of arrows XX in FIG. FIG. 14 is a perspective view of a container device according to a fourth embodiment of the present invention. FIG. 15 is a front view of the container device. FIG. 16 is a side view of the container device. FIG. 17 is a perspective view of a container device according to a fifth embodiment of the present invention. FIG. 18 is a perspective view of a container device according to a sixth embodiment of the present invention. FIG. 19 is a front view of the same container device. FIG. 20 is a perspective view of a container device according to a seventh embodiment of the present invention. FIG. 21 is a perspective view of a conventional container device. FIG. 22 is a front view of the container device. 23 is a view as viewed in the direction of arrows XX in FIG. 22. FIG. 24 is a front view showing a problem when a conventional container device is used. [Description of Signs] 1 Container device 9 Container main body 10 Support 14 Support 17 Lower load support surface (lower load support) 20 Support frame 21 Connecting member 22 Support leg 23 Upper load support surface (upper load support) 27 Fork insertion Hole 28 Fork insertion space 29a, 29b Vertical spacing 40 Container device 41 Support body 42 Support frame 43 Connecting member 47 Upper load support surface (upper load supporting portion) 48 Fork insertion space 49 Fork insertion hole 50 Support member 51 Vertical spacing 60 Container device 61 Container Main Body 65 Prop 67 Lower Load Support Surface (Lower Load Support) 69 Support Frame 70 Upper Load Support Surface (Upper Load Support) 75 Vertical Spacing 76 Support Member 86 Container Device 87 Lower Support 88 Upper Support 94 Lower Load Support surface (lower load support) 100 Upper load support surface (upper load support) 102 Vertical support 103 Vertical spacing 110 Container device 112 Horizontal frame (lower support) 113 Lower load support surface (lower load support) 114 Vertical frame (vertical support) 115 Vertical support 125 Container device 126 Lower support 127 Upper support 133 Lower load support surface (lower load support portion) 141 Upper load support surface (upper load support portion) 143 Vertical support 147 Vertical spacing 150 Container device 151 Lower support 152 Upper support 155 Lower load support surface (lower load support) 158 Upper load support surface (upper load support section) 159 Vertical support 160 Vertical spacing 179 Load 180 Fork A Load support position B Retreat position

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-9-2475 (JP, A) JP-A-3-100126 (JP, U) JP-A-4-48134 (JP, U) JP-A 57- 126326 (JP, U) Hikaru 4-118332 (JP, U) (58) Fields surveyed (Int. Cl. ⁷ , DB name) B65D 19/44

Claims (1)

(57) [Claim 1] A container device comprising a container main body and a support detachable from the container main body, wherein the container main body can support a lower load. A lower load support portion is formed, and the support is connected to a plurality of support frames located between a lower load supported by the lower load support portion and an upper load above the lower load support portion. A connecting member,
And support legs mounted on the container body to support the support frame above the lower load support portion. The support frame has an upper load support portion for supporting an upper load, and An arc-shaped concave portion is formed in the support portion, and the connecting member is provided with a fork insertion hole and an eyebolt.
Is, the connecting member than the upper load support portion located below the fork can be inserted fork insertion space is formed between the upper and lower and upper load supported by the connecting member and the upper load supporting portion, the The upper end of the eyebolt is located below the upper load support
And, in the container body, a guide frame to prevent displacement of the longitudinal and lateral directions to guide the respective support legs of the support in the vertical direction is erected, the upper and lower from the lower load support portion to the support frame and the connecting member A container device wherein the intervals are formed higher than the height of the lower load.