CN104056877A - Bundy pipe straightening cutting machine - Google Patents

Bundy pipe straightening cutting machine Download PDF

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Publication number
CN104056877A
CN104056877A CN201410298063.XA CN201410298063A CN104056877A CN 104056877 A CN104056877 A CN 104056877A CN 201410298063 A CN201410298063 A CN 201410298063A CN 104056877 A CN104056877 A CN 104056877A
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CN
China
Prior art keywords
feeding
straightening
inroller
clamping
wheels
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201410298063.XA
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Chinese (zh)
Inventor
徐肖冰
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Anji Taizhou Electronics Co Ltd
Original Assignee
Anji Taizhou Electronics Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Anji Taizhou Electronics Co Ltd filed Critical Anji Taizhou Electronics Co Ltd
Priority to CN201410298063.XA priority Critical patent/CN104056877A/en
Publication of CN104056877A publication Critical patent/CN104056877A/en
Pending legal-status Critical Current

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Abstract

The invention relates to a Bundy pipe straightening cutting machine which is provided with a feeding mechanism, a straightening mechanism and a cutting-off device which are arranged on a working table. The feeding mechanism comprises a first feeding wheel set and a second feeding wheel set; the straightening mechanism comprises a horizontal straightening wheel set and a vertical straightening wheel set; according to the feeding direction, the first feeding wheel set, the horizontal straightening wheel set, the vertical straightening wheel set, the second feeding wheel set and the cutting-off device are sequentially arranged on the working table; a guide wheel set is also arranged between the second feeding wheel set and the cutting-off device; and a stroke sensing switch is arranged on the guide wheel set. According to the Bundy pipe straightening cutting machine, cutting-off work can be intelligently carried out and production efficiency is improved. Meanwhile, according to the Bundy pipe straightening cutting machine, a conventional belt pulley delivery mechanism is abandoned, loss of parts is greatly reduced and cost investment is reduced.

Description

Bandaid pipe aligning cutting-off device
Technical field
The present invention relates to a kind of pipe fitting straightening and abscinding equipment, particularly a kind of Bandaid pipe aligning cutting-off device.
Background technology
In the production of condenser, the straightening of pipeline and fracture are first step operations.In traditional pipeline aligning cutting-off device, feed mechanism utilizes the belt pulley conveyer being oppositely arranged up and down often, between upper and lower belt pulley conveyer, leave feeding channel, utilize frictional force between pipeline and belt to realize the transmission of materials in the tube, and bar straightening mechanism is arranged in belt pulley conveyer, in the process at belt, materials in the tube being transmitted like this, just can realize the straightening effect of pipeline.But traditional belt pulley, after the use through after a while, tends to find that its wearing and tearing are very serious, will carry out replacing and the debugging work of belt this time.
And in traditional pipeline aligning cutting-off device, adopt often conventional smear metal cutter to carry out cut-out work.Because condenser pipe is often used Bandaid pipe, its quality is relatively soft, is easy to cause the distortion of incision position in cutting-off process, affects the quality of product.
Summary of the invention
The object of this invention is to provide a kind of Bandaid pipe aligning cutting-off device that can effectively avoid the distortion of pipe fitting cutting portion and reduce feed mechanism wearing and tearing.
The technical scheme that realizes the object of the invention is: the present invention has feed mechanism, bar straightening mechanism and the shearing device being arranged on workbench; It is characterized in that: described feed mechanism comprises the first feeding wheels and the second feeding wheels; Described bar straightening mechanism comprises horizontal straightening wheel group and vertical straightening wheel group; By setting gradually the first feeding wheels, horizontal straightening wheel group, vertical straightening wheel group, the second feeding wheels and shearing device on feed direction workbench;
Described horizontal straightening wheel group comprises horizontally disposed installing plate, is fixed with a plurality of horizontal direction straightening wheels that are staggered front to back arrangement on installing plate, leaves the aligning passage passing for materials in the tube between horizontal direction straightening wheel; Described vertical straightening wheel group comprises vertically disposed installing plate, is fixed with a plurality of upper and lower staggered vertical direction straightening wheels on installing plate, leaves the aligning passage passing for materials in the tube between vertical direction straightening wheel; Aligning passage between described horizontal direction straightening wheel and the aligning passage between vertical direction straightening wheel are point-blank;
Described the first feeding wheels comprise the first driving box, on the first driving box, be vertically provided with drawing-inroller and lower drawing-inroller, on upper drawing-inroller and lower drawing-inroller, be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller and lower drawing-inroller forms feeding channel at the field of conjugate action; The feeding channel of described the first feeding wheels and the aligning passage on bar straightening mechanism are point-blank; The feed side that is positioned at the feeding channel of the first feeding wheels on described the first driving box is provided with materials in the tube guide pad, and materials in the tube guide pad is provided with and the feeding channel of the first feeding wheels charging hole point-blank;
Described the second feeding wheels comprise the second driving box, on the second driving box, be vertically provided with drawing-inroller and lower drawing-inroller, on upper drawing-inroller and lower drawing-inroller, be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller and lower drawing-inroller forms feeding channel at the field of conjugate action; The feeding channel of described the second feeding wheels and the aligning passage on bar straightening mechanism are point-blank;
Between described the second feeding wheels and shearing device, be also provided with guiding wheels; Described guiding wheels comprise upper directive wheel and the lower directive wheel being vertically set on the 3rd driving box; On upper directive wheel and lower directive wheel, be equipped with annular deflector chute, the annular deflector chute on the annular deflector chute of upper directive wheel and lower directive wheel forms guide passage at the field of conjugate action; The feeding channel of described guide passage and the second feeding wheels point-blank;
Described guiding wheels are provided with stroke inductive switch, and stroke inductive switch is arranged on the exit side of guide passage.
As optimization, above-mentioned shearing device comprises clamp mould, cutting off tool group and moving clamping successively by feed direction;
Described clamp mould comprises clamp die holder, the first clamping and controls the first pneumatic means of the first clamping folding; Described the first clamping is fixedly mounted on clamp die holder, and the first pneumatic means is fixedly mounted on clamp die holder;
Described moving clamping comprises moving clamping seat, the second clamping and controls moving clamping seat and slidably reciprocates and control the second pneumatic means of the second clamping folding along feed direction; Described moving clamping seat is slidably mounted on workbench, and the second clamping is fixedly mounted on moving clamping seat, and the second pneumatic means is fixedly mounted on moving clamping seat;
In described the first clamping and the second clamping, be equipped with the clamping passage passing through for materials in the tube, the feeding channel of clamping passage and the second feeding wheels is on same straight line;
Described cutting off tool group comprises the 4th driving box, connects rotating disk, the toolbox of drive motors; Described the 4th driving box is provided with rotating disk, the center of rotating disk be provided with one with feed orifice point-blank of clamping passage, in the both sides of feed orifice, be relatively provided with two chutes, on each chute, be equipped with a toolbox; Described toolbox comprises connecting rod and cutter, and one end of connecting rod is fixedly connected with cutter, and the other end of connecting rod stretches in the 4th driving box and is connected with driving its drive unit moving at chute through chute.
As optimization, on the above-mentioned work top that shearing device is set, be fixed with slide bar, one end of slide bar is fixedly connected with the clamp die holder of clamp mould, and the other end of slide bar is fixed with limited block, and the moving clamping seat of moving clamping is slidably arranged on slide bar and between limited block and cutting off tool group.
As optimization, the cutter on above-mentioned toolbox is disc, and its outer circumferential edge is cutting edge.
As optimization, above-mentioned driving box is provided with guide pad towards a side of clamp mould, and described guide pad is provided with and clamps passage material guide hole point-blank.
The present invention has positive effect: the feed mechanism in (1) the present invention does not adopt traditional belt pulley transmission, has avoided the wearing and tearing of belt pulley and the replacing of later stage belt; (2) bar straightening mechanism of the present invention adopts horizontal direction straightening wheel and vertical direction straightening wheel, and this kind of design can better be carried out straightening to materials in the tube; (3) cut-out mode of the present invention is the cut channel that first cuts out certain depth in materials in the tube, and the relative sliding of recycling clamp mould and moving clamping is broken materials in the tube, and this kind of cut-out mode can well be avoided the problem of materials in the tube incision distortion.
Accompanying drawing explanation
For content of the present invention is more easily expressly understood, according to specific embodiment also by reference to the accompanying drawings, the present invention is further detailed explanation, wherein below
Fig. 1 is perspective view of the present invention;
Fig. 2 is the structural representation of shearing device of the present invention;
Fig. 3 is the structural representation of the rotating disk of shearing device in the present invention.
Fig. 4 is the front view of cutting off tool group in the present invention.
The specific embodiment
See Fig. 1 to Fig. 4, the present invention has feed mechanism 2, bar straightening mechanism 3 and the shearing device 4 being arranged on workbench 1; Described feed mechanism 2 comprises the first feeding wheels 21 and the second feeding wheels 22; Described bar straightening mechanism 3 comprises horizontal straightening wheel group 31 and vertical straightening wheel group 32; By setting gradually the first feeding wheels 21, horizontal straightening wheel group 31, vertical straightening wheel group 32, the second feeding wheels 22 and shearing device 4 on feed direction workbench 1;
Described horizontal straightening wheel group 31 comprises horizontally disposed installing plate 31-1, is fixed with a plurality of horizontal direction straightening wheel 31-2 that are staggered front to back arrangement on installing plate 31-1, leaves the aligning passage passing for materials in the tube between horizontal direction straightening wheel 31-2; Described vertical straightening wheel group 32 comprises vertically disposed installing plate 32-1, is fixed with a plurality of upper and lower staggered vertical direction straightening wheel 32-2 on installing plate 32-1, leaves the aligning passage passing for materials in the tube between vertical direction straightening wheel 32-2; Aligning passage between described horizontal direction straightening wheel 31-2 and the aligning passage between vertical direction straightening wheel 32-2 are point-blank;
Described the first feeding wheels 21 comprise the first driving box 21-1, on the first driving box, be vertically provided with drawing-inroller 21-2 and lower drawing-inroller 21-3, on upper drawing-inroller 21-2 and lower drawing-inroller 21-3, be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller 21-2 and lower drawing-inroller 21-3 forms feeding channel at the field of conjugate action; Aligning passage on the feeding channel of described the first feeding wheels 21 and bar straightening mechanism 3 point-blank; The feed side that is positioned at the feeding channel of the first feeding wheels 21 on described the first driving box 21-1 is provided with materials in the tube guide pad 21-4, and materials in the tube guide pad 21-4 is provided with and the feeding channel of the first feeding wheels 21 charging hole point-blank;
Described the second feeding wheels 22 comprise the second driving box 22-1, on the second driving box 22-1, be vertically provided with drawing-inroller 22-2 and lower drawing-inroller 22-3, on upper drawing-inroller 22-2 and lower drawing-inroller 22-3, be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller 22-2 and lower drawing-inroller 22-3 forms feeding channel at the field of conjugate action; Aligning passage on the feeding channel of described the second feeding wheels 22 and bar straightening mechanism 3 point-blank;
Between described the second feeding wheels 22 and shearing device 4, be also provided with guiding wheels 5; Described guiding wheels 5 comprise upper directive wheel 52 and the lower directive wheel 53 being vertically set on the 3rd driving box 51; On upper directive wheel 52 and lower directive wheel 53, be equipped with annular deflector chute, the annular deflector chute on the annular deflector chute of upper directive wheel 52 and lower directive wheel 53 forms guide passage at the field of conjugate action; The feeding channel of described guide passage and the second feeding wheels 22 point-blank;
Described guiding wheels 5 are provided with stroke inductive switch 6, and stroke inductive switch 6 is arranged on the exit side of guide passage.
Described shearing device 4 comprises clamp mould 41, cutting off tool group 42 and moving clamping 43 successively by feed direction;
Described clamp mould 41 comprises clamp die holder 41-1, the first clamping 41-2 and controls the first pneumatic means 41-3 of the first clamping 41-2 folding; It is upper that described the first clamping 41-2 is fixedly mounted on clamp die holder 41-1, and the first pneumatic means 41-3 is fixedly mounted on clamp die holder 41-1;
Described moving clamping 43 comprises moving clamping seat 43-1, the second clamping 43-2 and controls moving clamping seat 43-1 and slidably reciprocates and control the second pneumatic means 43-3 of the second clamping 43-2 folding along feed direction; It is upper that described the second clamping 43-2 is fixedly mounted on moving clamping seat 43-1, and the second pneumatic means 43-3 is fixedly mounted on moving clamping seat 43-1;
On described the first clamping 41-2 and the second clamping 43-2, be equipped with the clamping passage passing through for materials in the tube, the feeding channel of clamping passage and the second feeding wheels 22 is on same straight line;
42 groups of rotating disk 42-2, toolbox 42-3 that comprise the 4th driving box 42-1, connect drive motors of described cutting off tool; Described the 4th driving box 42-1 is provided with rotating disk 42-2, the center of rotating disk 42-2 be provided with one with feed orifice 42-4 point-blank of clamping passage, in the both sides of feed orifice 42-4, be relatively provided with two chute 42-5, on each chute 42-5, be equipped with a toolbox 42-3; Described toolbox 42-3 comprises connecting rod 42-6 and cutter 42-7, one end of connecting rod 42-6 is fixedly connected with cutter 42-7, and the other end of connecting rod 42-6 stretches in the 4th driving box 42-1 and is connected with driving its drive unit moving at chute 42-5 through chute 42-5.
On the described workbench 1 that shearing device 4 is set, be fixed with slide bar 44, one end of slide bar 44 is fixedly connected with the clamp die holder 41-1 of clamp mould 41, the other end of slide bar 44 is fixed with limited block 45, and the moving clamping seat 43-1 of moving clamping 43 is slidably arranged on slide bar 44 and between limited block 45 and cutting off tool group 42.
Cutter 42-7 on described toolbox 42-3 is disc, and its outer circumferential edge is cutting edge.
Described the 4th driving box 42-1 is provided with guide pad 46 towards a side of clamp mould 41, and described guide pad 46 is provided with and clamps passage material guide hole point-blank.
In feeding process, Bandaid pipe is advanced to shearing device 4 directions under the effect of feed mechanism 2, and Bandaid pipe carries out straightening under the effect of bar straightening mechanism 3.After the length arranging of advancing, under the induction of stroke inductive switch 6, feed mechanism 2 stops feeding, clamp mould 41 and the moving clamping 43 of shearing device clamp materials in the tube, when rotating disk 42-2 rotates, toolbox 42-3 advances to feed orifice 42-4, cutter 42-7 cuts out the cut channel of certain depth in materials in the tube, and now moving clamping 43 is slided materials in the tube are broken.Because materials in the tube are finally broken, its port can not deform.
Above-described specific embodiment; object of the present invention, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any modification of making, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (5)

1. a Bandaid pipe aligning cutting-off device, has the feed mechanism (2), bar straightening mechanism (3) and the shearing device (4) that are arranged on workbench (1); It is characterized in that: described feed mechanism (2) comprises the first feeding wheels (21) and the second feeding wheels (22); Described bar straightening mechanism (3) comprises horizontal straightening wheel group (31) and vertical straightening wheel group (32); By setting gradually the first feeding wheels (21), horizontal straightening wheel group (31), vertical straightening wheel group (32), the second feeding wheels (22) and shearing device (4) on feed direction workbench (1);
Described horizontal straightening wheel group (31) comprises horizontally disposed installing plate (31-1), on installing plate (31-1), be fixed with a plurality of horizontal direction straightening wheels (31-2) that are staggered front to back arrangement, between horizontal direction straightening wheel (31-2), leave the aligning passage passing for materials in the tube; Described vertical straightening wheel group (32) comprises vertically disposed installing plate (32-1), on installing plate (32-1), be fixed with a plurality of upper and lower staggered vertical direction straightening wheels (32-2), between vertical direction straightening wheel (32-2), leave the aligning passage passing for materials in the tube; Aligning passage between aligning passage between described horizontal direction straightening wheel (31-2) and vertical direction straightening wheel (32-2) point-blank;
Described the first feeding wheels (21) comprise the first driving box (21-1), on the first driving box, be vertically provided with drawing-inroller (21-2) and lower drawing-inroller (21-3), on upper drawing-inroller (21-2) and lower drawing-inroller (21-3), be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller (21-2) and lower drawing-inroller (21-3) forms feeding channel at the field of conjugate action; Aligning passage on the feeding channel of described the first feeding wheels (21) and bar straightening mechanism (3) point-blank; The feed side that is positioned at the feeding channel of the first feeding wheels (21) on described the first driving box (21-1) is provided with materials in the tube guide pad (21-4), and materials in the tube guide pad (21-4) is provided with and the feeding channel of the first feeding wheels (21) charging hole point-blank;
Described the second feeding wheels (22) comprise the second driving box (22-1), on the second driving box (22-1), be vertically provided with drawing-inroller (22-2) and lower drawing-inroller (22-3), on upper drawing-inroller (22-2) and lower drawing-inroller (22-3), be equipped with annular chute feeder, the annular chute feeder on the annular chute feeder of upper drawing-inroller (22-2) and lower drawing-inroller (22-3) forms feeding channel at the field of conjugate action; Aligning passage on the feeding channel of described the second feeding wheels (22) and bar straightening mechanism (3) point-blank;
Between described the second feeding wheels (22) and shearing device (4), be also provided with guiding wheels (5); Described guiding wheels (5) comprise upper directive wheel (52) and the lower directive wheel (53) being vertically set on the 3rd driving box (51); On upper directive wheel (52) and lower directive wheel (53), be equipped with annular deflector chute, the annular deflector chute on the annular deflector chute of upper directive wheel (52) and lower directive wheel (53) forms guide passage at the field of conjugate action; The feeding channel of described guide passage and the second feeding wheels (22) point-blank;
Described guiding wheels (5) are provided with stroke inductive switch (6), and stroke inductive switch (6) is arranged on the exit side of guide passage.
2. Bandaid pipe aligning cutting-off device according to claim 1, is characterized in that: described shearing device (4) comprises clamp mould (41), cutting off tool group (42) and moving clamping (43) successively by feed direction;
Described clamp mould (41) comprises clamp die holder (41-1), the first clamping (41-2) and controls first pneumatic means (41-3) of the first clamping (41-2) folding; It is upper that described the first clamping (41-2) is fixedly mounted on clamp die holder (41-1), and the first pneumatic means (41-3) is fixedly mounted on clamp die holder (41-1);
Described moving clamping (43) comprises moving clamping seat (43-1), the second clamping (43-2) and controls moving clamping seat (43-1) and slidably reciprocates and control second pneumatic means (43-3) of the second clamping (43-2) folding along feed direction; It is upper that described moving clamping seat (43-1) is slidably mounted on workbench (1), and it is upper that the second clamping (43-2) is fixedly mounted on moving clamping seat (43-1), and the second pneumatic means (43-3) is fixedly mounted on moving clamping seat (43-1);
In described the first clamping (41-2) and the second clamping (43-2), be equipped with the clamping passage passing through for materials in the tube, the feeding channel of clamping passage and the second feeding wheels (22) is on same straight line;
Described cutting off tool (42) group comprises the 4th driving box (42-1), connects rotating disk (42-2), the toolbox (42-3) of drive motors; Described the 4th driving box (42-1) is provided with rotating disk (42-2), the center of rotating disk (42-2) be provided with one with feed orifice (42-4) point-blank of clamping passage, in the both sides of feed orifice (42-4), be relatively provided with two chutes (42-5), on each chute (42-5), be equipped with a toolbox (42-3); Described toolbox (42-3) comprises connecting rod (42-6) and cutter (42-7), one end of connecting rod (42-6) is fixedly connected with cutter (42-7), and the other end of connecting rod (42-6) stretches in the 4th driving box (42-1) and is connected at the mobile drive unit of chute (42-5) with driving it through chute (42-5).
3. Bandaid pipe aligning cutting-off device according to claim 2, it is characterized in that: on the described workbench (1) that shearing device (4) are set, be fixed with slide bar (44), one end of slide bar (44) is fixedly connected with the clamp die holder (41-1) of clamp mould (41), the other end of slide bar (44) is fixed with limited block (45), and the moving clamping seat (43-1) of moving clamping (43) is slidably arranged in slide bar (44) above and is positioned between limited block (45) and cutting off tool group (42).
4. Bandaid pipe aligning cutting-off device according to claim 3, is characterized in that: the cutter (42-7) on described toolbox (42-3) is disc, and its outer circumferential edge is cutting edge.
5. Bandaid pipe aligning cutting-off device according to claim 4, it is characterized in that: described the 4th driving box (42-1) is provided with guide pad (46) towards a side of clamp mould (41), described guide pad (46) is provided with and clamps passage material guide hole point-blank.
CN201410298063.XA 2014-06-26 2014-06-26 Bundy pipe straightening cutting machine Pending CN104056877A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410298063.XA CN104056877A (en) 2014-06-26 2014-06-26 Bundy pipe straightening cutting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410298063.XA CN104056877A (en) 2014-06-26 2014-06-26 Bundy pipe straightening cutting machine

Publications (1)

Publication Number Publication Date
CN104056877A true CN104056877A (en) 2014-09-24

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410298063.XA Pending CN104056877A (en) 2014-06-26 2014-06-26 Bundy pipe straightening cutting machine

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Country Link
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104923589A (en) * 2015-05-27 2015-09-23 成都绿迪科技有限公司 Straightening mechanism of steel pipe straightener
CN110899576A (en) * 2019-12-13 2020-03-24 吴江市金澜机械制造有限公司 Rotary cutting device for screw steel wire rope
CN113000921A (en) * 2021-03-31 2021-06-22 王童 Ring chain raw and other materials cuts device
CN113523029A (en) * 2021-07-15 2021-10-22 佛山市承安铜业有限公司 Material loading bar straightener

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104923589A (en) * 2015-05-27 2015-09-23 成都绿迪科技有限公司 Straightening mechanism of steel pipe straightener
CN110899576A (en) * 2019-12-13 2020-03-24 吴江市金澜机械制造有限公司 Rotary cutting device for screw steel wire rope
WO2021114763A1 (en) * 2019-12-13 2021-06-17 吴江市金澜机械制造有限公司 Rotary cutting device for screw wire rope
CN110899576B (en) * 2019-12-13 2021-08-27 吴江市金澜机械制造有限公司 Rotary cutting device for screw steel wire rope
CN113000921A (en) * 2021-03-31 2021-06-22 王童 Ring chain raw and other materials cuts device
CN113000921B (en) * 2021-03-31 2022-03-18 河北诚越矿山机械制造有限公司 Ring chain raw and other materials cuts device
CN113523029A (en) * 2021-07-15 2021-10-22 佛山市承安铜业有限公司 Material loading bar straightener

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Application publication date: 20140924