JP2003146577A - Erecting method for framework body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a erecting method for a framework body capable of smoothly carrying out construction of the framework body regardless of height. SOLUTION: In the erecting method for a framework body, a laterally positioned framework body 10 on the ground side 143 is erected by making the attitude vertical with a base end side as a lower position. A base end side of the laterally directed framework body 10 is supported by a moving means 30 and the other part is supported by a support means 60. The moving means 30 is constituted by a body 31 having a ring body 33; a base end support 40 pivotable around a lateral axis 34 against the body 31; and a fixing means 50 provided on the base end support 40. The attitude of the framework body 10 is changed to a vertical direction in the state that the base end part of the framework body 10 is fixed by the fixing means 50 after it is supported by the base end support 4. Accompanying with the change of the attitude to a vertical direction, the base end support 40 can be pivoted around the lateral axis 34 against the body 31 and the change of the attitude can be smoothly carried out in the state that the fixed attitude at the base end side is maintained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of standing a frame body used for constructing a storage shelf or the like capable of storing a load.

[0002]

2. Description of the Related Art Conventionally, for example, in the case of constructing a storage shelf, a plurality of columns are erected at a predetermined position in the front and rear and left and right, and the columns are connected by front and rear connecting members and left and right connecting members. This is done by providing an article placement section between the columns. At that time, the front-rear connecting member, the left-right connecting member, and the article mounting portion are connected at a large number of positions in the height direction of the support column from the lower end portion to the upper end portion thereof.

[0003]

However, according to the above-described conventional construction method, the front and rear connecting members, the left and right connecting members, and the article placing portion are connected to the upright support pillar from the lower end portion to the upper end portion. Since it was carried out sequentially over the parts, its construction was not easy and the efficiency was poor. In particular, the higher (higher) the storage shelves, the more difficult the construction work was.

Therefore, an object of the invention according to claim 1 of the present invention is to provide a method for erection of a framework, which enables smooth construction of the framework regardless of its height.

[0005]

In order to achieve the above-mentioned object, a method of standing a frame structure according to a first aspect of the present invention is a rectangular parallelepiped frame structure positioned laterally on the ground side. A method of standing up a frame body in which the base end side is changed to a vertical posture with the base end side as a lower position, and the base end side of the horizontal frame body is supported by a moving means and other portions are supported by a supporting means. The moving means includes a main body having a ring body, a base end support body swingably provided around the horizontal axis with respect to the main body, and a fixing means provided on the base end support body. It is characterized in that the posture of the framework is changed in the vertical direction in a state where the base end portion of the framework is supported by the base support and then fixed by the fixing means.

Therefore, according to the first aspect of the invention, when the posture of the framework is gradually changed in the vertical direction with the base end side as a lower position, the base end is changed with respect to the main body in accordance with the change in the posture in the vertical direction. The support can be swung around the transverse axis.

According to a second aspect of the present invention, there is provided a method for standing up a frame body, wherein in the structure according to the first aspect, the main body of the frame body has a base when the posture of the frame body is changed in a vertical direction. It is characterized in that an open portion is formed to allow passage of the end side.

Therefore, according to the second aspect of the present invention, the base end side portion of the support column swings in the open portion. The method of standing up the framework according to claim 3 of the present invention is characterized in that, in the configuration according to claim 1 or 2, the supporting means is provided with a width determining means for the framework. It is a thing.

Therefore, according to the third aspect of the invention, when the frame body is assembled on the ground side, the width can be determined by the width determining means. Further, the method of standing up the framework according to claim 4 of the present invention is the method of standing up the framework as claimed in any one of claims 1 to 3, when the framework is laterally positioned on the ground side. On the free end side, a hanging frame body which also serves as a supporting means is provided.

Therefore, according to the invention of claim 4, the free end side of the laterally oriented frame assembly can be supported through the support means of the hanging frame assembly. Moreover, the method of standing up the framework according to claim 5 of the present invention is the structure according to any one of claims 1 to 4, wherein the framework is arranged in a plurality in front and rear as well as left and right in a vertical orientation. And a front-rear connecting member and a left-right connecting member provided between the columns, and when the column is positioned on the ground side with the column facing horizontally, the group of columns located on the lower side is formed by the moving means and the supporting means. The feature is that they support each other and then change their posture vertically.

Therefore, according to the fifth aspect of the present invention, the lateral assembly of the framework can be performed with the supporting column supported by the moving means and the supporting means. Further, claim 6 of the present invention
According to the above-described method of standing up the framework, in the configuration according to the above-mentioned claim 5, the base end of the column group located on the lower side is individually supported by a plurality of moving means, and then the posture is changed vertically. It is characterized by that.

Therefore, according to the sixth aspect of the invention, when the posture is changed to the vertical direction, the plurality of moving means are moved to the standing position as they are in accordance with the difference in load.
And the standing method of the framework of Claim 7 of this invention is the structure in any one of Claims 1-6 mentioned above, Comprising:
The hanging frame body is provided on the free end side of the frame body, and the hanging means is connected to the hanging frame body. Then, the hanging means is operated to hoist the frame body while the moving means supports the base end side. Is a vertical direction, and the posture is changed vertically, and then the hanging frame body is detached from the frame assembly.

Therefore, according to the invention of claim 7, the construction of the framework can be performed only by changing the posture of the framework vertically by the suspending means, and after changing the posture of the framework vertically, the frame for suspension is formed. You can leave your body.

Further, the method of standing up the framework according to claim 8 of the present invention is the structure according to any one of claims 1 to 7, wherein the framework is an article at least at one position in the length direction thereof. It is characterized in that after the mounting portion is provided, the posture is changed vertically.

Therefore, according to the eighth aspect of the invention, the framework may have a structure in which the article placing portion is provided at at least one position in the vertical direction. Moreover, the method of standing up the framework according to claim 9 of the present invention is such that, in the configuration according to any one of claims 1 to 8, the posture of the framework is changed in a vertical direction while being lifted in the building. It is a feature.

Therefore, according to the ninth aspect of the present invention, when the posture of the framework is changed in the vertical direction while being lifted in the building, it can be performed without interfering the upper end of the hanging means with the ceiling or the like.

According to a tenth aspect of the present invention, in the standing method of the frame body, the hanging frame body provided on the free end side of the frame body in the configuration according to any one of the first to ninth aspects is provided. After connecting the suspending means, the height of the suspending point is raised by the suspending operation of the suspending means, and the base end side is sequentially moved.

Therefore, according to the tenth aspect of the invention, the posture of the framework can be changed in the vertical direction without running the suspension means. And the method of standing up the framework according to claim 11 of the present invention, in the structure according to claim 7 or 10, is characterized in that the suspending means is a crane device, and the framework is lifted by winding a suspension rope. It is a feature.

Therefore, according to the invention of claim 11, lifting can be performed by applying a lifting force to the framework. Furthermore, the method of standing up the framework according to claim 12 of the present invention is the structure according to any one of claims 7, 10 and 11 described above, in which the suspending means is a crane device and the suspension rope is wound up. The feature is that the posture of the framework is changed vertically.

Therefore, according to the twelfth aspect of the present invention, a lifting force can be applied to the framework to gradually change the posture vertically with the base end side of the framework as a lower level. Moreover, in the method of standing up the framework according to claim 13 of the present invention, in the configuration according to claim 7 or 10, the hanging frame body has a frame structure and is connected to the framework in a sandwiched manner. It is characterized by that.

Therefore, according to the thirteenth aspect of the present invention, when the posture of the framework is changed in the vertical direction, the suspension force of the suspension means can be applied in the clamping direction. Further, claim 1 of the present invention
The method of standing up the frame body according to claim 4, wherein the method for standing the frame body is as described above.
In any one of the configurations described above, a suspending frame body to which suspending means can be connected is detachably provided at an intermediate position separated from the free end side of the framework by a set length. .

Therefore, according to the fourteenth aspect of the invention, when the posture of the framework is changed in the vertical direction, the upper end of the suspending means can be positioned inside the free end side of the framework. And the standing method of the framework of Claim 15 of this invention is the structure in any one of Claims 1-14 mentioned above, Comprising:
The horizontal axis, which is the swing fulcrum of the base support, is characterized by being set at a position where the swing locus of the most proximal end on the side of the horizontal framework does not interfere with the floor.

Therefore, according to the fifteenth aspect of the present invention, it can be performed until the frame body is oriented vertically without the outermost base end contacting the floor. Furthermore, in the method of standing up the framework according to claim 16 of the present invention, in the configuration according to any one of claims 1 to 15 described above, the horizontal axis which is the swing fulcrum of the base support is laterally oriented. It is characterized in that it is located below the support surface of the base end supporter that supports the base end portion of the framework.

Therefore, according to the sixteenth aspect of the present invention, the posture change of the framework until reaching the vertical direction can be performed through the horizontal axis near the floor. Moreover, in the method of standing up the framework according to claim 17 of the present invention, in the configuration according to any one of claims 1 to 16, the posture is changed vertically by the receiving portion provided on the base end support. It is characterized in that it receives the lower end of the framework.

Therefore, according to the seventeenth aspect of the present invention, it is possible to prevent the framework from unnecessarily descending due to the load when the posture is changed to the vertical direction.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below.
It will be described with reference to the drawings as a state in which it is adopted in a framework that can store loads.

First, an example of the assembled frame assembly 10 will be described with reference to FIGS. The framework 1
Reference numeral 0 designates columns 11 arranged in front and rear and left and right by two (plural), lattices (an example of front and rear connecting members) 15 arranged in front and rear of these columns 11, and the column 11
A beam (an example of a left and right connecting member) 17 disposed in parallel between the left and right sides of the above, and a bridging member (an example of an article placing portion) 21 disposed between the beams 17 facing each other in front and rear (parallel) ,
A lower end member 24 attached to the lower end of the column 11,
The leg device 25 is attached to the lower end member 24.

The column 11 is integrally formed in the shape of a mold with the slit 12 for insertion. An inward concave portion 13 is formed over the entire length in the vertical direction at the center of the outer plate portion in the width direction, and a rectangular locking hole that is long in the vertical direction is formed in the back plate portion of the concave portion 13. A plurality of 14 are formed at a predetermined pitch in the vertical direction. The support 11 is arranged with the insertion slits 12 facing each other in the front-rear direction.

The lattice 15 is a C-shaped rail,
Both ends are inserted into the insertion slit 12 in a horizontal or inclined state, and a connecting tool (rivet or the like) 16 is actuated to connect between the front and rear columns 11.

The beam 17 is obtained by bending a strip plate into a rectangular tube shape. The upper plate portion of the beam 17 is provided with a cutout portion 18 which is a set of two parallel pieces.
A plurality of sets are formed at predetermined pitches in the length direction. A connecting member 19 is connected to both ends of the beam 17 by welding. The connecting member 19 is formed in a shape of a member so that it can be applied to the side plate portion from the outer plate portion of the pillar 11 and can be fitted into the recessed portion 13.

At the rear end edge of the fitting portion into the recessed portion 13, downward engaging projections 20 engageable with the engaging hole 14 are formed at a plurality of upper and lower positions. By inserting the locking projections 20 into the locking holes 14 and engaging them, the connection member 19 can be connected to the support column 11.

The bridging member 21 provided between the two beams 17 is integrally formed in the shape of a gate rail by bending a strip plate. A pair of locking portions 22 are provided at both ends of the bridging member 21 in the length direction so as to be engageable with the cutout portions 18 of the beam 17 from above. As a result, in the bridging member 21, after the locking portions 22 at both ends are engaged with the cutout portions 18,
It is provided between the pair of beams 17 by operating an appropriate engagement posture holding means 23. Then, a flat article mounting surface is formed by the upper surfaces of the bridging members 21.

The lower end member 24 is made of an L-shaped mold material, and is attached to the lower end surface of the column 11 and then integrated by a connecting tool (or welding). The leg device 25 attached to the lower end member 24 includes a landing body 26, a nut body 27 fixed to the upper surface of the landing body 26, a nut body 28 fixed to the lower surface of the lower end member 24, and both nut bodies. It is composed of a screw body 29 screwed to the screws 27 and 28.

Here, the screw body 29 has a rotation operating portion 29a formed in the central portion thereof, and opposite direction screws are formed on both sides of the rotation operating portion 29a. Therefore, the lower end member 24 and the landing body 26 are configured to relatively move toward and away from each other by rotating the screw body 29 via the rotation operation portion 29a.

The rectangular parallelepiped frame structure 10 constructed as described above is used with its length direction oriented vertically, and at that time, it is assembled and positioned laterally on the ground side. And when carrying out the assembly, FIG. 1 and FIG.
As shown in FIG. 2, two (single or plural) moving means 30 and three (single or plural) supporting means 60 are provided.
And a hanging frame body 80 which also serves as a supporting means are prepared.

The moving means 30 is of a trolley type and is constructed so as to support the base end side of the horizontally oriented frame assembly 10. That is, as shown in FIGS.
Is formed in the shape of a flat frame, in which case the frame assembly 10 is provided on the rear side.
When the posture is changed in the vertical direction, the open portion 32 that allows passage of the base end side of the framework 10 is formed in a state of being opened upward and downward and backward. Caster-type wheels (an example of a wheel body) 33 are provided at the four corners of the lower portion of the main body 31. The wheels 33 may be partly or wholly of a fixed wheel type.

The main body 31 is provided with a base end support 40 which is swingable with respect to the main body 31 around a horizontal axis 34. That is, the base end support 40 includes a pair of left and right side plate members 41 and a rectangular plate-shaped base member 42 connected between the intermediate portions of the side plate members 41. The side plate member 4
1 is a template plate having an inverted L-shaped cross section, and a swing through hole 43 is formed in the vertical plate portion at an intermediate position near the rear end and below the base member 42. Further, the horizontal plate portion has fixing through holes 4 at a position near the front end and an intermediate position.
4 are formed.

A support member 45 is provided on the base member 42 from its front end to its intermediate portion, and
A pair of left and right width determining members 46 are provided on the support member 45. Further, a support plate 47 made of soft vinyl chloride is provided by adhesion on the upward surface of the support member 45 between the width determining members 46, so that the support plate 47 allows the base end side of the horizontally oriented frame body 10 to be located. , That is, post 11
A support surface capable of supporting the downward surface of the base end side of the.

Further, at a position near the front end on the base member 42, there is provided a receiving portion 48 capable of receiving the lower end portion of the frame body 10 whose posture has been changed vertically. This receiving part 48
Has a plate shape, and a recess 49 opened upward is formed in the center portion in the left-right direction. And recess 49
Is configured such that the rotation operation portion 29a of the screw body 29 can be fitted therein, and thus the nut body 28 fixed to the lower surface of the lower end member 24 can be supported by the receiving portion 48. An example of the base support 40 is configured by the above 41 to 49 and the like.

On the main body 31, a pair of left and right brackets 36 are provided in the central portion in the front-rear direction, and a swinging through hole 37 is formed in these brackets 36. Then, between the brackets 36, the base end support 40
And the lateral pin 38 is inserted between the swinging through-holes 37 and 43 in a state in which the swinging through-holes 37 and 43 are in communication with each other.
The base end support 40 is swingably provided around the horizontal axis 34 with respect to the main body 31 by passing through. A tubular spacer 39 fitted on the lateral pin 38 is located between the brackets 36.

At this time, the horizontal axis 34, which is the swinging fulcrum of the base end support 40, is the most proximal end portion on the side of the framework 10 sideways, that is, the swinging locus R of the landing body 26 is on the floor 143 side. It is set as a position that does not interfere. Further, the horizontal axis 34 is a base end support member 40 that supports a base end portion of the frame structure 10 in the horizontal direction.
Is set as a position lower than the support surface of, that is, the support surface of the support plate 47.

A fixing means 50 is provided on the base end support 40, and the fixing means 50 includes two holding bars 51 and
It is composed of four sets of fixtures (bolts, nuts, etc.) 54 and the like. That is, the holding bar 51 has a plate shape, and the fixing through hole 4 is provided at both end portions in the length direction thereof.
A fixing through hole 52 that can communicate with the No. 4 is formed. On the lower surface side, a pad plate 53 is provided which can come into contact with the upper surface of the lower column 11, and the pad plate 53 is made of soft vinyl chloride.

Therefore, with the downward surface on the base end side of the column 11 supported by the support plate 47, the contact plate 53 is brought into contact with the upward surface, and both fixing through holes 44, which are in communication with each other. By operating the fixture 54 between 52, the base end portion of the framework 10 can be supported by the base support 40 and then fixed by the fixing means 50. 31-5 above
An example of the moving means 30 is constituted by 4.

The supporting means 60 is used for the horizontal frame assembly 10.
Is configured to support the other portion of. That is, as shown in FIG. 1, FIG. 2, FIG. 10, and FIG. 11, the support means 60 is erected from a pair of left and right landing members 61 whose longitudinal direction is the front-rear direction and a central portion of these landing members 61. A vertical member 62 and a horizontal member 63 in the left-right direction provided between the upper ends of the vertical members 62 are provided.
Numerals 63 are formed of square rod-shaped bodies. A support plate 64 made of soft vinyl chloride is provided on the upper surface of the lateral member 63 by adhesion.

The supporting means 60 having the above-mentioned structure supports the lateral frame 10 by simultaneously receiving the downward surfaces of the pair of lower columns 11 by the supporting plate 64. For example, transportation means 30
There will be a total of 3 places, near and in the middle.

The supporting means 60 is provided with a width determining means 70 for the framework 10. That is, the width determining means 70
Uses a lower member 71 that can be fitted into the lateral member 63 from below, an upper member 72 that can come into contact with the lateral member 63 from above, and through holes formed in both members 71, 72. It is composed of a pair of connecting tools (bolts and nuts) 73 and the like capable of fastening and connecting both members 71 and 72.

The upper member 72 is made of a mold material having an L-shaped cross section, and a width determining member 74 made of soft vinyl chloride is provided by adhesion on the inward surface of the vertical member. The width determining means 70 is provided in a pair of left and right in a state where the width determining bodies 74 are opposed to each other, so that the width determining bodies 74 are opposed to the outward facing surfaces of the pair of lower columns 11,
It is structured so that the desired width can be decided. Further, the width determining means 70 is configured to be able to change the restriction width W by changing the position in the left-right direction by loosening the connecting tool 73.

When the frame body 10 is laterally positioned on the ground side, the set length L is set from the free end side of the frame body 10.
The hanging frame body 80 which also serves as a supporting means is provided at an intermediate position spaced apart from each other. Here, the hanging frame body 80 has a frame structure, and is provided so as to be able to be connected to the frame body 10 in a sandwiched manner and detachably.

That is, the hanging frame body 80 is shown in FIG.
As shown in FIGS. 2 and 12 to 16, the lower frame 81
The upper frame 111, the joint member 132 provided between the frames 81 and 111, and the diagonal member 137.

The lower frame 81 is made of C-shaped material,
The open portion faces downward, and the lengthwise direction is oriented horizontally. The connected member 82 is provided so as to project to the free end side from the side surface facing the free end side and near both ends in the left-right direction. Here, the connected member 82 is a plate with a hole, and the hanging wire can be connected (locked) using the hole.

In the vicinity of the member to be connected 82, a connecting bracket 83 for connecting the joint material 132 is continuously provided upward from the upper surface of the lower frame 81.
Here, the connecting bracket 83 is made of an L-shaped material, and connecting through holes 84 are formed at two positions in the length direction. A connecting bracket 85 for connecting the diagonal member 137 is connected upward from the upper surface of the lower frame 81 between the connecting brackets 83. Here, the connecting bracket 85 is made of a plate material, and diagonal member connecting through holes 86 are formed at two positions thereof.

Plate-shaped nuts 87 are provided inside both ends of the lower frame 81, and screw portions 88 are formed at two positions in the plate-shaped nut 87, and the lower portions are opposed to these screw portions 88. Through hole 89 on the frame 81 side
Are formed.

On the lower frame 81 side, a connecting means 90 for the support 11 is provided, and the connecting means 90 is a lower holding body 91 which opposes the support 11 from below,
It is composed of an upper sandwiching body 96 and the like opposed from above.

That is, the lower sandwiching body 91 has a rectangular plate shape and is provided at both ends of the lower frame 81 so as to be capable of abutting from above, and a through hole 92 which can communicate with the through hole 89 is provided at one end side thereof. While being formed, a coupling through hole 93 is formed in the middle portion. A plate-shaped locking body 94 is provided so as to penetrate through the middle portion in the width direction. Here, the locking body 94 is engageable with the locking hole 14 in the pillar 11, and is provided at five locations (a plurality of locations) in a state of matching the formation pitch of the locking hole 14. There is. Further, a patch plate 95 made of soft vinyl chloride is provided by adhesion on the upper surface of the lower holding body 91 in a state of being distributed to both sides of the locking body 94 group.

The upper sandwiching member 96 is formed by bending so that it can be fitted into the column 11 from above, and the inner surface of the column 11 facing the upward and lateral surfaces of the column 11 is
A pad 97 made of soft vinyl chloride is provided by adhesion. Further, a connecting through hole 98 that can communicate with the connecting through hole 93 is formed on the lateral protruding side portion of the upper sandwiching body 96.

According to the above structure, the lower clamp 81 can be connected to the lower frame 81 by inserting the bolt 99 between the through holes 89 and 92 which are communicated with each other and screwing the bolt 99 into the screw portion 88 of the plate nut 87. Then, the group of locking holes 14 is engaged with the group of locking bodies 94, the support 11 is placed on the contact plate 95, and then the upper sandwiching body 96 is fitted into the support 11 from above and communicated. The upper clamp body 96 can be coupled to the lower clamp body 91 by tightening and coupling the coupling tools (bolts and nuts) 100 using the through holes 98 and 93. Accordingly, the lower frame 8 is connected by the connecting means 90.
The stanchion 11 can be connected to one side. An example of the coupling means 90 is configured by the above 91 to 100.

Supporting means 1 on the side of the hanging frame 80
Two sets (plural sets) of 05 are provided on the lower frame 81 side. That is, the supporting means 105 includes the landing member 106 whose longitudinal direction is the front-back direction, and the landing member 106.
And a vertical member 107 erected from the central portion of the above, where both members 106 and 107 are formed of a square rod-shaped body. The upper end of the vertical member 107 is located at the lower frame 8
1 can be fitted from below.

The upper frame 111 has a symmetrical structure in which the lower frame 81 is turned upside down.
Details are omitted. That is, the upper frame 111 includes the connected member 112, the connecting bracket 113, the connecting through hole 114, the connecting bracket 115, the diagonal member connecting through hole 116, the plate nut 117, the screw portion 118, and the through hole 11.
9, coupling means 120, upper sandwiching body 121, through hole 12
2, coupling through hole 123, locking body 124, pad plate 12
5, lower holding body 126, backing plate 127, through hole 1 for connection
28, bolts 129, connecting tools 130, and the like.

The joint material 132 is made of C-shaped steel material, and the connecting through holes 84 and 114 in the connecting brackets 83 and 113 of both frames 81 and 111 are provided at both ends thereof.
Is formed with a through hole 133 for connection, and a through hole 134 for connecting diagonal members is formed at an inner position.
Therefore, the lower frame 81 and the upper frame 11 are tightened by coupling the couplers (bolts / nuts) 135 using the through holes 84, 114, 133 which are communicated with each other.
1 and 1 can be spliced together via a pair of joint materials 132.

The diagonal member 137 is made of an L-shaped steel material, and at both ends thereof, the diagonal member connecting through holes 86 in the connecting brackets 85 and 115 of the frames 81 and 111,
116 and a diagonal material connecting through hole 138 that can communicate with the diagonal material connecting through hole 134 in the joint material 132 are formed. Therefore, one of the frames 81, 1
The diagonal member connecting through holes 86 and 116 and the diagonal member connecting through hole 138 in 11 are made to communicate with each other, and the diagonal member connecting through holes 134 and 138 are made to communicate with each other, and the connecting member is used to make a connection. By tightening and coupling (bolt / nut) 139, either frame 81, 111
The joint member 132 and the joint member 132 can be jointed and reinforced via a pair of diagonal members 137. Due to the above 81-139 etc.,
An example of the hanging frame body 80 is configured.

As shown in FIGS. 1 to 3, a crane device (an example of suspending means) 1 is of a traveling type, and a traveling vehicle body 2 side thereof is provided with a boom 3 and a winch device 4 which are extendable and retractable. Has been. The free end side of the suspension rope 5 which is wound and unwound by the winch device 4 is hooked on a guide wheel body 6 provided at the tip of the boom 3, and a suspension hook 7 is provided at the free end of the suspension rope 5. There is. The hanging hook 7 is made up of the connected members 82, 112.
The suspension wire 8 is connectable (lockable) to the suspension wire 8.

The crane device 1 travels on the floor (ground side) 143 in the building 140, and is controlled so that the tip of the boom 3 does not come into contact with the ceiling 141 of the building 140 at that time.

The operation of the above-described embodiment will be described below. First, the frame body 10 is assembled sideways on the floor 143 in the building 140. In order to perform this assembly, the pair of moving means 30 and the three supporting means 60 are set on the floor 143, and the supporting means 10 is provided.
The lower frame 81 is set via 5. At that time, it is preferable that the moving means 30 sets the frame body 10 in a position where the position adjustment is not performed much after changing the posture of the frame body 10 in the vertical direction.

Then, the moving means 30, the supporting means 60 group,
A pair of lower right and left columns 11 is placed sideways across the lower frame 81. At this time, the leg device 25 is incorporated in the lower end portion of the column 11.

In the moving means 30, as shown in FIGS. 4 to 6, the base end support 40 is in a sideways posture, and the support plate 47 is directed upward. On the support plate 47, the support 1
The lower end portions of the support columns 1 are placed on the lower end portions of the support columns 11.
The width can be decided by fitting it in between. Then, the recess 49 of the receiving portion 48 is fitted with the rotary operation portion 29a of the screw body 29 of the leg device 25.

In the support means 60 group, as shown in FIGS. 1 and 10, the width W of the width determining means 70 is set in advance to a predetermined length by a loosening operation of the connector 73. ing. The middle portion of the column 11 is positioned inside the width determining body 74 of the width determining means 70 and placed on the support plate 64.

Further, the lower frame 81 is composed of
As shown in FIGS. 13 to 15, the intermediate member is arranged at a desired position via the supporting means 105, and is separated from the free end side of the column 11 by the set length L on the backing plate 95 of the lower holding body 91. The part position is set. At the time of this placement, the group of locking bodies 94 on the side of the lower sandwiching body 91 is engaged with the group of locking holes 14 in the column 11.

In this way, the pair of columns 11 can be supported from the moving means 30 through the supporting means 60 group to the lower frame 81. In this state, a plurality of places between the left and right struts 11 are connected via a beam 17 or the like (in addition to the beam 17 for the bridging member 21, a place that does not interfere with the use of the left and right connecting members for connection only is used. May be connected via). At the time of such connection, the installation positions of the moving means 30, the support means 60 group, the lower frame 81, etc., that is, the support positions are finely adjusted.

Then, the lattice 1 is attached to the pair of lower columns 11.
By connecting one ends of the five groups, it is possible to connect the lattices 15 vertically or in a slanted manner upward. And between the other ends of the lattice 15 group,
Similarly, while connecting a pair of upper columns 11,
A plurality of places between the pair of left and right columns 11 are connected via the beam 17 or the like at the upper level.

As a result, as shown in FIGS. 1, 2 and 13, the frame assembly 10 can be assembled laterally on the ground side from the moving means 30 through the supporting means 60 group to the lower frame 81. By providing the bridging members 21 between the beams 17 facing each other, the framework 10 can have a configuration in which the article placement portions are provided at a plurality of locations (at least one location) in the length direction.

In this way, the framework 10 can be assembled on the ground side. At this time, the width is determined by the width determining means 70, so that the horizontal assembly on the ground side can be easily and accurately performed. . The stopping position of the moving means 30 is fixed by an appropriate stopper means.

After the frame body 10 is assembled as described above, and at any time during the assembly, the moving means 3 is used.
In 0, the backing plate 53 is provided on the upper surface of the lower column 11.
Both fixing through holes 4 in contact with each other
The fixture 54 is acted between the four and 52. As a result,
As shown in FIG. 6, the lower end portion of the column 11 supported by the base end support 40 is fixed by the fixing means 50 to the base end support 40.
Can be fixed to the side.

On the lower frame 81 side, the upper clamp body 96 is fitted into the lower column 11 from above, and the coupling through holes 98 and 93 which are communicated with each other are used to fasten and couple the coupling tool 100. Thus, the upper sandwiching body 96 can be connected to the lower sandwiching body 91. As a result, as shown in FIGS. 13 to 15, the support column 11 can be coupled to the lower frame 81 side by the coupling means 90, and at this time, the locking body 94 group on the lower holding body 91 side is locked in the support hole of the support column 11. By engaging with the 14 groups, the coupling by the coupling means 90 can be firmly performed without causing a positional displacement in the length direction of the column 11.

Next, the upper frame 111 is connected between the pair of upper columns 11. This is performed by an operation in which the lower frame 81 described above is turned upside down. That is, first, the backing plate 125 of the upper sandwiching body 121 is placed from above on the upper surface of the upper pillar 11. At the time of this placement, the group of locking bodies 124 on the side of the upper sandwiching body 121 is engaged with the group of locking holes 14 in the column 11 from above.

Then, the lower sandwiching body 126 is fitted into the upper strut 11 from below, and the connecting tool 130 is tightened and coupled by using the communicating through holes 128 and 123, whereby the upper sandwiching body is held. The lower clamp 126 may be connected to 121. Thereby, the support column 11 can be coupled to the upper frame 111 side by the coupling means 120, and at that time, the locking bodies 124 group on the upper sandwiching body 121 side are engaged with the locking holes 14 group on the support column 11. Then, the coupling by the coupling means 120 can be firmly performed without causing a positional displacement in the length direction of the support column 11.

Next, the frames 81 and 111 are jointly connected via the joint material 132. That is, the through holes 84 and 133 that are communicated with each other and the through holes 114 and 13 are formed.
The lower frame 81 and the upper frame 111 can be spliced together via the pair of joint members 132 by tightening and coupling the coupler 135 using the space between the three.

Then, the lower frame 81 and the joint member 132 are jointed and joined via the diagonal member 137. That is, the lower frame 81 and the pair of joint members 132 are tightened and coupled by utilizing the space between the diagonal member connecting through holes 86 and 138 and the space between the diagonal member connecting through holes 134 and 138 which are communicated with each other. And a pair of diagonal members 137
The hanging frame body 80 can be reinforced by splicing and coupling via.

As a result, the suspending frame body 80 to which the crane device 1 can be connected can be detachably provided at an intermediate position separated from the free end side of the frame body 10 by the set length L.
At that time, the hanging frame body 80 has a frame structure and can be connected to the frame body 10 in a sandwiched manner. Further, the hanging frame body 80 is configured such that the length G in the left-right direction is longer than the length H in the up-down direction, that is, G> H, when the hanging frame body 80 is connected to the horizontally oriented frame body 10.

In the portion having the set length L, the beam 17 between the upper columns 11 and the bridging member 21 are not assembled, and the beam 17 between the lower columns 11 is assembled or not assembled. Good. And the upper pillar 1
The beam 17 and the bridging member 21 between the two are assembled after the posture is changed in the vertical direction.

Below, as described above, a rectangular parallelepiped frame assembly 10 assembled on the floor 143 side and positioned laterally.
A method of standing up the frame body will be described in which the base end side is made lower and the posture is changed vertically to stand upright.

First, as shown by the solid line in FIG. 1 and FIG. 3, the crane device 1 is horizontally attached to the horizontally oriented frame body 10, and the boom 3 is extended to the vicinity of the ceiling 141 and tilted at a desired angle. . Next, winch device 4
The hanging rope 5 is paid out by the operation of, and the hanging hook 7 at its free end is positioned near the hanging frame body 80. Before and after this, the connected member 8 of the hanging frame body 80
The hanging wires 8 are connected to (interlocked with) 2, 112 in a cross shape, and the hanging hooks 7 are attached to these hanging wires 8.
Lock.

The winch device 4 is wound up (suspended) while being set in this way. Then, by winding the suspension rope 8, a lifting force acts on the framework 10, and at this time, the framework 10 moves the base end side to the moving means 30.
By using the intermediate point position, which is separated from the free end side by the set length L, as the hanging point, the posture is gradually changed vertically with the base end side as the lower position, as shown by the phantom line in FIG. I will let you.

At this time, since the base end side of the frame body 10 is fixed to the base end support 40 by the fixing means 50, the main body 31 is fixed to the main body 31 when the posture of the frame body 10 is changed to the vertical direction. On the other hand, the base support 40 is swung around the horizontal axis 34. Thereby, the vertical posture change of the framework 10 can be smoothly performed while maintaining the fixed posture on the base end side. Moreover, the hanging frame body 80 having a frame structure
Since the left-right direction length G is longer than the up-down direction length H when it is connected to the horizontally oriented frame body 10, the posture change due to lifting can be stably performed.

By raising the height of the suspension point by the suspension operation of the crane device 1, as shown in FIG. 2, the posture of the framework 10 is changed to the vertical direction. By sequentially moving the moving means 30 via the wheels 33 while raising the height, it is possible to smoothly change the posture in the vertical direction without traveling the crane device 1.

By such a suspending operation, as shown in FIGS.
As shown in FIG. 9, the framework 10 can be oriented vertically, and in this case, in the moving means 30, the horizontal axis 34, which is the swinging fulcrum of the base end support 40, is arranged in the transversely oriented framework 10. By setting the rocking locus R of the most proximal end portion as a position that does not interfere with the floor 143 side, the landing body 26 does not contact the floor 143 side until the framework 10 reaches the vertical direction, and thus the posture is changed. Can be done reliably.

Furthermore, the horizontal axis 34, which is the swinging fulcrum of the base end support 40, supports the base end support 40 supporting the base end portion of the frame 10 in the horizontal direction, that is, the support surface of the support plate 47. Since the frame body 10 is positioned below the vertical axis, the posture change until the frame body 10 reaches the vertical direction is made by the horizontal axis 3 close to the floor 143 side.
Stable through 4

Further, since the intermediate portion position separated from the free end side by the set length L is set as the hanging point, the upper end of the boom 3 is placed inside the free end of the frame assembly 10 when the frame assembly 10 is oriented vertically. The frame body 10 can be placed in a position where
The boom 3 does not interfere with the ceiling 141 when the posture is changed vertically while hoisting within 0. As a result, even in the already built building 140, it is possible to erect the bulky, high-rise frame structure 10 located close to the ceiling 141.

Moreover, since the main body 31 is formed with the open portion 32 which allows passage of the framework 10 on the base end side when the posture of the framework 10 is changed in the vertical direction, the base end of the column 11 is formed. Since the portion and the leg device 25 are swung in the open portion 32, the posture can be changed in the vertical direction smoothly without any trouble.

Further, since the base ends of the columns 11 located on the lower side are individually supported by a plurality of moving means 30 and then the posture is changed to the vertical direction, when the posture is changed to the vertical direction, According to the difference in the load, the plurality of moving means 30 individually move, and even if there are some manufacturing errors or assembly errors, the posture change in the vertical direction is smooth without squeaking. You can do it.

Further, the receiving portion 4 provided on the base end support 40.
By means of 8, the lower end portion of the frame body 10 whose posture is changed vertically is received, and it is possible to prevent unnecessary lowering due to the load when the posture is changed vertically.

As described above, the framework 10 is lifted in the vertical direction, and the standing position is corrected by movement through the moving means 30 and the like, and then the moving means 30 is removed. That is, first, the fixing tool 54 is detached to remove the pressing bar 51, thereby releasing the fixing by the fixing means 50. Before and after this, the frame body 10 is slightly lifted to separate the nut body 28 upward from the receiving portion 48. Next, the moving means 30 is moved to the outside, so that the moving means 30 is pulled out from the frame body 10 side. At that time, the moving means 30 can be moved without any trouble in a state where the lower end side of the support column 11 is positioned at the opening 32.

By removing the moving means 30 in this manner, the vertically oriented frame body 10 can be suspended (suspended) by the crane device 1. The landing body 26 can be landed on the floor 143 by suspending the crane device 1 and lowering the framework 10. At that time, the standing position of the framework 10 is finally corrected before landing. After that, the suspension by the crane device 1 is released, the suspension frame body 80 is removed, and the like.

That is, in order to release the suspension by the crane device 1, the suspension rope 5 is unwound by the operation of the winch device 4 to loosen the suspension wire 8, and then the suspension wire 8 is released.
This can be done by removing the hanging hook 7 from. After that, the suspension wire 8 is removed from the connected members 82 and 112 of the suspension frame body 80.

In order to detach the hanging frame body 80, first, the coupling member 135 is detached, and the joint member 132 and the diagonal member 1 are removed.
The upper frame 111 is separated from 37. Then, the connecting tool 130 on the side of the upper frame 111 is operated to be detached, and the lower holding body 126 is detached to the inside, whereby the upper frame 111 can be detached to the outside with respect to the frame assembly 10. At that time, the upper sandwiching body 121 is connected to the upper frame 111.
And the locking body 124 can be moved to the outside together with the pillar 11.
It can be pulled out from the side.

Next, the connector 100 on the lower frame 81 side
The lower frame 81 can be detached to the outside with respect to the framework 10 by detaching the upper sandwiching body 96 inward by detaching. At that time, the lower clamp 91 is attached to the lower frame 8
1 can be moved outward together with the lock body 94, and the locking body 94
It can be pulled out from the side. At this time, the joint material 132 and the diagonal material 137 can also move outward together with the lower frame 81. In addition, the upper frame 111 and the lower frame 81 that have been divided are separated from each other by the hanging action of the crane device 1.
Can be easily dropped to the side.

As described above, after the posture of the frame body 10 is changed vertically with the base end side as the lower side, the hanging frame body 80 can be detached (attached / detached) from the frame body 10 so that the frame body 10 can be removed. The hanging frame body 80 can be easily removed from the body 10 and the hanging frame body 80 can be reused.

Further, the hanging frame body 80 is detachably connected between the support columns 11, and the connecting members 135 and 139 are also provided.
By being separably connected to the frame assembly 10 via the, it can be easily attached to the frame assembly 10 or removed from the frame assembly 10.

Further, the suspending frame body 80 is connected to the frame body 10 from the outside by being sandwiched, and is connected to the frame body 10 so as to be divided into a plurality of parts so as to be separated from the outside. By being
The hanging frame body 80 can be easily removed from the frame body 10 whose posture has been changed in the vertical direction, and the hanging frame body 80 can be reused. In addition, the storage and transportation in the detached state can be made compact and easy.

Since the framework 10 can be erected in the above-described manner, the framework 10 can be used as a storage shelf as it is, and by further arranging a large number of frameworks 10 side by side. For example, it may be a storage shelf for an automated warehouse facility.

The state adopted in the automatic warehouse equipment will be described below with reference to FIG. That is, the shelf facility 150 is installed side by side with the passage 155, and the access device 160 is arranged in the passage 155. This device 1
Reference numeral 60 denotes a traveling machine body 161 which is supported and guided by a floor side rail 156 and is guided by a ceiling side rail (not shown) and is capable of reciprocating traveling on a fixed path 157 in a passage 155, and a post on the traveling machine body 161 side. Lifting platform 1 guided by 161a
62, and a nipping / conveying device 163 provided on the lift 162.

The sandwiching and conveying device 163 is provided on the lift table 16
2, a slide base 164 that can reciprocate in a lateral direction orthogonal to the direction of the fixed path 157, a pair of pinching and conveying belts 165 provided on the slide base 164 in the direction of the fixed path 157, and the like. It is composed by. Here, the pair of nipping / conveying belts 165 includes a driving device 166.
Are configured to be movable toward and away from each other, and are also configured to be driven by the rotating device 167 synchronously in the forward and reverse directions.

In the shelf facility 150, after the frame body 10 is erected at a predetermined interval S as described above, the beams 151 are provided at a plurality of upper and lower positions between the columns 11 at the interval S. At the same time, the bridge member 152 is provided between the front and rear beams 151. A handling section 154 is provided outside the end of the shelf facility 150.

According to the automatic warehouse facility having the above structure, the loading / unloading device 160 is reciprocated on the fixed path 157 in the passage 155 by the support guide by the floor side rail 156, and stopped at a desired position. Next, after raising and lowering the raising and lowering stage 162, the belt 16 for both-sides nipping and conveying
And the slide base 163.
By performing the combined operation of the operation of moving the
The loading and unloading work of the load 169 can be performed between the target stage of the shelf equipment 150 and the handling section 154.

In the automatic warehouse facility having the above-mentioned structure, it is long (wide) in the front-rear direction located in the central row.
The frame body 10 is erected by the crane device 1 as described above, but the frame bodies 10 that are short in the front-rear direction (narrow shape) located in the two rows are the stop position of the crane device 1 and the boom. The hoisting posture of 3 is slightly different, and it is erected in the same manner.

As in the above-described embodiment, the rectangular parallelepiped framework 10 positioned laterally on the floor 143 side is vertically erected with the base end side of the framework 10 changed vertically. In the upright method, the base end side of the horizontally oriented frame body 10 is supported by the moving means 30 and the other portion is supported by the supporting means 60, and the moving means 30 includes the main body 31 having the wheels 33 and the main body 31. The base end support body 40 is provided so as to be swingable around the horizontal axis 34 with respect to the main body 31, and the fixing means 50 provided on the base end support body 40. After being supported by the base end support 40 and then fixed by the fixing means 50, the framework 10 is fixed.
According to this, according to this, when gradually changing the posture of the framework 10 in the vertical direction with the base end side as the lower side, the main body 3 is changed in accordance with the change in the posture in the vertical direction.
For one, the proximal support 40 can be swung around the transverse axis 34. Thereby, the vertical posture change of the framework 10 can be smoothly performed while maintaining the fixed posture on the base end side.

As in the above-described embodiment, when the frame body 10 is vertically changed in posture, the frame body 1 is attached to the main body 31.
An open portion 32 is formed to allow passage of the base end side of 0,
According to this, the base end portion of the column 11 and the leg device 25 are swung in the open portion 32, and the vertical posture can be changed smoothly by lowering the height.

As in the above embodiment, the supporting means 6
0 is provided with a width determining means 70 for the frame body 10. According to this, when the frame body 10 is assembled on the floor 143 side, the width determining means 70 can determine the width, so that the ground side can be determined. Sideways assembly is easy and accurate.

As in the above-described embodiment, the framework 10
Is positioned laterally on the floor 143 side, the framework 1
On the free end side of 0, a suspending frame body 80 which also serves as the supporting means 105 is provided. According to this, the free end side of the horizontally oriented frame assembly 10 is suspended without separately providing the supporting means. Via the supporting means 105 of the frame body 80 for
More stable support is possible.

As in the above-described embodiment, the frame assembly 10
Is a rectangular parallelepiped formed by a plurality of columns 11 positioned in the front, rear, left and right and a lattice 15 and a beam 17 provided between the columns 11 in the vertical direction.
1 is placed on the floor 143 side in the horizontal direction, the column 11 group located on the lower side is moved to the moving means 30 and the supporting means 60.
Respectively, and then the posture is changed to the vertical direction. According to this, the horizontal assembly of the framework 10 is stably performed with the support 11 supported by the moving means 30 and the supporting means 60. You can do it.

As in the above-described embodiment, the base ends of the columns 11 located on the lower side are individually supported by the plurality of moving means 30, and then the posture is changed vertically. According to this, At the time of changing the posture in the vertical direction, the plurality of moving means 30 are moved to the standing position as they are in accordance with the difference in the load, so that the posture in the vertical direction can be smoothly changed.

As in the above embodiments, the framework 10
The hanging frame body 80 is provided on the free end side of the above, and the crane device 1 is connected to the hanging frame body 80. Then, the crane device 1 is operated to be lifted and supported by the moving means 30 while lifting the frame body 10. The posture is changed vertically with the base end side as the lower side, and then the hanging frame body 80 is detached from the frame body 10. According to this, the frame body 1
The construction of 0 can be easily and efficiently performed by simply changing the posture of the framework 10 in the vertical direction by the crane device 1. Further, after changing the posture of the framework 10 in the vertical direction, the lifting frame body 80 is detached. Then, the hanging frame body 80 can be reused.

As in the above embodiments, the framework 10
Is the bridging member 21 at least at one position in the length direction.
After this, the posture is changed in the vertical direction. According to this, the framework 10 may have a configuration in which the article mounting bridging member 21 is provided in at least one position in the vertical direction.

As in the above-described embodiment, the frame assembly 10
Is changed in the vertical direction while being lifted in the building 140. According to this, when the posture of the framework 10 is changed in the vertical direction while being lifted in the building 140, the ceiling 1
41 can be performed without interfering with the upper end of the crane device 1. As a result, in the already built building 140, the bulky and high-rise frame structure 10 located near the ceiling 141 can be erected.

As in the above embodiments, the framework 10
After the crane device 1 is connected to the hanging frame body 80 provided on the free end side of the, the base end side is sequentially moved while raising the height of the hanging point by the lifting operation of the crane device 1. According to this, Therefore, the posture of the framework 10 in the vertical direction can be smoothly changed without running the crane device 1.

As in the above-described embodiment, the hanging means is the crane device 1, and the frame 10 is hoisted by winding the hoisting rope 5. According to this, the frame 1
0 can be lifted by applying a lifting force.

As in the above-described embodiment, the hanging means is the crane device 1, and the frame 10 is changed in the vertical direction by winding the hanging rope 5, and according to this, the frame 10 is changed. The lifting force can be applied to gradually change the posture vertically with the base end side as the lower level.

As in the above-described embodiment, the hanging frame body 80 has a frame structure and is connected to the frame body 10 in a sandwiched manner. According to this, the posture of the frame body 10 is changed vertically. When this is done, the suspension force of the crane device 1 can be applied in the clamping direction, so that the suspension frame body 80 can be firmly connected to the framework 10.

As in the above embodiments, the framework 10
A suspending frame body 80 to which the crane device 1 can be connected is detachably provided at an intermediate position separated from the free end side by a set length L. According to this, the frame body 10 is vertically oriented. When changed, the upper end of the crane device 1 can be positioned inside the free end side of the framework 10, so that the construction of the framework makes the working height compact and regardless of its height. Easy and stable.

As in the above-described embodiment, the horizontal axis 34, which is the swinging fulcrum of the base end support 40, has the horizontal frame structure 1.
The rocking locus R of the most proximal end on the 0 side is set as a position that does not interfere with the floor 143 side.
Since the landing body 26 does not come into contact with the floor 143 until the vertical direction is reached, the posture can be reliably changed.

As in the above-described embodiment, the horizontal axis 34, which is the swinging fulcrum of the base end support 40, is laterally oriented.
It is located below the support plate 47 of the base end support 40 that supports the base end portion of 0.
The posture change up to the vertical direction can be stably performed via the horizontal axis 34 close to the floor 143 side.

As in the above-described embodiment, the receiving portion 48 provided on the base end support 40 receives the lower end portion of the frame assembly 10 whose posture has been changed vertically. According to this,
Due to the load when changing the posture to the vertical direction, the framework 1
It can prevent 0 from dropping unnecessarily.

In the above-mentioned embodiment, the method of standing up the rectangular parallelepiped frame 10 is used with its length direction oriented vertically, and the frame 10 placed horizontally on the floor 143 side is When the posture is changed vertically with the base end side as the lower side, the hanging frame body 80 is provided at an intermediate position separated from the free end side of the frame assembly 10 by the set length L, and the hanging frame body 80 is provided. After the crane device 1 is connected to the crane device 1, the crane device 1 is hoisted to lift the framework 10, and the posture of the framework 10 is changed vertically with the base end side of the crane 10 as a lower position. 1. By simply changing the posture of the framework 10 in the vertical direction by 1, it can be easily and efficiently performed, and when the posture of the framework 10 is changed in the vertical direction, the crane device 1 is provided inside the free end side of the framework 10. Resulting in a state Ri point was positioned to build the framework body Te following is to compact the working height, it performed easily and stably regardless of their height.

In the above-described embodiment, the framework 10 is
After the bridging member 21 is provided at at least one position in the lengthwise direction, the posture is changed to the vertical direction, so that the framework 10 is provided with the bridging member 21 for loading articles at at least one position in the longitudinal direction. Can be configured differently.

In the above-described embodiment, the framework 10 is
By changing the posture in the vertical direction while hoisting in the building 140, it is possible to change the posture in the vertical direction while hoisting in the building 140 without causing the ceiling 141 to interfere with the upper end of the crane device 1. As a result, in the already built building 140, the ceiling 1
The bulky, high-layer framework 10 located near 41 can be erected.

In the above-described embodiment, the base end side of the framework 10 is supported by the wheels 33, and the wheels 33 are sequentially moved while raising the height of the suspension point by the suspension operation of the crane device 1. Therefore, the posture of the framework 10 in the vertical direction can be smoothly changed without running the crane device 1.

In the above-described embodiment, the hoisting means is the crane device 1, and the hoisting rope 5 is wound to hoist the framework 10 to apply a hoisting force to the framework 10 to perform hoisting.

In the above-described embodiment, the suspending means is the crane device 1, and the suspension rope 5 is wound to change the posture of the framework 10 in the vertical direction, thereby applying a lifting force to the framework 10. , The base end side of which can be gradually changed to the vertical position with the lower side.

In the above-described embodiment, the hanging frame body 80 has a frame structure, and after being connected to the frame body 10 in a sandwiched manner, the posture of the frame body 10 is changed in the vertical direction. The hanging force of the crane device 1 can be applied in the clamping direction, and thus the hanging frame body 80 can be firmly connected to the framework 10.

In the above-described embodiment, the hanging frame body 80 has a frame structure, and when connected to the horizontally oriented frame assembly 10, the horizontal length G is longer than the vertical length H. As a result, the posture change due to lifting can always be performed stably.

In the above-described embodiment, the moving means 30 is provided on the base end side of the framework 10, and this moving means 30 has a main body 31 having wheels 33 and a horizontal axis with respect to the main body 31. The base end supporter 40 is provided so as to be swingable around the core 34, and the fixing means 50 is provided on the base end support 40. The base end portion of the framework 10 is supported by the base end support 40. After that, the crane device 1 is lifted by vertically changing the posture of the framework 10 in a state of being fixed by the fixing means 50, and a lifting force is applied to the framework 10, whereby the framework 10 is The posture can be gradually changed vertically with the base end side as the lower side, and at this time, the base end side of the frame body 10 is fixed to the base end support body 40 by the fixing means 50, so that the frame body 10 Along with the vertical orientation change , Proximal support relative to the body 31 40
Can be swung around the transverse axis 34. Thereby, the vertical posture change of the framework 10 can be smoothly performed while maintaining the fixed posture on the base end side.

In the above-described embodiment, the framework 10 is
It is composed of a plurality of columns 11 positioned in the front and rear and left and right when vertically oriented, and a lattice 15 and a beam 17 provided between the columns 11, and when the columns 11 are oriented horizontally and assembled on the floor 143 side, the base end Part to move 3
The supporting means 60 is interposed between the moving means 30 and the hanging frame body 80 so that the frame assembly 10 can be laterally assembled by moving the support 11 to the moving means 30 and the supporting means 60. Can be performed stably while being supported by.

In the above-described embodiment, when the frame body 10 is assembled on the floor 143 side, the width is determined by the width determining means 70, so that the horizontal assembly on the ground side can be easily and accurately performed.

In the above-described embodiment, the framework 10 is
When vertically oriented, the pillars 11 are arranged in front and rear and right and left by a plurality of pillars, and the lattice 15 and the beam 17 provided between the pillars 11 are formed into a rectangular parallelepiped shape. The suspending frame body 80 has a frame structure and is detachably connected between the support columns 11 and is separably coupled to the supporting columns 11 and 139 via the coupling tools 135 and 139.
The hanging frame body 80 can be easily attached to and detached from the columns 11 of the column 0 only by operating the couplers 135 and 139.

In the above-mentioned embodiment, the hanging frame body 80 is connected to the frame body 10 from the outside in a sandwiched manner, and a plurality of hanging frame bodies 80 are separated from the frame body 10 to the outside. The split frame member 80 allows the hanging frame member 80 to be easily removed from the frame body 10 whose posture has been changed in the vertical direction, and allows the hanging frame member 80 to be reused. Also,
Storage and transportation in the detached state can be made compact and easy.

In the above-described embodiment, when the frame body 10 is laterally positioned on the floor 143 side, the hanging frame body 80 also serves as the supporting means 105 of the frame body 10, so that the horizontal frame framework 10 can be used. The body 10 can be supported more stably via the supporting means 105 of the hanging frame body 80.

In the above-described embodiment, the frame 10 has a rectangular parallelepiped shape that is long in the vertical direction, but it may have a rectangular parallelepiped shape such as a cube.
In the above-described embodiment, the traveling crane device 1 is shown as the suspending means, but this may be an overhead crane or the like installed in the building 140.

In the above-described embodiment, the framework 10 is assembled sideways in the building 140. However, this means that the framework 10 assembled at another place is transported to an upright place and lowered horizontally. It may be

In the above-described embodiment, the form in which the bridging member (article mounting portion) 21 is provided is shown. According to this, although a container, a cardboard box or the like can be handled as a mounting article, a pallet or the like can be mounted. When handled as an article for use, a form in which the bridging member 21 is not provided may be used.

In the above embodiment, the moving means 30 is in the landing state at the time of lifting, but the moving means 30 may float from the floor 143. In the above-described embodiment, the set length L may be freely changed each time.
In that case, it is necessary to change and adjust the suspension length.

In the above embodiment, the four-wheel type is shown as the moving means 30, but this may be a two-wheel / two-leg type. In the above-described embodiment, the hanging wire 8 may be of a 4-wire usage type or a 2-wire usage type.

In the above embodiment, the support means 60 is provided in the middle, but the support means 60 may be omitted depending on the length (height) of the framework 10.

In the above-described embodiment, after the frame 10 is erected at a predetermined interval S, the beams 151 are provided at a plurality of upper and lower positions between the columns 11 at the interval S, and the front and rear beams are also provided. Although the shelf equipment 150 is configured by providing the bridging members 152 between 151, the shelf equipment 150 may be configured by arranging the frameworks 10 side by side without standing the space S therebetween.

In the embodiment described above, the existing building 14
Although the frame body 10 is erected in 0, this may be a new building, and the ceiling 141 may be formed after the frame body 10 is erected.

In the above-described embodiment, the hanging frame body 80 having a frame structure is shown. However, this may have another structure, such as a structure which does not separate from the frame assembly 10. Good.

In the above-described embodiment, the hanging frame body 80 to which the crane device 1 can be connected is provided at the intermediate position separated from the free end side of the frame body 10 by the set length L. The frame body 8 for side suspension is attached to the free end of the frame body 10.
Those provided with 0 may be used.

[0146]

According to claim 1 of the present invention described above, when the posture of the framework is gradually changed in the vertical direction with the base end side as a lower position, the main body is attached to the main body in association with the change in the posture in the vertical direction. On the other hand, the base support can be swung around the horizontal axis. Thus, the vertical posture change of the framework can be smoothly performed while maintaining the fixed posture on the base end side.

According to claim 2 of the present invention described above,
The base end side portion of the column can be swung within the open portion, so that the vertical posture can be changed smoothly by making the height low.

According to the above-mentioned claim 3 of the present invention, when assembling the frame body on the ground side, the width can be determined by the width determining means, so that the sideways assembly on the ground side can be easily performed. It can be done accurately.

Further, according to claim 4 of the present invention described above, the free end side of the horizontally oriented frame assembly is supported more stably via the support means of the hanging frame body without separately providing support means. can do.

Further, according to the fifth aspect of the present invention described above, the lateral assembly of the framework can be stably carried out in a state in which the supporting column is supported by the moving means and the supporting means. Further, according to the sixth aspect of the present invention described above, when the posture is changed to the vertical direction, the plurality of moving means are moved to the standing position as they are according to the difference in the loads, so that the posture is changed to the vertical direction. Can be done smoothly.

According to the above-mentioned claim 7 of the present invention, the construction of the framework can be easily and efficiently carried out by simply changing the posture of the framework vertically by the suspending means. After changing the posture, the hanging frame body can be reused by detaching the hanging frame body.

Further, according to the eighth aspect of the present invention described above, the frame assembly can be configured to have the article mounting portion at at least one position in the vertical direction. Moreover, according to the ninth aspect of the present invention described above, when the posture of the framework is changed in the vertical direction while being lifted in the building, it can be performed without interfering the upper end of the hanging means with the ceiling or the like. As a result, in the already built building, it is possible to erect a bulky, high-rise frame structure that is located near the ceiling.

According to the tenth aspect of the present invention described above, it is possible to smoothly and smoothly change the posture of the framework in the vertical direction without running the suspension means. Further, according to the eleventh aspect of the present invention described above, lifting can be performed by applying a lifting force to the framework.

Further, according to the twelfth aspect of the present invention, the hoisting force is applied to the framework to gradually change the posture in the vertical direction with the base end side as the lower level. Moreover, according to the thirteenth aspect of the present invention described above, when changing the posture of the frame body in the vertical direction, the suspending force by the suspending means can act in the clamping direction, so that the connection of the suspending frame body to the frame body can be strengthened. It can be carried out.

According to the fourteenth aspect of the present invention described above, when the posture of the framework is changed in the vertical direction, the upper end of the suspending means can be positioned inside the free end side of the framework.
Thus, the construction of the framework can be performed easily and stably regardless of the height by making the working height compact.

According to the fifteenth aspect of the present invention described above, the posture can be surely changed without the most proximal end portion coming into contact with the floor side until the frame body is oriented vertically. Further, according to the sixteenth aspect of the present invention described above, the posture change until the framework reaches the vertical direction can be stably performed via the horizontal axis near the floor.

According to the seventeenth aspect of the present invention described above, it is possible to prevent the frame assembly from unnecessarily descending due to the load when the posture is changed to the vertical direction.

[Brief description of drawings]

FIG. 1 is a side view showing an embodiment of the present invention when a framework is laid sideways in a method of standing a framework.

FIG. 2 is a side view when the framework is oriented vertically in the method of standing up the framework.

FIG. 3 is a plan view of the frame body in a horizontal orientation in the method of standing up the frame body.

FIG. 4 is a vertical cross-sectional side view of a moving means portion when the framework is in a horizontal position in the standing method of the framework.

FIG. 5 is a rear view of the moving means portion when the framework is laid sideways in the method of standing up the framework.

FIG. 6 is a plan view of a moving means portion when the framework is in a horizontal position in the standing method of the framework.

FIG. 7 is a vertical cross-sectional side view of the moving means portion when the framework is vertically oriented in the method of standing up the framework.

FIG. 8 is a rear view of the moving means portion when the framework is oriented vertically in the method of standing up the framework.

FIG. 9 is a plan view of a moving means portion when the framework is in a vertical orientation in the same method of standing up the framework.

FIG. 10 is a perspective view of a main part of a supporting means portion in the standing method of the frame assembly.

FIG. 11 is a partially cutaway rear view of the width determining means in the standing method of the frame assembly.

FIG. 12 is an exploded front view of a hanging frame body portion in the standing method of the frame assembly.

FIG. 13 is a front view of the suspension frame body portion when the suspension frame body portion is connected in the standing method of the frame assembly.

FIG. 14 is a partially cutaway side view of the hanging frame body portion at the time of connection in the standing method of the frame assembly.

FIG. 15 is a partially cutaway plan view at the time of connecting the hanging frame body parts in the standing method of the frame assembly.

FIG. 16 is an exploded perspective view of a coupling means portion in the standing method of the frame assembly.

FIG. 17 is a perspective view of a main part of the assembled frame assembly in the standing method of the frame assembly.

FIG. 18 is a partially cutaway front view of an essential part of the assembled frame assembly in the method of standing the frame assembly upright.

FIG. 19 is a partially cutaway plan view of a main part of the assembled frame body in the method of standing the frame body upright.

FIG. 20 is a partially cutaway front view of a main part of the assembled frame body in the method of standing the frame body upright.

FIG. 21 is a plan view of an automated warehouse facility using a shelf assembly in the standing method for the same framework.

[Explanation of symbols]

1 Crane device (suspension means) 2 running car 3 boom 4 winch device 5 hanging rope 8 hanging wire 10 framework 11 props 14 Locking hole 15 lattices (front and rear connecting materials) 17 beams (left and right connecting materials) 21 Bridging member (article placement section) 24 Bottom member 25 leg device 26 Landing body 30 means of transportation 31 body 32 Open section 33 wheels 34 Horizontal axis 36 bracket 38 horizontal pins 40 Base support 46 Width determining member 47 Support plate (support surface) 48 Receiver 50 fixing means 51 Presser bar 60 Supporting means 70 Width determining means 74 Width deciding body 80 Hanging frame body 81 Lower frame 90 coupling means 91 Lower clamp 94 Locking body 96 Upper clamp 100 connector 105 support means 111 upper frame 120 coupling means 121 Upper clamp 124 Locking body 126 Lower clamp 130 Connector 132 joint material 135 coupling 137 diagonal material 139 coupling 140 buildings 141 ceiling 143 floor (ground side) 150 shelving equipment 154 Handling section 160 In / out device 169 load W regulation width L set length R Track of the landing body 26 G Horizontal length of hanging frame 80 H Vertical length of hanging frame 80 S interval

Claims (17)

[Claims] 1. A method for erection of a rectangular parallelepiped frame body positioned laterally on the ground side with its base end side as a lower position in a vertical direction, which is a horizontal frame structure. The base end side of the body is supported by the moving means and the other part is supported by the supporting means, and the moving means is swingable about a body having a ring body and a lateral axis with respect to the body. A base end support provided and a fixing means provided on the base end support, and the base end portion of the framework is supported by the base support, and then fixed by the fixing means. A method for standing a frame body, which is characterized by changing the posture in a vertical direction. 2. The frame body according to claim 1, wherein an opening portion is formed in the main body to allow passage of the frame body on the base end side when the posture of the frame body is changed in the vertical direction. Standing method. 3. The method of standing up a framework as claimed in claim 1, wherein the supporting means is provided with a width determining means for the framework. 4. A hanging frame body which also serves as a supporting means is provided on the free end side of the framework body when the framework body is laterally positioned on the ground side.
The method of standing up the framework according to any one of 3 above. 5. The frame body is composed of a plurality of columns positioned in front, rear, left and right, and front and rear connecting members and left and right connecting members provided between the columns when the frame is vertically oriented, and the columns are laterally arranged on the ground side. 5. The post group located on the lower side is supported by the moving means and the supporting means, respectively, and then the posture is changed in the vertical direction when the vehicle is located at. Standing method for the framework. 6. The erection of the frame body according to claim 5, wherein the base end of the column group located on the lower side is individually supported by a plurality of moving means, and then the posture is changed vertically. Method. 7. A suspension frame body is provided on the free end side of the frame body, and after suspending means is connected to the suspension frame body,
While suspending the suspension means to suspend the framework,
7. The posture of the frame body is changed vertically with the base end side supported by the moving means as a lower side, and then the hanging frame body is separated from the frame body body. Standing method. 8. The framework has at least one in its lengthwise direction.
The method of standing up a framework according to any one of claims 1 to 7, characterized in that the posture is changed in a vertical direction after the article placing portion is provided at the location. 9. The method of standing up a frame body according to claim 1, wherein the frame body is vertically suspended while being lifted in the building. 10. After connecting the suspension means to the suspension frame body provided on the free end side of the frame assembly, the suspension operation is performed to raise the suspension point height and to move the base end side sequentially. The method for standing a frame body according to any one of claims 1 to 9, which is characterized in that 11. The method of standing up a framework according to claim 7, wherein the suspension means is a crane device, and the framework is suspended by winding a suspension rope. 12. The framework according to claim 7, wherein the suspension means is a crane device, and the posture of the framework is changed vertically by winding a suspension rope. Standing method. 13. The hanging frame body has a frame structure,
The method of standing up a framework according to claim 7 or 10, characterized in that it is connected to the framework in a sandwiched manner. 14. A suspension frame body to which suspension means can be connected is detachably provided at an intermediate position separated by a set length from the free end side of the frame assembly.
The method of standing up the framework according to any one of 3 above. 15. The horizontal axis, which is the swing fulcrum of the base support, is set at a position where the swing trajectory of the most proximal end on the side of the horizontal framework does not interfere with the floor. The method for standing the frame body according to any one of claims 1 to 14. 16. A lateral axis which is a swinging fulcrum of the base support is positioned below a supporting surface of the base supporting the base of the lateral framework. The method for standing a frame body according to any one of claims 1 to 15. 17. The erection of the frame body according to claim 1, wherein a receiving portion provided on the base end support body receives a lower end portion of the frame body whose posture is changed in a vertical direction. Method.