JPH0699223A - Bender for tube bar material - Google Patents

Abstract

PURPOSE:To work a different bending radius with a single die and to reduce the number of tools and the man-hour necessary for exchanging the tools. CONSTITUTION:A male screw 2 is mounted on the tapered outer peripheral surface of a holding body 1. A ring die 4 made of a C-shaped flexible body is put on outside the holding body 1. The ring die 4 has a female screw 9 screwed in the male screw 2 and moves relatively in the axial direction of the holding body 1 by rotating relatively to the holding body 1 to expand or reduce the radius. A material is held between the ring die 4 and a head 21 and the material is bent along the die 4 by rotating the ring die 4, the head 21 and the holding body 1 synchronously in the peripheral direction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bending apparatus for a tube rod using a mold.

[0002]

2. Description of the Prior Art Bending devices for tube rods are roughly classified into those with a mold and those without a mold. When high dimensional accuracy is required, a device with a mold is adopted. The bending device using the mold is further divided into a pull bending type and a roll bending type.

As shown in FIG. 5A, the drawing and bending apparatus has a bend roll R as a mold and a clamp C for fixing the material W to the bend roll R. A die groove corresponding to the outer surface shape of the material W is provided on the outer peripheral surface of the bend roll R. The clamp C is also provided with a recess corresponding to the outer surface shape of the material W.

The material W is sandwiched between the bend roll R and the clamp C, and in this state, the bend roll R and the clamp C rotate synchronously around the center of the bend roll R, so that the material is placed in the die groove of the bend roll R. It is pushed in and bends. At this time, the material W is pulled by the clamp C and moves. That is, the material W is drawn and bent.

On the other hand, the roll bending apparatus is shown in FIG.
As shown in (B), a roller r is provided instead of the clamp C. The roller r is provided with a recess corresponding to the outer surface shape of the material W over the entire circumference. The material W is sandwiched between the bend roll R and the roller r, and in this state, only the roller r revolves around the bend roll R while revolving, and is pushed into the die groove of the bend roll R.

There are many proposals for a bending device for a tube rod material (Japanese Patent Laid-Open No. 50-29465 and Japanese Patent Laid-Open No. 58-159).
No. 923, Japanese Utility Model Laid-Open No. 58-185324, etc.),
Those using molds are classified as either pull-bend type or roll-bend type.

[0007]

However, the conventional bending apparatus for a tube rod using a mold can process only one kind of bending radius with one mold. When it is necessary to perform machining with different bending radii, even if it is a slight difference, it is necessary to prepare a type of mold corresponding to all bending radii, which increases tool cost.

An object of the present invention is to provide a bending apparatus for a tube rod material, which is capable of processing different bending radii with a single die, and which is capable of continuously changing the bending radii.

[0009]

A bending apparatus for a pipe rod according to the present invention has a taper-shaped outer peripheral surface whose outer diameter gradually changes in the axial direction. Direction and axially movable holding body, and a C-shaped flexible body that is elastically fitted and held by the holding body. A die groove is provided in the outer peripheral surface circumferential direction and an inner peripheral surface. Is provided with a female screw to be screwed into the male screw, and by relatively rotating in the circumferential direction with respect to the holding body, relatively moves in the axial direction of the holding body while enlarging or reducing the diameter, and A ring die that is held in place by axial movement,
The ring die has a recess corresponding to a part of the die groove in the circumferential direction corresponding to the die groove, and is movable in the radial direction of the holding body so as to sandwich the material between the recess and the die groove. And a head that moves in the circumferential direction and winds the material in the die groove of the ring die while sandwiching the material between the concave portion and the die groove.

[0010]

The ring die, which is a C-shaped flexible body, is so-called screw-fitted to the tapered outer peripheral surface of the holding body. Therefore, when the ring die and the holding body rotate relative to each other, the ring die rotates around the outer periphery of the holding body. The radius of the ring die changes as it moves in the axial direction of the holding body while being held on the surface. Even if the ring die moves in the axial direction of the holding body, the holding body can move in the axial direction, so that the ring die is held in a fixed position. That is,
The ring die is expanded or reduced in diameter at a fixed position. Also,
Since the head can move in the radial direction of the holder, it can follow the expansion or contraction of the ring die. Therefore, one ring die can be processed with different bending radii, and the bending radii can be continuously adjusted.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. 1 is a vertical sectional view of a bending apparatus showing an embodiment of the present invention, FIG. 2 is a plan view of the bending apparatus, FIG. 3 is a plan view schematically showing a deformed state of the ring die, and FIG. 4 is a horizontal view of the ring die. It is a schematic diagram for explaining the degree.

As shown in FIGS. 1 and 2, this bending apparatus comprises a truncated cone-shaped holding body 1 held with its axis oriented in the vertical direction. A male screw 2 is provided on the tapered outer peripheral surface of the holder 1 over the entire axial length. Holder 1
A sleeve 3 having an inner peripheral surface provided with a spline groove is vertically attached to the central portion of the. As the dimensions of the holding body 1, for example, the height is 300 mm, the minimum outer diameter at the upper end is 1880 mm, and the maximum outer diameter at the lower end is 2100 mm.

A ring die 4 is fitted on the holder 1. The ring die 4 is a C-shaped so-called split ring made of an elastic material such as steel (scraping) such as S45C, and includes a die body 5 and a die stand 6. The die body 5 has a die groove 9 having a semicircular cross-section corresponding to the outer surface shape of the material (tube) to be curved on the entire outer peripheral surface, and a groove 8 provided on the outer peripheral surface of the die base 6.
It is fitted and held inside. Then, on the inner peripheral surface of the die base 6, a female screw 7 that meshes with the male screw 2 on the outer peripheral surface of the holder 1.
Is provided. Therefore, the holder 1 and the ring die 4
Is relatively rotated, the ring die 4 relatively moves in the axial direction of the holding body 1, and its radius is expanded or reduced.

Next, the support mechanism and rotation drive mechanism for the holder 1 and the material clamp mechanism will be described.

A hydraulic motor 11 is arranged on the fixed base 10. The hydraulic motor 11 rotates a drive shaft 12 vertically supported on the hydraulic motor 11. The upper part of the drive shaft 12 is a spline shaft. Then, the spline shaft is inserted into the sleeve 3, and the sleeve 3 is fixed at an arbitrary height by the fixing screw 13, so that the holding body 1 is supported and the height of the holding body 1 is adjusted.

A swivel base 14 is mounted on the fixed base 10. The swivel base 14 is configured to extend from the drive shaft 12 to the outer peripheral side thereof, the base portion is connected to the bearing 15 fitted onto the drive shaft 12, and the roller 16 is provided at the lower portion, so that the drive shaft 12 is provided. You can turn around. When the electromagnetic clutch 17 provided above the bearing 15 is in the contact state, the swivel base 14 swivels around the drive shaft 12 following the rotation of the drive shaft 12, and when the electromagnetic clutch 17 is in the disengaged state. The swivel base 14 does not operate, and only the drive shaft 12 rotates.

Below the bearing 15, a non-rotating bearing 18 which doubles as a support for the drive shaft 12 and the bearing 15 is provided. The bearing 18 includes a fixed pin 1 driven by a cylinder.
9 is attached. The fixing pin 19 is used for the swivel base 14.
When it is in the initial position, it is inserted into the pin hole 20 at its base to fix the swivel base 14 in the initial position.

A head 21 for restraining the material is provided on the surface of the swivel base 14. The head 21 is a clamp (C in FIG. 5A) used in the drawing and bending device, is located on the outer peripheral side of the holding body 1, and is composed of a clamp body 22 and a clamp holding body 23. The clamp body 22 is
The ring die 4 faces a part of the die body 5 in the circumferential direction, and has a recess 25 having a semicircular cross section corresponding to the outer surface shape of the material (tube) on the facing surface. Clamp holder 23
Is a U-shaped member, which holds the clamp body 22 between the upper side portion and the lower side portion thereof, and the front and rear end portions of the upper side portion and the lower side portion are a pair of upper and lower cut portions 2 provided on the die base 6.
The ring die 4 is fixed in the circumferential direction and the axial direction by fitting the ring die 4 into the ring die 4.

The head 21 also has a slide base 2 which can freely move in the radial direction of the holder 1 on the surface of the swivel base 14.
It is mounted on the 6. The slide base 26 is the swivel base 1.
The head 21 is reciprocated between a retracted position separated from the ring die 4 and an operating position where the head 21 is pressed by the ring die 4 to clamp the material by being driven by a cylinder 27 attached to the ring die 4. Further, a screw 28b is passed through a nut 28a fixed to the slide base 26, and by rotating the screw 28b, the head 21 moves on the slide base 26 in the radial direction of the holding body 1, and its operating position is adjusted. It

On the outer peripheral side of the holder 1, a guide roll 29 is provided together with the head 21. Guide roll 29
Is a so-called caliber roll provided with a semicircular recess corresponding to the shape of the outer surface of the material (tube) over the entire circumference, faces the ring die 4 like the head 21, and has the slide base 30, the nut 31, and the screw screw 32. Thus, the holder 1 is radially driven and adjusted in position to restrain the material. However, the mount 33 is the swivel base 14.
Is a fixed base that is independently separated from the rotary base 14 and is provided in a position parallel to the rotary base 14 when the rotary base 14 is in the initial position.

The guide roll 29 is mounted on a guide roll holder 34 provided at the tip of the screw screw 32 and fixed in the horizontal direction perpendicular to the radial direction of the holder 1, that is, in the tangential direction of the holder 1. The position is changed. Thereby, the material restraining position by the guide roll 29 is adjusted in the longitudinal direction of the material. 34a is a pin hole for fixing the guide roll 29 in the adjustment position.

In this bending apparatus, the bending radius is changed and the bending work is performed as follows.

To change the bending radius, the swivel base 14 is fixed to the initial position by the fixing pin 19 without the material W. The ring die 4 is fixed in the circumferential direction and the axial direction by the head 21. Loosen the fixing screw 13 and hold the holder 1.
To be free in the axial direction. Also, the electromagnetic clutch 1
7 is disconnected and the swivel base 14 is separated from the drive shaft 12.

In this state, the screw screw 28b is operated to press the ring die 4 against the outer periphery of the holding body 1 with an appropriate pressure to operate the hydraulic motor 11 to rotate the drive shaft 12. As a result, the holder 1 rotates in the circumferential direction. At this time, the holder 1 is axially free, while
Since the ring die 4 is restrained in the circumferential direction and the axial direction by the head 21, the holding body 1 is moved in the axial direction by the rotation of the holding body 1 and is held on the outer peripheral surface of the holding body 1. The holding position of No. 4 changes in the axial direction and the radial direction of the holding body 1. As a result, the average radius R of the ring die 4 changes as shown in FIG.

At this time, the ring die 4 has a minimum radius R ₁ at the upper end of the holding body 1 and a maximum radius R ₂ at the lower end. The ring die 4 is manufactured to have a radius slightly smaller than the minimum radius R ₁ at the upper end of the holding body 1 so that the ring die 4 is held by the holding body 1 even at the upper end of the holding body 1. The material, dimensions, structure, etc. are determined so that the elastic limit is not exceeded. The structure in which the ring die 4 is divided into the die body 5 and the die base 6 is advantageous in that the respective thicknesses can be reduced and the elastic deformation amount can be increased.

Further, the wrapping angle α at which the ring die 4 surrounds the holding body 1 becomes maximum (α ₁ ) at the upper end of the holding body 1,
It becomes the minimum (α ₂ ) at the lower end. In the case of U-bending, the surrounding angle α is at least (180 + γ) degrees (however, γ is the springback angle and varies depending on the material size, material, bending radius, etc.), and this condition is satisfied. Thus, the circumference of the ring die 4 is determined. For example, when the height of the holding body 1 is 300 mm, the minimum outer diameter is 1880 mm, and the maximum outer diameter is 2100 mm, if the inner peripheral length of the ring die 4 is 5500 mm, the surrounding angle α of 335 degrees at the upper end of the holding body 1 is set. ₁ is secured, and the envelopment angle α ₂ is 300 degrees even at the lower end.
Is secured.

When the ring die 4 moves in the axial direction of the holding body 1, the lead angle β ₁ at the upper end of the holding body 1 and the lead angle β ₂ at the lower end of the holding body 1 are different, as shown in FIG. Therefore, the ring die 4 is tilted. However, when the height of the holder 1 is 300 mm, the minimum outer diameter is 1880 mm, the maximum outer diameter is 2100 mm, and the lead l is 5 mm, the height difference in the circumferential direction due to this inclination is about 0.2 mm at the maximum. , Can be ignored.

When the radius of the ring die 4 is adjusted to the target value as described above, the fixing screw 13 is tightened to hold the holder 1.
Fix the height of and move to bending work.

In order to perform the bending work, the fixing pin 19 is operated to bring the swivel base 14 into a rotatable state. The cylinder 21 is operated to retract the head 21 to the retracted position. By positioning the material W between the head 21 and the ring die 4 and advancing the head 21 to the operating position, the material W is clamped during this time and the head 21 is fitted to the ring die 4. Further, the material is restrained by the guide roll 29. Then, the electromagnetic clutch 17 is brought into the connected state to operate the hydraulic motor 11.

As a result, the holder 1 rotates in the circumferential direction, and the head 21 rotates the head 21 in synchronization with the rotation.
At the same time, it revolves around the rotation center of the holding body 1. At this time, the guide roll 29 does not move and continues to hold the material W at a fixed position. As a result, the material W is pulled by the head 21 and wound in the die groove 9 of the ring die 4. That is, the material W is bent.

When the bending is completed, the hydraulic motor 11 is stopped, the head 21 is retracted to the retracted position, the guide roll 29 is moved away from the material W, and the material W is taken out. When the material W has been taken out, the drive shaft 12 is rotated in the reverse direction by the hydraulic motor 11 while the electromagnetic clutch 17 is in the contact state, and the holding body 1 and the swivel base 14 are returned to the initial positions.

With the above, one cycle of drawing and bending is completed.

Outer diameter used for cooling pipe of boiling water reactor 1
Inconel alloy 690 with a thickness of 9.05 mm and a thickness of 1.09 mm
The tube requires 80 different U-bends with bend radii from 445.5 mm to 1512 mm. Conventionally, this processing was performed using 80 types of bend rolls, but with the introduction of the bending device of the present invention, it becomes possible to perform with 8 types of holders and 10 types of ring dies. We were able to achieve significant savings and tool replacement man-hours.

Although the above-mentioned embodiment is the drawing and bending apparatus, the head 21 is used as a roller, and the swivel base having the roller mounted thereon and the rotary drive mechanism are always connected to each other, and the holder is used as the rotary drive mechanism when necessary. A roller bending device can also be used by making the structure connected.

In addition, instead of moving the holding body 1 in the axial direction, the head 21 is movable in the axial direction of the holding body 1.
It is also within the scope of the present invention to move the holding body 1 in the radial direction of the holding body 1 instead of moving the head 21 in the radial direction of the holding body 1.

[0036]

As is apparent from the above description, the bending apparatus for a pipe rod according to the present invention can perform different bending radii with one ring die by changing the radius of the ring die. A continuous adjustment of the bending radius is also possible. Therefore, the number of tools can be significantly reduced, and the tool cost can be reduced. Further, it is possible to omit the labor required for replacing the tool, and it is possible to improve workability in bending work.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a bending apparatus showing an embodiment of the present invention.

FIG. 2 is a plan view of a bending device.

FIG. 3 is a plan view schematically showing a deformed state of the ring die.

FIG. 4 is a schematic diagram for explaining the levelness of a ring die.

FIG. 5 is a plan view schematically showing bending by a conventional device.

[Explanation of symbols]

 1 Holding Body 2 Male Thread 4 Ring Die 7 Female Thread 9 Die Groove 11 Hydraulic Motor 12 Drive Shaft 14 Swiveling Base 17 Electromagnetic Clutch 21 Head 25 Recess 29 Guide Roll

Claims (1)

[Claims] 1. A holding body having a tapered outer peripheral surface whose outer diameter gradually changes in an axial direction, a male screw provided on the outer peripheral surface, and a movable body in the circumferential direction and the axial direction, and the holding body. It is composed of a C-shaped flexible body that is elastically fitted and held on the body, and a die groove is provided in the outer peripheral surface circumferential direction of the body.
A female screw threaded to the male screw is provided on the inner peripheral surface, and by relatively rotating in the circumferential direction with respect to the holding body, relatively moves in the axial direction of the holding body while enlarging or reducing the diameter, and, The ring die is held at a fixed position by the axial movement of the holding body, and the ring die has a recess corresponding to a part of the die groove in the circumferential direction, the recess corresponding to the die groove, and between the recess and the die groove. It is movable in the radial direction of the holder so as to sandwich the material, and while the material is sandwiched between the recess and the die groove, it moves in the circumferential direction to wind the material into the die groove of the ring die. A bending device for a tube rod, comprising: a head.