CN202106201U - Numerical control manufacturing plant for ribbed steel bars - Google Patents

Numerical control manufacturing plant for ribbed steel bars Download PDF

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Publication number
CN202106201U
CN202106201U CN2011200233643U CN201120023364U CN202106201U CN 202106201 U CN202106201 U CN 202106201U CN 2011200233643 U CN2011200233643 U CN 2011200233643U CN 201120023364 U CN201120023364 U CN 201120023364U CN 202106201 U CN202106201 U CN 202106201U
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CN
China
Prior art keywords
flying shear
counting
scissors
shear
cutterhead
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Expired - Lifetime
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CN2011200233643U
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Chinese (zh)
Inventor
陈振东
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Tianjin Jianke Mechanical Products Co Ltd
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Tianjin Jianke Mechanical Products Co Ltd
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Abstract

The utility model discloses a numerical control manufacturing plant for ribbed steel bars, which comprises a cold rolling machine set, a heat treatment device, a flying shear device and a receiving device, wherein a dephosphorizing machine is arranged at the upstream of a reducing rolling machine; the flying shear device comprises a pair of upper and lower shears for shearing the steel bars; the upper and the lower shears are respectively fixed to an upper flying shear disk and a lower flying shear disk; the upper flying shear disk and the lower flying shear disk are respectively fixed at one side end part of an upper shear shaft and one side end part of a lower shear shaft; the upper shear shaft and the lower shear shaft are two rotating power output shafts in a power output device; and the power output device is arranged on a flying shear frame. The utility model has the benefits that the defects in original cold rolling of ribbed steel bars are overcome, and the dephosphorizing machine can remove the oxidation skin on the surface of the steel bars to improve the quality of products. The flying shear device achieves dynamic on-line shearing, the quality of the shear ends of the steel bars is good; and the numerical control manufacturing plant has the advantages of simple structure, low cost and easiness in operation. An on-line counting device can accurately and automatically count and has the advantage of high automation degree.

Description

Numerical control Ribbed Bar process units
Technical field
The utility model relates to numerical control Ribbed Bar process units.
Background technology
From the twentieth century later stage, domestic cold rolled reinforcing steel bar with ribs develops rapidly becomes the novel building rolling shapes because cold rolled reinforcing steel bar with ribs have intensity height, plasticity good, be easy to processing, and strong with the cement bond stress, can practice thrift advantages such as great deal of steel.
At present, the mode of domestic production cold rolled reinforcing steel bar with ribs has passive type rolling mode and active rolling mode, though cold rolled reinforcing bar intensity is higher, exist percentage elongation to hang down defective, so the use of cold rolled reinforcing bar is restricted.For overcoming above-mentioned defective, there is the people that the cold rolled reinforcing steel bar with ribs production line is improved, promptly the cold rolled reinforcing steel bar with ribs production line is provided with reinforcing bar tempering heat treatment operation, therefore can improve the combination property of cold rolled reinforcing steel bar with ribs.Though the cold rolled reinforcing steel bar with ribs production line after the above-mentioned improvement has improved the combination property of reinforcing bar, but still have following defective: at first, the cold rolled reinforcing steel bar with ribs production line after the improvement does not have counting device, can not add up the quantity of production line reinforcing bar automatically; Secondly; The shear arrangement of the cold rolled reinforcing steel bar with ribs after the improvement is arranged on tempering heat treatment operation back; Shear arrangement adopts eccentric cut-out mode shear reinforcement; But because the reinforcing bar itself behind the heat treatment step has uniform temperature, slope and buckling phenomenon appear in the crop place that shears the back reinforcing bar, directly influence the cold rolled reinforcing steel bar with ribs quality of finished; Have, because there is oxide skin in the reinforcing bar raw material, the oxide skin that in the cold rolling unit operation of rolling, comes off not only is bonded on the roll, also destroys the moulding of cold rolled reinforcing steel bar with ribs again.
Summary of the invention
The purpose of the utility model is to overcome the deficiency of above-mentioned technology, a kind of output of online record Ribbed Bar is provided and has the numerical control Ribbed Bar process units of shearing back Ribbed Bar crop quality better.
The technical scheme that solves the problems of the technologies described above is: a kind of numerical control Ribbed Bar process units; Said numerical control Ribbed Bar process units comprises: tube reducing also forms cold rolling unit, annealing device, shear arrangement and material collecting device with ribbing; Also include the dephosphorization machine, said dephosphorization machine is arranged on the tube reducing milling train upper reaches; Said shear arrangement comprises: the last scissors and the lower scissors of pair of shear reinforcing bar; Last scissors and lower scissors are separately fixed on last flying shear cutterhead that the identical and switched in opposite of rotating speed is set up and down and the following flying shear cutterhead; Last flying shear cutterhead is separately fixed at following flying shear cutterhead and cuts an axle and a side end of cutting axle down; On to cut axle spool be two rotary power output shafts that the PTO medium speed is identical and switched in opposite is provided with up and down with cutting down, said PTO is arranged on the flying shear frame.
The beneficial effect of the utility model is: the utility model overcomes the defective of original cold rolled reinforcing steel bar with ribs; The utility model is provided with the dephosphorization machine before the tube reducing milling train; The dephosphorization machine realizes that mechanical type removes the effect of scale such as rebar surface oxide skin; The oxide skin that has solved the reinforcing bar raw material influences the difficult problem of equipment and product quality, can improve product quality and production efficiency effectively.
The shear arrangement of the utility model has rotary shear constitution, realizes dynamic on-line shearing, and scissors rotational line speed is identical with the reinforcing bar speed of travel, behind the on-line shearing Ribbed Bar crop quality better have simple in structure, cost is low, the advantage of processing ease.
The online counting device of the utility model can be adjusted the driven synchronous pulley of counting position at any time, makes synchronous band be in tight state, realizes accurately, counts automatically, and the quantity of statistics production line reinforcing bar has the high advantage of automaticity.
Description of drawings
Fig. 1 is the utility model sketch map;
Fig. 2 is a shear arrangement front view among Fig. 1;
Fig. 3 is an A portion enlarged drawing among Fig. 2;
Fig. 4 is the right side view of Fig. 2, wherein shows flying shear transmission mechanism partial cutaway;
Fig. 5 is the counting device front view;
Fig. 6 is a B-B cutaway view among Fig. 5;
Fig. 7 is a C-C cutaway view among Fig. 5.
" sequence number explanation in the accompanying drawing "
1: reinforcing bar; 2a: horizontal pay off rack; 2b: reason wire frame; 3: the dephosphorization machine; 4: the tube reducing milling train; 5: main mill; 6: straightening mechanism; 7: counting device; 7a: counting driving mechanism; 8: annealing device; 9: the anti-channeling actuation mechanism; 10: shear arrangement; 10a: flying shear transmission mechanism; 10b: flying shear driving mechanism; 10c: flying shear conduit; 11: material collecting device;
71: counting frame, 72: reinforced catheter, 73: counting housing, 74: compress cylinder, 75: counter wheel, 76: code device, 77: driven pulley, 78: driven shaft, 79: counter axis, 80: bearing box; 81: counting active synchronization belt wheel; 82: the bearing axle; 83: the encoder support; 84: count driven synchronous pulley; 85: bearing; 86: the encoder bearing pin; 87: shaft coupling; 88: encoder; 89: be with synchronously; 90: the screw rod support plate; 91: screw rod; 92: spring; 93: adjusting nut;
101: flying shear frame, 102: flying shear casing, 103a: go up the flying shear cutterhead; 103b: following flying shear cutterhead, 104: cut down axle, 105: on cut axle, 106: gear; 107:108: shaft coupling; 109: reductor; 110: driven synchronous pulley, 111: be with synchronously; 112: servomotor; 113: the active synchronization belt wheel; 114a: go up scissors; 114b: lower scissors; 115: the scissors pressing plate; 116: securing member.
The specific embodiment
Embodiment to the utility model further details below in conjunction with accompanying drawing.
Fig. 1 is the utility model sketch map; Fig. 2 is a shear arrangement front view among Fig. 1; Fig. 3 is an A portion enlarged drawing among Fig. 2; Fig. 4 is the right side view of Fig. 2, wherein shows flying shear transmission mechanism partial cutaway; Fig. 5 is the counting device front view; Fig. 6 is a B-B cutaway view among Fig. 5; Fig. 7 is a C-C cutaway view among Fig. 5.
The utility model provides a kind of numerical control Ribbed Bar process units, and said numerical control Ribbed Bar process units comprises: tube reducing also forms cold rolling unit with ribbing, annealing device 8, shear arrangement 10 and material collecting device 11.
Said cold rolling unit comprises tube reducing milling train 4 of the prior art and main mill 5; Also be provided with straightening mechanism 6 in main mill 5 downstream.Reinforcing bar after 6 pairs of straightening mechanisms are rolling is aligned and then is realized that the part of reinforcing bar internal stress eliminates;
As shown in fig. 1, this actinobacillus device comprises horizontal pay off rack 2a and reason wire frame 2b.
The utility model also includes dephosphorization machine 3, and said dephosphorization machine 3 is arranged on tube reducing milling train 4 upper reaches.
Said shear arrangement 10 comprises: the last scissors 114a and the lower scissors 114b of pair of shear reinforcing bar; Last scissors 114a and lower scissors 114b are separately fixed on last flying shear cutterhead 103a that the identical and switched in opposite of rotating speed is set up and down and the following flying shear cutterhead 103b; Last flying shear cutterhead 103a is separately fixed at following flying shear cutterhead 103b and cuts an axle 105 and a side end of cutting axle 104 down; On to cut axle 105 are two rotary power output shafts that the PTO medium speed is identical and switched in opposite is provided with up and down with cutting down spools 104, said PTO is arranged on the flying shear frame 101.
The scale of the utility model shear arrangement 10 realization reinforcing bars is cut out.For guaranteeing reinforcing bar 1 shearing quality; Be equipped with anti-channeling actuation mechanism 9 in shear arrangement 10 provided upstream, this anti-channeling actuation mechanism 9 is selected general straightening mechanism for use, promptly is respectively arranged with the aligning running roller up and down at reinforcing bar 1; This restriction reinforcing bar play about in the of 1 guarantees that reinforcing bar 1 steadily gets into shear arrangement 10.
For guaranteeing reinforcing bar 1 shearing quality; Before reinforcing bar 1 gets into scissors 114a and lower scissors 114b; Be introduced into flying shear conduit 10c; The structure of flying shear conduit 10c comprises: be fixedly supported on the reinforced catheter 72 on the flying shear frame 101, the outlet opening position of center line of reinforced catheter 72 is positioned at the mid point of scissors 114a and lower scissors 114b spacing.The aperture of the outlet opening of reinforced catheter 72 and reinforcing bar 1 diameter need accurate matched in clearance.
Said scissors 114a and the lower scissors 114b of going up is separately fixed in the groove that flying shear cutterhead 103a and following flying shear cutterhead 103b cave inward from its edge; Last flying shear cutterhead 103a is identical with the structure of following flying shear cutterhead 103b groove; A side in the said groove is a vertical plane; Another side of groove is up big and down small inclined-plane, in last flying shear cutterhead 103a groove, to the inclined-plane scissors 114a and scissors pressing plate 115 is housed successively from vertical plane; To the inclined-plane lower scissors 114b and scissors pressing plate 115 are being housed successively from vertical plane in the flying shear cutterhead 103b groove down; The inclined-plane of said scissors pressing plate 115 1 sides coincide and to be attached on the inclined-plane in the said groove, and securing member runs through scissors pressing plate 115 and will go up respectively in the groove that scissors 114a and scissors pressing plate 115, lower scissors 114b and scissors pressing plate 115 be pressed abd fixed on the interior and following flying shear cutterhead 103b of the groove of flying shear cutterhead 103a.
Said PTO comprises flying shear driving mechanism 10b and flying shear transmission mechanism 10a; Said flying shear driving mechanism 10b comprises: be contained in active synchronization belt wheel 113 on the servomotor 112 through being with 111 to connect driven synchronous pulley 110 synchronously; Driven synchronous pulley 110 is contained on reductor 109 power shafts, and reductor 109 output shafts connect following axle 104 end side of cutting among the flying shear transmission mechanism 10a through shaft coupling 108; Said flying shear transmission mechanism 10a comprises flying shear casing 102, hinged on the flying shear casing 102 and support be provided with up and down on cut axle 105 and cut axle 104 down, last cut axle 105 with following cut to be equipped with respectively on spools 104 be meshing with each other and gear 106 that the number of teeth is identical.
The utility model also includes the counting device 7 that is arranged on cold rolling unit downstream, and described counting device 7 comprises: count frame 71, be arranged on counting driving mechanism 7a and code device 76 on the counting frame 71.
Said counting driving mechanism 7a comprises: be fixed on the counting housing 73 of counting on the frame 71, be fixed with at counting housing 73 tops and compress cylinder 74, compress that piston on the cylinder 74 stretches in the counting housing 73 connection bearing boxes 80 and driving bearing box 80 moves up and down; The hinged counter axis 79 that is supported with on bearing box 80, the end of counter axis 79 1 sides is equipped with counter wheel 75, and the end of counter axis 79 opposite sides is equipped with counting active synchronization belt wheel 81; Below counter wheel 75, be provided with counting driven pulley 77, counting driven pulley 77 is hinged on driven shaft 78 ends, and this driven shaft 78 is fixed on the counting housing 73; Counter wheel 75 moves down and counts driven pulley 77 and contact reinforcing bar 1 simultaneously with bearing box 80.
Said code device 76 comprises: support and be fixed on the bearing axle 82 on the counting frame 71; On bearing axle 82, be hinged with the bottom of encoder support 83; The upper support of encoder support 83 also is hinged with encoder bearing pin 86 through bearing 85; Encoder bearing pin 86 1 ends are equipped with the driven synchronous pulley 84 of counting, and this counts driven synchronous pulley 84 through being with 89 connection count active synchronization belt wheels 81 synchronously; Encoder bearing pin 86 other ends connect encoder 88 through shaft coupling 87; The middle part of encoder support 83 is provided with screw rod support plate 90, and the one of which end was fixed on the counting housing 73 after screw rod 91 ran through the through hole on the screw rod support plate 90; On the screw rod 91 between screw rod support plate 90 and the counting housing 73, spring 92 is housed; The adjusting nut 93 that spring 92 1 ends are fixed on the screw rod 91 is pushed down; On one side of spring 92 1 end in contact screw rod support plates 90, the securing member 116 of standing screw 91 is arranged in the contact of the another side of screw rod support plate 90.Counting device 7 is through friction drive counter wheel 75 rotations of reinforcing bar 1 with counter wheel 75, and encoder 88 directly is connected with counter wheel 75, makes encoder realize that counting feeds back to the PLC system (figure does not show) in the numerical control device.
More particularly; When counter wheel 75 moves down when counting driven pulley 77 and contact reinforcing bar 1 simultaneously with bearing box 80; Accurate for what guarantee to count, be with 89 should be in tight state synchronously, the position of having only adjustment to count driven synchronous pulley 84 just can make is with 89 to be in tight state synchronously.The position adjustment of the driven synchronous pulley 84 of adjustment counting is following: the position of adjusting nut 93 on screw rod 91 at first moves right; Make spring 92 be in impaction state; The lower peripheral of encoder support 83 turns right around bearing axle 82 at this moment; It is corresponding mobile to count driven synchronous pulley 84 positions, makes and is with 89 to be in tight state synchronously, realizes accurate counting.
The annealing device 8 of said cold rolling back reinforcing bar temper is heating in medium frequency stove, dielectric heating oven or a superaudio heating furnace commonly used on the market.
Narrate as follows in the face of the rolling mill practice of reinforcing bar 1 in the utility model down:
Be through former reinforcing bar 1 on the horizontal pay off rack 2a and get into electronic dephosphorization machine 3 after making in order through reason wire frame 2b, reinforcing bar 1 is removed the effect of scale such as rebar surface oxide skin by bending realization mechanical type dephosphorization machine 3 in; Reinforcing bar 1 gets into the manual rotation hand wheel in tube reducing milling train 4 backs and realizes depressing and lifting of roller sheet; Reinforcing bar 1 is deformed into flat when pair of rolls sheet rolling, get into the main mill 5 rolling profiles that become and meet " the GB GB13788-2008 of People's Republic of China (PRC) cold rolled reinforcing steel bar with ribs " standard; Reinforcing bar after 6 pairs of straightening mechanisms are rolling is aligned and then is realized that the part of reinforcing bar internal stress eliminates; Counting device 7 is through friction drive counter wheel 75 rotations of reinforcing bar 1 with counter wheel 75, and encoder 88 realizes that with the counter wheel 75 direct-connected encoders 88 that make counting feeds back to the PLC system; Annealing device 8 is used for the online temper of the reinforcing bar after cold rolling, guarantees the comprehensive mechanical property of reinforcing bar, particularly obtains desirable percentage elongation; The scale of the PLC system in the numerical control device (figure does not show) control shear arrangement 10 realization reinforcing bars is cut out; Reinforcing bar 1 after cutting out is realized the effects such as stirring, storing of finished product reinforcing bar by the both sides upender.

Claims (5)

1. numerical control Ribbed Bar process units; Said numerical control Ribbed Bar process units comprises: tube reducing also forms cold rolling unit with ribbing, annealing device (8), shear arrangement (10) and material collecting device (11); It is characterized in that; Also include dephosphorization machine (3), said dephosphorization machine (3) is arranged on tube reducing milling train (4) upper reaches; Said shear arrangement (10) comprising: the last scissors (114a) of pair of shear reinforcing bar and lower scissors (114b); Last scissors (114a) and lower scissors (114b) are separately fixed on the last flying shear cutterhead (103a) and following flying shear cutterhead (103b) that the identical and switched in opposite of rotating speed is set up and down; Last flying shear cutterhead (103a) and following flying shear cutterhead (103b) are separately fixed at the side end cutting axle (105) and cut axle (104) down; On to cut axle (105) be two rotary power output shafts that the PTO medium speed is identical and switched in opposite is provided with up and down with cutting down spool (104), said PTO is arranged on the flying shear frame (101).
2. according to the numerical control Ribbed Bar process units described in the claim 1; It is characterized in that; Said scissors (114a) and the lower scissors (114b) gone up is separately fixed in the groove that flying shear cutterhead (103a) and following flying shear cutterhead (103b) cave inward from its edge; Last flying shear cutterhead (103a) is identical with the structure of following flying shear cutterhead (103b) groove; A side in the said groove is a vertical plane, and another side of groove is up big and down small inclined-plane, in last flying shear cutterhead (103a) groove, to the inclined-plane scissors (114a) and scissors pressing plate (115) is housed successively from vertical plane; To the inclined-plane lower scissors (114b) and scissors pressing plate (115) are being housed successively from vertical plane in flying shear cutterhead (103b) groove down; The inclined-plane of said scissors pressing plate (115) one sides coincide and to be attached on the inclined-plane in the said groove, and securing member runs through scissors pressing plate (115) and will go up respectively in the groove that scissors (114a) and scissors pressing plate (115), lower scissors (114b) and scissors pressing plate (115) be pressed abd fixed on the interior and following flying shear cutterhead (103b) of the groove of flying shear cutterhead (103a).
3. according to the numerical control Ribbed Bar process units described in the claim 1, it is characterized in that said PTO comprises flying shear driving mechanism (10b) and flying shear transmission mechanism (10a); Said flying shear driving mechanism (10b) comprising: the active synchronization belt wheel (113) that is contained on the servomotor (112) connects driven synchronous pulley (110) through being with (111) synchronously; Driven synchronous pulley (110) is contained on reductor (109) power shaft, and reductor (109) output shaft connects following axle (104) end side of cutting in the flying shear transmission mechanism (10a); Said flying shear transmission mechanism (10a) comprises flying shear casing (102); Flying shear casing (102) go up hinged and support be provided with up and down on cut axle (105) and cut axle (104) down, last cut axle (105) with following cut to be equipped with respectively on spool (104) be meshing with each other and gear (106) that the number of teeth is identical.
4. according to the numerical control Ribbed Bar process units described in the claim 1; It is characterized in that; Also include the counting device (7) that is arranged on cold rolling unit downstream, described counting device (7) comprising: count frame (71), be arranged on counting driving mechanism (7a) and code device (76) on the counting frame (71);
Said counting driving mechanism (7a) comprising: be fixed on the counting housing (73) on the counting frame (71); Be fixed with at counting housing (73) top and compress cylinder (74), compress that piston on the cylinder (74) stretches into counting housing (73) interior connection bearing boxes (80) and driving bearing box (80) moves up and down; Go up the hinged counter axis (79) that is supported with at bearing box (80), the end of counter axis (79) one sides is equipped with counter wheel (75), and the end of counter axis (79) opposite side is equipped with counting active synchronization belt wheel (81); Be provided with counting driven pulley (77) in counter wheel (75) below, counting driven pulley (77) is hinged on driven shaft (78) end, and this driven shaft (78) is fixed on the counting housing (73); Counter wheel (75) moves down and counts driven pulley (77) and contact reinforcing bar (1) simultaneously with bearing box (80);
Said code device (76) comprising: support and be fixed on the bearing axle (82) on the counting frame (71); On bearing axle (82), be hinged with the bottom of encoder support (83); The upper support of encoder support (83) and hinged encoder bearing pin (86); Encoder bearing pin (86) one ends are equipped with counting driven synchronous pulley (84), and this counts driven synchronous pulley (84) through being with (89) connection count active synchronization belt wheel (81) synchronously; Encoder bearing pin (86) other end connects encoder (88); The middle part of encoder support (83) is provided with screw rod support plate (90), and the one of which end was fixed on the counting housing (73) after screw rod (91) ran through the through hole on the screw rod support plate (90); On the screw rod (91) between screw rod support plate (90) and the counting housing (73), spring (92) is housed; The adjusting nut (93) that spring (92) one ends are fixed on the screw rod (91) is pushed down; On one side of spring (92) one end in contact screw rod support plates (90), the securing member of standing screw (91) is arranged in the contact of the another side of screw rod support plate (90).
5. according to the numerical control Ribbed Bar process units described in the claim 1, it is characterized in that said annealing device (8) is heating in medium frequency stove, dielectric heating oven or a superaudio heating furnace commonly used on the market.
CN2011200233643U 2011-01-25 2011-01-25 Numerical control manufacturing plant for ribbed steel bars Expired - Lifetime CN202106201U (en)

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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102179696A (en) * 2011-01-25 2011-09-14 天津市建科机械制造有限公司 Numerical control ribbed steel bar production line
CN102962676A (en) * 2012-11-13 2013-03-13 北京时代民芯科技有限公司 Preparation device and method for SnPb welding column
CN106807743A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Reinforcing bar high efficiency smooth dephosphorizing machine
CN106807742A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar process units of flexible dephosphorization
CN106807744A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Stress elimination formula Ribbed Bar efficient dephosphorization production line
CN106807777A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar stress elimination formula production line of efficient dephosphorization
CN106807766A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Steel bar phosphorous removal device
CN106807776A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Ribbed Bar high efficiency smooth dephosphorizing production line
CN106807779A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Reinforcing bar flexibility dephosphorization rotating cylinder
CN106807745A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar process units of high-efficiency soft dephosphorization
CN106807741A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar stress elimination formula process units of high-efficiency soft dephosphorization
CN106807740A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The stress elimination formula Ribbed Bar process units of flexible dephosphorization
CN106807767A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The ribbed bar production line of efficient dephosphorization

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102179696A (en) * 2011-01-25 2011-09-14 天津市建科机械制造有限公司 Numerical control ribbed steel bar production line
CN102179696B (en) * 2011-01-25 2013-03-27 建科机械(天津)股份有限公司 Numerical control ribbed steel bar production line
CN102962676A (en) * 2012-11-13 2013-03-13 北京时代民芯科技有限公司 Preparation device and method for SnPb welding column
CN102962676B (en) * 2012-11-13 2015-03-25 北京时代民芯科技有限公司 Preparation device and method for SnPb welding column
CN106807777A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar stress elimination formula production line of efficient dephosphorization
CN106807742A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar process units of flexible dephosphorization
CN106807744A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Stress elimination formula Ribbed Bar efficient dephosphorization production line
CN106807743A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Reinforcing bar high efficiency smooth dephosphorizing machine
CN106807766A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Steel bar phosphorous removal device
CN106807776A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Ribbed Bar high efficiency smooth dephosphorizing production line
CN106807779A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 Reinforcing bar flexibility dephosphorization rotating cylinder
CN106807745A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar process units of high-efficiency soft dephosphorization
CN106807741A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The Ribbed Bar stress elimination formula process units of high-efficiency soft dephosphorization
CN106807740A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The stress elimination formula Ribbed Bar process units of flexible dephosphorization
CN106807767A (en) * 2015-11-27 2017-06-09 重庆标王集成房屋科技开发有限公司 The ribbed bar production line of efficient dephosphorization

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