JP3007085B1 - Profile steel bending machine - Google Patents

Abstract

Abstract: PROBLEM TO BE SOLVED: To provide a profile steel bending machine capable of bending a U-type and C-type angle steel material with high accuracy and without mechanical damage. SOLUTION: An abutting bending roller _18L is roughly a large roller 20 abutting on an outer portion of a C-shaped angle steel material 16.
And _L, and the small roller 21 _L of the large-roller contact side of the C-shaped angle steel 16 in contact with the inner surface of the opposite side, revolve in the said small rollers 21 _L in large roller 20 _L of the rotary shaft around and the small roller support base 22 _L, the axial rotation speeds of both rollers so that the large rollers and small rollers becomes possible contact feed in the same feed direction relative to C-shaped angle steel 16 abutting simultaneously synchronized to support The gear mechanism 23 is provided. One angle steel material is alternately engaged and fitted from both sides by using three of these contact bending rollers, and a bending moment is applied from the side by the three-point support, and at the same time, each roller is rotated to form a sectional shape. Bending that has been maintained can be performed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bending machine for laterally bending a profile steel having a U-shaped or C-shaped cross section.

[0002]

2. Description of the Related Art Conventionally, components such as beams and frames in a skeletal structure such as a steel structure have long profiles formed in a constant cross-sectional shape such as angle steel or channel steel in order to obtain high strength. Steel materials are used, and the angle steel
There is a letter-shaped thing and a C-shaped thing. Generally, the thing whose cross-sectional area is large, that is, the bending length of the outer periphery is long, and the thing whose thickness of each side is thick becomes the high strength angle steel. .

[0003] In recent years, structures having a curved surface shape, such as those found in dome-shaped roofs, have been adopted, and accordingly, the profile steel material constituting the skeletal structure has an accurate curvature. Bending is required.

FIG. 4 shows an example of a bending machine generally used in the prior art for bending such a profile steel material at a constant curvature. FIG. 1 is an overall perspective view of a bending machine (bending machine) 1 for performing a bending process so that a center is positioned.

The basic structure of this bending machine is shown in FIG. 1 in which an activation motor 3 is provided in a bending machine body 2 provided in a substantially rectangular parallelepiped casing, and drives a bending mechanism 4 installed on the upper surface of the body. The drive control is performed by an operation on a control panel 5 installed outside the main body in cooperation with the main body.

FIG. 5 is a plan view of a bending mechanism 4 for feeding an angle steel material and simultaneously applying a bending moment to the angle steel material in the conventional bending machine 1, and FIG. FIG. 5B is a plan view showing a state at the time of initial setting (just before bending) of the angle steel material 6 in a linear shape, and FIG. 5B is a plan view showing a state where the angle steel material 6 is being bent.

In this figure, there are angs on both sides of the main body.
Guide rollers 7 as insertion and discharge ports for steel_L,
7_RIs installed in the horizontal direction of the angle steel material 6.
Is slidable, and sandwiched and supported in the vertical direction.
Has become. And these two guide rollers 7_L, 7
_RThree contact bending rollers 8 on the upper surface of the main body between_L, 8
_C, 8_RAre the respective roller rotation shafts 9_L, 9_C, 9_R
The shaft is installed so that the distance between them is parallel, especially the roller at the center
Rotating shaft 9_CIs the other two roller rotating shafts 9_L, 9 _RTie
Vertical bisector L of a straight line₁It is installed so that it can be moved on
You.

[0008] Incidentally, the center of the roller rotary shaft 9 _C only has a structure in which the rotational drive and linear movement is carried out by an independent dedicated activation motors (not shown). The contact bending rollers 8 _L , 8 _C , and 8 _R provided on these shafts have circumferential portions whose side portions are in contact with a profile steel material (here, an angle steel material 6) which is a workpiece. The profile steel material 6 is formed so as to conform to the shape, and is driven to rotate in such a manner as to feed the profile steel material 6 which comes into contact with the driving motor 3 in one direction.

For example, in FIG. 5A, two contact bending rollers 8 _L and 8 _R on both sides rotate counterclockwise, and the contact bending roller located at the center on the opposite side across the angle steel 6. 8 _C is the angle steel 6 in contact with the three rollers by rotating clockwise will be sent to the left in the drawing.

In that case, as shown in FIG.
A pair of lateral bending rollers 8_L, 8 _RAnd one central abutment
Bending roller 8_CAnd the angle steel 6 with 3 points from both sides
And a pair of lateral bending rollers 8_L, 8_RWhen
One center contact bending roller 8 _CChange the relative position with
In this way, the bending curvature of the angle steel material 6 is adjusted.
You.

Specifically, at the time of initial setting of the angle steel material 6
5A, an angle steel material as shown by a dotted line in FIG.
From the contact position where 6 is linear, the center contact bending roller
8_CIs the arrow R in the figure₁Press and move in the pushing direction shown in
To add a bending moment to the angle steel 6
And another contact bending roller pair 8_L, 8 _R
The angle steel material 6 by changing the relative position
The curvature can be changed. In particular, the more arrow R
₁Pressing in the direction of
Will be bent.

Then, as described above, the three contact bending rollers 8 _L , 8 _C , and 8 _R rotate at the same time to contact and feed the angle steel material 6, thereby providing a continuous and constant curvature over an arbitrary length. Bending can be performed.

[0013]

However, in actual bending of a U-shaped angle steel using the above-mentioned conventional bending machine, when the bending is increased, that is, when the radius of curvature is reduced, FIG. As shown in the figure, the bending inner and outer peripheral surfaces abutting on the roller are deformed so that they are both tilted into the cross-section due to the plasticity of the metal, and therefore, it becomes difficult to maintain the U-shaped cross-sectional shape of the prototype, and There was a problem that accuracy and strength were reduced.

[0014] In recent years, higher durability has been required for angle steel materials, which are components of the skeletal structure, for buildings having more complicated structures.
Accordingly, there is a demand for the use of a C-shaped angle steel material having higher strength and durability in place of the U-shaped angle steel material conventionally used.

However, when the profile steel bending according to the conventional method and configuration described above is applied to a C-type angle steel,
As shown in FIG. 6B, the slit portion (mouth portion) of the C-shaped cross section is mechanically damaged in both the inner surface 10 on the inner peripheral side and the upper surface 10 ′ on the outer peripheral side. In 10 ′, wrinkles and buckling occurred), resulting in a significant decrease in strength. For this reason, conventionally, it has been considered that the C-type angle steel cannot be used as a component of the curved skeleton structure.

Accordingly, the present invention has been made in view of the above-mentioned problems, and provides a more accurate and mechanical damage to a curved skeleton structure by performing more reliable contact and feed with U-type and C-type angle steel materials. An object of the present invention is to provide a profile steel bending machine capable of performing a bending process so as to be used as a constituent element.

[0017]

The present invention is configured as follows to solve the above-mentioned problems. A first aspect of the present invention is a profile steel bending machine in which a bending moment is given to a profile steel by three-point pressing support by three or more abutting bending rollers, and the bending is performed by rotating the profile steel. And each contact bending roller is
A first roller that forms a contour on the outer periphery that coincides with the contact-side outer peripheral side of the profiled steel material, and a position that is in contact with the inner surface of the side of the profiled steel material opposite to the first roller contacting side. An adjustably supported second roller;
And a two-axis rotational force transmitting means for synchronizing the rotational speeds of the second roller and the second roller so that the two rollers can simultaneously contact and rotate the profile steel material to perform feeding.

Accordingly, even when the U-shaped angle steel material is bent with a small radius of curvature, the inner peripheral side and the outer peripheral side are brought into contact with the rollers from both the inner surface and the outer surface. The plastic deformation to the inside of the cross section due to the unilateral contact of the roller from the outer surface of the side is prevented, and the cross section of the prototype is maintained to enable high precision bending work without mechanical damage.

When the profile steel material is a C-shaped angle steel material, the profile of the outer periphery of the first roller is formed so as to be in close contact with the slit on the contact side of the C-shaped angle steel material,
The second roller is configured to closely hold the upper and lower surfaces of the other slit portion.

Thus, even if the profile steel is a C-angle steel and is bent with a small radius of curvature, mechanical damage such as wrinkling or buckling does not occur on the upper surface of the slit, and high precision and high strength are achieved. Bending can be performed.

In the two contact bending rollers located on both sides, each second roller is supported so as to be able to revolve around the rotation axis of each first roller, and the second roller is rotated by feeding a barrel nut. It is configured to revolve symmetrically.

Accordingly, the second roller can be easily brought into contact with and fixed to the inner side surface of the profile steel material regardless of the bending radius of any curvature. Further, the outer diameter of the first roller is configured to be larger than the outer diameter of the second roller.

[0023] Even for larger bending (bending with a small radius of curvature), relatively smooth contact feed of each roller to the C-shaped angle steel material can be performed. Further, the two-axis rotational force transmitting means is constituted by a gear transmitting mechanism via a pinion gear or a chain belt mechanism.

By changing the number of gear teeth or the diameter of the sprocket, the rotation ratio between the large second rollers can be easily adjusted, so that U-shaped and C-shaped angle steels of various widths and various radii of curvature can be obtained. It is possible to respond.

[0025]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an overall perspective view of a profile steel bending machine 11 according to an embodiment of the present invention. As a basic configuration of this bending machine, in this figure, an activation motor 13 is provided inside a bending machine main body 12 in a substantially rectangular parallelepiped housing, and a bending mechanism unit 14 installed on the upper surface of the main body is interlocked to be drivable. The drive control is performed by an operation on a control panel 15 installed outside the main body.

FIG. 2 is a plan view of a bending mechanism 14 for feeding the angle steel material and simultaneously applying a bending moment to the angle steel material in the bending machine according to the present invention, and FIG. FIG. 2B is a plan view of the C-shaped angle steel material 16 in a state at the initial stage of setting (immediately before bending), and FIG. 2B is a plan view of the C-shaped angle steel material 16 being bent. .

In this figure, guide rollers 17 _L and 17 _R are installed at both sides of the main body as an insertion port and a discharge port of the C-shaped angle steel 16, respectively.
6 is configured to be slidable in the horizontal direction and to be pinched and supported in the vertical direction.

These two guide rollers 17_L,
17_RBetween the three contact bending rollers 18 on the upper surface of the main body.
_L, 18_C, 18_RAre each roller rotation shaft 19_L, 19_C,
19 _RThe shafts are set to be parallel to each other.
Roller rotation shaft 19_CIs the other two roller rotation shafts 19_L,
19_RVertical bisector L of a straight line connecting_TwoAbove (German not shown
(By the ball screw feed operation by the standing electric motor drive)
It is installed movably.

FIG. 3 is a view showing a C indicated by an arrow AA 'in FIG.
Is a cross-sectional view of the contact bending roller 18 _L in a state of setting the type angle steel 16, abutting the bending roller 18 _L is schematically in this figure, the large roller 20 abutting against the outer side of the C-shaped angle steel 16 and _L, and the small roller 21 _L of the large-roller contact side of the C-shaped angle steel 16 in contact with the inner surface of the opposite side, revolve in the said small rollers 21 _L in large roller 20 _L of the rotary shaft around and the small roller support platform 22 _L for supporting,
A gear mechanism 23 for synchronizing the rotational speeds of the two rollers so that the large roller and the small roller can be contacted and fed in the same feed direction with respect to the C-shaped angle steel material 16 which is simultaneously contacted.
Is provided.

[0030] Specifically, first body and being rotatably projecting from the machine body 12 upper surface drivingly conjunction with which the roller rotating shaft 19 _L is bent by triggering the motor 13 (not shown) and internally provided Above it, the large roller _20L is coaxially penetrated and fixed by a key 24 so as to be interlocked.
The roller rotation shaft 19 _L is small roller support base 22 _L penetrates rotatably on large roller 20 _L, also key first gear 30 _L to the upper end of the upper roller rotation shaft 19 _L 25
The shaft is fixed so that it can be linked.

[0031] The C-shaped angle steel 1 more about large roller 20 _L is the shape of its circumference side as the workpiece
6 are formed so as to conform to the shapes of the side portions respectively abutting on the C-shaped angle steel material 1 as shown in FIG.
The top of the large roller 20 _L to close contact with the contact side of the slit portion 10, 10 of the 6 'are extended in the outer circumferential direction, also lower even the outer circumference of the large roller 20 _L so as to support the lower surface of the C-shaped angle steel 16 It is formed to extend.

Meanwhile division, the small roller rotary shaft 31 is rotatably through the transport path side of the small roller support base 22 _L of C-shaped angle steel 16, the downward of the support base 22 _L two axially the small roller 21 _L in shape, above the support table and the key 26, 27 second gear 32 _L each key 2
The shaft is fixed by 8 so as to be interlockable.

More specifically, the small roller 21 _L is composed of an upper small roller 33 _L and a lower small roller 34 _L having a cylindrical shape and the same outer diameter, and a C-shaped angle steel material 16 to be set therebetween.
A gap having the same width as the thickness of the slit portions 10 and 10 ′ is provided, and the shafts are interlocked by the keys 26 and 27, respectively. In the present embodiment, the small roller 21 is completely divided. However, when the roller radius is sufficiently longer than the bending length of one side of the slits 10 and 10 ′, the small roller 21 is interlocked around the small roller rotating shaft 31. It is also possible to form a single unit.

[0034] Then the first gear pinion gear 36 _L was sealed shaft to be interlocked with the pinion gear rotation shaft 35 _L by a key 29 is linked to the large roller 20 _L 30 _L and the small roller 21 _L
Are axially mounted on the upper surface of the small roller support base 22 _L to mesh with both the second gear 32 _L interlocked with.

By adopting the above configuration,
And set the C-type angle steel material 16 as shown in FIG.
In this state, the roller is rotated by driving the unillustrated motor 13.
Pivot 19_LBy rotating the large roller 20_LAnd the lower side
Small roller 34_LIs one of the C-shaped angle steel materials 16
Abut the outer surface of the side and the inner surface of the other side
Abutting feed of C-type angle steel 16 in the same rotation direction
At the same time _LAnd upper small roller 33_Lby
Close contact pressure welding of the upper surfaces of both slit portions 10, 10 'and
Lower small roller 34_LThe lower surface of one slit
Pressure contact, large roller 20_LBy one side lower surface
Will be supported.

The two contact bending rollers 18 _L , 18 _R located on the side of the bending machine body 12 and the central contact bending roller 18 _C are opposite to each other in the direction opposite to each other.
The same C-shaped angle steel material 16
, So that in one bending process, the side outer surfaces on both sides of one C-shaped angle steel material 16,
Abutment pressure against the inner surface, and both slit portions 10, 1;
This is an operation of simultaneously performing close contact pressure contact with the upper and lower surfaces of 0 ′ and support of the lower surfaces on both sides.

Incidentally, in the configuration of the contact bending roller,
And the roller rotating shaft 1 directly installed on the bending machine body 12
9_L, 19_C, 19_ROther parts except the large roller
20_L, 20_C, 20_R, Small roller 21_L, 21_C, 2
1_R(Upper small roller 33_L, 33_C, 33_R, Lower small b
Roller 34_L, 34_C, 34_R), Small roller support 2
2_L, 22_C, 22_R, Small roller rotating shaft 31_L, 3
1_C, 31_R, First gear 30_L, 30_C, 30_R, Second
Gear 32_L, 32_C, 32_R, Pinion gear 36_L, 3
6 _C, 36_R(And the pinion gear rotation shaft 35)_L, 35
_C, 35_R) Indicates each part of the C-shaped angle steel material 16 of the workpiece.
Easy disassembly so that it can be exchanged and adjusted according to the size of the
-It can be assembled.

In particular, the ratio of the appropriate rotation speed between the large roller 20 and the small roller 21 changes depending on the width of the C-shaped angle steel material 16 and the degree of curvature in the bending process. The gear ratio between the gears is set so that the gears are selected, and each gear is selectively installed. Accordingly, the small roller support base 22 also needs to be replaced with one having a gear rotation shaft hole at an appropriate center distance.

2 located on both sides of the bending machine body 12
As shown in the side sectional view of FIG. 3, a pin 37 _L protrudes from the upper surface of the small roller support 22 _L on the side opposite to the transfer path side of the C-shaped angle steel material 16 in the two contact bending rollers 18 _L and 18 _R. to have, there to arm 38 _L is axially mounted slidably.

As shown in FIGS. 2 (a) and 2 (b), the arms 38 _L and 38 _R provided on the two contact bending rollers 18 _L and 18 _R respectively correspond to the bending machine body 12.
Both ends of a barrel nut 40 fixed at a position by a support cylinder 39 installed at the center are screwed with opposite screws threaded. By rotating the barrel nut 40 in one direction, the two arms 38 are rotated. _L, 38 _R is moved to close or separated on both sides, bending abutment on both sides in conjunction with this roller 18 _L, 18 each in the _R sub-roller 21
_L, 21 _R is revolve symmetrically about their respective roller rotational axes 19 _L, 19 _R.

A contact bending roller 18 _C located at the center of the main body
Only in the contact bending roller 18 _L, 18 _R reverse both sides two installation directions of the other small rollers 21 _C (lower direction in the figure)
Fixed so that it cannot revolve, large roller 20 _C and small roller 2
_1C is the other large roller _20L , _20R and small roller 21
_L, 21 configured to rotate at _R and the reverse rotation direction, and is further movably installed on the vertical bisector L ₂ of the straight line connecting the other two rollers rotating shaft 19 _L, 19 _R.

[0042] Incidentally, only the abutment bending roller 18 _C of the central is carried out by an independent dedicated trigger motors of the rotary drive and the linear movement is not shown, the control panel 15
In this configuration, it is possible to perform rotational driving at an arbitrary position by input control from the controller.

Next, the operation of the bending machine according to the present embodiment configured as described above will be described below with reference to the drawings. First, in FIG. 2 (a), C-shaped angle steel 16 in a linear shape is inserted from the right side of the guide rollers 17 _R, abutting the bending roller 18 _R, 18 _C, 18 each large roller of _L 20 _R, 20 _C , 20 _L and small rollers 21 _R , 2
1 _C, 21 _L sequentially engaged and fitted plugged into, C-shaped angle steel 16 before bending is direct exhausted from the left of the guide roller 17 _L is set.

At this time, the two contact bending rollers 1 on both sides
8_L, 18_REach large roller 20_L, 20_R, Small roller 2
1_L, 21_RRotates counterclockwise to form C angle steel
A contact bending roller 18 on the opposite side of_CLarge
Roller 20_C, Small roller 21 _CCan rotate clockwise
And the C-type angle steel 16 is sent to the left in the figure.
become.

The set state before the bending (FIG. 2)
(A)) the central contact from the bending roller 18 _C is an arrow in the drawing R ₂
The three large rollers 20 _L , 20 _C , and 20 _R act to apply a bending moment to the C-shaped angle steel material 16 by pressing and moving in the pushing direction shown in FIG. The bending curvature of the C-shaped angle steel material 16 can be adjusted by changing the relative position between the rollers 18 _L and 18 _R.

At this time, the contact bending rollers 1 on both sides
8 _L, 18 C-shaped angle steel 16 abutting position to _R will be located in the transport path of the angle of inclination compared to the initial position in the plan view, the small roller 21 _L, 21 abutting on the inner surface _{since R} can not be contact feed faces away, small rollers to rotate the barrel nut 40 21 _L, 2
The 1 _R is revolved moved to the center direction is adjusted so as to re-abut against the inner surface of the C-shaped angle steel 16 (see Figure 2 (b)).

As described above, the three contact bending rollers 18 _L , 18 _C , and 18 _R rotate at the same time and feed the C-shaped angle steel material 16 to bend at a constant curvature continuously over an arbitrary length. Processing will be performed.

Here, in the bending machine of this embodiment,
Each small roller 21_L, 21_C, 21_RTo the inner surface of the side
In conventional bending of angle steel by contact pressure
Plastic deformation to the inside of both sides can be prevented, and each small
Roller 21_L, 21_C, 21 _RAnd each large roller 20_L, 2
0_C, 20_RUpper and lower surfaces of both slit portions 10, 10 '
Problem in conventional bending due to close contact pressure welding
Wrinkles and buckling can be prevented, and therefore C
High accuracy and mechanical damage to the angle steel 16
Bending can be performed with a simple operation while maintaining a cross-sectional shape without
Will be.

The embodiment of the present invention is not limited to the above-described configuration. For example, the following configuration can be modified, and each of the configurations has an effect.

[0050] First, results in the addition of twisting the guide rollers 17 _L of the discharge side, relative to the work angle steel by fixing by inclined to rotate in the feeding direction axis of the workpiece angle steel, as a result It is also possible to bend into a spiral shape (coil shape). In this case, it is possible to bend the angle steel material at an infinite length with a small bending radius.

Contrary to the operation described above, the two contact bending rollers 18 _L , 18 _R on both sides (large rollers 20 _L , 2 _L)
0 _R , small rollers 21 _L , 21 _R ) in the clockwise direction, and a central contact bending roller 18 _C (large roller 20 _C , small roller 21).
_By rotating _C ) in the counterclockwise direction, the operation of feeding the C-shaped angle steel material 16 rightward in FIG. 2 becomes possible.

Further, the mechanism for transmitting the rotational force between the large roller and the small roller in each contact bending roller is not limited to the gear transmission mechanism as in the above-described embodiment, but may be a configuration using a chain belt mechanism. It is also possible to use

In such a configuration, the rotation ratio between the large and small rollers can be easily adjusted by changing the ratio of the diameters of the sprockets provided on the rotation shafts of the large roller and the small roller. It is possible to cope with various sizes and various curvatures. Further, the configuration using the chain belt mechanism has a simple configuration with a smaller number of parts compared to the case of the gear transmission mechanism, so that the manufacturing cost and the frequency of failure can be reduced.

In the bending machine of the above embodiment,
Each of the large rollers 20 in each contact bending roller 18 has a configuration in which the outer diameter is larger than that of the paired small rollers 21. However, the present invention is not limited to this. configuration of the small roller 21 _C smaller outer diameter only large roller 20 _C of the contact bending roller 18 in _C of the center is also possible. Such a configuration in which the size relationship between the diameters of the two rollers is changed for each arrangement position of each contact bending roller is also effective for performing bending by smooth contact feeding.

In the bending machine of the above embodiment, the three contact bending rollers 18 are each configured as a drive roller which is connected to an activation motor and rotates by itself. For example, the center contact bending roller 18 _C Only a driven roller having no rotational force may be used.

[0056] Although this case less functional for contact feed angle steel, dedicated drive which is independent of contact bending roller 18 _C moves linearly in order to add a bending moment into the linear shape angle steel Since there is no need to provide a motor, the internal configuration is dramatically simplified, manufacturing costs can be greatly reduced, and reliability and durability can be improved.

[0057]

As described in detail above, according to the profile steel bending machine of the present invention, the U-shaped and C-shaped angle steel can be easily bent with high accuracy and without mechanical damage. It becomes possible. In addition, since the thickness can be reduced without reducing the strength of the angle steel material, a highly accurate, high-strength, and lightweight curved skeleton structure can be configured by using the curved skeleton structure as a component. It is also possible.

[Brief description of the drawings]

FIG. 1 is an overall perspective view of a profile steel bending machine according to an embodiment of the present invention.

FIG. 2 is a plan view (a) in a state at the time of initial setting of a C-type angle steel material and a plan view (b) in a state during bending in the bending mechanism portion of the present invention.

FIG. 3 is a cross-sectional view of a contact bending roller in a state where a C-type angle steel material is set.

FIG. 4 is an overall perspective view of a profile steel bending machine having a conventional configuration.

FIG. 5 is a plan view (a) in a state at the initial stage of setting a U-shaped angle steel material in a bending mechanism part having a conventional configuration;
FIG. 4B is a plan view (b) in a state during bending.

FIG. 6 is a view for explaining deformation and damage of a U-shaped angle steel material (a) and a C-shaped angle steel material (b) by conventional bending.

[Explanation of symbols]

1 Conventional profile steel bending machine 10, 10 'Inner peripheral side (10) and outer peripheral side (10')
Slit part 11 Profile steel bending machine of the present invention 12 Bending machine body 13 Activating motor 14 Bending mechanism part 15 Control panel 16 C-type angle steel material 17 _{L, R} guide roller 18 _{L, C, R} contact bending roller 19 _{L, C, R} roller rotating shaft _{20L, C, R} large roller _{21L, C, R} small roller _{22L, C, R} small roller support 23L, _{C, R} gear mechanism 24, 25, 26, 27, 28, 29 key _{30L, C, R} first gear _{31L, C, R} small roller rotating shaft _{32L, C, R} second gear _{33L, C, R} upper small roller _{34L, C, R} lower small roller 35 _{L, C, R} pinion gear rotation shaft 36 _{L, C, R} pinion gear 37 _{L, R} pin 38 _{L, R} arm 39 support cylinder 40 barrel nut

Claims (6)

(57) [Claims] 1. A profile steel material bending method in which a bending moment is applied to the profile steel material by three or more pressing supports by three or more contact bending rollers, and the profile steel material is bent by rotating the profile steel material. In the processing machine, each contact bending roller forms a contour on the outer periphery that coincides with the contact-side outer peripheral side portion of the profile steel material; and a first roller opposite to the first roller contact side of the profile steel material. A second roller supported so as to be position-adjustable so as to be in contact with the inner surface of the side portion of the side, the first roller and the second roller being simultaneously contacted and rotated with respect to the profile steel material, and fed. And a biaxial rotational force transmitting means for synchronizing the rotational speeds of the two so that the rotational speeds can be synchronized with each other. 2. The method according to claim 2, wherein when the profile steel is a C-shaped angle steel, a contour of an outer periphery of the first roller is formed so as to be in close contact with a slit portion on an abutting side of the C-shaped angle steel. 2. The profile steel bending machine according to claim 1, wherein the rollers are configured to closely hold the upper and lower surfaces of the other slit portion. 3. The two abutment bending rollers located on both sides, each second roller is supported so as to revolve around the rotation axis of each first roller, and the second roller is fed by a barrel nut. 3. The profile steel bending machine according to claim 2, wherein the orbits revolve symmetrically. 4. The profile steel bending machine according to claim 1, wherein the first roller has an outer diameter larger than that of the second roller. 5. The apparatus according to claim 2, wherein said two-axis rotational force transmitting means is a gear transmission mechanism via a pinion gear.
Or the profile steel bending machine according to 3 above. 6. The profile steel bending machine according to claim 2, wherein said two-axis rotational force transmitting means is constituted by a chain belt mechanism.