CN202106021U - Numerical control molten iron casting system - Google Patents
Numerical control molten iron casting system Download PDFInfo
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- CN202106021U CN202106021U CN2011201989431U CN201120198943U CN202106021U CN 202106021 U CN202106021 U CN 202106021U CN 2011201989431 U CN2011201989431 U CN 2011201989431U CN 201120198943 U CN201120198943 U CN 201120198943U CN 202106021 U CN202106021 U CN 202106021U
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- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 title claims abstract description 150
- 229910052742 iron Inorganic materials 0.000 title claims abstract description 77
- 238000005266 casting Methods 0.000 title claims abstract description 57
- 230000007246 mechanism Effects 0.000 claims abstract description 50
- 238000005303 weighing Methods 0.000 claims abstract description 13
- 210000004907 gland Anatomy 0.000 claims description 41
- 230000005540 biological transmission Effects 0.000 claims description 28
- 230000003287 optical effect Effects 0.000 claims description 28
- 230000000670 limiting effect Effects 0.000 claims description 19
- 230000003028 elevating effect Effects 0.000 claims description 13
- 230000001105 regulatory effect Effects 0.000 claims description 7
- 241000239290 Araneae Species 0.000 claims description 5
- 238000006073 displacement reaction Methods 0.000 claims description 5
- 238000009413 insulation Methods 0.000 claims description 4
- 239000011521 glass Substances 0.000 claims description 3
- 238000012856 packing Methods 0.000 claims description 3
- 239000011148 porous material Substances 0.000 claims description 3
- 238000003825 pressing Methods 0.000 claims description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 abstract 1
- 238000000034 method Methods 0.000 description 6
- 239000003638 chemical reducing agent Substances 0.000 description 3
- 230000008878 coupling Effects 0.000 description 3
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 230000033001 locomotion Effects 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 208000027418 Wounds and injury Diseases 0.000 description 1
- 238000003915 air pollution Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 208000014674 injury Diseases 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 230000004630 mental health Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 230000009897 systematic effect Effects 0.000 description 1
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- Refinement Of Pig-Iron, Manufacture Of Cast Iron, And Steel Manufacture Other Than In Revolving Furnaces (AREA)
Abstract
The utility model provides a numerical control iron casting system, which belongs to the field of molten water casting devices and structurally comprises a longitudinal traveling mechanism similar to a joist barrow. An operation chamber is arranged on a beam of the longitudinal traveling mechanism through a transverse traveling mechanism, and an automatic molten iron casting mechanism, a molten iron guide groove lifting mechanism, a real-time molten iron weighing device and a laser sensor positioning mechanism are arranged on the operation chamber. During casting process, the laser sensor positioning mechanism automatically detects gate position, and once the gate position is determined, the automatic molten iron casting mechanism starts and simultaneously cooperates with the molten iron guide groove lifting mechanism to cast so as to ensure that molten iron is completely injected into a gate. During the whole casting process, the real-time molten iron weighing device is in an operating state and synchronically transmits detected results to a control system, and then all parts of work are deployed and coordinated by the control system. The numerical control molten iron casting system is capable of enabling operators to be away from a casting operation site, operation can be automatically completed by devices, working efficiency is improve evidently, labor intensity of workers is reduced, and harms brought by the industry to human bodies can be eliminated effectively.
Description
(1) technical field
The present invention relates to a kind of molten iron casting equipment, specifically a kind of numerical control molten iron casting system.
(2) background technology
Today of industry great development is in the ascendant as the foundry industry of one of industrial foundation industry in the whole world, and global foundry enterprise major part is in our China.And at present, China's foundry industry common technique backwardness even part medium-sized and small enterprises also rest on the low-level stage of handicraft workshop! The main manpower that relies on of molten iron casting.The environment very severe of workman's operation, not only temperature is high, and dust is also many, and air pollution is serious, the physical and mental health that is constantly endangering the workpeople.In addition, in the face of high temperature liquid iron, people have carelessness slightly, just can breed big mistakes, even bring limbs wounded or disabled, and the work risk is very big.Current, the working number of workers of molten iron casting falls sharply and the present situation backward in technique of the sector has some relations.Backward in technique, shortage of manpower has seriously restricted developing again of casting industry, and the international competition status of China's foundry industry allows of no optimist.The technological innovation of China's casting industry is extremely urgent in view of this! And the current reality that we face is the domestic relevant automatic equipment that is fit to the medium-sized and small enterprises use reliably that still do not have.In recent years, external product had begun to get into China, and its price is very expensive, although its automatization level is also very high, and can not popularization and application.
(3) summary of the invention
Technical assignment of the present invention is the deficiency to prior art, and a kind of numerical control molten iron casting system that is applicable to medium-sized and small enterprises is provided.
The technical solution adopted for the present invention to solve the technical problems is:
Numerical control molten iron casting system; The vertical walking mechanism that comprises a similar purlin car vertically is provided with OPS through horizontal walking mechanism on the crossbeam of walking mechanism, and OPS is provided with molten iron automatic casting mechanism, molten iron guiding gutter elevating mechanism, the real-time weighing device of molten iron and laser sensor detent mechanism; In the process that system advances; Automatically detect gate location by the laser sensor detent mechanism, in case gate location is confirmed the action of automatic casting mechanism; Molten iron guiding gutter elevating mechanism cooperates it to carry out casting operation simultaneously, injects in the cast gate fully to guarantee molten iron; In whole casting cycle, the real-time weighing device of molten iron is in running order all the time, and passes to the control system to its result that surveys synchronously, again by the work of systematic unity deployment and coordination each several part.
Above-mentioned numerical control molten iron casting system; Its vertical walking mechanism is made up of ground standing part and vertical running gear two parts; Wherein the ground standing part comprises left ground foundation, right ground foundation, left rail, right guide rail; Left rail is arranged on the left ground foundation, and right guide rail is arranged on the right ground foundation, and left rail and right guide rail are parallel to each other; Vertically running gear comprises left socle CD-ROM drive motor, right support CD-ROM drive motor, left socle, right support; Left socle and right support are welded into a whole through crossbeam and are " H " type, and the left socle CD-ROM drive motor is connected with right support with left socle respectively with the right support CD-ROM drive motor.
Above-mentioned numerical control molten iron casting system; Its horizontal walking mechanism comprises wheels I, wheels II, wheels III, wheels IV, adjustment chain wheel set, CD-ROM drive motor, decelerator, drive sprocket, chain 1, chain 2 and CD-ROM drive motor; Above-mentioned wheels I, wheels IV are arranged in the bottom of crossbeam, and form driven driving-chain with the inner row teeth wheel of regulating on the chain wheel set through chain II; Above-mentioned wheels II, wheels III is arranged in the top of crossbeam, and forms initiatively driving-chain with the drive sprocket of regulating on the chain wheel set that effluxes gear and be installed on the reducer output shaft through chain I, and decelerator is connected with CD-ROM drive motor.
Above-mentioned numerical control molten iron casting system, above-mentioned wheels I comprises sprocket wheel, transverse axis, left and right sides roller, and sprocket wheel is arranged on the right-hand member of transverse axis, and the right roller is fixed in the right of the shaft shoulder in the middle of the transverse axis through key, uses two its large end faces of round nut axial limiting again; On its right one axle sleeve and bearing are installed subsequently, the outer race left side contacts with bearing block, and then props up the right of outer race with a bearing cap, is fixed on it on bearing block with screw simultaneously; Bearing block then is fixed on the adjustable right shaft stool, and shaft stool is fixed on the lower carriage; Left side roller is fixed in the left side of the shaft shoulder in the middle of the transverse axis through key, uses two its large end faces of round nut axial limiting again; On its left side one axle sleeve and bearing are installed subsequently, outer race the right contacts with bearing block, and then props up the left side of outer race with a gland, is fixed on gland on the bearing block with screw simultaneously; Bearing block is fixed on the adjustable left shaft stool, and shaft stool is fixed on the lower carriage; The below of left and right shaft stool all is separately installed with two adjustment screws, and makes it tightly withstand the trip bolt of shaft stool.
Above-mentioned numerical control molten iron casting system, above-mentioned wheels II mainly comprises sprocket wheel, transverse axis, left and right sides roller, sprocket wheel is through the right-hand member of key joint at transverse axis, then by a round nut axial location; The right roller is fixed in the right of the shaft shoulder in the middle of the transverse axis through key, uses two its large end faces of round nut axial limiting again; On its right one axle sleeve and bearing are installed subsequently, the outer race left side contacts with bearing block, and then props up the right of outer race with a gland, is fixed on gland on the bearing block with screw simultaneously; Bearing block is fixed on the upper bracket; Left side roller is fixed in the left side of the shaft shoulder in the middle of the transverse axis through key, uses two its large end faces of round nut axial limiting again; On its left side one axle sleeve and bearing are installed subsequently, outer race the right contacts with bearing block, and then props up the left side of outer race with a gland, is fixed on gland on the bearing block with screw simultaneously; Bearing block is fixedly on the upper bracket.
Above-mentioned numerical control molten iron casting system; Above-mentioned adjustment chain wheel set comprises double rows of teeth sprocket wheel, bearing, wheel shaft, axle sleeve, gland, the left end of double rows of teeth sprocket wheel endoporus, and both bore was than small end; The bearing of packing into; Its outer shroud contacts with hole wall, and axle sleeve, bearing are housed successively again, their endoporus and all cooperating with wheel shaft; With fixing its axial location of a round nut, afterwards withstand the outer shroud of bearing then, and be fixed on it on the sprocket wheel with bearing gland.
Above-mentioned numerical control molten iron casting system; Above-mentioned molten iron automatic casting mechanism comprises motor, decelerator, bevel pinion, bevel gear wheel, power transmission shaft, ladle; The output shaft of motor and the input of decelerator connect; Bevel pinion is installed in the output shaft end of decelerator, and bevel gear wheel is bound up on the transmission the tip of the axis and is meshed with bevel pinion; Be provided with the single-revolution bearing on the power transmission shaft and near the bevel gear wheel end; Also be provided with bearing spider on the power transmission shaft and near the ladle end; The upper end of turning cylinder and molten iron double team are bound up; The clamping of foundry ladle molten iron double team is firm, and above-mentioned bearing spider, pivoting support and decelerator all are fixed on the planker of weighing.
Above-mentioned numerical control molten iron casting system, the real-time weighing device of above-mentioned molten iron comprises a load cell and a saddle, and saddle is connected on the load cell with screw, and load cell also is connected on the base of OPS with screw.
Above-mentioned numerical control molten iron casting system, molten iron guiding gutter elevating mechanism comprises CD-ROM drive motor, decelerator, elevating mechanism, adjusting chain wheel set, chain, guiding gutter, above-mentioned elevating mechanism comprises optical axis I transmission group, optical axis II transmission group and lead screw transmission group.
Above-mentioned optical axis I transmission group comprises optical axis I, limiting plate, sprocket wheel, bearing, and optical axis I passes from the right ports of nut seat; Its lower end is installed in the circular hole of base; The upper end passes from the hole of support, blocks the fluting on the axle with limiting plate, and is fixed on it on support with screw; Bearing, axle sleeve, bearing are housed in the endoporus of sprocket wheel from bottom to up successively, and their endoporus all is combined together with axle, the small-caliber end of sprocket wheel down, bearing (ball) cover withstands the outer shroud of bearing, and is screwed on the upper surface of sprocket wheel.
Above-mentioned optical axis II transmission group comprises optical axis II, locknut, and optical axis II passes from the left hole of nut seat, and its lower end is installed in the circular hole of base, and there is screw thread the upper end, from the hole of support, passes, and fixes with locknut.
Above-mentioned lead screw transmission group comprises leading screw, bearing, screw, nut seat, sprocket wheel, and leading screw and screw pass through threaded engagement together, and from the mesopore of nut seat, pass, and screw is screwed on the middle pore cross section of nut seat; The leading screw lower end is installed in the endoporus of bearing, and a following side of outer race is pressed in the circular hole of base, and a top side is withstood with gland, and gland is fixed on the base; The upper end of leading screw is equipped with end cap, bearing, axle sleeve, and end cap is screwed below support, and the end of leading screw passes from the hole of support, is connected with sprocket wheel through flat key, at last with its axial displacement of gland constraint again.
Above-mentioned adjusting chain wheel set comprises chain pulley seat, sprocket wheel, bearing, axle sleeve, gland, in the endoporus of sprocket wheel from down and on bearing, axle sleeve, bearing are housed successively; Their endoporus all cooperates connection with the periphery of axle; The small-caliber end of sprocket wheel down, bearing gland withstands the outer shroud of bearing, and is screwed on the upper surface of sprocket wheel; Axle and chain pulley seat are consolidated, and adjusting the screw that is installed in its side can be to the chain tensioner.
In above-mentioned each sprocket wheel, what optical axis I was terminal is propelling sheave, together be installed on the reducer output shaft drive sprocket they altogether by a chain coupling.
Above-mentioned CD-ROM drive motor and decelerator are consolidated, and drive sprocket is installed on the output shaft of decelerator through flat key; The right-hand member of carriage is screwed on the vertical plane of nut seat, and the other end is connected the middle part of guiding gutter through screw.
Above-mentioned numerical control molten iron casting system, its laser sensor detent mechanism comprises that sensor mounting box, support arm, swing arm are cranked arm, turning cylinder; Swing arm is " Y " type, and turning cylinder passes the hole of its lower end, and is installed on the bottom block together; And use a limiting plate) block, the right-hand member of support arm and sensor mounting box are consolidated, and left end passes the upper end circular hole of cranking arm; And fix with pressing plate, through unclamping a lock-screw, support arm can rotate arbitrarily; The lower end of cranking arm is bound up through a turning cylinder, also is with its rotation of adjustment screw control.
The sensor mounting box, all there is thermal insulation layer its five sides, and bottom surface is the glass protecting cover, and a laser sensor is installed in the box.
Numerical control molten iron casting system of the present invention compared with prior art; The beneficial effect that is produced is: make operating personnel on-the-spot away from casting operation; Automatically fulfil assignment by equipment; Significantly improve operating efficiency, reduced working strength of workers, and can effectively check the injury that the sector is brought human body.
(4) description of drawings
Accompanying drawing 1 is a main TV structure sketch map of the present invention;
Accompanying drawing 2 is the plan structure sketch map of Fig. 1;
Accompanying drawing 3 is the left TV structure sketch map of Fig. 1;
Accompanying drawing 4 is the running part structural representation of Fig. 3 middle cross beam;
Accompanying drawing 5 is the driving-chain part-structure sketch map of Fig. 4;
Accompanying drawing 6 is the ladle rotating part structural representation of Fig. 2;
Accompanying drawing 7 is the molten iron guiding gutter lifting unit separation structure sketch map of Fig. 2;
Accompanying drawing 8 is the laser positioning part-structure sketch map of Fig. 2;
Accompanying drawing 9 is an operation sketch map of the present invention.
Among the figure:
101, left socle drive motors, 102, left rail, 103, left ground foundation, 104, crossbeam, 105, OPS, 106, the cable drag chain, 107, right ground foundation, 108, right guide rail, 109, the right support drive motors.
201, left socle, 202, molten iron guiding gutter elevating mechanism, 203, the laser sensor detent mechanism, 204, chain, 205, decelerator, 206, motor, 207, molten iron automatic casting mechanism, 208, the crossbeam drive part, 209, electric-control system, 210, right support.
301, operation bench, 302, seat, 303, electrical control cubicles, 304, upper right guide rail, 305, the bottom right guide rail, 306, left lower guideway, 307, upper left guide rail.
401, motor, 402, shaft coupling, 403, decelerator, 404, flat key, 405, sprocket wheel, 406, the double rows of teeth sprocket wheel, 407, bearing, 408, round nut; 409, axle sleeve, 410, axle, 411, end cap, 412, axle, 413, round nut, 414, key, 415, sprocket wheel, 416, the adjustment screw; 417, end cap, 418, bearing, 419, bearing block, 420, axle sleeve, 421, key, 422, guide rail, 423, screw; 424, roller, 425, axle sleeve, 426, end cap, 427, upper bracket, 428, lower carriage, 429, adjustable seats, 430, bearing; 431, end cap, 432, axle sleeve, 433, round nut, 434, axle sleeve, 435, bearing cap, 436, shaft stool, 437, transverse axis.
501, wheels I, 502, the adjustment chain wheel set, 503, wheels II, 504, chain I, 505, wheels III, 506, drive sprocket, 507, wheels IV, 508, chain II.
601, ladle, 602, the supporting plate of weighing, 603, bearing spider, 604, bearing, 605, axle sleeve, 606, pivoting support; 607, round nut, 608, ring flange, 609, bevel gear wheel, 610, key, 611, big door, 612, little door; 613, key, 614, bevel pinion, 615, horse is big, 616, decelerator, 617, LOAD CELLS, 618, axle; 619, axle sleeve, 620, bearing, 621, end cap, 622, lock-screw, 623, double team, 624, flat key.
701, guiding gutter, 702, carriage, 703, nut seat, 704, locknut, 705, sprocket wheel, 706, key; 707, end cap, 708, bearing, 709, axle sleeve, 710, limiting plate, 711, sprocket wheel, 712, chain pulley seat; 713, adjustment screw, 714, bearing, 715, end cap, 716, support, 717, screw, 718, base; 719, feed rod I, 720, bearing, 721, gland, 722, leading screw, 723, optical axis II.
801, trip bolt, 802, limiting plate, 803, turning cylinder, 804, swing arm, 805, adjustment screw; 806, turning cylinder, 807, gland, 808, lock-screw, 809, support arm, 810, the sensor mounting box; 811, thermal insulation layer, 812, laser sensor, 813, protective cover, 814, crank arm.
901, melt iron furnace, 902, work origin, 903, mold.
(5) specific embodiment
Explanation at length below below in conjunction with accompanying drawing 1-9 numerical control molten iron casting system of the present invention being done.
Like accompanying drawing 1, shown in 2, numerical control molten iron casting system of the present invention, its structure comprises: vertical walking mechanism of a kind of similar purlin car, it is made up of ground standing part and vertical running gear.Ground standing part wherein comprises left ground foundation 103, right ground foundation 107, left rail 102, right guide rail 108; Vertically running gear comprises left socle CD-ROM drive motor 101, right support CD-ROM drive motor 109, left socle 201, right support 210, crossbeam 104 etc.
Left and right support welds together through crossbeam 104 in above-mentioned vertical running gear, is " H " type, and the left and right driving motor starts them through VFC simultaneously, acts in agreement.The upper and lower faces of crossbeam is respectively installed two identical closed slides that lay respectively at the right and left.
In conjunction with Fig. 1, shown in 3, an OPS 105 comprises and controls platform 301, seat 302, alarm, illuminating lamp etc., and its underframe is bound up with horizontal walking mechanism, and plays motion with one of which.
Referring to Fig. 3,4,5; One horizontal walking mechanism; Comprise wheels I 501, wheels II 503, wheels III 505,, wheels IV507, adjustment chain wheel set 502, CD-ROM drive motor 401, reductor 403, drive sprocket 4051, chain 1 (504), chain 2 (508) etc.
In conjunction with shown in Figure 5, above-mentioned wheels I 501, wheels IV 507 are arranged in the crossbeam bottom, form driving-chains with the inner row teeth wheel of regulating on the wheels 502 through chain II 508, and they are driven kinematic chains; Wheels II 503, wheels III 505 is arranged in the top of crossbeam, forms driving-chain with the drive sprocket of regulating on the chain wheel set 502 405 that effluxes gear and be installed on the reducer output shaft through chain I 504, and they are active movement chains.Regulate wheels and be the elasticity of regulating chain I and chain II, the while also is the power transmission draw-barring.The output shaft of CD-ROM drive motor 401 is connected through the power shaft of shaft coupling 402 with decelerator 403, and drive sprocket 405 is fixed on the output axle head at decelerator with key 404, drives transverse movement through chain I.
Above-mentioned wheels I 501 comprises sprocket wheel 438, transverse axis 437, left and right sides roller 439 etc.Sprocket wheel 438 is bound up on the right-hand member of transverse axis through key 414, then by a round nut 413 axial location; The right roller 424 is fixed in the right of the shaft shoulder in the middle of the transverse axis through key 421, uses two its large end faces of round nut 433 axial limitings again; On its right one axle sleeve 434 and bearing 430 is installed subsequently, the outer race left side contacts with bearing block 419, and then props up the right of outer race with a bearing cap 435, is fixed on it on bearing block with screw simultaneously; Bearing block 419 then is fixed on the adjustable right shaft stool 436, and shaft stool is fixed on the lower carriage 428; Left side roller 424 is fixed in the left side of the shaft shoulder in the middle of the transverse axis through key 421, uses two its large end faces of round nut 433 axial limitings again; One axle sleeve 432 and bearing 430 are installed on its left side subsequently, and outer race the right contacts with bearing block 419, and then props up the left side of outer race with a gland 431, is fixed on gland 431 on the bearing block 419 with screw simultaneously; Bearing block is fixed on the adjustable left shaft stool 429, and shaft stool is fixed on the lower carriage 428; The below of left and right shaft stool all is separately installed with two adjustment screws 416, and makes it tightly withstand the trip bolt of shaft stool.
The formation of above-mentioned wheels IV507 and wheels I are just the same.
In conjunction with Fig. 4, shown in 5, above-mentioned wheels II 503 mainly comprises sprocket wheel 405, transverse axis 412, left and right sides roller 424 etc.Sprocket wheel 405 is bound up on the right-hand member of transverse axis 412 through key 414, then by a round nut 413 axial location; The right roller 424 is fixed in the right of the shaft shoulder in the middle of the transverse axis through key 421, uses two its large end faces of round nut 433 axial limitings again; On its right one axle sleeve 420 and bearing 418 is installed subsequently, the outer race left side contacts with bearing block 419, and then props up the right of outer race with a gland 417, is fixed on gland on the bearing block 419 with screw simultaneously; Bearing block is fixed on the upper bracket 427; Left side roller 424 is fixed in the left side of the shaft shoulder in the middle of the transverse axis through key 421, uses two its large end faces of round nut 433 axial limitings again; One axle sleeve 425 and bearing 418 are installed on its left side subsequently, and outer race the right contacts with bearing block, and then props up the left side of outer race with a gland 426, is fixed on gland on the bearing block 419 with screw simultaneously; Bearing block is fixedly on the upper bracket 427.
The formation of above-mentioned wheels III505 and wheels II 503 are identical.
In conjunction with shown in Figure 4, above-mentioned adjusting wheels 502 comprise double rows of teeth sprocket wheel 406, matched bearings 407, wheel shaft 410, axle sleeve 409, gland 411 etc.The left end of double rows of teeth sprocket wheel 406 endoporus, both bore had been than small end, the bearing 407 of packing into, its outer shroud contacts with hole wall, and axle sleeve 409, bearing 407 are housed successively again, their endoporus and all cooperating with wheel shaft 410; With a round nut 408 fixing its axial locations, afterwards withstand the outer shroud of bearing 407 then, and be fixed on it on the sprocket wheel 406 with bearing gland 411.Wheel shaft and wheel seat are an integral body, are screwed on upper bracket 427, and can regulate its position through screw 416.
In conjunction with shown in Figure 2, a kind of molten iron pouring device, it comprises automatic casting mechanism, the real-time weighing device of molten iron etc.
In conjunction with shown in Figure 6, above-mentioned molten iron automatic casting mechanism comprises motor 615, decelerator 616, bevel gear set, power transmission shaft 618, ladle 601 etc.The input of the output shaft of motor 615 and decelerator 616 connects, and the two body is fixed together; It is terminal that bevel pinion 614 is installed in decelerator 616 output shafts through flat key 613, and with 612 its axial displacements of constraint of a gland; Bevel gear wheel 609 usefulness flat keys 610 are bound up on the end of long pass moving axis 618, are meshed also with 611 its axial displacements of constraint of a gland, and with bevel pinion 614; Be provided with single-revolution bearing 606 near the bevel gear wheel end, bearing 604, axle sleeve 605, bearing 604, tightening round nut 607, bearing gland 608 from top to bottom are installed in its axis hole successively, their endoporus all is through in the rotating shaft 618, and two bearing mounted in pairs; Near the ladle end rigid bearing bearing 603 is set also; Bearing 620, axle sleeve 619, bearing 620, bearing gland 621 from bottom to top are installed in its axis hole successively; Their endoporus also all is through in the rotating shaft 618, and gland is connected on bearing 603 upper surfaces with screw; The upper end of turning cylinder is bound up through flat key 624 and molten iron double team 623, and solid with a screw tight 622; 623 clampings of ladle 601 usefulness molten iron double teams are firm.
Above-mentioned two pivoting supports and decelerator all are connected on the saddle 602 with screw.
In conjunction with shown in Figure 6, the real-time weighing device of above-mentioned molten iron comprises a load cell 617 and a saddle 602.Saddle 602 usefulness screws are connected on the load cell 617, and load cell also is connected on the base of OPS with screw.
In conjunction with Fig. 2, shown in 7, a kind of molten iron guiding gutter elevating mechanism comprises: CD-ROM drive motor 206, decelerator 205, elevating mechanism, adjusting chain wheel set, chain 204, guiding gutter 714 etc.
Above-mentioned elevating mechanism comprises: optical axis I transmission group, optical axis II transmission group, lead screw transmission group.
In conjunction with shown in Figure 7, above-mentioned optical axis II transmission group comprises: optical axis II 723, locknut 704.Optical axis II passes from the right ports of nut seat 703, and its lower end is installed in the circular hole of base 718, and there is screw thread the upper end, from bracket holes, passes, and is female fixing with clamp screw 704.
In conjunction with shown in Figure 7, above-mentioned optical axis I transmission group comprises: optical axis I, limiting plate 710, sprocket wheel 711, pair of bearings 708 etc.Optical axis I passes from the left hole of nut seat 703, and its lower end is installed in the circular hole of base 718, and the upper end passes from bracket holes, blocks the fluting on the axle with limiting plate 710, and is fixed on it on support 716 with screw; Bearing 708, axle sleeve 709, bearing 708 are housed in the endoporus of sprocket wheel 711 from bottom to up successively, and their endoporus all is combined together with axle, the sprocket wheel small-caliber end down, bearing gland 70 withstands the outer shroud of bearing, and is screwed on the upper surface of sprocket wheel.
Above-mentioned lead screw transmission group comprises: leading screw 722, pair of bearings 720, screw 717, nut seat 703, sprocket wheel 705 etc.Leading screw 722 passes through threaded engagement together with screw 717, and from the mesopore of nut seat 703, passes, and screw is screwed on the middle pore cross section of nut seat; Leading screw 722 lower ends are installed in the endoporus of bearing 720, and a following side of outer race is pressed in the circular hole of base 718, and a top side is withstood with gland 721, and gland is fixed on the base; The upper end of leading screw is equipped with end cap 715, bearing 714, axle sleeve, and end cap 715 is screwed below support 716, and then, the end of leading screw passes from bracket holes, is connected with sprocket wheel 705 through flat key 706, at last with its axial displacement of gland constraint again.
Above-mentioned adjusting chain wheel set comprises: chain pulley seat 712, sprocket wheel 711, pair of bearings 708, axle sleeve 709, gland etc.In sprocket wheel 711 endoporus from down and on bearing 708, axle sleeve 709, bearing 708 are housed successively; Their endoporus all cooperates connection with the periphery of axle; The small-caliber end of sprocket wheel down, bearing gland withstands the outer shroud of bearing, and is screwed on the upper surface of sprocket wheel.Axle and chain pulley seat 712 are consolidated, and adjusting the screw 713 that is installed in its side can be to chain 204 tensioner.
In above-mentioned each sprocket wheel, what optical axis I was terminal is propelling sheave, together be installed on decelerator 205 output shafts drive sprocket they altogether by 204 connections of a chain.
Above-mentioned CD-ROM drive motor 206 is consolidated with decelerator 205, and drive sprocket is installed on the output shaft of decelerator through flat key; The right-hand member of carriage 702 is screwed on the vertical plane of nut seat 703, and the other end is connected the middle part of guiding gutter 701 through screw.
In conjunction with shown in Figure 8, a kind of laser sensor detent mechanism comprises: sensor mounting box 810, support arm 809, swing arm 804, crank arm 814, turning cylinder 803.Swing arm 804 is " Y " type, and a turning cylinder 803 passes the hole of its lower end, and is installed on the bottom block together, and blocks with a limiting plate 802, and the fibre board use screw is fixed on the bottom block, during adjustment, unclamps adjustment screw 801, just can swing; The right-hand member of support arm 809 and sensor mounting box 810 are consolidated, and left end passes 814 the upper end circular hole of cranking arm, and fixing with pressing plate 807, and through unclamping a lock-screw 808, support arm 809 can rotate arbitrarily; Crank arm 814 lower end is bound up through a turning cylinder 806, also is with 805 its rotations of control of an adjustment screw.
The sensor mounting box 810, all there is thermal insulation layer 811 its five sides, and bottom surface is a glass protecting cover 813, and a laser sensor 812 is installed in the box.
The present invention also comprises: the numerical control system of a whole set of equipment automatization operation, method, the system fault self-diagnosis software module, of utilizing laser sensor to carry out the gate location detection are handed radio operation device and safety monitoring system.
In conjunction with shown in Figure 9, during the present device operation, start-up system at first, equipment carries out position initialization automatically; Fix a point after receiving the casting task order, to move to rapidly near the Dian Rong iron furnace initial point 902 positions, start the molten iron program that receives; Ladle arrives assigned address , Rong iron furnace and opens and discharge molten iron, and the device start program of weighing simultaneously is when reaching enough weight; Melt iron furnace and close, casting machine withdraws from receiving position, starts automatic casting system simultaneously.At first, it turns back to origin position, starts laser cast gate trace routine simultaneously, advances by path planning then; When it found target, the location started the casting program rapidly immediately; Adjustment guiding gutter position, ladle is rotated, and begins casting; When weight reaches specified value, stop immediately, ladle is returned desired location and is awaited orders; Then, equipment continues to seek next cast gate, after the discovery, repeats above-mentioned casting action.When residue molten iron when being not enough to cast again a mould, casting machine just returns the molten iron program that receives, and so repeatedly, until fulfiling assignment, or when receiving halt command, it just stops.
Present device also can also be sitting in the driver's cabin and operate fully by its operation of manual wireless remote control.In the entire job process, system time carries out safety failure and detects, in case problem is arranged, reports to the police immediately and shuts down.
Claims (10)
1. numerical control molten iron casting system; The vertical walking mechanism that comprises a similar purlin car; It is characterized in that; Vertically the crossbeam (104) of walking mechanism is gone up and is provided with OPS (105) through horizontal walking mechanism, and OPS (105) is provided with molten iron automatic casting mechanism (207), molten iron guiding gutter elevating mechanism (202), the real-time weighing device of molten iron and laser sensor detent mechanism (203).
2. numerical control molten iron casting system according to claim 1; It is characterized in that: vertically walking mechanism is made up of ground standing part and vertical running gear two parts; Wherein the ground standing part comprises left ground foundation (103), right ground foundation (107), left rail (102), right guide rail (108); Left rail (102) is arranged on the left ground foundation (103), and right guide rail (108) is arranged on the right ground foundation (107), and left rail (102) and right guide rail (108) are parallel to each other; Vertically running gear comprises left socle CD-ROM drive motor (101), right support CD-ROM drive motor (109), left socle (201), right support (210); Left socle (201) and right support (210) are welded into a whole through crossbeam (104) and are " H " type, and left socle CD-ROM drive motor (101) is connected with right support (210) with left socle (201) respectively with right support CD-ROM drive motor (109).
3. numerical control molten iron casting system according to claim 1; It is characterized in that: laterally walking mechanism comprises wheels I (501), wheels II (503), wheels III (505), wheels IV (507), adjustment chain wheel set (502), CD-ROM drive motor (401), decelerator (403), drive sprocket (405)), chain 1 (504), chain 2 (508) and CD-ROM drive motor (401); Above-mentioned wheels I (501), wheels IV (507) are arranged in the bottom of crossbeam (104), and form driven driving-chain with the inner row teeth wheel of regulating on the chain wheel set (502) through chain II (508); Above-mentioned wheels II (503); Wheels III (505) is arranged in the top of crossbeam (104); And form initiatively driving-chain through chain I (504) with the drive sprocket of regulating on the chain wheel set (502) (405) that effluxes gear and be installed on decelerator (403) output shaft, decelerator (403) is connected with CD-ROM drive motor (401).
4. numerical control molten iron casting system according to claim 3; It is characterized in that: above-mentioned wheels I (501) comprises sprocket wheel (438), transverse axis (437), left and right sides roller (439); Sprocket wheel (438) is arranged on the right-hand member of transverse axis (437), and the right roller (439) is fixed in the right of the middle shaft shoulder of transverse axis (437).
5. numerical control molten iron casting system according to claim 3 is characterized in that: above-mentioned wheels II (503) mainly comprises sprocket wheel (405), transverse axis (412), left and right sides roller (424), and sprocket wheel (405) is bound up on the right-hand member of transverse axis (412) through key (414).
6. numerical control molten iron casting system according to claim 3; It is characterized in that: above-mentioned adjustment chain wheel set (502) comprises double rows of teeth sprocket wheel (406), bearing (407), wheel shaft (410), axle sleeve (409), gland (411), the left end of double rows of teeth sprocket wheel (406) endoporus, and both bore was than small end; The bearing (407) of packing into; Its outer shroud contacts with hole wall, and axle sleeve (409), bearing (407) are housed successively again, their endoporus and all cooperating with wheel shaft (410); Use a round nut (408) to fix its axial location then, the outer shroud of bearing (407) is withstood with bearing gland (411) in the back, and is fixed on it on the sprocket wheel (406).
7. numerical control molten iron casting system according to claim 1; It is characterized in that: above-mentioned molten iron automatic casting mechanism comprises motor (615), decelerator (616), bevel pinion (314), bevel gear wheel (609), power transmission shaft (618), ladle (601); The input of the output shaft of motor (615) and decelerator (616) connects; Bevel pinion (614) is installed in the output shaft end of decelerator (616), and bevel gear wheel (609) is bound up on the terminal of power transmission shaft (618) and is meshed with bevel pinion (614); Power transmission shaft (618) is gone up and is provided with single-revolution bearing (606) near bevel gear wheel (609) end; Power transmission shaft (618) is gone up and also is provided with bearing spider (603) near ladle (601) end; The upper end of turning cylinder (618) and molten iron double team (623) are bound up; Ladle (601) is firm with molten iron double team (623) clamping, and above-mentioned bearing spider (603), pivoting support (606) and decelerator (616) all are fixed on the planker of weighing (602).
8. numerical control molten iron casting system according to claim 1; It is characterized in that: the real-time weighing device of above-mentioned molten iron; Comprise a load cell (617) and a saddle (602); Saddle (602) is connected on the load cell (617) with screw, and load cell (617) also is connected on the base of OPS (105) with screw.
9. numerical control molten iron casting system according to claim 1; It is characterized in that: molten iron guiding gutter elevating mechanism comprises CD-ROM drive motor (206), decelerator (205), elevating mechanism, adjusting chain wheel set, chain (204), guiding gutter (714); Above-mentioned elevating mechanism comprises optical axis I transmission group, optical axis II transmission group and lead screw transmission group;
Above-mentioned optical axis I transmission group; Comprise optical axis I (719), limiting plate (710), sprocket wheel (711), bearing (708); Optical axis I (719) passes from the right ports of nut seat (703), and its lower end is installed in the circular hole of base (718), and the upper end passes from the hole of support (716); Block the fluting on the axle with limiting plate (710), and be fixed on it on support (716) with screw; Bearing (708), axle sleeve (709), bearing (708) are housed in the endoporus of sprocket wheel (711) from bottom to up successively; Their endoporus all is combined together with axle; The small-caliber end of sprocket wheel (711) down; Bearing (ball) cover (707) withstands the outer shroud of bearing (708), and is screwed on the upper surface of sprocket wheel (711);
Above-mentioned optical axis II transmission group comprises optical axis II (723), locknut (704), and optical axis II (723) passes from the left hole of nut seat (703); Its lower end is installed in the circular hole of base (718); There is screw thread the upper end, from the hole of support (716), passes, and fixing with locknut (704);
Above-mentioned lead screw transmission group; Comprise leading screw (722), bearing (720), screw (717), nut seat (703), sprocket wheel (705); Leading screw (722) passes through threaded engagement together with screw (717); And from the mesopore of nut seat (703), pass, screw (717) is screwed on the middle pore cross section of nut seat (703); Leading screw (722) lower end is installed in the endoporus of bearing (720), and a following side of outer race is pressed in the circular hole of base (718), and a top side is withstood with gland (721), and gland (721) is fixed on the base (718); The upper end of leading screw (722) is equipped with end cap (715), bearing (714), axle sleeve; End cap (715) is screwed below support (716); The end of leading screw (722) passes from the hole of support (716); Be connected with sprocket wheel (705) through flat key (706) again, at last with its axial displacement of gland constraint;
Above-mentioned adjusting chain wheel set; Comprise chain pulley seat (712), sprocket wheel (711), bearing (708), axle sleeve (709), gland; In the endoporus of sprocket wheel (711) from down and on bearing (708), axle sleeve (709), bearing (708) are housed successively, their endoporus all cooperates connection with the periphery of axle, the small-caliber end of sprocket wheel (711) down; Bearing gland withstands the outer shroud of bearing; And be screwed on the upper surface of sprocket wheel (711), axle and chain pulley seat (712) are consolidated, and adjusting the screw (713) that is installed in its side can be to chain (204) tensioner;
In above-mentioned each sprocket wheel, what optical axis I (719) was terminal is propelling sheave, together be installed on decelerator (205) output shaft drive sprocket they connect by a chain (204) altogether;
Above-mentioned CD-ROM drive motor (206) and slow down (205) are consolidated, and drive sprocket is installed on the output shaft of deceleration (205) through flat key; The right-hand member of carriage (702) is screwed on the vertical plane of nut seat (703), and the other end is connected the middle part of guiding gutter (701) through screw.
10. numerical control molten iron casting system according to claim 1 is characterized in that: the laser sensor detent mechanism comprises sensor mounting box (810), support arm (809), swing arm (804), crank arm (814), turning cylinder (803); Swing arm (804) is " Y " type, and turning cylinder (803) passes the hole of its lower end, and is installed on the bottom block together; And block with a limiting plate (802); The right-hand member of support arm (809) and sensor mounting box (810) are consolidated, and left end passes the upper end circular hole of crank arm (814), and fixing with pressing plate (807); Through unclamping a lock-screw (808), support arm (809) can rotate arbitrarily; The crank arm lower end of (814) is bound up through a turning cylinder (806), also is to control its rotation with an adjustment screw (805),
The sensor mounting box (810), all there is thermal insulation layer (811) its five sides, and bottom surface is glass protecting cover (813), and a laser sensor (812) is installed in the box.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011201989431U CN202106021U (en) | 2010-08-26 | 2011-06-03 | Numerical control molten iron casting system |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201020508049.5 | 2010-08-26 | ||
| CN201020508049 | 2010-08-26 | ||
| CN2011201989431U CN202106021U (en) | 2010-08-26 | 2011-06-03 | Numerical control molten iron casting system |
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| Publication Number | Publication Date |
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| CN202106021U true CN202106021U (en) | 2012-01-11 |
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| CN2011201989431U Expired - Fee Related CN202106021U (en) | 2010-08-26 | 2011-06-03 | Numerical control molten iron casting system |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101941067A (en) * | 2010-08-26 | 2011-01-12 | 刘书僮 | Numerical control hot metal casting system |
| CN112828271A (en) * | 2021-01-05 | 2021-05-25 | 苏州华昂智能设备制造有限公司 | Seven-shaft double-pouring robot for pouring aluminum alloy molten aluminum |
| CN108213397B (en) * | 2018-03-12 | 2023-10-31 | 中国计量大学 | Molten iron forging feeding and discharging robot |
-
2011
- 2011-06-03 CN CN2011201989431U patent/CN202106021U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101941067A (en) * | 2010-08-26 | 2011-01-12 | 刘书僮 | Numerical control hot metal casting system |
| CN108213397B (en) * | 2018-03-12 | 2023-10-31 | 中国计量大学 | Molten iron forging feeding and discharging robot |
| CN112828271A (en) * | 2021-01-05 | 2021-05-25 | 苏州华昂智能设备制造有限公司 | Seven-shaft double-pouring robot for pouring aluminum alloy molten aluminum |
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Owner name: QINGDAO SAAME MACHINERY EQUIPMENT CO., LTD. Free format text: FORMER OWNER: LIU SHUTONG Effective date: 20130604 |
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Effective date of registration: 20130604 Address after: 266000 Shandong city of Qingdao province Chengyang Jihongtan street of the port community Pu Road 2 Patentee after: Qingdao Ximei mechanical equipment Co. Ltd. Address before: 266011, Shandong, Chengyang, Qingdao District, Hong Hu Beach Street, Chinese port Patentee before: Liu Shuchong |
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