CN103934328A - Linear type heating furnace tube bending technology - Google Patents
Linear type heating furnace tube bending technology Download PDFInfo
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- CN103934328A CN103934328A CN201410146952.4A CN201410146952A CN103934328A CN 103934328 A CN103934328 A CN 103934328A CN 201410146952 A CN201410146952 A CN 201410146952A CN 103934328 A CN103934328 A CN 103934328A
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- boiler tube
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- dipper crowding
- crowding gear
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Abstract
The invention discloses a linear type heating furnace tube bending technology. According to the technology, a furnace tube bending device is used and comprises a left machine frame (13) and a pushing and pressing mechanism (10), the pushing and pressing mechanism (10) is located on the right side of the left machine frame (13), a dovetail guide rail (15) is fixedly connected to the rear portion of the right side of the left machine frame (13) and extends horizontally in the left-right direction, the left end of the dovetail guide rail (15) is fixedly connected with the left machine frame (13), the right end of the dovetail guide rail (15) is in sliding connection with a dovetail groove in the rear portion of the pushing and pressing mechanism (10), a through hole allowing a furnace tube to penetrate through is formed in the front portion of the left machine frame (13), and three hydraulic bending devices (9) are arranged on the dovetail guide rail (15) from left to right in sequence in a sliding mode and located between the left machine frame (13) and the pushing and pressing mechanism (10).
Description
Technical field
The application relates to the making of heating furnace tube, is specially a kind of linear heating furnace tube bending process.
Background technology
Heating furnace has a wide range of applications in industry, such as heating steel billet, heat treatment of workpieces etc.In order to increase the heating uniformity of heating furnace, heating furnace tube is often in a bent form.
In the prior art, in order to guarantee the requirement of concrete heating furnace shape and to meet the requirement respectively of concrete heating heat, conventionally need to carry out to the shape of boiler tube the bending of concrete shape.For the bending of heating furnace tube, often adopt in the prior art stamping forming mode.This molding mode can efficiently be realized bending machining rapidly, and machining accuracy is high, and cost is lower, has in the prior art extensive use.But, this mode of heating easily produces significantly a large amount of inhomogeneous deformation on the longitudinal direction of heating furnace tube, cause the cross-sectional area of heating furnace tube on the longitudinal direction of boiler tube, to there is larger change, this makes heating uniformity in heating process be difficult to control, and, easily in the process of using, produce inhomogeneous stress and concentrate, thereby cause the stability in use of heating furnace, security greatly to reduce, and shortened the service life of heating furnace.
Also there is in the prior art the bending of use and roll the scheme that workpiece is bent.But, this scheme often adopts curved one by one bending to workpiece, because the longitudinal size of workpiece is larger, in the complete rotation process of workpiece, this processing often needs larger processing space, and, because process is for adopting curved one by one mode, process is longer, and working (machining) efficiency is lower, cause thus processing cost to rise, and be difficult to guarantee the form accuracy of processing.
Summary of the invention
A kind of heating furnace tube bending process of the present invention, it is intended to solve in prior art the defects such as machining deformation is inhomogeneous and process is long, form accuracy is low, and a kind of bending process with the heating furnace tube of concrete shape is provided.
The technical solution used in the present invention is as follows:
The linear pattern furnace tubing that heats fluid heating pressurize sizing is crooked, it uses a kind of crooking of the tubes equipment, described crooking of the tubes equipment comprises left frame and dipper crowding gear, dipper crowding gear is right-hand at left frame, the rear portion, right side of described left frame is fixedly connected with dovetail guide, dovetail guide is horizontal-extending on left and right directions, the left end of dovetail guide is fixedly connected with described left frame, dovetail groove in the right-hand member of dovetail guide and the rear portion of dipper crowding gear is slidably connected, and the front portion of described left frame is provided with the through hole passing for boiler tube; On described dovetail guide, between described left frame and dipper crowding gear, slide and be provided with three crooked hydraulic means successively from left to right; The front portion, left side of dipper crowding gear is fixedly installed the first fixture, the front portion, right side of left frame is fixedly installed the second fixture, between described left frame and dipper crowding gear, be provided with fromer rail, described fromer rail straight line between the second fixture and the first fixture extends, and when dipper crowding gear slides along described dovetail guide, the first fixture can slide towards the second fixture along fromer rail; On described fromer rail, between the second fixture and the first fixture, be also provided with slidably the 3rd fixture and the 4th fixture, four described fixtures,,, include clip base, rear fixture block and front fixture block, described in each, the described rear fixture block of fixture and front fixture block all relatively arrange along the fore-and-aft direction in the plane of bending when the described boiler tube generation plain bending, and in clip base, can realize contact gripping and separated action of unclamping; Wherein, described rear fixture block is all positioned at described fromer rail rear, and is rectangular shape, described front fixture block, is all positioned at described fromer rail the place ahead, and is cylindrical shape; The plane of bending of the longitudinal axis of described rectangular shape and cylindrical shape during all perpendicular to described boiler tube generation plain bending.
Wherein, on the right flank of the rear fixture block of described the second fixture, be provided with the right extension limited block extending to the right, on the left surface of the rear fixture block of described the first fixture, be provided with the left extension limited block extending to the left, on the left and right side of the rear fixture block of the 3rd fixture and the 4th fixture, be provided with respectively the left extension limited block extending to the left and the right extension limited block extending to the right.
Each in described three crooked hydraulic means includes driving hydraulic cylinder, and described driving hydraulic cylinder vertically arranges with respect to the longitudinal axis of dovetail guide, and can on dovetail guide, slide; The hydraulic stem end of described driving hydraulic cylinder is hinged with bending and rolls, and drives hydraulic cylinder to drive bending is rolled to the bend pipe thrust applying forward along the direction vertical with dovetail guide; Each in described three crooked hydraulic means all also comprises walking driving mechanism, in order to drive respectively corresponding crooked hydraulic means to slide into diverse location along dovetail guide.
The right side of described dipper crowding gear is provided with stay pipe telescoping mechanism, stay pipe telescoping mechanism is arranged on the place ahead of described dovetail guide, stay pipe telescoping mechanism has retractility stay pipe, retractility stay pipe extend in described boiler tube through leaving the left side of dipper crowding gear and can be used in from the right side of dipper crowding gear, thereby play support boiler tube and prevent that boiler tube from occurring not expect crooked effect, and can under the driving of stay pipe telescoping mechanism, on left and right directions, move back and forth; Described retractility stay pipe can stretch into from the right-hand member of boiler tube in boiler tube and add hot fluid to supply in boiler tube, and described crooking of the tubes equipment also comprises heating fluid recycling apparatus, heating fluid recycling apparatus add hot fluid described in can reclaiming from the left end of described boiler tube, thus described in add hot fluid and can heat up and be beneficial to flexural deformation boiler tube.
Described crooking of the tubes technique comprises the steps:
A., linear pattern boiler tube is provided;
B. described linear pattern boiler tube penetrated to a through hole on described left frame and advance to the right, until described linear pattern boiler tube will carry out the length of bending machining, partly stretching out in described left frame;
C. described the second fixture clamps the left end of described linear pattern boiler tube;
D. dipper crowding gear motion, so that the right-hand member of the first clamp linear pattern boiler tube;
E. the 3rd fixture and the 4th fixture clamp linear pattern boiler tube between the second fixture and the first fixture, and make the second fixture, the 3rd fixture, the 4th fixture and the first fixture that the described forearm of linear pattern boiler tube is separated into three length sections equal in length;
F. each in described three crooked hydraulic means rolled its bending to contact respectively the mid point of corresponding each length section in described three length sections;
G. the stay pipe telescoping mechanism of dipper crowding gear stretches into retractility stay pipe in the pipe of linear pattern boiler tube, and first length section from left to right staying in described three length sections is not supported, and second and the 3rd length section is supported from left to right; Described retractility stay pipe starts to add hot fluid to supply in described boiler tube, and heating fluid recycling apparatus starts to reclaim and add hot fluid in described boiler tube, described in add hot fluid described boiler tube heated up;
H. the bending of the crooked hydraulic means in left side is got away and is begun outwards to push up described first length section of pressure, thereby it is crooked to make it that linear occur, dipper crowding gear is synchronously followed pushing along with the carrying out of bending, meanwhile, and the 3rd fixture, the also synchronously accompany movement of the 4th fixture; In the process of pressing on top, the crooked hydraulic means in left side under the driving of its walking driving mechanism to left movement, thereby make its bending roll the position keeping corresponding to described first length section mid point; While contacting to the right extension limited block of the first fixture and the left extension limited block of the 3rd fixture, the bending of the crooked hydraulic means in described left side is rolled and is stopped top and press, and dipper crowding gear stops continuing pushing forward; Dipper crowding gear stops continuing after pushing forward, and dipper crowding gear keeps current pushing force horizontal stationary motionless minute, so that the part of bending forming is carried out to pressurize sizing;
I. the stay pipe telescoping mechanism of dipper crowding gear is retractility stay pipe retraction, thereby makes to stay first length section from left to right in described three length sections and second length section is all not supported from left to right, and the 3rd length section is supported from left to right;
J. the crooked hydraulic means in the middle of start top press described in second length section from left to right, until the right extension limited block of the 3rd fixture and the left extension limited block of the 4th fixture contact;
K. dipper crowding gear bounces back described stay pipe completely, so that three length sections are all not supported;
L. the crooked hydraulic means on right side start top press described in the 3rd length section from left to right, until the right extension limited block of the 4th fixture and the left extension limited block of the first fixture contact;
M. each fixture unclamps, and takes the complete heating furnace tube of bending machining away.
In the present invention, on each fixture, adopted extension limited block, thereby made, after limited block contact, can carry out a locking to the boiler tube after moulding, under the effect of follow-up elaboration power, can the curved shape after precise forming not impacted, and adopted while being cuboid, being columniform fixture, when having made to guarantee enough clamping forces, can form level and smooth flexural deformation to the boiler tube being shaped again, whole process, on one side in longitudinal direction feeding, utilize bending to roll on one side and do to carry out bending, therefore, it has avoided on the longitudinal direction of boiler tube, at processed crooked position, producing in prior art the problem of larger linear deformation, and, in process, it adopts unique form processing, feeding on one side, bending is rolled in vertical longitudinal direction and is moved and move in parallel longitudinal direction direction, thereby the relative position relation with institute's crooked position is rolled in maintenance bending, and boiler tube is longitudinally sent under the integrated moving of other clamping devices, therefore, having guaranteed that boiler tube is whole keeps longitudinal direction and by curved bending one by one, whole BENDING PROCESS is continuous, without repeating, boiler tube is carried out to clamping and dismounting, make whole process processing space little, process is short and guaranteed the form accuracy of processing.And a plurality of fixtures can slide in process, guaranteed all the time boiler tube to be had the locking of clamping position in process.
Accompanying drawing explanation
Fig. 1 is the schematic top plan view of bending apparatus of the present invention.
Fig. 2 is the schematic top plan view of bending apparatus after the crooking of the tubes is completed in Fig. 1 of the present invention.
Fig. 3 is the schematic top plan view of the boiler tube shape after bending completes.
The specific embodiment
Below in conjunction with accompanying drawing 1-3, the present invention is described in detail.
The linear pattern furnace tubing that heats fluid heating pressurize sizing is crooked, it uses a kind of crooking of the tubes equipment, described crooking of the tubes equipment comprises left frame 13 and dipper crowding gear 10, dipper crowding gear 10 is right-hand at left frame 13, the rear portion, right side of described left frame 13 is fixedly connected with dovetail guide 15, dovetail guide 15 horizontal-extending on left and right directions, the left end of dovetail guide 15 is fixedly connected with described left frame 13, dovetail groove in the rear portion of the right-hand member of dovetail guide 15 and dipper crowding gear 10 is slidably connected, the front portion of described left frame 13 is provided with the through hole passing for boiler tube, on described dovetail guide 15, between described left frame 13 and dipper crowding gear 10, slide and be provided with three crooked hydraulic means 9 successively from left to right, the front portion, left side of dipper crowding gear 10 is fixedly installed the first fixture 1, the front portion, right side of left frame 13 is fixedly installed the second fixture 4, between described left frame 13 and dipper crowding gear 10, be provided with fromer rail, described fromer rail straight line between the second fixture 4 and the first fixture 1 extends, and when dipper crowding gear 10 slides along described dovetail guide 15, the first fixture 1 can slide towards the second fixture 4 along fromer rail, on described fromer rail, between the second fixture 4 and the first fixture 1, be also provided with slidably the 3rd fixture 3 and the 4th fixture 2, four described fixtures 1,2,3,4 include clip base, rear fixture block 41 and front fixture block 42, described in each, the described rear fixture block 41 of fixture and front fixture block 42 all relatively arrange along the fore-and-aft direction in the plane of bending when the described boiler tube generation plain bending, and in clip base, can realize contact gripping and separated action of unclamping, wherein, described rear fixture block 41 is all positioned at described fromer rail rear, and is rectangular shape, and described front fixture block 82,42 is all positioned at described fromer rail the place ahead, and is cylindrical shape, the plane of bending of the longitudinal axis of described rectangular shape and cylindrical shape during all perpendicular to described boiler tube generation plain bending.
Wherein, on the right flank of the rear fixture block of described the second fixture 4, be provided with the right extension limited block 43 extending to the right, on the left surface of the rear fixture block of described the first fixture 1, be provided with to the left and on the left and right side of rear fixture block of left extension limited block 14, the three fixtures 3 that extend and the 4th fixture 2, be provided with respectively the left extension limited block that extends to the left and the right extension limited block of extension to the right.
Each in described three crooked hydraulic means 9 includes driving hydraulic cylinder, and described driving hydraulic cylinder vertically arranges with respect to the longitudinal axis of dovetail guide 15, and can on dovetail guide 15, slide; The hydraulic stem end of described driving hydraulic cylinder is hinged with bending and rolls 91, and drives hydraulic cylinder to drive bending is rolled to the 91 bend pipe thrusts that apply forward along the direction vertical with dovetail guide 15; Each in described three crooked hydraulic means 9 all also comprises walking driving mechanism, in order to drive respectively corresponding crooked hydraulic means 9 to slide into diverse location along dovetail guide 15.
The right side of described dipper crowding gear 10 is provided with stay pipe telescoping mechanism 12, stay pipe telescoping mechanism 12 is arranged on the place ahead of described dovetail guide 15, stay pipe telescoping mechanism 12 has retractility stay pipe 120, retractility stay pipe 120 extend in described boiler tube through leaving the left side of dipper crowding gear 10 and can be used in from the right side of dipper crowding gear 10, thereby play support boiler tube and prevent that boiler tube from occurring not expect crooked effect, and can under the driving of stay pipe telescoping mechanism 12, on left and right directions, move back and forth; Described retractility stay pipe can stretch into from the right-hand member of boiler tube in boiler tube and add hot fluid to supply in boiler tube, and described crooking of the tubes equipment also comprises heating fluid recycling apparatus 121, heating fluid recycling apparatus 121 add hot fluid described in can reclaiming from the left end of described boiler tube, thus described in add hot fluid and can heat up and be beneficial to flexural deformation boiler tube.
Described crooking of the tubes technique comprises the steps:
A., linear pattern boiler tube 19 is provided;
B. described linear pattern boiler tube penetrated to a through hole on described left frame 13 and advance to the right, until described linear pattern boiler tube will carry out the length of bending machining, partly stretching out in described left frame 13;
C. described the second fixture 4 clamps the left end of described linear pattern boiler tube;
D. dipper crowding gear 10 motions, so that the first fixture 1 clamps the right-hand member of linear pattern boiler tube;
E. the 3rd fixture 3 and the 4th fixture 2 clamp linear pattern boiler tube between the second fixture 4 and the first fixture 1, and make the second fixture 4, the 3rd fixture 3, the 4th fixture 2 and the first fixture 1 that the described forearm of linear pattern boiler tube is separated into three length sections equal in length;
F. each in described three crooked hydraulic means 9 makes its bending roll 91 mid points that contact respectively in described three length sections corresponding each length section;
G. the stay pipe telescoping mechanism 12 of dipper crowding gear 10 stretches into retractility stay pipe 120 in the pipe of linear pattern boiler tube, and first length section from left to right staying in described three length sections is not supported, and second and the 3rd length section is supported from left to right; Described retractility stay pipe starts to add hot fluid to supply in described boiler tube, and heating fluid recycling apparatus 121 starts to reclaim and add hot fluid in described boiler tube, described in add hot fluid described boiler tube heated up;
H. the bending of the crooked hydraulic means 9 in left side is got away and is begun outwards to push up described first length section of pressure, thereby it is crooked to make it that linear occur, dipper crowding gear 10 carrying out along with bending and synchronously follow pushing, meanwhile, the 3rd fixture 3, the also synchronously accompany movement of the 4th fixture 2; In the process of pressing on top, the crooked hydraulic means 9 in left side under the driving of its walking driving mechanism to left movement, thereby make its bending roll the position keeping corresponding to described first length section mid point; While contacting to the right extension limited block 43 of the first fixture 4 and the left extension limited block of the 3rd fixture 3, the bending of the crooked hydraulic means 9 in described left side is rolled and is stopped top and press, and dipper crowding gear 10 stops continuing pushing forward; Dipper crowding gear 10 stops continuing after pushing forward, and dipper crowding gear 10 keeps current pushing force horizontal stationary motionless 10 minutes, so that the part of bending forming is carried out to pressurize sizing;
I. the stay pipe telescoping mechanism 12 of dipper crowding gear 10 is retractility stay pipe 120 retraction, thereby makes to stay first length section from left to right in described three length sections and second length section is all not supported from left to right, and the 3rd length section is supported from left to right;
J. the crooked hydraulic means 9 in the middle of start top press described in second length section from left to right, until the right extension limited block of the 3rd fixture 3 and the left extension limited block of the 4th fixture 2 contact;
K. dipper crowding gear 10 bounces back described stay pipe 120 completely, so that three length sections are all not supported;
L. the crooked hydraulic means 9 on right side start top press described in the 3rd length section from left to right, until the right extension limited block of the 4th fixture 2 and the left extension limited block of the first fixture 1 contact;
M. each fixture unclamps, and takes the complete heating furnace tube of bending machining away.
Claims (1)
1. the linear pattern furnace tubing that heats fluid heating pressurize sizing is crooked, it uses a kind of crooking of the tubes equipment, described crooking of the tubes equipment comprises left frame (13) and dipper crowding gear (10), dipper crowding gear (10) is right-hand at left frame (13), the rear portion, right side of described left frame (13) is fixedly connected with dovetail guide (15), dovetail guide (15) horizontal-extending on left and right directions, the left end of dovetail guide (15) is fixedly connected with described left frame (13), dovetail groove in the rear portion of the right-hand member of dovetail guide (15) and dipper crowding gear (10) is slidably connected, the front portion of described left frame (13) is provided with the through hole passing for boiler tube, described dovetail guide (15) is upper to slide and is provided with three crooked hydraulic means (9) successively from left to right between described left frame (13) and dipper crowding gear (10), the front portion, left side of dipper crowding gear (10) is fixedly installed the first fixture (1), the front portion, right side of left frame (13) is fixedly installed the second fixture (4), between described left frame (13) and dipper crowding gear (10), be provided with fromer rail, described fromer rail straight line between the second fixture (4) and the first fixture (1) extends, and when dipper crowding gear (10) slides along described dovetail guide (15), the first fixture (1) can slide towards the second fixture (4) along fromer rail, on described fromer rail, between the second fixture (4) and the first fixture (1), be also provided with slidably the 3rd fixture (3) and the 4th fixture (2), four described fixtures (1,2,3,4) include clip base, rear fixture block (41) and front fixture block (42), described in each, the described rear fixture block (41) of fixture and front fixture block (42) all relatively arrange along the fore-and-aft direction in the plane of bending when the described boiler tube generation plain bending, and in clip base, can realize contact gripping and separated action of unclamping, wherein, described rear fixture block (41) is all positioned at described fromer rail rear, and is rectangular shape, and described front fixture block (82,42) is all positioned at described fromer rail the place ahead, and is cylindrical shape, the plane of bending of the longitudinal axis of described rectangular shape and cylindrical shape during all perpendicular to described boiler tube generation plain bending,
Wherein, on the right flank of the rear fixture block of described the second fixture (4), be provided with the right extension limited block (43) extending to the right, on the left surface of the rear fixture block of described the first fixture (1), be provided with the left extension limited block (14) extending to the left, on the left and right side of the rear fixture block of the 3rd fixture (3) and the 4th fixture (2), be provided with respectively the left extension limited block extending to the left and the right extension limited block extending to the right;
Each in described three crooked hydraulic means (9) includes driving hydraulic cylinder, and described driving hydraulic cylinder vertically arranges with respect to the longitudinal axis of dovetail guide (15), and can be in the upper slip of dovetail guide (15); The hydraulic stem end of described driving hydraulic cylinder is hinged with bending and rolls (91), and drives hydraulic cylinder to drive and to bending, roll (91) and apply bend pipe thrust forward along the direction vertical with dovetail guide (15); Each in described three crooked hydraulic means (9) all also comprises walking driving mechanism, in order to drive respectively corresponding crooked hydraulic means (9) to slide into diverse location along dovetail guide (15);
The right side of described dipper crowding gear (10) is provided with stay pipe telescoping mechanism (12), stay pipe telescoping mechanism (12) is arranged on the place ahead of described dovetail guide (15), stay pipe telescoping mechanism (12) has retractility stay pipe (120), retractility stay pipe (120) extend in described boiler tube through leaving the left side of dipper crowding gear (10) and can be used in from the right side of dipper crowding gear (10), thereby play support boiler tube and prevent that boiler tube from crooked effect occurring not expect, and can under the driving of stay pipe telescoping mechanism (12), on left and right directions, move back and forth, described retractility stay pipe can stretch into from the right-hand member of boiler tube in boiler tube and add hot fluid to supply in boiler tube, and described crooking of the tubes equipment also comprises heating fluid recycling apparatus (121), heating fluid recycling apparatus (121) add hot fluid described in can reclaiming from the left end of described boiler tube, thus described in add hot fluid and can heat up and be beneficial to flexural deformation boiler tube,
Described crooking of the tubes technique comprises the steps:
A., linear pattern boiler tube (19) is provided;
B. described linear pattern boiler tube penetrated to a through hole on described left frame (13) and advance to the right, until described linear pattern boiler tube will carry out the length of bending machining, partly stretching out in described left frame (13);
C. described the second fixture (4) clamps the left end of described linear pattern boiler tube;
D. dipper crowding gear (10) motion, so that the first fixture (1) clamps the right-hand member of linear pattern boiler tube;
E. the 3rd fixture (3) and the 4th fixture (2) clamp linear pattern boiler tube between the second fixture (4) and the first fixture (1), and make the second fixture (4), the 3rd fixture (3), the 4th fixture (2) and the first fixture (1) that the described forearm of linear pattern boiler tube is separated into three length sections equal in length;
F. each in described three crooked hydraulic means (9) makes its bending roll the mid point that (91) contact respectively corresponding each length section in described three length sections;
G. the stay pipe telescoping mechanism (12) of dipper crowding gear (10) stretches into retractility stay pipe (120) in the pipe of linear pattern boiler tube, and first length section from left to right staying in described three length sections is not supported, second and the 3rd length section is supported from left to right; Described retractility stay pipe starts to add hot fluid to supply in described boiler tube, and heating fluid recycling apparatus (121) starts to reclaim and add hot fluid in described boiler tube, described in add hot fluid described boiler tube heated up;
H. the bending of the crooked hydraulic means (9) in left side is got away and is begun outwards to push up described first length section of pressure, thereby it is crooked to make it that linear occur, dipper crowding gear (10) is synchronously followed pushing along with the carrying out of bending, meanwhile, the 3rd fixture (3), the 4th also synchronously accompany movement of fixture (2); In the process of pressing on top, the crooked hydraulic means (9) in left side under the driving of its walking driving mechanism to left movement, thereby make its bending roll the position keeping corresponding to described first length section mid point; While contacting to the right extension limited block (43) of the first fixture (4) and the left extension limited block of the 3rd fixture (3), the bending of the crooked hydraulic means (9) in described left side is rolled and is stopped top and press, and dipper crowding gear (10) stops continuing pushing forward; Dipper crowding gear (10) stops continuing after pushing forward, and dipper crowding gear (10) keeps current pushing force horizontal stationary motionless 10 minutes, so that the part of bending forming is carried out to pressurize sizing;
I. the stay pipe telescoping mechanism (12) of dipper crowding gear (10) bounces back retractility stay pipe (120), thereby make to stay first length section from left to right in described three length sections and second length section is all not supported from left to right, the 3rd length section is supported from left to right;
J. the crooked hydraulic means (9) in the middle of start top press described in second length section from left to right, until the right extension limited block of the 3rd fixture (3) contacts with the left extension limited block of the 4th fixture (2);
K. dipper crowding gear (10) bounces back described stay pipe (120) completely, so that three length sections are all not supported;
L. the crooked hydraulic means (9) on right side start top press described in the 3rd length section from left to right, until the right extension limited block of the 4th fixture (2) and the left extension limited block of the first fixture (1) contact;
M. each fixture unclamps, and takes the complete heating furnace tube of bending machining away.
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CN201410146952.4A CN103934328A (en) | 2014-04-14 | 2014-04-14 | Linear type heating furnace tube bending technology |
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CN201410146952.4A CN103934328A (en) | 2014-04-14 | 2014-04-14 | Linear type heating furnace tube bending technology |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103920767A (en) * | 2014-04-14 | 2014-07-16 | 杨晓锋 | Bending technology for furnace tube of linear heating furnace |
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JPH10291033A (en) * | 1997-04-21 | 1998-11-04 | Yamamoto Suiatsu Kogyosho:Kk | Tube bender |
JP2004154791A (en) * | 2002-11-05 | 2004-06-03 | Ims Kk | Workpiece bending apparatus |
CN101564742A (en) * | 2009-04-28 | 2009-10-28 | 北京中电华强焊接工程技术有限公司 | Tube bending machine and clamping mechanism thereof |
CN102688920A (en) * | 2011-12-25 | 2012-09-26 | 河南科技大学 | Pipe bender and bending method using pipe bender |
CN103920767A (en) * | 2014-04-14 | 2014-07-16 | 杨晓锋 | Bending technology for furnace tube of linear heating furnace |
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2014
- 2014-04-14 CN CN201410146952.4A patent/CN103934328A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH10291033A (en) * | 1997-04-21 | 1998-11-04 | Yamamoto Suiatsu Kogyosho:Kk | Tube bender |
JP2004154791A (en) * | 2002-11-05 | 2004-06-03 | Ims Kk | Workpiece bending apparatus |
CN101564742A (en) * | 2009-04-28 | 2009-10-28 | 北京中电华强焊接工程技术有限公司 | Tube bending machine and clamping mechanism thereof |
CN102688920A (en) * | 2011-12-25 | 2012-09-26 | 河南科技大学 | Pipe bender and bending method using pipe bender |
CN103920767A (en) * | 2014-04-14 | 2014-07-16 | 杨晓锋 | Bending technology for furnace tube of linear heating furnace |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103920767A (en) * | 2014-04-14 | 2014-07-16 | 杨晓锋 | Bending technology for furnace tube of linear heating furnace |
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Application publication date: 20140723 |