JP2004231325A - Water pipe turning device, water pipe packing device and water pipe packing device assembly - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water pipe turning device securing its sufficient strength. <P>SOLUTION: The turning device 5 formed of a corrugated fiberboard is stored in a packing box 3. The turning device 5 supports a pipe bundle 1a of water flow pipes 1 formed of synthetic resin materials and is turnably supported together with the pipe bundle 1a. The turning device 5 has two split bodies 5a, 5a. Each of the split bodies 5a has a side plate portion 5c and a rising portion 5d rising from the side plate portion 5c for supporting the inner periphery of the pipe bundle 1a. The rising portion 5d is formed by cutting and raising a plate member T forming the side plate portion. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a rotating device for a water pipe, which supports a bundle of water pipes made of a synthetic resin material in a packing box, and a packing device for a water pipe using the rotating device, and a water pipe. The present invention relates to a packaging device.
[0002]
[Prior art]
Conventionally, for example, a flexible water supply pipe made of synthetic resin such as cross-linked polyethylene is fixed by a resin band in a state where a long body of several tens of meters is wound, and housed in a cardboard box. It had been. The water supply pipe thus housed in the cardboard box was taken out of the cardboard box in a wound state at a construction site or the like. Then, the water supply pipe is sequentially fed from a distal end side into a sheath pipe piped with a predetermined pipe route between a hot water supply body such as a header and a hot water consumer such as a joint to which a faucet is connected. It was inserted in such a way.
[0003]
Although not a device for water supply pipes, as a cable storage device, for example, there is a storage device 21 that rotatably supports a cable 22 as shown in FIG. 45 (see Patent Document 1). In the storage device 21, the cable 22 is stored in the box 23 in a wound state. Then, the box body 23 was placed vertically, and the cables 22 were sequentially drawn out from the drawing holes 23b formed in the lower part of the wall surface 23a.
[0004]
[Patent Document 1]
JP-A-10-291737
[0005]
[Problems to be solved by the invention]
By the way, in the conventional water supply pipe in the winding state, the winding habit is strong, and if the water supply pipe in the winding state is pulled out without rotating, the twist of the water supply pipe pulled out and the winding habit, It was difficult to insert this water supply pipe into the sheath pipe.
[0006]
Therefore, for example, by a plurality of workers, one holds the wound water supply pipe rotatably, and the other pulls out the water supply pipe sequentially from the distal end side and inserts it into the sheath pipe, so that the water supply pipe is Had to be plumbed. Separately, a rotating drum is prepared, the wound water supply pipe taken out of the cardboard box is mounted on the rotating drum, and the wound water pipe is rotated by the rotating drum, so that the water supply pipe is rotated. Was sometimes pulled out from the tip side. However, any of the above-mentioned draw-out methods requires a plurality of workers and requires the provision of a rotating drum, which is troublesome and has poor workability.
[0007]
Further, in the storage device 21 for the cable 22, if the whole is made of paper such as corrugated cardboard, the strength is weak, and in particular, the cable holding member 24 as a rotating device formed of a hollow cylindrical body is When the cable 22 is pulled out, the cable 22 is likely to be crushed by the weight of the cable 22 to be easily deformed or damaged, and there is a possibility that pulling out the cable 22 becomes extremely difficult.
[0008]
Therefore, a rectangular parallelepiped bearing member 24a is provided at the center of the cable holding member 24, and it is considered that the bearing member 24a prevents the cable holding member 24 from being deformed. As described above, the cable holding member 24 is not preferable as a structure of the cable holding member 24 because the number of members is complicated and the cost is high, such as the provision of the bearing member 24a separately.
[0009]
Here, a water supply pipe made of cross-linked polyethylene or the like has extremely high rigidity, and when wound into a small diameter, a pipe crack may be generated, which may cause a significant decrease in pressure-resistant strength. The inner diameter of the tube bundle is specified to be at least 50 cm. Therefore, in order to rotate the cross-linked polyethylene tube together with the holding member that holds the tube, and to smoothly pull out the cross-linked polyethylene tube, the holding member needs to have a very large diameter, and is made of cardboard. In such a case, it was extremely difficult to secure the strength.
[0010]
The present invention has been made in order to solve the above-mentioned conventional problems, and an object of the present invention is to provide a rotating device for a water pipe, which can ensure sufficient strength, and a rotating device therefor. An object of the present invention is to provide a packing device for a water pipe and a packing device for the water pipe using the device.
[0011]
[Means for Solving the Problems]
A water pipe rotating device, a water pipe packing apparatus, and a water pipe packing apparatus according to the present invention have the following configurations to achieve the above object. That is,
The rotating device for a water pipe according to the invention according to claim 1, wherein the water pipe is housed in a packing box together with a pipe bundle of a water pipe made of a synthetic resin material such as crosslinked polyethylene wound around the water pipe. Is a rotating device made of corrugated cardboard which supports the tube bundle so as to be pulled out of the packing box in order from its end and is rotatably supported together with the tube bundle in the circumferential direction of the tube bundle. This rotating device includes two divided bodies, and each of the divided bodies includes a side plate part having a sliding contact prevention part for preventing each side surface of the tube bundle from slidingly contacting the inner wall surface of the packing box. At least one of the two divided bodies has an upright portion that rises from the side plate so as to directly or indirectly support the inner periphery of the tube bundle. The upright portion is formed such that a plate member forming the side plate portion is cut or raised.
[0012]
In this manner, the rotating device is supported in a packing box together with the tube bundle so as to support the tube bundle of the water pipe made of a synthetic resin material such as crosslinked polyethylene wound in a circular shape. At this time, the rotating device is supported inside the packing box so as to be rotatable together with the tube bundle in the circumferential direction of the tube bundle. Here, the rotating device includes two divided bodies. At least one of the two divided bodies has an upright portion that rises from the side plate portion, and the upright portion directly or indirectly supports the inner circumference of the tube bundle. The upright portion is formed in such a manner that a plate member forming the side plate portion is cut up or folded up, so that the integrity of the divided body is maintained. Therefore, the strength of the divided body and, consequently, the rotating device is sufficiently maintained. By the way, the water pipes in the form of a bundle are housed in a packing box and stored or transported. And when piping a water pipe, the water pipe in the packing box is pulled out of the packing box in order from the end, but with this drawing, the pipe bundle in the packing box is unraveled, The rotating device rotates together with the tube bundle. It should be noted that the rotation device rotates together with the tube bundle when the rotation device rotates together with the tube bundle, and of course, the rotation device rotates later than the tube bundle with the rotation of the tube bundle. The case is also included.
[0013]
Further, like the water pipe rotating device according to the second aspect of the present invention, in the rotating device according to the first aspect, the upright portion may directly support the inner periphery of the tube bundle.
[0014]
Further, like the rotating device for a water pipe according to the invention according to claim 3, in the rotating device according to claim 2, the upright portion includes a tube bundle for supporting the inner periphery of the tube bundle. It may have an edge portion consisting of a corner or an end that abuts the inner periphery. In this way, since the edge portion formed by the corner or the end of the upright portion abuts on the inner periphery of the tube bundle, the upstanding portion comes into contact with a part of the inner periphery of the tube bundle, and the upright portion of the tube bundle rises into the central space. Insertion of the part becomes easy.
[0015]
Further, like the rotating device of the water pipe according to the invention of the fourth aspect, in the rotating device of the first aspect, the rotating device is supported by the upright portion, and is provided in the pipe bundle. A support member for supporting the periphery may be provided. That is, the upright portion may indirectly support the inner circumference of the tube bundle via the support member.
[0016]
Further, like the rotating device for a water pipe according to the invention according to claim 5, in the rotating device according to any one of claims 1 to 4, the plate member is formed of a single corrugated board. The upright portion may be formed such that one corrugated board is cut or bent. In this way, the plate member forming the side plate portion is formed of one corrugated cardboard, and the one corrugated cardboard plate is cut or raised to form an upright portion. Thus, the side plate portion and the upright portion are formed by one corrugated cardboard plate, and the structure of the divided body is simplified. In addition, since the side plate portion is formed by a portion of the corrugated cardboard excluding the upright portion, the area of the side plate portion is reduced. That is, in the side plate portion that may rub against the inner wall surface of the packing box, the rubbing area is reduced, and the rotating device can smoothly rotate.
[0017]
Further, like the rotating device for a water pipe according to the invention according to claim 6, in the rotating device according to any one of claims 1 to 4, the plate member includes a plurality of corrugated cardboards overlapping each other. The upright portion may be made of a plate, and may be formed such that at least one of the plurality of corrugated cardboard plates is cut or raised. Thereby, the plate member, that is, the divided body is formed by a plurality of corrugated cardboard plates overlapping each other, and the strength of the divided body is stabilized.
[0018]
Further, like the rotating device for a water pipe according to the invention according to claim 7, in the rotating device according to claim 6, at least the outermost corrugated cardboard plate among the plurality of corrugated cardboard plates is provided. The upright portion may be formed by cutting or bending up. As described above, in order to form the upright portion, at least the outermost corrugated cardboard plate of the plurality of corrugated cardboard plates forming the side plate portion is cut or raised, so that the inner wall surface of the packing box is formed. In the side plate portion which may be rubbed, the rubbed area is reduced, and the rotating device can smoothly rotate.
[0019]
Further, like the rotating device for a water pipe according to the invention according to claim 8, in the rotating device according to claim 5 or 7, the corrugated cardboard plate is cut on the side plate portion side of the plate member. The notch may be formed by raising or folding. In this way, a notch is formed on the side plate portion side of the plate member, and the cutout reduces the area of the side plate portion that rubs against the inner wall surface of the packing box.
[0020]
Also, as in the rotating device for a water pipe according to the ninth aspect of the present invention, in the rotating device according to the fifth or seventh aspect, the corrugated cardboard plate is cut on the side plate portion side of the plate member. Holes may be formed by raising or folding. Thus, a hole is formed on the side plate portion side of the plate member, and the hole reduces the area of the side plate portion that rubs against the inner wall surface of the packing box.
[0021]
Further, as in the rotating device for a water pipe according to the invention described in claim 10, in the rotating device according to claim 9, the sliding contact preventing portion of the plate member having the hole is provided. It is desirable to be provided over the entire circumference of the side plate portion. In this way, the sliding contact preventing portion is provided over the entire periphery of the side plate portion, so that the water pipe constituting the tube bundle is prevented from entering between the sliding contact preventing portion and the inner wall surface of the packing box.
[0022]
Further, as in the rotating device for a water pipe according to the invention described in claim 11, in the rotating device according to any one of claims 1 to 10, the upright portion is provided with the two divided bodies. Each may be provided. In this way, the plate member forming the side plate portion is formed so as to be cut or bent, and the upright portion that directly or indirectly supports the inner periphery of the tube bundle is provided in the two divided bodies. Thus, the integrity of each divided body is maintained. Therefore, the strength of these divided bodies and, consequently, the rotating device is more sufficiently maintained.
[0023]
Further, like the water pipe rotating device according to the twelfth aspect of the present invention, in the rotating device according to the eleventh aspect, the two divided bodies may be arranged so that the upright portion extends from each side of the side surface of the tube bundle. May be inserted into the central space of the tube bundle, and the upright portions may be fitted together so as to reinforce each other upright portions, thereby being assembled to each other and attached to the tube bundle. Thus, when this rotating device is attached to the tube bundle, the upright portions of each of the divided bodies, which stand up from the side plate portions and are inserted into the central space of the tube bundle, are fitted so as to reinforce each other upright portions. Together, the two segments are assembled together. In this way, the strength of the pivoting device is maintained even more sufficiently because the standing portions reinforce each other. Then, as described above, the two divided bodies are assembled to each other with the upright portions fitted together and attached to the tube bundle by this assembly.
[0024]
Moreover, like the rotating device of the water pipe according to the invention of claim 13, in the rotating device of claim 12, the upright portions fitted to each other are orthogonal to the insertion direction of the upstanding portion. A closed frame may be formed so as to surround the rotation axis of the rotation device in a cross section. In this way, the strength of the rotating device is further sufficiently maintained by forming the closed frame by the upright portions fitted to each other surrounding the rotating axis.
[0025]
Further, like the rotating device for a water pipe according to the invention according to claim 14, in the rotating device according to claim 13, the upright portion is provided with a pair of protruding surfaces facing the side plate portion. The frame body may be formed by fitting the pair of facing plates in a grid pattern so as to reinforce each other. As described above, the upright portion is formed by the pair of facing plates, and the pair of facing plates are fitted in a cross-girder shape to form the frame body. Therefore, the strength of the rotating device is reliably maintained. You.
[0026]
Further, like the rotating device for a water pipe according to the invention according to claim 15, in the rotating device according to any one of claims 12 to 14, the upright portion of each of the two divided bodies is A slit cut from the tip side of the upright portion may be provided at a position corresponding to each other, and the upright portion may be engaged by fitting at the two slit portions. In this way, the two divided bodies are securely assembled because the respective upright portions are engaged by the fitting at the slit portions.
[0027]
Further, like the rotating device for a water pipe according to the invention according to claim 16, in the rotating device according to claim 11, the two divided bodies are arranged such that the upright portion is formed from each side of the side surface of the tube bundle. Is inserted into the central space of the tube bundle, the upright portion of one split body and the side plate portion of the other split body are fitted together, and the side plate portion of one split body and the side of the other split body are The upright portions may be fitted together to be assembled with each other and attached to the tube bundle. Thus, when attaching the rotating device to the tube bundle, the upright portion of one of the divided bodies and the side plate portion of the other divided body are fitted together, and the upright portion of the one of the divided bodies and the upright portion of the other divided body are fitted. The parts are fitted together, and the two divided bodies are assembled together. In this manner, the strength of the rotating device is maintained even more sufficiently by fitting the upright portions and the side plate portions. In this way, the two divided bodies are assembled to each other by fitting the respective upright portions and the side plate portions, and are attached to the tube bundle by this assembly.
[0028]
Further, like the rotating device for a water pipe according to the invention according to claim 17, in the rotating device according to claim 11, the two divided bodies are arranged such that the upright portion is formed from each side of the side surface of the tube bundle. May be inserted into a central space of the tube bundle, and the upright portions may be joined to each other by the fixing means so as to be assembled with each other and attached to the tube bundle. Thus, when attaching the rotating device to the tube bundle, the upright portions inserted into the central space of the tube bundle are joined by the fixing means, and the two divided bodies are assembled together. In this manner, the upright portions are joined to each other by the fixing means, so that the strength of the rotating device is further more sufficiently maintained. As described above, the two divided bodies are assembled together by joining the upright portions by the fixing means, and are attached to the tube bundle by this assembly.
[0029]
Also, like the rotating device for a water pipe according to the invention according to claim 18, in the rotating device according to claim 11, the two divided bodies are arranged such that the upright portion is formed from each side of the side surface of the tube bundle. Is inserted into the central space of the tube bundle, the upright portion of one divided body and the side plate portion of the other divided body are joined by first fixing means, and the side plate portion of one divided body is The upright portion of the other divided body may be joined to the tube bundle by being joined to the tube bundle by the second fixing means. Thus, when attaching the rotating device to the tube bundle, the upright portion of one of the divided bodies and the side plate of the other divided body are joined by the first fixing means, and the side plate of the one of the divided bodies is joined to the side plate. The upright part of the other divided body is joined by the second fixing means, and the two divided bodies are assembled together. In this way, the upright portions and the side plate portions are joined to each other by the fixing means, so that the strength of the rotating device can be maintained even more sufficiently. As described above, the two divided bodies are assembled with each other by joining the upright portions and the side plate portions by the fixing means, and are attached to the tube bundle by this assembly.
[0030]
Further, like the rotating device for a water pipe according to the invention described in claim 19, in the rotating device according to any one of claims 11 to 18, the two divided bodies have the same shape and shape. They may be of the same dimensions. As a result, components can be shared, and the cost of the rotating device can be reduced.
[0031]
Further, like the rotating device for a water pipe according to the invention described in claim 20, in the rotating device according to any one of claims 1 to 11, the two divided bodies are provided with the rotating device. May be assembled via a shaft member for rotating and attached to the tube bundle. That is, the two divided bodies may not be directly assembled but may be assembled via a shaft member.
[0032]
A packing device for a water pipe according to a twenty-first aspect of the present invention includes the rotating device according to any one of the first to twentieth aspects, and the packing box.
[0033]
A packing device body for a water pipe according to the invention of claim 22 includes the packing device according to claim 21 and the water pipe.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a rotating device for a water pipe, a packing device for a water pipe, and a packing device body for a water pipe according to the present invention will be described with reference to the drawings.
[0035]
1 to 9 show an embodiment of a rotation device, a packing device, and a packing device body of a water pipe according to the present invention. Reference numeral 1 in the figure denotes a flexible water supply pipe such as a water supply pipe made of a synthetic resin material such as cross-linked polyethylene or polybutene as a pipe material. Reference numeral 3 denotes a packing box in which the tube bundle 1a of the water pipe 1 wound in a circular shape is accommodated. Numeral 5 is a corrugated cardboard rotating device housed in the packing box 3 together with the tube bundle 1a. The rotating device 5 supports the tube bundle 1a so that the water pipes 1 are sequentially drawn out of the packing box 3 from the ends thereof. The tube bundle 1a is supported together with the tube bundle 1a so as to be rotatable in the circumferential direction. However, the rotation of the rotating device 5 together with the tube bundle 1a means not only the case where the rotating device 5 rotates integrally with the tube bundle 1a, but also the case where the rotating device 5 rotates the tube bundle 1a with the rotation of the tube bundle 1a. This includes the case where the rotation is performed later than the above. Reference numeral 10 denotes a packing device, which includes the rotating device 5 and the packing box 3. Reference numeral 11 denotes a packing device body, which includes the packing device 10 and the water pipe 1.
[0036]
Here, the packing box 3 is made of, for example, paper (more specifically, made of cardboard), and in the illustrated embodiment, is formed of a rectangular hexahedron, that is, a straight hexahedron. The packing box 3 is provided with a drawer 3c for pulling out the water pipe 1 sequentially from its end. The drawer 3c is provided with a lid 3d for opening and closing the drawer 3c. The packing box 3 is provided with a clip 4 serving as holding means H for holding the closed state and the open state of the lid 3d.
[0037]
The rotating device 5 includes two divided bodies 5a, 5a. Each of the divided bodies 5a includes a side plate portion 5c having a sliding contact prevention portion 5b for preventing each side surface 1b of the tube bundle 1a from slidingly contacting the inner wall surface of the packing box 3. Further, at least one of the two divided bodies 5a, 5a (in the illustrated embodiment, both divided bodies 5a, 5a) directly or indirectly (in the illustrated embodiment, the inner circumference of the tube bundle 1a). Has an upright portion 5d that rises from the side plate portion 5c so as to directly support it. The upright portion 5d is formed such that the plate member T forming the side plate portion 5c is cut or raised (in the illustrated embodiment, cut and raised). Further, the upright portion 5d has edge portions E, E formed of corners or ends, which come into contact with the inner periphery of the tube bundle 1a to support the inner periphery of the tube bundle 1a.
[0038]
In the two divided bodies 5a, 5a, the upright portions 5d, 5d are inserted into the central space 1d of the tube bundle 1a from each side of the side surfaces 1b, 1b of the tube bundle 1a, and the upright portions 5d, 5d are mutually upright. The portions 5d are fitted together so as to reinforce each other, whereby they are assembled together and attached to the tube bundle 1a. At this time, the upright portions 5d, 5d fitted to each other form a closed frame Y so as to surround the pivot axis J of the pivoting device 5 in a cross section orthogonal to the insertion direction of the upright portions 5d, 5d. (See FIG. 2).
[0039]
Specifically, the plate member T forming the divided body 5a is formed of a single corrugated board. That is, the side plate portion 5c is formed by this corrugated cardboard plate, and the upright portion 5d is formed by cutting or bending one corrugated cardboard plate so as to extend from the side plate portion 5c (shown in the drawing). In the embodiment, it is formed so as to be cut and raised (see FIGS. 6 and 7). Then, holes U, U are formed on the side of the plate member T on the side of the side plate portion 5c. The sliding contact preventing portion 5b of the plate member T in which the holes U and U are formed is provided over the entire periphery of the side plate portion 5c.
[0040]
More specifically, each of the upright portions 5d of the two divided bodies 5a, 5a is a piece that does not close in a cross section orthogonal to the insertion direction. The frame Y is formed by fitting these pieces so as to reinforce each other. More specifically, the upright portion 5d, that is, the one portion, is composed of a pair of facing plates P, P projecting from the side plate portion 5c. The frame body Y is formed by fitting a pair of facing plates P, P in a grid pattern so as to reinforce the other pair of facing plates P, P. That is, the closed section of the frame Y has a polygonal shape, specifically, a quadrangular shape. Further, both side ends of the facing plates P, which become the upright portions 5d, are the edge portions E, E which come into contact with the inner periphery of the tube bundle 1a.
[0041]
In addition, slits 5e, 5e cut from the leading ends of the upright portions 5d, 5d are provided at the corresponding positions of the upright portions 5d, 5d of the two divided bodies 5a, 5a. The upright portions 5d and 5d of the two divided bodies 5a and 5a engage with each other by fitting at the slits 5e and 5e, and thus the two divided bodies 5a and 5a are connected to each other by the upright portions 5d and 5d. The other standing portions 5d are fitted so as to reinforce each other. In the illustrated embodiment, these two divided bodies 5a, 5a have the same shape and the same dimensions. In the rotating device 5 (specifically, the side plates 5c and 5c of the divided bodies 5a and 5a), shaft holes 5f and 5f are formed in the rotating shaft center J portion.
[0042]
Further, the packing device 10 includes a shaft member 6, through which the rotating device 5 is supported together with the tube bundle 1 a so as to be rotatable in the circumferential direction of the tube bundle 1 a. This shaft member 6 is made of paper, for example, and is transferred to the side walls 3f, 3f of the packing box 3, that is, the side walls 3f, 3f facing the side surfaces 1b, 1b of the tube bundle 1a, as shown in FIG. Attached. Specifically, the shaft member 6 is inserted into the shaft holes 5f, 5f formed in the rotating device 5, and is passed over the side walls 3f, 3f in order to prevent the space between the side walls 3f, 3f from expanding. And attached. The shaft member 6 includes through-holes 3p and 3p formed in the side walls 3f and 3f, and a shaft body 6a that passes through the shaft holes 5f and 5f, and side walls 3f provided at both ends of the shaft body 6a. 3f is provided with a flange portion 6b facing the outer surface. The shaft body 6a holds the flanges 6b, 6b so that the flanges 6b, 6b do not separate from each other.
[0043]
Specifically, the shaft member 6 includes the shaft main body 6a and plate-shaped flange members 6h, 6h provided with the flange portions 6b, 6b. Here, the shaft main body 6a has a tube material K inserted into the through holes 3p, 3p and the shaft holes 5f, 5f so as to be in contact therewith, for example, a cylindrical tube material made of paperboard. On the other hand, the flange member 6h is formed, for example, in a disk shape, and a peripheral portion thereof serves as the flange portion 6b. The flange member 6h is fixed to the end face of the tube member K by bonding or the like.
[0044]
The pipe member K is composed of a first pipe member 6c passing through the through hole 3p and the shaft hole 5f on one side, and a second tube member 6d passing through the through hole 3p and the shaft hole 5f on the other side. Therefore, the shaft member 6 includes a first divided body 6i in which the one-side flange member 6h and the first tube member 6c are fixed, and a second divided member in which the other-side flange member 6h and the second tube member 6d are fixed. It has a divided body 6j, and these divided bodies 6i and 6j are connected to each other. In the illustrated embodiment, the first divided body 6i has a continuous portion 6e fitted to the first tube 6c and fixed, for example, by adhesion. Then, the continuous portion 6e is fitted to the second pipe 6d in the second divided body 6j. At this time, the back surface of the flange member 6h of the second divided body 6j is bonded to the end face of the continuous portion 6e of the first divided body 6i. Connected by
[0045]
As shown in FIGS. 8 and 9, the connecting portion 6e is made up of a plurality of (two in the illustrated embodiment) plate-like pieces 6f, 6f made of, for example, cardboard. The plate pieces 6f, 6f are provided with slits 6g, 6g cut from the edges thereof, and the plate pieces 6f, 6f are engaged with each other by fitting at the slits 6g, 6g. It is assembled.
[0046]
Next, the operation and effect of the packing device 10 and the packing device body 11 including the rotating device 5 having the above configuration will be described. The rotating device 5 is accommodated in the packing box 3 together with the tube bundle 1a so as to support the tube bundle 1a of the water pipe 1 made of a synthetic resin material wound in a circular shape. At this time, the rotating device 5 is supported together with the tube bundle 1a in the packing box 3 so as to be rotatable in the circumferential direction of the tube bundle 1a (in the illustrated embodiment, supported via the shaft member 6). . As described above, the water pipes 1 serving as the pipe bundle 1a are stored in the packing box 3 and stored or transported. Then, when piping the water pipe 1, as shown in FIGS. 1 and 2, the water pipe 1 in the packing box 3 is pulled out of the packing box 3 in order from the end thereof. Then, the rotating device 5 rotates together with the tube bundle 1a so that the tube bundle 1a in the packing box 3 is unraveled. In this way, by rotating the tube bundle 1a so that the tube bundle 1a is unwound, the water pipe 1 can be pulled out while keeping the winding habit of the water pipe 1 without being twisted. Can be. The water pipe 1 drawn out of the packing box 3 is piped so as to be inserted into, for example, a sheath pipe previously arranged along a predetermined pipe path.
[0047]
Here, the rotating device 5 includes two divided bodies 5a, 5a. Each of the divided bodies 5a has an upright portion 5d rising from the side plate portion 5c, and the upright portion 5d directly supports the inner periphery of the tube bundle 1a. The upright portion 5d is formed in such a manner that the plate member T forming the side plate portion 5c is cut or raised (in the illustrated embodiment, cut and raised). The integrity of the body 5a is maintained. Since the integrity of the divided body 5a is maintained in this manner, the strength of the divided body 5a and thus the rotating device 5 can be sufficiently ensured. In addition, in the illustrated embodiment, the upright portion 5d is provided in each of the two divided bodies 5a, 5a, so that the integrity of each of the divided bodies 5a, 5a is maintained. The strength can be more sufficiently ensured.
[0048]
When attaching the rotating device 5 to the tube bundle 1a, the upright portions 5d and 5d of the divided bodies 5a and 5a, which stand from the side plate portions 5c and 5c and are inserted into the central space 1d of the tube bundle 1a, The two divided bodies 5a, 5a are fitted together so as to reinforce each other with the upright portions 5d, and are assembled to each other. In this manner, the upright portions 5d, 5d reinforce each other upright portions 5d, so that the strength of the rotating device 5 can be further more sufficiently secured. In this way, the two divided bodies 5a, 5a are assembled together with the upright portions 5d, 5d fitted together, and attached to the tube bundle 1a by this assembly. As described above, the rotating device 5 can easily be attached to the tube bundle 1a with a simple configuration, such as fitting the upright portions 5d, 5d of the two divided bodies 5a, 5a. Further, at this time, the edge portions E, E formed by corners or ends of the upright portion 5d abut on the inner periphery of the tube bundle 1a, so that the upright portion 5d abuts a part of the inner periphery of the tube bundle 1a. Therefore, the upright portion 5d can be easily inserted into the central space 1d of the tube bundle 1a.
[0049]
Moreover, in the two divided bodies 5a, 5a, the upright portions 5d, 5d fitted to each other form a frame Y that closes around the rotation axis J, thereby reducing the strength of the rotation device 5. Further, it is possible to sufficiently secure them. The upright portion 5d is composed of a pair of facing plates P, P, and the pair of facing plates P, P are fitted in a grid pattern to form the frame Y. Strength can be reliably maintained. In addition, the two divided bodies 5a, 5a are formed such that the facing plates P, P, that is, the upright parts 5d, 5d are engaged with each other by fitting at the slits 5e, 5e. 5a is securely assembled.
[0050]
Further, the plate member T forming the side plate portion 5c is formed of a single corrugated cardboard, and the single corrugated cardboard is cut or bent (cut and raised in the illustrated embodiment). , A standing portion 5d is formed. As described above, since the side plate portion 5c and the upright portion 5d are formed by one corrugated cardboard plate, the structure of the divided body 5a is simplified. Moreover, since the side plate portion 5c is formed by a portion of the corrugated cardboard excluding the upright portion 5d, the area of the side plate portion 5c is reduced. That is, a hole U is formed in the corrugated board (plate member T) on the side of the side plate portion 5c by cutting and raising, and the area of the side plate portion 5c is reduced by the hole U. As described above, since the rubbing area of the side plate portion 5c that may rub against the inner wall surface of the packing box 3 is reduced, the rotating device 5 can be smoothly rotated. However, not only when the hole U is formed on the side of the side plate portion 5c by cutting and raising, but also when a notch (for example, a notch V shown in FIGS. 16 and 17 described later) is formed. It has a similar effect.
[0051]
Also, in the divided body 5a, the sliding contact prevention portion 5b is provided over the entire periphery of the side plate portion 5c, although the corrugated cardboard (plate member T) is cut and raised. Therefore, it is possible to prevent the water pipe 1 constituting the pipe bundle 1a from entering between the sliding contact preventing portion 5b and the inner wall surface of the packing box 3.
[0052]
Further, since the two divided bodies 5a, 5a have the same shape and the same dimensions, these parts can be shared, and the cost of the rotating device 5 can be reduced. And since the rotation device 5 is made of corrugated cardboard, the cost of the rotation device 5 can be reduced also by this, and when the packing device 10 is discarded after use, the rotation device 5 is removed. Can be easily disposed of.
[0053]
The shaft member 6 holds the flanges 6b, 6b so that the shaft main body 6a does not separate the flanges 6b, 6b facing the outer surfaces of the side walls 3f, 3f. In this way, the two flange portions 6b, 6b that do not separate sandwich the side walls 3f, 3f of the packing box 3, and the force for pulling out the water pipe 1 or the weight of the tube bundle 1a acts on the packing box 3. Even if there is, it is possible to prevent the side walls 3f, 3f from expanding and the packing box 3 from being deformed, and to stably pull out the water pipe 1. Moreover, since the shaft member 6 is made of paper, the cost of the shaft member 6 can be reduced, and when the packing device 10 is discarded after use, the shaft member 6 can be easily discarded. .
[0054]
Note that the present invention is not limited to the above-described embodiment, and various other modifications are possible. For example, FIGS. 10 to 43 show modified examples of the rotating device 5, and the configuration will be briefly described below.
[0055]
According to the rotating device 5 shown in FIGS. 10 and 11, the plate member T serving as the divided body 5a is made up of a plurality of corrugated cardboard plates overlapping each other. The upright portion 5d is formed such that at least one of the plurality of corrugated cardboard plates is cut or bent, and the side plate portion is formed by the remaining portion and the outer corrugated cardboard plates. 5c is formed. Specifically, the plate member T is composed of two superposed corrugated boards. Then, an upright portion 5d including a pair of facing plates P, P is formed such that the inner one of the two corrugated cardboard plates is folded up. Then, in each of the divided bodies 5a, the overlapping portions of a plurality of (two in the illustrated embodiment) corrugated cardboard plates are joined by bonding or the like (in the example shown below, the divided bodies 5a are also composed of a plurality of corrugated boards). The same applies to the case of a cardboard plate. According to this embodiment, the plate member T, that is, the divided body 5a is formed by a plurality of (two in the illustrated embodiment) corrugated cardboard plates overlapping each other. It will be stable.
[0056]
According to the rotating device 5 shown in FIGS. 12 and 13, the plate member T serving as the divided body 5a is composed of a plurality of, for example, two corrugated cardboard plates overlapping each other. Then, an upright portion 5d having a quadrangular cross section is formed by folding up the inner corrugated board of the two corrugated boards, and a side plate portion 5c is formed by the remaining portion and the outer corrugated board. The frame Y formed by fitting the upright portions 5d and 5d at the slits 5e and 5e has a polygonal shape, specifically, an octagonal closed cross section.
[0057]
According to the rotating device 5 shown in FIGS. 14 and 15, the plate member T serving as the divided body 5a is formed of one corrugated board. Then, the corrugated board is cut and raised at four places to form an upright portion 5d having a substantially quadrangular cross section, and each side of the quadrangular shape is divided, and the remaining portion is formed as a side plate portion 5c. Has become. That is, each of the upright portions 5d, 5d of the two divided bodies 5a, 5a is a piece that does not close in a cross section orthogonal to the insertion direction. Further, holes U and U are formed on the side of the side plate portion 5c by the cut-and-raised operation. The upright portions 5d, 5d of the two divided bodies 5a, 5a, that is, the frame portions Y formed by fitting one portion so as to reinforce each other, have a closed cross section of an octagon. It has a shape. In this embodiment, the slits 5e, 5e have shallow cuts, and the fitting of the upright portions 5d, 5d at the slits 5e, 5e is up to an intermediate position in the insertion direction.
[0058]
According to the rotating device 5 shown in FIGS. 16 and 17, the plate member T serving as the divided body 5a is formed of a single corrugated cardboard plate. Then, the corrugated board is cut and raised at three places to form an upright portion 5d having a substantially triangular cross section, and each side of the triangular shape is divided, and the remaining portion is formed as a side plate portion 5c. Has become. That is, each of the upright portions 5d, 5d of the two divided bodies 5a, 5a is a piece that does not close in a cross section orthogonal to the insertion direction. The cut-and-raised portion forms a notch V on the side plate portion 5c side. Then, the upright portions 5d, 5d of the two divided bodies 5a, 5a are formed so as to be fitted to each other so as to reinforce the other upright portions 5d (specifically, fitted at the slits 5e, 5e). The closed frame Y has a hexagonal cross section.
[0059]
According to the rotating device 5 shown in FIGS. 18 and 19, the plate member T serving as the divided body 5a is composed of a plurality of, for example, two corrugated cardboard plates overlapping each other. Each of the upright portions 5d and 5d of the two divided bodies 5a and 5a is formed of a polygonal frame that closes in a cross section orthogonal to the insertion direction. In detail, the frame portion having a triangular cross section is formed by folding up the inner corrugated board of the two corrugated boards, and the side plate portion 5c is formed by the remaining portion and the outer corrugated board. . The upright portion 5d, that is, the closed frame body Y formed by fitting the frame portion, is fitted in an intersecting manner so that each piece of the frame portion reinforces each piece of the other frame portion ( Specifically, the slits 5e and 5e are formed (fitted together). In the illustrated embodiment, the closing section of the frame Y has a hexagonal shape. According to the rotating device 5, the upright portions 5d, 5d are formed of closed polygonal frame portions, and the frame members Y are formed by fitting the pieces of the frame portions in an intersecting manner. As described above, before the upright portions 5d, 5d of the two divided bodies 5a, 5a are fitted, the upright portions 5d, 5d are formed of closed frame portions. , Can be secured even more sufficiently.
[0060]
According to the rotating device 5 shown in FIGS. 20 and 21, the plate member T serving as the divided body 5a is composed of a plurality of, for example, two corrugated cardboard plates overlapping each other. Each of the upright portions 5d and 5d of the two divided bodies 5a and 5a is formed of a frame portion that closes in a cross section orthogonal to the insertion direction, for example, a polygonal frame portion. Specifically, the frame portion having a quadrangular cross section is formed by folding up the inner corrugated board of the two corrugated boards, and the side plate portion 5c is formed by the remaining portion and the outer corrugated board. . The upright portions 5d and 5d, that is, the closed frame body Y formed by fitting the frame portions are formed by overlapping the frame portions so as to reinforce each other. Then, due to this polymerization, the closed cross section of the frame Y has a shape similar to that of the frame, that is, a square shape. According to this rotating device 5, each of the upright portions 5d, 5d is composed of a closed frame portion, and these frame portions are overlapped, that is, fitted together to form the frame Y, so that two frames are formed. Before the upright portions 5d, 5d of the divided bodies 5a, 5a are fitted, the upright portions 5d, 5d are formed of closed frames, so that the strength of the rotating device 5 can be further and sufficiently increased. Can be secured. Further, in this embodiment, since the frame portions, that is, the upright portions 5d, 5d overlap, the slits 5e, 5e are not provided in the upright portions 5d, 5d.
[0061]
According to the rotation device 5 shown in FIGS. 22 and 23, the plate member T serving as the divided body 5a is formed of a single corrugated board. The corrugated board is cut and raised at four locations to form upright portions 5d, and the remaining portions serve as side plate portions 5c. Due to the cutting and raising, a cutout V is formed on the side plate portion 5c side in one of the divided bodies 5a, and a hole U is formed on the side plate portion 5c side in the other divided body 5a. By the way, the rotating device 5 does not form the closed frame Y when the upright portions 5d, 5d of the two divided bodies 5a, 5a are fitted to each other. That is, each piece forming the upright portions 5d, 5d is fitted independently. Further, in this embodiment, the two divided bodies 5a, 5a have different shapes, and the upright portions 5d, 5d intersect (for example, orthogonally intersect) with each other at the slits 5e, 5e. By being fitted, they are assembled together.
[0062]
According to the rotating device 5 shown in FIGS. 24 and 25, the plate member T serving as the divided body 5a is formed of a single corrugated board. The corrugated board is cut and raised at six locations to form upright portions 5d, and the remaining portions serve as side plate portions 5c. Then, holes U, U are formed on the side of the side plate portion 5c by the cutting and raising. The upright portion 5d stands so that its surface is oriented in the circumferential direction about the rotation axis J. Therefore, when fitting the upright portions 5d and 5d at the slits 5e and 5e, the upstanding portions 5d and 5d need to be slightly twisted and crossed to be fitted. In this embodiment, a locking piece 5g for locking the upstanding portion 5d is provided on the divided body 5a to prevent the upstanding portion 5d from falling down. The locking piece 5g is formed by cutting and raising the corrugated cardboard from a direction opposite to the upright portion 5d. The locking piece 5g is provided with a locking projection 5h, and the locking projection 5h is engaged with the upright portion 5d. In this embodiment, since the surface of the upright portion 5d is oriented in the circumferential direction about the rotation axis J, the upright portions 5d and 5d fit each other at the slits 5e and 5e. In this state, the two divided bodies 5a, 5a are relatively rotated to the side where the upright portions 5d, 5d fall, so that the side plates 5c, 5c are close to each other, and this rotation is performed. The device 5 collapses. Therefore, when the rotating device 5 is discarded, the rotating device 5 can be easily crushed in a state where the upright portions 5d and 5d are fitted in the slits 5e and 5e.
[0063]
According to the rotating device 5 shown in FIGS. 26 and 27, the plate member T serving as the divided body 5a is formed of one corrugated board. The corrugated board is cut and raised at three places to form upright portions 5d, and the remaining portions are side plate portions 5c. Then, notches V, V are formed on the side of the side plate portion 5c by the cutting and raising. The upright portion 5d has both ends bent and formed in a U-shaped cross section. Then, the two divided bodies 5a, 5a are assembled together and attached to the tube bundle 1a by the upright portions 5d, 5d being fitted together so as to reinforce the other upright portions 5d so as to overlap each other. Can be
[0064]
According to the rotating device 5 shown in FIGS. 28 and 29, in the divided body 5a, the upright portion 5d that rises from the side plate portion 5c indirectly supports the inner periphery of the tube bundle 1a. Specifically, the rotating device 5 includes a support member 5j supported by the upright portion 5d and supporting the inner periphery of the tube bundle 1a, in addition to the divided bodies 5a and 5a. The upright portion 5d supports the inner periphery of the tube bundle 1a through the support member 5j. Specifically, the plate member T serving as the divided body 5a is formed of one corrugated board. An upright portion 5d is formed so that the corrugated board is cut and raised at six places, and the remaining portion is a side plate portion 5c. Then, holes U, U are formed on the side of the side plate portion 5c by the cutting and raising. Then, the two divided bodies 5a, 5a are assembled to each other by being fitted at the slits 5e, 5e so that the upright portions 5d, 5d intersect with each other. On the other hand, the support member 5j is formed in a loop shape, for example, a ring shape, and is fitted and attached to the upright portions 5d, 5d so as to surround the upright portions 5d, 5d. However, the support member 5j is not formed in a ring shape, but is formed in a polygonal shape or the like, so that the support member 5j has an edge portion formed of a corner portion or an end portion, which comes into contact with the inner periphery of the inter-bundle. Is also good. In this manner, the edge portion of the support member 5j formed by a corner or an end abuts on the inner periphery of the tube bundle 1a, so that the support member 5j contacts a part of the inner periphery of the tube bundle 1a. It becomes easy to insert the support member 5j into the central space 1d of 1a. This is the same in the examples shown in FIGS. 40 and 41 described later.
[0065]
According to the rotating device 5 shown in FIGS. 30 and 31, the plate member T serving as the divided body 5a is formed of a single corrugated board. Then, the corrugated board is cut and raised, for example, at three places to form first elongate portions D1 and D1 which are elongate and serve as the upright portions 5d. Further, the corrugated board is cut and raised between the first upright portions D1 and D1, and short piece-like second upright portions D2 and D2 serving as the upright portions 5d are formed. Then, notches V, V and holes U, U are formed on the side of the side plate portion 5c. The second upright portion D2 is formed with a slit 5k cut from the front end side. Here, the rotating device 5 is configured such that the first upright portion D1 of one of the divided bodies 5a and the second upright portion D2 of the other divided body 5a intersect (for example, orthogonally) so that the slit 5k And the second upright portion D2 of one split body 5a and the first upright portion D1 of the other split body 5a intersect (for example, orthogonally) at the slit 5k. Combined and assembled together. Further, in this embodiment, the first upright portion D1 directly supports the inner periphery of the tube bundle 1a, and the second upright portion D2 interposes the inner periphery of the tube bundle 1a via the first upright portion D1. We support indirectly.
[0066]
According to the rotating device 5 shown in FIGS. 32 and 33, the two divided bodies 5a, 5a are such that the upright portions 5d, 5d are inserted into the central space 1d of the tube bundle 1a from the respective sides of the side surfaces 1b, 1b of the tube bundle 1a. The upright portion 5d of one divided body 5a and the side plate portion 5c of the other divided body 5a are fitted together, and the side plate portion 5c of one divided body 5a and the upright portion 5d of the other divided body 5a are fitted together. As a result, they are assembled together and attached to the tube bundle 1a. Specifically, the plate member T serving as the divided body 5a is formed of a single corrugated board. An upright portion 5d is formed by, for example, cutting the cardboard plate at two places, and the remaining portion is a side plate portion 5c. Then, notches V, V are formed on the side of the side plate portion 5c by the cutting and raising. Here, the upstanding portion 5d is provided with an engagement piece L extended so as to protrude from the tip portion. The side plates 5c are provided with slits 5m and 5m. Then, the engagement piece L in the upright part 5d of one of the divided bodies 5a is inserted into the slit 5m in the other divided body 5a, and the engagement piece L in the upright part 5d of the other divided body 5a is inserted into the one of the one divided body 5a. It is inserted into the slit 5m of the divided body 5a, and thus the upright portion 5d and the side plate portion 5c are fitted. By fitting the upright portions 5d and the side plate portions 5c in this manner, the strength of the rotating device 5 can be further more sufficiently secured. In the illustrated embodiment, the engagement piece L is bent after being inserted into the slit 5m.
[0067]
According to the rotating device 5 shown in FIGS. 34 and 35, the two divided bodies 5a, 5a are such that the upright portions 5d, 5d are inserted into the central space 1d of the tube bundle 1a from each side of the side surfaces 1b, 1b of the tube bundle 1a. The upright portions 5d and 5d are joined to each other by fixing means, so that they are assembled to each other and attached to the tube bundle 1a. Specifically, the plate member T serving as the divided body 5a is formed of a single corrugated board. An upright portion 5d is formed so that the corrugated board is cut and raised, for example, at four places, and the remaining portion is a side plate portion 5c. Then, holes U, U are formed on the side of the side plate portion 5c by the cutting and raising. Here, a joining piece M whose side end portion is bent is formed in the upright portion 5d. Then, in the two divided bodies 5a, 5a, the joining pieces M, M in the upright portions 5d, 5d are joined to each other by an adhesive or an adhesive tape serving as a fixing means. By joining the upright portions 5d and 5d with each other by the fixing means, the strength of the rotating device 5 can be further more sufficiently secured.
[0068]
According to the rotating device 5 shown in FIGS. 36 and 37, the two divided bodies 5a, 5a are such that the upright portions 5d, 5d are inserted into the central space 1d of the tube bundle 1a from the respective sides of the side surfaces 1b, 1b of the tube bundle 1a. The upright portion 5d of one of the divided bodies 5a and the side plate 5c of the other divided body 5a are joined by the first fixing means, and the upright of the side plate 5c of the one divided body 5a and the upright of the other divided body 5a. The part 5d is joined to the tube bundle 1a by being joined by the second fixing means. Specifically, the plate member T serving as the divided body 5a is formed of a single corrugated board. The corrugated board is cut and raised, for example, at three places to form upright portions 5d, and the remaining portions are side plate portions 5c. Then, holes U, U are formed on the side of the side plate portion 5c by the cutting and raising. Here, a joining piece N whose tip is bent is formed in the upright portion 5d. Therefore, in the two divided bodies 5a, 5a, the joining piece N in the upright portion 5d of one of the divided bodies 5a and the side plate 5c of the other divided body 5a serve as a first fixing means, such as an adhesive or an adhesive tape. The side plate portion 5c of one of the divided bodies 5a and the joining piece N in the upright portion 5d of the other divided body 5a are joined by an adhesive or an adhesive tape which is a second fixing means. . By joining the upright portions 5d and the side plate portions 5c by the fixing means in this way, the strength of the rotating device 5 can be further more sufficiently secured.
[0069]
According to the rotating device 5 shown in FIGS. 38 and 39, the two divided bodies 5a, 5a are simply fitted without the upright portions 5d, 5d being fitted to each other to reinforce the other upright portions 5d. One engages so as to be positioned on the other. Specifically, the plate member T serving as the divided body 5a is formed of a single corrugated board. Then, the corrugated board is cut and raised, for example, at four places to form first strip-shaped first rising portions D1 and D1 to be the rising portions 5d. Further, the corrugated board is cut and raised between the first upright portions D1 and D1, thereby forming short upright second upright portions D2 and D2 serving as the upright portions 5d. The cut-and-raised portion forms a notch V and a hole U on the side plate portion 5c side. Here, in the rotating device 5, the first upright portion D1 of one of the divided bodies 5a is supported from the inside by the second upright portion D2 of the other divided body 5a, and the first upright portion D1 of the other divided body 5a is provided. The portions D1 are positioned and combined with each other such that the portions D1 are supported from the inside by the second upright portions D2 of the one divided body 5a. In the two divided bodies 5a, 5a, the first upright portions D1, D1 are joined to each other by a fixing means such as an adhesive or an adhesive tape, or the first upright portions D1, D1 are connected to the first upright portion D1 of the one divided body 5a. And the side plate portion 5c of the divided body 5a are similarly joined to each other by being joined by fixing means.
[0070]
According to the rotation device 5 shown in FIGS. 40 and 41, in the divided body 5a, the upright portion 5d rising from the side plate portion 5c indirectly supports the inner periphery of the tube bundle 1a. Specifically, the rotating device 5 includes a support member 5j supported by the upright portion 5d and supporting the inner periphery of the tube bundle 1a, in addition to the divided body 5a. The upright portion 5d supports the inner periphery of the tube bundle 1a through the support member 5j. Specifically, the plate member T serving as the divided body 5a is formed of one corrugated board. An upright portion 5d is formed so that the corrugated board is cut and raised at a plurality of locations, and the remaining portion is a side plate portion 5c. Then, holes U, U are formed on the side of the side plate portion 5c by the cutting and raising. On the other hand, the support member 5j is formed in a loop shape, for example, a ring shape, and is fitted to the upright portions 5d, 5d so as to surround the upright portions 5d, 5d of the two divided bodies 5a, 5a. Then, the side plate portion 5c of the divided body 5a and the support member 5j are joined by a fixing means such as an adhesive or an adhesive tape.
[0071]
According to the rotating device 5 shown in FIGS. 42 and 43, the two divided bodies 5a, 5a are assembled via the shaft member 6 for rotating the rotating device 5, and attached to the tube bundle 1a. That is, the two divided bodies 5a, 5a are not directly assembled but are in a separated state. Specifically, the plate member T serving as the divided body 5a is formed of a single corrugated board. An upright portion 5d is formed so that the corrugated board is cut and raised at three places, for example. Then, notches V, V are formed on the side of the side plate portion 5c by the cutting and raising. In addition, a locking piece 5g for locking the upright portion 5d is provided on the divided body 5a to prevent the upright portion 5d from falling down. In the illustrated embodiment, the locking piece 5g is provided with a slit 5n, and the slit 5n and the upright portion 5d are engaged with each other to lock the upright portion 5d and prevent its falling. Is done.
[0072]
Although not shown, the divided body 5a of the rotating device 5 can be formed, for example, by cutting or bending an inner corrugated cardboard plate out of a plurality of cardboard plates so that the upright portion 5d is not formed. At least the outermost corrugated cardboard plate of the plurality of corrugated cardboard plates may be cut or bent to form the upright portion 5d. By doing so, the rubbing area of the side plate portion 5c that may rub against the inner wall surface of the packing box 3 is reduced, so that the rotating device 5 can smoothly rotate.
[0073]
Further, the shaft member 6 may be made of another material such as synthetic resin, instead of paper.
[0074]
The drawer 3c may be provided on a part of a wall forming one surface of the packing box 3, but the whole surface may be the drawer 3c. That is, in addition to the case where a part of the wall forming one surface of the packing box 3 becomes the lid 3d for opening and closing the drawer 3c, the entire wall forming the one surface becomes the lid 3d for opening and closing the drawer 3c. May be. Further, as described above, the drawer 3c is provided with the lid 3d for opening and closing the drawer 3c, but the lid 3d may not be provided. That is, the drawer 3c may be formed by removing an appropriate part of the wall of the packing box 3.
[0075]
Before the water pipe 1 is pulled out of the packing box 3, that is, before use, the pipe bundle 1a of the water pipe 1 is bound by a binding wire such as a bind. Then, when the water pipe 1 is pulled out of the packing box 3, the binding wire is cut. However, if the binding wire binds the entire tube bundle 1a, the entire tube bundle 1a is easily broken by cutting, and the water pipe 1 is pulled out, so that the portion of the tube bundle 1a that is going to be separated from the tube bundle 1a is cut off. There is a possibility that the water tube 1 may bite into the inside of the tube bundle 1a. In this way, when the part of the water pipe 1 that is going to be separated from the pipe bundle 1a bites into the inside of the pipe bundle 1a, the water pipe 1 must be pulled strongly to pull out the water pipe 1, and as a result, the rotating device 5 The load applied to the shaft member 6 and the packing box 3 increases.
[0076]
Therefore, when the tube bundle 1a is bound by the binding wire, the whole portion is not bound at once, but as shown in FIG. 44, as shown in FIG. 44, the inner part 1e of the tube bundle 1a is bound by the binding wires 12a, 12a. Then, as a second step, binding is performed in two steps or in three steps such as three steps such as binding with the binding wires 12b, 12b to the outer part 1f including the entire part already bound. Is preferred. However, the binding after the second stage may be bound to the outer part including a part of the already bound part, and may not be wrapped with the already bound part. The outer portions may be tied. In other words, the tube bundle 1a is bound by the binding wires 12a and 12b as openable bundling means. Even if the bundle of the outer portion of the tube bundle 1a is released, the bundle of the inner portion is maintained. In addition, it is preferable to form a multi-stage unity. By the way, the binding means is not limited to the binding wires 12a and 12b, but is, for example, a binding tool having a plurality of C-shaped clip portions which are fitted to the water pipe 1 from the side surface 1b side of the tube bundle 1a. There may be.
[0077]
As described above, the binding of the tube bundle 1a is sequentially opened from the outside in accordance with the amount of the drawn water pipe 1 (in the illustrated embodiment, the binding wires 12b, 12b are cut first, and then the binding is performed. By cutting the lines 12a, 12a), the amount of dislocation of the tube bundle 1a can be reduced. Thus, the portion of the water pipe 1 that is going to be separated from the tube bundle 1a is less likely to bite into the inside of the tube bundle 1a, and the load on the rotating device 5, the shaft member 6, and the packing box 3 is reduced. In addition, the rotation device 5 can rotate integrally with the tube bundle 1a until the binding of the inner portion of the tube bundle 1a is released, so that the water pipe 1 rubs against the rotation device 5 and is damaged. Can be prevented, and the water pipe 1 can be smoothly pulled out. The tube bundle 1a can be bound together with the rotating device 5 depending on the configuration of the rotating device 5.
[0078]
Further, the packing device 10 or the packing device body 11 may be used vertically (with the side wall 3f of the packing box 3 being vertical) when the water pipe 1 is pulled out. Of course, it may be used with the side wall 3f of the packing box 3 lying down).
[0079]
By the way, the structure of the rotating device 5, the packing device 10, and the packing device body 11 is such that the rotating device of the water pipe 1, the packing device of the water tube 1, and the water pipe 1 support the tube bundle 1a of the water tube 1. In addition, the present invention is applied to a rotating device for piping material, a packaging device for piping material, and a packaging device body for piping material, including the water pipe 1 and widely supporting a bundle of piping materials. You may. That is, the rotating device, the packing device, and the packing device body support the pipe material and can pull the pipe material out of the packing box in order from the end. Furthermore, this structure is not limited to the piping material, but includes a wiring material (cable) to support a winding bundle of the wiring and piping material wound in a circular shape, The present invention may be applied to a wiring and piping material packing device and a wiring and piping material packing device body. That is, the rotating device, the packing device, and the packing device body support the wiring and piping materials, and can draw the wiring and piping materials out of the packing box in order from their ends.
[0080]
【The invention's effect】
As is clear from the above, according to the rotating device for the water pipe, the packing apparatus for the water pipe, and the packing apparatus body for the water pipe according to the present invention, the following effects are obtained.
[0081]
According to the water pipe rotating device described in claim 1, 2, 4, and 20, the water pipe packing apparatus described in claim 21, and the water pipe packing apparatus body described in claim 22 The upright portion that directly or indirectly supports the inner circumference of the tube bundle is formed so that the plate member is cut or raised, thereby maintaining the integrity of the divided body and the rotating device. Can secure sufficient strength.
[0082]
According to the water pipe rotating device described in claim 3, in addition to the effect of claim 2, in addition to the effect of claim 2, the upright portion abuts against the inner periphery of the tube bundle, and the edge portion formed of a corner or an end. Therefore, the upright portion comes into contact with a part of the inner periphery of the tube bundle, and the upright portion can be easily inserted into the central space of the tube bundle.
[0083]
According to the water pipe rotating device described in claim 5, in addition to the effect of any one of claims 1 to 4, the side plate portion that may rub against the inner wall surface of the packing box has Since the rubbing area is reduced, the rotating device can be smoothly rotated.
[0084]
According to the rotating device for a water pipe described in claim 6, in addition to the effect of any one of claims 1 to 4, the divided body is formed by a plurality of corrugated cardboard plates overlapping each other. Therefore, the strength of the divided body can be stabilized.
[0085]
According to the rotating device for a water pipe described in claim 7, in addition to the effect of claim 6, the rubbing area of the side plate portion that may rub against the inner wall surface of the packing box is reduced. This turning device can be turned smoothly.
[0086]
According to the rotating device for a water pipe described in claim 8, in addition to the effect of claim 5 or 7, the side plate portion is cut or raised to form an upright portion or cut out by folding. The area rubbed against the inner wall surface of the packing box can be reduced.
[0087]
According to the water pipe rotating device according to the ninth aspect, in addition to the effect of the fifth or seventh aspect, the side plate portion is packed by the cut-and-raised or bent hole for forming the upright portion. The area rubbed against the inner wall surface of the box can be reduced.
[0088]
According to the water pipe rotating device described in claim 10, in addition to the effect of claim 9, in addition to the effect of claim 9, the pipe bundle is configured by providing the sliding contact prevention portion over the entire circumference of the side plate portion. It is possible to prevent the water pipe from entering between the sliding contact preventing portion and the inner wall surface of the packing box.
[0089]
According to the rotating device for a water pipe described in claim 11, in addition to the effect of any one of claims 1 to 10, since the upright portion is provided in two divided bodies, The integrity of each divided body is maintained, and the strength of the rotating device can be more sufficiently ensured.
[0090]
According to the water pipe rotation device of the twelfth aspect, in addition to the effect of the eleventh aspect, the strength of the rotation device is enhanced by the upright portions reinforcing each other upright portions. Can be further and sufficiently ensured.
[0091]
According to the water pipe rotating device described in claim 13, in addition to the effect of claim 12, in addition to the effect of claim 12, the upright portions fitted to each other form a closed frame so as to surround the rotation axis. Thus, the strength of the rotating device can be further and sufficiently secured.
[0092]
According to the rotating device for a water pipe described in claim 14, in addition to the effect of claim 13, in addition to the effect of claim 13, the frame body that closes so as to surround the rotation axis has a pair of facing plates that serve as standing portions. By being fitted in a cross-girder shape, the strength of the rotating device can be reliably maintained.
[0093]
According to the rotating device for a water pipe described in claim 15, in addition to the effect of any one of claims 12 to 14, the upright portion is engaged by the fitting at the slit portion. The two divided bodies can be securely assembled.
[0094]
According to the water pipe rotation device of the sixteenth aspect, in addition to the effect of the eleventh aspect, the strength of the rotation device is reduced by fitting the respective upright portions and the side plate portions. Still further, it is possible to sufficiently secure.
[0095]
Further, according to the water pipe rotating device according to the seventeenth aspect, in addition to the effect of the eleventh aspect, the strength of the rotating device is further increased by joining the upright portions by the fixing means. , Can be sufficiently secured.
[0096]
According to the turning device for a water pipe described in claim 18, in addition to the effect of claim 11, each of the upright portions and the side plate portions are joined by a fixing means, so that the turning device is provided. Can be further and sufficiently secured.
[0097]
According to the rotating device for a water pipe described in claim 19, in addition to the effect of any one of claims 11 to 18, the two divided bodies have the same shape and the same dimensions. As a result, parts can be shared, and the cost of the rotating device can be reduced.
[Brief description of the drawings]
FIG. 1 is a perspective view of an embodiment of an apparatus for rotating a water pipe, a packing apparatus for a water pipe, and a packing apparatus body for a water pipe according to the present invention when a lid is opened.
FIG. 2 is a sectional view taken along line AA in FIG.
FIG. 3 is a perspective view when the lid is closed.
FIG. 4 is a sectional view taken along line BB in FIG. 3;
FIG. 5 is a perspective view of the rotation device.
FIG. 6 is an exploded perspective view of the rotation device.
FIG. 7 is an exploded view of the divided body in the rotating device.
FIG. 8 is a perspective view showing a state in which the shaft member is separated into a first divided body and a second divided body.
FIG. 9 is an exploded perspective view of the shaft member.
FIG. 10 is a perspective view showing a first modification of the rotation device.
FIG. 11 is an exploded perspective view showing a first modification of the rotating device.
FIG. 12 is a perspective view showing a second modification of the rotation device.
FIG. 13 is an exploded perspective view showing a second modification of the rotation device.
FIG. 14 is a perspective view showing a third modification of the rotation device.
FIG. 15 is an exploded perspective view showing a third modification of the rotation device.
FIG. 16 is a perspective view showing a fourth modification of the rotation device.
FIG. 17 is an exploded perspective view showing a fourth modification of the rotation device.
FIG. 18 is a perspective view showing a fifth modification of the rotation device.
FIG. 19 is an exploded perspective view showing a fifth modification of the rotation device.
FIG. 20 is a perspective view showing a sixth modification of the rotation device.
FIG. 21 is an exploded perspective view showing a sixth modification of the rotation device.
FIG. 22 is a perspective view showing a seventh modification of the rotation device.
FIG. 23 is an exploded perspective view showing a seventh modification of the rotation device.
FIG. 24 is a perspective view showing an eighth modification of the rotation device.
FIG. 25 is an exploded perspective view showing an eighth modification of the rotation device.
FIG. 26 is a perspective view showing a ninth modification example of the rotation device.
FIG. 27 is an exploded perspective view showing a ninth modification of the rotation device.
FIG. 28 is a perspective view showing a tenth modification of the rotation device.
FIG. 29 is an exploded perspective view showing a tenth modified example of the rotating device.
FIG. 30 is a perspective view showing an eleventh modification of the rotation device.
FIG. 31 is an exploded perspective view showing an eleventh modification of the rotation device.
FIG. 32 is a perspective view showing a twelfth modification example of the rotation device.
FIG. 33 is an exploded perspective view showing a twelfth modification of the rotation device.
FIG. 34 is a perspective view showing a thirteenth modification of the rotation device.
FIG. 35 is an exploded perspective view showing a thirteenth modification of the rotation device.
FIG. 36 is a perspective view showing a fourteenth modification of the rotation device.
FIG. 37 is an exploded perspective view showing a fourteenth modification of the rotation device.
FIG. 38 is a perspective view showing a fifteenth modification of the rotation device.
FIG. 39 is an exploded perspective view showing a fifteenth modification of the rotation device.
FIG. 40 is a perspective view showing a sixteenth modification of the rotation device.
FIG. 41 is an exploded perspective view showing a sixteenth modification of the rotation device.
FIG. 42 is a perspective view showing a seventeenth modification of the rotation device.
FIG. 43 is an exploded perspective view showing a seventeenth modified example of the rotation device.
FIG. 44 is a schematic view similarly showing a method of binding tube bundles.
FIG. 45 is a cross-sectional view showing a conventional cable storage device.
[Explanation of symbols]
1 water pipe 1a pipe bundle
1b Side 1d Central space
3 Packing box 5 Rotating device
5a Dividing body 5b Sliding prevention part
5c Side plate part 5d Standing part
5e slit 5j support member
6 Shaft member 10 Packing device
11 Packing device
E Edge part J Rotation axis
P Facing plate T Plate member
U hole V notch
Y frame

Claims (22)

Along with a bundle of water pipes made of a synthetic resin material such as crosslinked polyethylene wound in a circular shape, the water pipes are housed in a packing box, and the water pipes are drawn out of the packing box in order from the end thereof, A corrugated cardboard rotating device that supports a tube bundle and is supported rotatably in the circumferential direction of the tube bundle together with the tube bundle,
With two splits,
Each of the divided bodies includes a side plate portion having a sliding contact prevention portion that prevents each side surface of the tube bundle from slidingly contacting the inner wall surface of the packing box,
At least one of the two divided bodies directly or indirectly supports the inner periphery of the tube bundle, and has an upright portion that rises from the side plate portion,
The upright portion is formed such that a plate member forming the side plate portion is cut or raised or folded up, and the water pipe rotation device is characterized in that it is formed. The rotating device according to claim 1, wherein the upright portion directly supports an inner periphery of the tube bundle. 3. The communication device according to claim 2, wherein the upright portion has an edge portion formed of a corner or an end that abuts on the inner periphery of the tube bundle to support the inner periphery of the tube bundle. 4. Water tube rotation device. The rotating device according to claim 1, wherein the rotating device includes a support member supported by the upright portion and supporting an inner circumference of the tube bundle. The said board | plate member consists of one corrugated-cardboard board, The said upright part is formed so that the one corrugated-cardboard board may be cut or raised, and may be folded. The rotation device for a water pipe according to any one of claims 4 to 4. The plate member is formed of a plurality of corrugated cardboard plates overlapping each other, and the upright portion is formed such that at least one of the plurality of corrugated cardboard plates is cut or raised or bent. The rotating device for a water pipe according to any one of claims 1 to 4, characterized in that: 7. The water pipe according to claim 6, wherein at least the outermost corrugated cardboard plate of the plurality of corrugated cardboard plates is cut or bent to form the upright portion. Rotating device. The rotating device for a water pipe according to claim 5, wherein a cutout is formed on the side plate portion side of the plate member by cutting or raising the corrugated cardboard plate. . The rotating device for a water pipe according to claim 5, wherein a hole is formed in the side plate portion side of the plate member by cutting or bending the corrugated cardboard plate. The rotating device for a water pipe according to claim 9, wherein the sliding contact preventing portion of the plate member having the hole is provided over the entire circumference of the side plate portion. The rotating device for a water pipe according to claim 1, wherein the upright portion is provided on each of the two divided bodies. In the two divided bodies, the upright portion is inserted into the central space of the tube bundle from each side of the side surface of the tube bundle, and the upright portions are fitted together so as to reinforce each other upright portions. The rotating device for a water pipe according to claim 11, characterized in that it is assembled with each other and attached to the pipe bundle. 13. The frame according to claim 12, wherein the upright portions fitted to each other form a closed frame so as to surround a rotation axis of the rotation device in a cross section orthogonal to the insertion direction of the upright portions. Of the water pipe. The upright portion is composed of a pair of facing plates projecting from the side plate portion facing each other,
14. The water pipe according to claim 13, wherein the frame body is formed by fitting the pair of facing plates in a grid pattern so as to reinforce another pair of facing plates. 15. Motion device. Each of the upright portions of the two divided bodies is provided with a slit cut at a position corresponding to each other from the tip side of the upright portion,
The rotating device for a water pipe according to any one of claims 12 to 14, wherein the upright portions engage with each other by fitting at the two slit portions. In the two divided bodies, the upright portion is inserted into the central space of the tube bundle from each side of the side surface of the tube bundle, and the upright portion of one divided body and the side plate portion of the other divided body are fitted together. The side plate portion of one of the divided bodies and the upright portion of the other divided body are fitted to each other to be assembled with each other and attached to the tube bundle. Rotating device for water pipe. The two divided bodies are assembled into the tube bundle by inserting the upright portions into the central space of the tube bundle from each side of the side surface of the tube bundle and joining the upright portions to each other by fixing means. The device according to claim 11, characterized in that it is mounted. In the two divided bodies, the upright portion is inserted into the central space of the tube bundle from each side of the side surface of the tube bundle, and the upright portion of one divided body and the side plate portion of the other divided body are in the first position. And the side plate portion of one of the divided bodies and the upright portion of the other divided body are joined by the second fixing means, so that they are assembled to each other and attached to the tube bundle. The rotating device for a water pipe according to claim 11, characterized in that: The water pipe rotation device according to any one of claims 11 to 18, wherein the two divided bodies have the same shape and the same dimensions. The two divided bodies are assembled via a shaft member for rotating the rotation device and attached to the tube bundle, The two divided bodies according to any one of claims 1 to 11, Rotating device for water pipe. 21. A packing device for a water pipe, comprising: the rotating device according to claim 1; and the packing box. A packing device body for a water pipe, comprising the packing device according to claim 21 and the water pipe.

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