1. Field of the Invention
The present invention relates to a production apparatus and a production method for producing a bent portion of a multi-channel tube, which is provided with partitions therein so that plural flows may pass therethrough.
2. Description of the Related Art
For conducting fluids, various types of pipes are utilized in various machines. Japanese Utility Model Patent Examined Publication No. 64-006465 discloses an art for combining plural pipes into a multi-channel tube.
Such pipes utilized in machines are often bent in certain necessities. In a case of single-hole pipes, bending is not a troublesome work. A mandrel is inserted into a pipe so as to prevent unfavorable deformation and then smooth bending can be achieved. However, in a case of the multi-channel tubes, bending may be often troublesome since the mandrel is not fully effective to prevent unfavorable deformation. For example, partitions inside of the multi-channel tube may unfavorably deform and, in certain cases depending on a bending direction, even an outer wall thereof may deform in a denting or rumpling shape.
The present invention is intended for providing an apparatus and a method for bending a multi-channel tube without unfavorable deformation.
According to a first aspect of the present invention, a production apparatus for bending a multi-channel tube having an outer tube and a partition partitioning an interior of the outer tube into two or more channel holes is provided with a bending mold configured to bend the multi-channel tube in a bend radius; a pressure mold configured to press the multi-channel tube toward the bending mold; a chuck portion configured to hold and draw the multi-channel tube along the bending mold; and mandrels respectively inserted into the channel holes, each of the mandrels including; a mandrel body configured to support inner surfaces of each channel hole; a support device rotatably and movably supporting the mandrel body.
Preferably, in the production apparatus, each of the mandrel bodies is provided with a proximal portion having a cross sectional shape fitting with a cross sectional shape of the channel hole and a curved surface portion and a flat surface portion, a relief bevel continuing with a distal end of the curved surface portion and being configured to avoid interference with the inner surfaces of the channel holes and a buckling prevention surface continuing with a distal end of the flat surface portion and being configured to contact the partition so as to prevent buckling deformation of the partition.
More preferably, in the production apparatus, the support device is provided with a connection rod for supporting the proximal portion and a fixation portion rotatably supporting the connection rod.
Further preferably, in the production apparatus, the flat surface portion is provided with relief flanks formed by being diagonally and obliquely cut off from both sides of a proximal end of the flat surface portion and configured to avoid interference with the twisted partition.
Still preferably, in the production apparatus, the multi-channel tube is processed to be twisted in advance of bending.
According to a second aspect of the present invention, a production method for bending a multi-channel tube having an outer tube and a partition partitioning an interior of the outer tube into two or more channel holes is provided with inserting mandrel bodies of mandrels respectively into the channel holes of the multi-channel tube; pressing the multi-channel tube toward a bending mold so as to bend the multi-channel tube in a predetermined bend radius; and supporting inner surfaces of the channel holes in the course of bending by moving the mandrel bodies of the mandrels in the channel holes.
The present invention will be described by reference to certain embodiments and accompanying drawings. In the following description, directions are defined as follows: distal as left of
A first embodiment of the present invention will be described hereinafter with reference to
A production apparatus 4 according to the present embodiment of the present invention is preferably applied to bending a multi-channel tube. Such multi-channel tube 1 is provided with a partition 2 integrally formed therewith so as to partition the interior thereof into two channel holes 3. The production apparatus 4 is provided with a bending mold 6, a pressure mold 7, a chuck portion 8 and mandrels 10 as shown in
The bending mold 6 is formed in a low-profile cylinder shape having a mold surface 13 as shown in
The pressure mold 7 is formed in a rectangular parallelepiped shape. The pressure mold 7 is disposed along a feeding way, where the multi-channel tube 1 is fed toward the bending mold 6 and ranges from a start point 14 of bending to a proximal part thereof. A side of the pressure mold 7, likewise with the bending mold 6, has a mold surface 15 formed as a semi-round groove so as to fit the outer surface of the multi-channel tube 1. A depth of a deepest point of the mold surface 15 is likewise substantially a half of the diameter of the multi-channel tube 1. The combination of the mold surfaces 13 and 15 hold the multi-channel tube 1 and the pressure mold 7 presses the multi-channel tube 1 toward the bending mold 6.
The chuck portion 8 is configured to hold the multi-channel tube 1 at an end part 16 thereof, where bending ends, and swing around the center O. In the course of swinging, the chuck portion 8 keeps pressing the multi-channel tube 1 toward and along the mold surface 13 of the bending mold 6 so that the multi-channel tube 1 is bent to form the bent portion 5 with a bend radius R which is determined by a radius of the bending mold 6.
Each mandrel 10 is provided with a mandrel body 11 and a support device 12 as shown in
The mandrel body 11 is provided with a proximal portion 19 shaped in a substantially half-columnar shape, across section of which is semicircular and substantially identical to a corresponding cross section of the channel hole 3. The proximal portion 19 is provided with a curved surface portion 20, which contacts the inner surface 9 of the channel hole 3, and a flat surface portion 21, which contacts the partition 2 of the multi-channel tube 1. A distal end of the mandrel body 11 is provided with a relief bevel 20a, which is a round surface continuing with the curved surface portion 20, and a buckling prevention surface 21a, which is a round surface continuing with the flat surface portion 21. A curvature radius of the relief bevel 20a is smaller than a radius R1 of curvature of the inner surface 9 of the channel hole 3 just bending at a distal side with respect to the start point 14 of bending (see
The support device 12 is provided with a pair of connection rods 22 respectively supporting the proximal portions 19, a fixation portion 23 rotatably supporting the connection rods 22 as shown in
The fixed block 25 is formed in a box-like shape and has a through hole 28, to which the pivotal projection 26 is inserted, at a distal end thereof and a fixation projection 29 at a proximal end thereof. The fixation projection 29 is applied to fixation of the fixed block with an apparatus (not shown).
A production method for producing a bent portion of the multi-channel tube 1 will be described hereinafter.
First, as shown in
Next, as shown in
Then, as shown in
Finally, as shown in
As being understood from the above description, the mandrels 10 are utilized to bend the multi-channel tube 1 without partial deformation.
Bending of the multi-channel tube 1 may be performed in various states in view of a direction thereof.
According to the aforementioned description, the depth of the deepest point of the bending mold 6 is substantially a half of a diameter of the multi-channel tube 1 as shown in
A second embodiment of the present invention will be described hereinafter with reference to
A multi-channel tube 31 is provided with a partition 2 integrally formed therewith so as to partition the interior thereof into two channel holes 3. The multi-channel tube 31 is bent to form bent portions 32 and 33 by using a production apparatus 4 and twisted in 90 degrees around a central axis thereof. Such processed multi-channel tube 31 is preferably applied to an engine room of a vehicle, in which a space for laying tubes is limited and hence three-dimensional layout thereof is required.
The production apparatus 4 according to the second embodiment of the present invention is substantially identical to one according to the aforementioned first embodiment, however, constitutions of mandrel bodies 11 are modified as shown in
Each of the mandrel bodies 11 is provided with a proximal portion 19 shaped in a substantially half-columnar shape, across section of which is semicircular and substantially identical to a corresponding cross section of the channel hole 3. The proximal portion 19 is provided with a curved surface portion 20, which contacts the inner surface 9 of the channel hole 3, and a flat surface portion 21, which contacts the partition 2 of the multi-channel tube 1. A distal end of the mandrel body 11 is provided with a relief bevel 20a, which is a round surface continuing with the curved surface portion 20, and a buckling prevention surface 21a, which is a round surface continuing with the flat surface portion 21. Both sides of a proximal end of the flat surface portion 21 are diagonally and obliquely cut off to form a pair of relief flanks 21b. The relief flanks 21b are so dimensioned, with respect to lengths, widths and angles from the flat surface portion 21, as to allow movement of the mandrel body 11 relative to the twisted partition 2 without frictional interference or catching therebetween.
The production apparatus 4 can be applied to a process for forming the multi-channel tube 31 from a straight multi-channel tube by bending and twisting. In a step of bending, the curved surface portions 20 contact and support the inner surfaces 9 and prevent partial deformation thereof. Moreover, the flat surface portions 21 contact and support the surfaces of the partition 2 and the buckling prevention surfaces 21 contact and support the bending partition 2, thereby partial deformation of the partition 2 is prevented. Furthermore, the relief flanks 21b prevents interference with the twisted partition 2.
The proximal end of the proximal portion 19 secures enough height H to contact both the partition 2 and the inner surface 9 though both sides thereof are cut off, thereby the partition 2 around the proximal end is also prevented from partial deformation.
In a case of forming the multi-channel tube 31 from a straight multi-channel tube by bending and twisting, the mandrel bodies 11 inserted into the multi-channel tube 31 movably contact and support the inner surfaces 9 of the channel holes 3. Thereby bent portions 32 and 33 of the multi-channel tube 31 are formed in preferably regular shapes.
The production apparatus 4 according to the present second embodiment of the present invention can be applied to forming the multi-channel tube 31 by simultaneous bending and twisting as mentioned above, however, the production apparatus 4 can be applied to simple bending of a pre-twisted multi-channel tube. The pre-twisted multi-channel tube can be formed by either extrusion forming as shown in
A third embodiment of the present invention will be described hereinafter with reference to
The production apparatus 4 according to the third embodiment of the present invention is substantially identical to one according to the first and second embodiments, however, constitutions of mandrel bodies 11 are modified as shown in
Each of the mandrel bodies 11 is provided with a proximal portion 19 shaped in a substantially half-columnar shape, across section of which is semicircular and substantially identical to a corresponding cross section of the channel hole 3. The proximal portion 19 is provided with a curved surface portion 20, which contacts the inner surface 9 of the channel hole 3, and a flat surface portion 21, which contacts the partition 2 of the multi-channel tube 1. A distal end of the mandrel body 11 is provided with a relief bevel 20a, which is a round surface continuing with the curved surface portion 20, and a buckling prevention surface 21a, which is a round surface continuing with the flat surface portion 21. Both sides of a proximal end of the flat surface portion 21 are diagonally and obliquely cut off to form a pair of relief flanks 21c. The relief flanks 21c are so dimensioned, with respect to lengths, widths and angles from the flat surface portion 21, as to allow movement of the mandrel body 11 relative to the twisted partition 2 without frictional interference or catching therebetween. Moreover, relief angles of the relief flanks 21c with respect to the flat surface portion 21 gradually increase from a distal end thereof toward a proximal end thereof, namely, the relief flanks 21c respectively have twisted surfaces.
The production apparatus 4 can be applied to a process for forming the multi-channel tube 31 from a straight multi-channel tube by bending and twisting. In a step of bending, the curved surface portions 20 contact and support the inner surfaces 9 and prevent partial deformation thereof. Moreover, the flat surface portions 21 contact and support the surfaces of the partition 2 and the buckling prevention surfaces 21 contact and support the bending partition 2, thereby partial deformation of the partition 2 is prevented. Furthermore, the relief flanks 21c movably fit and support the twisted partition 2 and prevents interference with the twisted partition 2.
The proximal end of the proximal portion 19 secures enough height H to contact both the partition 2 and the inner surface 9 though both sides thereof are cut off, thereby the partition 2 around the proximal end is also prevented from partial deformation.
In a case of forming the multi-channel tube 31 from a straight multi-channel tube by bending and twisting, the mandrel bodies 11 inserted into the multi-channel tube 31 movably contact and support the inner surfaces 9 of the channel holes 3. Thereby bent portions 32 and 33 of the multi-channel tube 31 are formed in preferably regular shapes.
The production apparatus 4 according to any of the aforementioned embodiments of the present invention is preferably applied to forming a bent multi-channel tube for an engine room of a vehicle, in which a space for laying tubes is limited and hence three-dimensional layout thereof is required.
Although the invention has been described above by reference to certain embodiments of the invention, the invention is not limited to the embodiments described above. Modifications and variations of the embodiments described above will occur to those skilled in the art, in light of the above teachings.
Number | Date | Country | Kind |
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P 2003-435020 | Dec 2003 | JP | national |