The present invention relates to a paper-made reel used for winding a flexible linear body such as a tube, a hose, or an electric wire.
A paper-made reel used for winding a flexible linear body such as a tube, a hose, or an electric wire is publicly known as disclosed in, for example, PTLs 1 to 4.
This reel is formed of paper such as corrugated cardboard or thick paper, has a cylindrical winding drum for winding the flexible linear body, and flange plates attached to both ends in the axial direction of the winding drum, and has the advantage that disposal after use is easy. However, since the strength of the winding drum and a core is weak, various contrivances have been made to enhance the strength.
For example, in the reel disclosed in PTL 1, the strength of the reel is increased by forming the winding drum in an inner and outer double structure. In the reel disclosed in PTL 2, a plurality of annular reinforcing plates are fitted into the inner central position of the winding drum, and the winding drum is supported from the inside by the reinforcing plates.
In the reel disclosed in PTL 3, a support member having a square hollow shape is formed by folding corrugated cardboard, this support member is inserted into a cylindrical winding drum and is caused to support from the inside, and the strength of the winding drum is thereby enhanced.
The winding drum of the reel disclosed in PTL 4 is formed by fitting a plurality of annular reinforcing partition plates on the outer periphery of a cylindrical shaft portion core at a regular interval, and wrapping a cylindrical reinforcing shaft core around the outer peripheries of the reinforcing partition plates.
However, in the reels disclosed in PTLs 1 to 3, the strength of the cylindrical winding drum has not been improved to such an extent that it can sufficiently withstand the large tightening force acting through the linear body at the time of winding or unreeling of the linear body. In addition, they have a problem in that it is structurally difficult to uniformly increase the strength of the winding drum over the entire axial direction. Room for further improvement is left.
On the other hand, in the case of the reel disclosed in PTL 4, the strength of the winding drum is considered to be high compared to the reels disclosed in PTLs 1 to 3. However, since the winding drum is formed by combining many separately formed components including the shaft portion core, there is a disadvantage that the structure is complicated and the assembly work is complicated.
PTL 1: Japanese Unexamined Patent Application Publication No. 2003-155167
PTL 2: Japanese Unexamined Patent Application Publication No. 2014-185032
PTL 3: Japanese Unexamined Utility Model Registration Application Publication No. 5-61178
PTL 4: Japanese Unexamined Patent Application Publication No. 2014-133653
A technical object of the present invention is to provide a paper-made reel which has a greater strength of the winding drum and the shaft portion core compared with the conventional reel, is simple in construction and easy to assemble.
To solve the above problem, a paper-made reel of the present invention includes an impeller-like winding drum made of paper for winding a flexible linear body; and flange plates made of paper attached to one end and the other end in the direction of the axis of the winding drum. The winding drum has a hollow shaft portion core, and a plurality of blade portions extending in radial directions from the outer periphery of the shaft portion core. The shaft portion core and the blade portions are integrally formed by folding a sheet cut into such a shape that shaft pieces forming the shaft portion core and pairs of blade pieces forming the blade portions are alternately continued. The shaft portion core is formed in a hollow shape by disposing the shaft pieces around the axis with adjacent shaft pieces in contact with each other. The blade portions are formed by double-folding the pairs of blade portions, and extend along the axis and over the entire length of the shaft portion core. Locking pieces for connection are formed at both ends in the axial direction of the winding drum, and the winding drum and the flange plates are connected by locking the locking pieces to the flange plates.
In the present invention, it is preferable that the width of the shaft pieces be less than the height of the blade portions extending from the shaft portion core, and the diameter of an imaginary circumscribed circle circumscribing the shaft portion core be also less than the height of the blade portions.
In the present invention, the pair of blade pieces forming each blade portion are held in a state of being overlapped with each other by locking a tongue piece formed in one of the blade pieces to the other blade piece.
In this case, it is preferable that the tongue pieces be formed at positions that face each other of the pair of blade pieces, the tongue pieces of the pair of blade pieces be folded toward either one of the blade pieces while being overlapped with each other, the tongue piece of one of the blade pieces be thereby locked to the other blade piece, and the pair of blade pieces be held in a state of being overlapped with each other, and it is more preferable that the tongue pieces be formed at a plurality of positions of each blade portion.
In the present invention, the locking pieces are formed at both side end portions of the pair of blade pieces and have locking portions at their distal ends. In the flange plate, insertion holes into which the proximal end portions of the locking pieces are inserted and locking holes into which the locking portions are inserted are alternately formed around the axis. The locking pieces of the blade pieces are inserted into the insertion holes of the flange plate from the inside to the outside of the flange plate and are then folded in the directions of the locking holes, the locking portions at the distal ends of the locking pieces are inserted into the locking holes from the outside to the inside of the flange plate, and the winding drum and the flange plate are thereby connected to each other.
In this case, it is preferable that the number of the insertion holes of the flange plate and the number of the locking hole of the flange plate be equal to the number of the blade portions, and be equal to each other, the proximal end portions of the two locking pieces formed in the pair of blade pieces in each blade portion be inserted together into one of the insertion holes while being overlapped with each other, the locking portions at the distal ends of the two locking pieces be separately inserted into the locking holes located on both sides of the insertion hole, and be inserted together with the locking portion of the locking piece formed in one of the pair of blade pieces in the adjacent blade portion.
In the present invention, a cylindrical body made of paper may be attached to the outer periphery of the winding drum so as to surround the distal ends of the plurality of blade portions.
According to the present invention, the winding drum of the reel has an impeller-like shape and has a plurality of blade portions extending in radial directions from a central hollow shaft portion core and the linear body is wound so as to surround the blade portions. Therefore, the strength against the tightening force of the linear body is significantly high compared to a conventional reel in which the winding drum is cylindrical, and there is no possibility of causing deformation. Since the shaft portion core and the blade portions are integrally formed by bending one sheet in which shaft pieces forming the shaft portion core and pairs of blade pieces forming the blade portions are alternately continued, the structure is simple and assembly is easy compared to the case where a reel is formed by combining a plurality of separately formed components.
As can be seen in
The shaft portion core 4 and the blade portions 5 are integrally formed by folding a sheet 8 of corrugated cardboard cut into the shape shown in
The sheet 8 is such that a plurality of elongate rectangular shaft pieces 4a forming a part of the outer periphery of the shaft portion core 4, and a plurality of pairs of rectangular blade pieces 5a, 5b forming the blade portions 5, are alternately connected via folding lines 10a, 10b, and 10c. When one of the pair of blade pieces 5a and 5b is a first blade piece 5a and the other is a second blade piece 5b, such a form that the shaft piece 4a and the first blade piece 5a are continuous via the folding line 10a, the first blade piece 5a and the second blade piece 5b are continuous via the folding line 10b, and the second blade piece 5b and the shaft piece 4a are continuous via the folding line 10c, is repeated a plurality of times.
A pair of blade pieces 5a, 5b that form one of the blade portions 5 are separated and separately connected to one end (first end) 8a and the other end (second end) 8b in the longitudinal direction of the sheet 8. That is, the second blade piece 5b is connected to a first end 8a of the sheet 8, and the first blade piece 5a is connected to a second end 8b of the sheet 8.
The width W5 of the blade pieces 5a, 5b is greater than the width W4 of the shaft pieces 4a and, in the illustrated example, is about three times the width W4 of the shaft pieces 4a.
Locking pieces 12a, 12b are connected to both ends in the longitudinal direction (the direction of the axis L) of the pair of blade pieces 5a and 5b via folding lines 11a and 11b. Tongue pieces 15a, 15b widening toward the distal ends thereof and surrounded by substantially C-shaped cuts 16 are formed at positions of the middle parts of the blade pieces 5a, 5b that face each other when folded. Although the tongue pieces 15a, 15b are provided at a plurality of positions (two positions in the figure) in a direction along the axis L, the formation positions thereof are arbitrary, and may be one position.
The locking pieces 12a, 12b are formed in such a shape that the lateral width gradually decreases away from the blade pieces 5a, 5b. The locking portions 13a, 13b are obliquely connected to the distal ends thereof via folding lines 14a, 14b that are inclined with respect to the folding lines 11a, 11b. The direction in which the locking portions 13a, 13b are inclined is a direction in which locking portions 13a, 13b of a pair of blade pieces 5a, 5b are separated from each other. The locking portions 13a, 13b are parts of the locking pieces 12a, 12b.
The pair of blade pieces 5a, 5b including the tongue pieces 15a, 15b and the locking pieces 12a, 12b have the same shape. Therefore, when the pair of blade piece 5a, 5b are folded in two at the position of the folding line 10b, the whole overlaps perfectly.
On the other hand, the flange plates 3 are circular as shown in
The reel 1A is formed by the sheet 8 and the flange plates 3, 3 as follows.
That is, first, as shown in
At this time, since the tongue pieces 15a, 15b widen toward the distal ends thereof, and the cuts 16 have the same shape and function as locking holes, when the two tongue pieces 15a, 15b are folded toward the second blade piece 5b while being overlapped with each other, the tongue piece 15a of the first blade piece 5a fits in the cut 16 of the second blade piece 5b and is locked to the cut 16, and the pair of blade pieces 5a, 5b are thereby held in a state of being overlapped with each other. If the two tongue pieces 15a, 15b are folded on the outer surface side of one of the blade pieces 5a or 5b, the locking effect to the cut 16 is further improved.
The above-described work is performed for all the blade pieces 5a, 5b and the shaft pieces 4a. Thereafter, for the first blade piece 5a and the second blade piece 5b respectively connected to one end 8a and the other end 8b of the sheet 8, both blade pieces 5a, 5b are overlapped with each other, and the tongue pieces 15a, 15b of both blade pieces 5a, 5b are folded toward either one of the blade pieces 5a or 5b while being overlapped with each other and locked in the cut 16. The pair of blade pieces 5a, 5b are thereby held in a state of being overlapped with each other.
The impeller-like winding drum 2 shown in
In the winding drum 2, the shaft portion core 4 is formed in a regular hexagonal shape by disposing six shaft pieces 4a around the axis L, with adjacent shaft pieces 4a in contact with each other, and the central hole 6 also have a regular hexagonal shape. It is also possible to form the shaft portion core 4 in a cylindrical shape by curving the shaft pieces 4a in an outwardly convex arc shape. In this case, the central hole 6 is also a circular hole.
Since the width W5 of the blade pieces 5a, 5b is greater than the width W4 of the shaft pieces 4a (see
Since the shaft portion core 4 is formed in this way, its strength is very high owing to the interaction of the plurality of shaft pieces 4a. That is, even if winding pressure acts on the shaft portion core 4 through the blade portions 5 when the linear body is wound around the winding drum 2, adjacent shaft pieces 4a support each other, and the shaft portion core 4 is thereby not recessed toward the center of the hollow portion at the positions of the blade portions 5. As a result, deformation and crush of the shaft portion core 4 are surely prevented.
Next, the flange plates 3 are sequentially attached to one end and the other end in the direction of the axis L of the winding drum 2. The attachment is performed as shown in
First, when attaching the flange plate 3 to one end of the winding drum 2, as shown in
At this time, as is clear from
Next, as shown in
The reel 1A assembled in this manner is used, for example, for winding a manufactured linear body when manufacturing a flexible linear body such as a tube or a hose made of synthetic resin or rubber used as an air pipe or the like. The linear body is wound so as to surround the plurality of blade portions 5. The wound linear body is transported to a factory or the like and sequentially unreeled from the reel and used. When all of the linear body is used, the reel 1A is discarded.
When winding or unreeling the linear body, a supporting rod is inserted into the central holes 6, 7 of the reel 1A, and the reel 1A can be rotatably supported by the supporting rod.
The thus configured reel 1A has such a configuration that the winding drum 2 has an impeller-like shape and has a plurality of blade portions 5 extending in radial directions from a central shaft portion core 4 and the linear body is wound so as to surround the blade portions 5. Therefore, the strength against the winding pressure of the linear body is significantly high compared to a conventional reel in which the winding drum is cylindrical, and there is no possibility of causing deformation, breakage, or the like.
In particular, since the blade portions 5 are formed by double-folding pairs of plate-like blade pieces 5a, 5b and are held in a double-folded state by tongue pieces 15a, 15b, its rigidity is very high. Moreover, since locking pieces 12a, 12b are inserted together into one insertion hole 20 of the flange plate 3 in a state of being overlapped with each other, and locking portions 13a, 13b at the distal ends of the locking pieces 12a, 12b are separately inserted into two locking holes 21 on both sides of the insertion hole 20 and locked, the folded blade pieces 5a, 5b are reliably held in a state of being in contact with each other, which leads to further enhancement of the support force.
Furthermore, since the shaft portion core 4 is formed by disposing a plurality of shaft pieces 4a in a state of being in contact with each other such that they surround the axis L, high strength is exerted against the winding pressure acting through the blade portions 5 by the interaction of adjacent shaft pieces 4a. Therefore, as described above, even when a support rod is inserted into the center hole 6 of the shaft portion core 4 during winding and unreeling of the linear body, the shaft portion core 4 does not break.
Although, in the illustrated example, six blade portions 5 of the winding drum 2 are formed, the number of the blade portions 5 may be a number other than six as long as it is three or more.
Although, in the illustrated example, tongue pieces 15a, 15b are formed at positions that face each other of the pair of blade pieces 5a, 5b forming each blade portion 5, the pair of blade pieces may be locked to each other by forming a tongue piece in either one of the blade pieces, forming a locking hole in the other blade piece, and inserting and locking the tongue piece into the locking hole. Alternatively, a tongue piece and a locking hole may be formed at separate positions of either one of the blade pieces, a locking hole and a tongue piece may be formed at positions corresponding to the tongue piece and the locking hole of the other blade piece, and the tongue pieces and the locking holes of both blade pieces may be locked to each other.
If it is necessary to increase the strength of the left and right flange plates 3, a method such as using corrugated cardboard having higher strength than the corrugated cardboard forming the winding chum 2, or using a plurality of (for example two) flange plates 3 having the same configuration in a stacked manner can be used. When a plurality of flange plates are used in a stacked manner, the stacked flange plates may be fixed to each other with an adhesive or the like.
The cylindrical body 25 is formed by rounding a flat paperboard having a thickness of about 1 mm into a cylindrical shape, and the length of the cylindrical body 25 in the direction of the axis L is about the same as the length of the blade portions 5 in the winding drum 2 in the direction of the axis L. The attachment of the cylindrical body 25 to the reel 1A is performed by assembling the winding drum 2 and attaching one of the flange plates 3 to one end thereof, and then fitting the cylindrical body 25 on the outer periphery of the blade portions 5 from the other end of the winding drum 2. After that, the other flange plate 3 is attached to the other end of the winding drum 2.
However, the cylindrical body 25 may be formed by wrapping a flat paperboard around the outer periphery of the winding drum 2 after assembling the reel 1A shown in
The inside diameter of the cylindrical body 25 may be about the same as the diameter of an imaginary circle in contact with the distal ends of the plurality of blade portions 5, but may be slightly greater than the diameter of the imaginary circle. In the former case, the cylindrical body 25 is attached to the winding drum 2 in a substantially tight manner. In the latter case, the cylindrical body 25 is attached to the winding drum 2 with a slight clearance therebetween.
By attaching such a cylindrical body 25 to the winding drum 2, when winding a flexible linear body such as a tube made of synthetic resin, the linear body is prevented from being pressed directly against the distal ends of the blade portions 5. As a result, disadvantages such as crush and deformation of the linear body are avoided.
Since the cylindrical body 25 itself does not form the winding drum 2 by itself, the cylindrical body 25 does not necessarily have to have a rigidity high enough to withstand the winding pressure of the linear body when winding the linear body on the cylindrical body 25, and may have such a rigidity that when the winding pressure of the linear body acts, the cylindrical body 25 is deformed inward and is pressed against the distal ends of the blade portions 5. The cylindrical body 25 may be formed of corrugated cardboard.
Number | Date | Country | Kind |
---|---|---|---|
2015-122923 | Jun 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2016/067012 | 6/8/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/204032 | 12/22/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
1205906 | Kuehn | Nov 1916 | A |
2112209 | Goldsmith | Mar 1938 | A |
2380641 | Freiler | Jul 1945 | A |
2799458 | Nye | Jul 1957 | A |
2852206 | Bolding | Sep 1958 | A |
3817475 | Goldstein | Jun 1974 | A |
3876073 | Herbetko | Apr 1975 | A |
3958775 | Liga | May 1976 | A |
5513819 | Orange | May 1996 | A |
5791590 | Zuk | Aug 1998 | A |
6575398 | Nakamura | Jun 2003 | B2 |
7575189 | Shirazi | Aug 2009 | B2 |
8480024 | Ries | Jul 2013 | B2 |
8882017 | Woods | Nov 2014 | B2 |
9556000 | Carman | Jan 2017 | B2 |
Number | Date | Country |
---|---|---|
63-21672 | Feb 1988 | JP |
2-4864 | Jan 1990 | JP |
5-61178 | Aug 1993 | JP |
11-157752 | Jun 1999 | JP |
2003-155167 | May 2003 | JP |
2006-213439 | Aug 2006 | JP |
2014-185032 | Oct 2014 | JP |
Entry |
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International Search Report dated Aug. 9, 2016 in PCT/JP2016/067012 filed Jun. 8, 2016. |
Number | Date | Country | |
---|---|---|---|
20180155153 A1 | Jun 2018 | US |