CN203471338U - Copper strip production line - Google Patents

Abstract

The utility model discloses a copper strip production line. According to the technical scheme, the copper strip production line comprises a material making part, a casting part and a machining part. The material making part comprises a hydraulic baling press, a feeding device and a smelting furnace, wherein the hydraulic baling press, the feeding device and the smelting furnace are arranged in sequence. The casting part comprises hot rolling flow-line equipment and horizontal continuous casting flow-line equipment; the hot rolling flow-line equipment comprises a vertical semicontinuous casting machine, a saw cutting machine, a hot rolling machine, a coiling device and a rolled blank quenching device, wherein the vertical semicontinuous casting machine, the saw cutting machine, the hot rolling machine, the coiling device and the rolled blank quenching device are arranged in sequence. The head end and the tail end of the hot rolling flow-line equipment are connected with the material making part and the machining part respectively. The horizontal continuous casting flow-line equipment comprises a horizontal continuous casting machine, wherein the head end and the tail end of the horizontal continuous casting flow-line equipment are connected with the material making part and the machining part respectively. The machining part comprises a double-faced milling machine, a roughing mill, a stepping heating furnace and a finishing mill, wherein the double-faced milling machine, the roughing mill, the stepping heating furnace and the finishing mill are arranged in sequence. According to the copper strip production line, the ingot casting hot rolling production process and the horizontal continuous casting production process are integrated and switched on the same production line, so that different process requirements are met.

Description

Copper strips production line

Technical field

The utility model relates to a kind of copper strips production field, is specifically related to a kind of copper strips production line.

Background technology

Lead frame copper strip is high-performance, the new and high technology intensive product growing up in order to adapt to developing rapidly of electronic information new high-tech industry, it is to be specifically designed to the blaster fuse frame material of manufacturing semi-conductor discrete device and integrated circuit block, startup along with China's large scale integrated circuit and super large-scale integration production line, the demand of lead frame copper strip is increasing, therefore setting up a high accuracy lead frame copper strip produces, fill up the blank of China's electronics basic material, realizing lead frame copper strip production domesticization is the task of top priority of electronic material industry.

The technique of producing copper strips in currently available technology mainly contains slab hot-rolling production technology and horizontal casting production technology, slab hot-rolling production technology is most widely used comparatively speaking, can produce the copper strips product of existing all kinds, and horizontal casting production technology is usually used in the alloy kind (as tin-phosphor bronze, ledrite etc.) of production hot rolling difficulty, its operation is short, production cost is low, occupation area of equipment is little, but the kind of producing alloy is more single, can not meet Production requirement completely, therefore still have improved space.

Utility model content

The deficiency existing for prior art, the utility model provides a kind of copper strips production line, this copper strips production line combines slab hot-rolling production technology and horizontal casting production technology, in same production line, realize both switchings, both can adopt horizontal casting production technology to meet the demand that operation is short, cost is low, and also can adopt ingot casting production technology to meet the demand of producing existing all kind copper strips products.

For achieving the above object, the utility model provides following technical scheme: a kind of copper strips production line, comprise system material part, cast part and processing part, system material part comprises the hydraulic press-packing setting gradually, pay-off and smelting furnace, cast part comprises hot rolling pipelining equipment and horizontal casting pipelining equipment, hot rolling pipelining equipment comprises the vertical semi-continuous casting machine setting gradually, sawing machine, hot-rolling mill, devices for taking-up, volume base quenching unit, the head and the tail two ends of hot rolling pipelining equipment are connected with processing part with system material part respectively, horizontal casting pipelining equipment comprises horizontal caster, the head and the tail two ends of horizontal casting pipelining equipment are connected with processing part with system material part respectively, processing part comprises the double sides milling machine setting gradually, roughing mill, step heating-furnace and finishing mill.

By adopting technique scheme, when this copper strips production line work, raw material copper is compressed into piece by hydraulic press-packing, and be transported on pay-off, by pay-off, raw material copper being delivered to melting in smelting furnace refines, now cast part comprises hot rolling pipelining equipment and horizontal casting pipelining equipment, the corresponding slab hot-rolling production technology of difference and horizontal casting production technology, when selecting to adopt slab hot-rolling production technology, material after melting can be passed to vertical semi-continuous casting machine and be cast as ingot casting, then by sawing machine, ingot casting is excised end to end, processing by hot-rolling mill and devices for taking-up forms volume base again, by volume base quenching unit, quench, and when adopting horizontal casting production technology, can directly by horizontal casting machined, obtain rolling up base, by the resulting volume base of above-mentioned two kinds of techniques, finally pass through double sides milling machine milling face, roughing mill preparatory processing, step heating-furnace annealing, then obtain required copper strips product by finishing mill fine finishining, slab hot-rolling production technology can meet the specification requirement of the copper strips product of producing existing all kinds, and horizontal casting production technology operation is shorter, production cost is lower, floor space is little, this copper strips production line combines slab hot-rolling production technology and horizontal casting production technology, do not need to set up in addition whole piece production line, in same production line, realize both switchings, can select to adopt suitable production technology according to need of production, both can adopt horizontal casting production technology to meet operation short, the demand that cost is low, also can adopt ingot casting production technology to meet the demand of producing existing all kind copper strips products.

The utility model is further set to, and described processing part also comprises pickling pipelining equipment, and pickling pipelining equipment comprises material placing machine, descaling bath, water brush device, Rinsing Area, wiping arrangement, drying unit, sanding device and the coiling machine connecting successively.

By adopting technique scheme, processing part also comprises can carry out to copper strips product the pickling pipelining equipment of pickling, copper strips product in process of production, especially after annealing inevitably there is certain oxide in its surface, now copper strips product can be placed on material placing machine, by descaling bath pickling, then by water brush device, residual acid solution is cleaned, pass through Rinsing Area again until after thoroughly cleaning, the moisture of copper strips product being avoided by wiping arrangement is extruded, through drying unit, the moisture remaining on copper strips product is thoroughly eliminated again, finally by sanding device, process, make any surface finish of copper strips product, improve the lumber recovery of copper strips product.

The utility model is further set to, described water brush device comprises casing, is placed in the water brush assemblies in casing, water brush assemblies comprises at least two brush rolls and at least two live-rollers, live-roller setting corresponding to brush roll, and the rotation of live-roller and the rotation of brush roll be arranged in parallel.

By adopting technique scheme, at least two brush rolls and at least two live-rollers are set, and live-roller setting corresponding to brush roll, axially parallel setting between the two can make copper strips product enter between brush roll and live-roller with level and smooth angle, and then make copper strips product stressed and the dynamics of scrubbing is even everywhere, reach better washing effect.

The utility model is further set to, described sanding device comprises support, frosted assembly, conveying assembly, frosted assembly, conveying assembly are all connected with support, conveying assembly comprises delivery wheel and reclaiming plate, the two ends of reclaiming plate are connection bracket and coiling machine respectively, and the corresponding frosted assembly of reclaiming plate one side is provided with copper scale gathering-device.

By adopting technique scheme, the corresponding frosted assembly of reclaiming plate one side arranges copper scale gathering-device, can collect easily and clear up copper scale, has not only improved the cleannes in workshop, also can to copper scrap, recycle easily, has effectively saved the waste of material.

The utility model is further set to, described pay-off comprises chassis, be located at below, chassis wheel, can drive wheel movement motor, be located at the loading roll-over table of top, chassis and the driving mechanism that can drive the upset of loading roll-over table.

By adopting technique scheme, when this copper strips production line work, raw material after compression can be placed on loading roll-over table, by power wheel, moved, drive pay-off to the feeding port place of smelting furnace, by driving mechanism, promoting loading roll-over table again overturns, raw material are pushed in smelting furnace, this pay-off has replaced original a dead lift and traveling crane to send raw-material mode, both saved time, laborsaving, and the various potential safety hazards of manual work have been reduced greatly, protected workman's safety, also saved the trouble of vehicling operation simultaneously, stack pallet can be facilitated, accurately raw material are delivered in smelting furnace.

The utility model is further set to, and described pay-off also comprises the track coordinating with wheel, and driving mechanism is hydraulic cylinder, and the equal signal of motor and driving mechanism is connected with remote control.

By adopting technique scheme, driving mechanism is hydraulic cylinder, by coordinating of wheel and track, make traffic route and the feeding of pay-off more accurate, and the equal signal of motor and driving mechanism is connected with remote control, can by remote control, control easily the feeding process of stack pallet, safer, convenient and reliable.

The utility model is further set to, described coiling machine comprises workbench, rotary tray motor and fixed mechanism, workbench is provided with guide and rotating disk, fixed mechanism is arranged on rotating disk, and rotary tray motor is provided with output, and fixed mechanism is connected with output, fixed mechanism and rotating disk circumferentially link, fixed mechanism is provided with lifting assembly, and workbench is provided with pusher and gathering-device, and pusher rotating disk axis relative to gathering-device is symmetrical.

By adopting technique scheme, after copper strips product has rolled by coiling machine, can make to extract out in the copper strips product of fixed mechanism from having rolled by lifting assembly, saved the operating procedure that operating personnel carry out copper strips product from fixed mechanism, increase work efficiency, also can the copper strips product after having rolled be pushed to gathering-device by pusher temporarily deposits simultaneously, reduced the intermediate link of carrying copper strips product and making equipment operation suspension, make production procedure more smooth, operating efficiency further improves.

The utility model is further set to, described hydraulic press-packing comprises host machine part and controls the dynamical system that host machine part is moved, host machine part includes metal molding box, in metal molding box, be provided with the waste material accommodating cavity with the square shape of opening, the diapire that waste material accommodating cavity is connected by one and surrounding sidewall enclose and form, surrounding sidewall comprises antetheca, rear wall, Zuo Bi and You Bi, metal molding box is provided with and presses down cover plate in opening part, the opposite side that presses down the corresponding metal molding box of cover plate has been connected and has pressed down hydraulic cylinder, metal molding box is provided with mount pad, press down hydraulic cylinder and mount pad is articulated and connected, antetheca and diapire junction are provided with rotating shaft, diapire and antetheca are connected by rotating shaft, rotating shaft is provided with and can drives antetheca rotation to the drive unit of conflicting and being connected with ground, rear wall, left wall, right wall all arranges with diapire split and forms to conflict and is connected, the other end of the corresponding diapire of antetheca forms waste material metal discrepancy end.

By adopting technique scheme, raw material copper scrap can be dropped in waste material accommodating cavity, drive shaft rotation, by drive unit, drive antetheca rotation to conflicting and be connected with ground, raw material copper scrap is come in and gone out to hold by waste material metal and be swept on antetheca until input amount meets the once demand of packing substantially, then by drive unit, drive antetheca rotation to perpendicular to the ground, raw material copper scrap drops down onto on diapire, then by pressing down hydraulic cylinder, drive and to press down cover plate and carry out packing work, after waste material metal has been packed, again by drive unit, drive antetheca rotation to conflicting and be connected with ground, raw material copper scrap bag is come in and gone out to hold by metal and remove to ground, simple in structure, investing method and contracted basis are all very convenient.

The utility model is further set to, and described drive unit comprises drive motors and shaft coupling, and the output of described drive motors is connected by shaft coupling and rotating shaft.

By adopting technique scheme, make the connected mode of antetheca and diapire more reliable and stable.

The utility model is further set to, and described material part processed also comprises transfer holding furnace, and smelting furnace, transfer holding furnace, horizontal caster are connected successively with double sides milling machine.

By adopting technique scheme, transfer holding furnace can be accepted from the copper liquid in smelting furnace, in order to be connected slab hot-rolling production technology and horizontal casting production technology, be two contacts between different process route, the raw material supply in the time of can guaranteeing horizontal caster continuous operation.

Accompanying drawing explanation

Fig. 1 is the module diagram of the utility model copper strips production line;

Fig. 2 is the structural representation of the utility model water brush device;

Fig. 3 is the floor map of the utility model water brush device;

Fig. 4 is the structural representation of the utility model sanding device;

Fig. 5 is the structural scheme of mechanism of the utility model pay-off;

Fig. 6 is the structural representation one of the utility model coiling machine;

Fig. 7 is the structural representation two of the utility model coiling machine;

Fig. 8 is the structural representation one of the utility model hydraulic press-packing;

Fig. 9 is the structure explosive view of the utility model hydraulic press-packing;

Figure 10 is the structural representation two of the utility model hydraulic press-packing.

Reference numeral: 1, system material part; 11, hydraulic press-packing; 111, metal molding box; 1111, waste material accommodating cavity; 1112, diapire; 1113, antetheca; 1114, rear wall; 1115, Zuo Bi; 1116, You Bi; 112, press down cover plate; 114, press down hydraulic cylinder; 115, mount pad; 116, rotating shaft; 117, drive unit; 1171, drive motors; 1172, shaft coupling; 12, pay-off; 121, chassis; 122, wheel; 123, motor; 124, loading roll-over table; 125, driving mechanism; 126, track; 127, remote control; 13, smelting furnace; 2, hot rolling pipelining equipment; 21, vertical semi-continuous casting machine; 22, sawing machine; 23, hot-rolling mill; 24, devices for taking-up; 25, volume base quenching unit; 3, horizontal casting pipelining equipment; 31, transfer holding furnace; 32, horizontal caster; 4, processing part; 41, double sides milling machine; 42, roughing mill; 43, step heating-furnace; 44, finishing mill; 5, pickling pipelining equipment; 51, material placing machine; 52, descaling bath; 53, water brush device; 531, casing; 532, water brush assemblies; 5321, brush roll; 5322, live-roller; 54, Rinsing Area; 55, wiping arrangement; 56, drying unit; 57, sanding device; 571, support; 572, conveying assembly; 5721, delivery wheel; 5722, reclaiming plate; 573, frosted assembly; 574, copper scale gathering-device; 58, coiling machine; 581, workbench; 582, rotating disk; 583, fixed mechanism; 584, guide; 585, rotary tray motor; 586, output; 587, pusher; 588, gathering-device.

The specific embodiment

Referring to figs. 1 through Figure 10, the utility model copper strips production line embodiment is described further.

A kind of copper strips production line, comprise system material part 1, cast part and processing part 4, system material part 1 comprises the hydraulic press-packing 11 setting gradually, pay-off 12 and smelting furnace 13, cast part comprises hot rolling pipelining equipment 2 and horizontal casting pipelining equipment 3, hot rolling pipelining equipment 2 comprises the vertical semi-continuous casting machine 21 setting gradually, sawing machine 22, hot-rolling mill 23, devices for taking-up 24, volume base quenching unit 25, the vertical semi-continuous casting machine 21 of hot rolling pipelining equipment 2, volume base quenching unit 25 is expected part 1 with system respectively, processing part 4 is connected, horizontal casting pipelining equipment 3 comprises horizontal caster 32, the head and the tail two ends of horizontal casting pipelining equipment 3 are connected with processing part 4 with system material part 1 respectively, processing part 4 comprises the double sides milling machine 41 setting gradually, roughing mill 42, step heating-furnace 43 and finishing mill 44.

By adopting technique scheme, when this copper strips production line work, raw material copper is compressed into piece by hydraulic press-packing 11, and be transported on pay-off 12, by pay-off 12, raw material copper being delivered to the interior melting of smelting furnace 13 refines, now cast part comprises hot rolling pipelining equipment 2 and horizontal casting pipelining equipment 3, the corresponding slab hot-rolling production technology of difference and horizontal casting production technology, when selecting to adopt slab hot-rolling production technology, material after melting can be passed to vertical semi-continuous casting machine 21 and be cast as ingot casting, then by sawing machine 22, ingot casting is excised end to end, processing by hot-rolling mill 23 and devices for taking-up 24 forms volume base again, by volume base quenching unit 25, quench, and when adopting horizontal casting production technology, can directly by horizontal caster 32 processing, obtain rolling up base, by the resulting volume base of above-mentioned two kinds of techniques, finally pass through double sides milling machine 41 milling faces, roughing mill 42 preparatory processings, step heating-furnace 43 annealing, then obtain required copper strips product by finishing mill 44 fine finishining, slab hot-rolling production technology can meet the specification requirement of the copper strips product of producing existing all kinds, and horizontal casting production technology operation is shorter, production cost is lower, floor space is little, this copper strips production line combines slab hot-rolling production technology and horizontal casting production technology, do not need to set up in addition whole piece production line, in same production line, realize both switchings, can select to adopt suitable production technology according to need of production, both can adopt horizontal casting production technology to meet operation short, the demand that cost is low, also can adopt ingot casting production technology to meet the demand of producing existing all kind copper strips products.

Described processing part 4 also comprises pickling pipelining equipment 5, and pickling pipelining equipment 5 comprises material placing machine 51, descaling bath 52, water brush device 53, Rinsing Area 54, wiping arrangement 55, drying unit 56, sanding device 57 and the coiling machine 58 connecting successively.

By adopting technique scheme, processing part 4 also comprises can carry out to copper strips product the pickling pipelining equipment 5 of pickling, copper strips product in process of production, especially after annealing inevitably there is certain oxide in its surface, now copper strips product can be placed on material placing machine 51, by descaling bath 52 pickling, then by water brush device 53, residual acid solution is cleaned, pass through Rinsing Area 54 again until after thoroughly cleaning, the moisture of copper strips product being avoided by wiping arrangement 55 is extruded, through drying unit 56, the moisture remaining on copper strips product is thoroughly eliminated again, finally by sanding device 57, process, make any surface finish of copper strips product, improve the lumber recovery of copper strips product.

Described water brush device 53 comprises casing 531, is placed in the water brush assemblies 532 in casing 531, water brush assemblies 532 comprises at least two brush rolls 5321 and at least two live-rollers 5322, live-roller 5322 setting corresponding to brush roll 5321, the rotating shaft 116 line parallel settings of rotating shaft 116 lines of live-roller 5322 and brush roll 5321.

By adopting technique scheme, at least two brush rolls 5321 and at least two live-rollers 5322 are set, and live-roller 5322 setting corresponding to brush roll 5321, axially parallel setting between the two can make copper strips product enter between brush roll 5321 and live-roller 5322 with level and smooth angle, and then make copper strips product stressed and the dynamics of scrubbing is even everywhere, reach better washing effect.

Described sanding device 57 comprises support 571, frosted assembly 573, conveying assembly 572, frosted assembly 573, conveying assembly 572 are all connected with support 571, conveying assembly 572 comprises delivery wheel 5721 and reclaiming plate 5722, the two ends of reclaiming plate 5722 are connection bracket 571 and coiling machine 58 respectively, and corresponding frosted assembly 573 1 sides of reclaiming plate 5722 are provided with copper scale gathering-device 574.

By adopting technique scheme, corresponding frosted assembly 573 1 sides of reclaiming plate 5722 arrange copper scale gathering-device 574, can collect easily and clear up copper scale, have not only improved the cleannes in workshop, also can to copper scrap, recycle easily, effectively save the waste of material.

Described pay-off 12 comprises chassis 121, be located at the wheel 122 of 121 belows, chassis, can drive the motor 123 of wheel 122 motions, the driving mechanism 125 of being located at the loading roll-over table 124 of 121 tops, chassis and can driving 124 upsets of loading roll-over table.

By adopting technique scheme, when this copper strips production line work, raw material after compression can be placed on loading roll-over table 124, by motor 123, drive wheel 122 motions, drive pay-off 12 to the feeding port place of smelting furnace 13, by driving mechanism 125, promote 124 upsets of loading roll-over table again, raw material are pushed to smelting furnace 13 and raw material copper is poured in smelting furnace 13, this pay-off 12 has replaced original a dead lift and traveling crane to send raw-material mode, both saved time, laborsaving, and the various potential safety hazards of manual work have been reduced greatly, protected workman's safety, also saved the trouble of vehicling operation simultaneously, stack pallet can be facilitated, accurately raw material are delivered in smelting furnace 13.

Described pay-off 12 also comprises the track 126 coordinating with wheel 122, and driving mechanism 125 is hydraulic cylinder, and motor 123 and the equal signal of driving mechanism 125 are connected with remote control 127.

By adopting technique scheme, driving mechanism 125 is hydraulic cylinder, by hydraulic cylinder, promote 124 upsets of loading roll-over table (it should be noted that herein, the present embodiment is selected the hydraulic cylinder of doing linear reciprocating motion), utilize hydraulic cylinder to promote loading roll-over table 124 and rotate, make loading roll-over table 124 can bear larger pressure, reversal rate is controlled, stable working, can be poured onto raw material copper in smelting furnace 13 slowly, prevents that copper water from spilling; By coordinating of wheel 122 and track 126, make traffic route and the feeding of pay-off 12 more accurate, and motor 123 and the equal signal of driving mechanism 125 are connected with remote control 127, can by remote control 127, control easily the feeding process of stack pallet, safer, convenient and reliable.

Described coiling machine 58 comprises workbench 581, rotary tray motor 585 and fixed mechanism 583, workbench 581 is provided with guide 584 and rotating disk 582, fixed mechanism 583 is arranged on rotary tray motor 585, rotary tray motor 585 is provided with output 586, fixed mechanism 583 is connected with output 586, fixed mechanism 583 circumferentially links with rotary tray motor 585, fixed mechanism 583 is provided with lifting assembly, workbench 581 is provided with pusher 587 and gathering-device 588, and pusher 587 rotary tray motor 585 axis relative to gathering-device 588 are symmetrical.

By adopting technique scheme, after copper strips product has rolled by coiling machine 58, can make to extract out in the copper strips product of fixed mechanism 583 from having rolled by lifting assembly, saved the operating procedure that operating personnel carry out copper strips product from fixed mechanism 583, increase work efficiency, also can the copper strips product after having rolled be pushed to gathering-device 588 by pusher 587 temporarily deposits simultaneously, reduced the intermediate link of carrying copper strips product and making equipment operation suspension, make production procedure more smooth, operating efficiency further improves.

Described hydraulic press-packing 11 comprises host machine part and controls the dynamical system that host machine part is moved, host machine part includes metal molding box 111, in metal molding box 111, be provided with the waste material accommodating cavity 1111 with the square shape of opening, the diapire 1112 that waste material accommodating cavity 1111 is connected by one and surrounding sidewall enclose and form, surrounding sidewall comprises antetheca 1113, rear wall 1114, left wall 1115 and right wall 1116, metal molding box 111 is provided with and presses down cover plate 112 in opening part, the opposite side that presses down the corresponding metal molding box 111 of cover plate 112 has been connected and has pressed down hydraulic cylinder 114, metal molding box 111 is provided with mount pad 115, pressing down hydraulic cylinder 114 is articulated and connected with mount pad 115, antetheca 1113 and diapire 1112 junctions are provided with rotating shaft 116, diapire 1112 and antetheca 1113 are connected by rotating shaft 116, rotating shaft 116 is provided with and can drives antetheca 1113 rotations to the drive unit 117 of conflicting and being connected with ground, rear wall 1114, left wall 1115, right wall 1116 is all conflicted and is connected with diapire 1112 split settings and formation, the other end of the corresponding diapire 1112 of antetheca 1113 forms waste material metal discrepancy end.

By adopting technique scheme, raw material copper scrap can be dropped in waste material accommodating cavity 1111, drive shaft 116 rotations, by drive unit 117, drive antetheca 1113 rotations to conflicting and be connected with ground, raw material copper scrap is come in and gone out to hold by waste material metal and be swept on antetheca 1113 until input amount meets the once demand of packing substantially, then by drive unit 117, drive antetheca 1113 rotations to perpendicular to the ground, raw material copper scrap drops down onto on diapire 1112, then by pressing down hydraulic cylinder 114, drive and press down cover plate 112 and carry out packing work, after waste material metal has been packed, again by drive unit 117, drive antetheca 1113 rotations to conflicting and be connected with ground, raw material copper scrap bag is come in and gone out to hold by metal and remove to ground, simple in structure, investing method and contracted basis are all very convenient.

Described drive unit 117 comprises drive motors 1171 and shaft coupling 1172, and the output 586 of described drive motors 1171 is connected by shaft coupling 1172 and rotating shaft 116.

By adopting technique scheme, make the connected mode of antetheca 1113 and diapire 1112 more reliable and stable.

Described material part processed also comprises transfer holding furnace 31, and smelting furnace 13, transfer holding furnace 31, horizontal caster 32 and double sides milling machine 41 are connected successively.

By adopting technique scheme, transfer holding furnace 31 can be accepted from the copper liquid in smelting furnace 13, in order to be connected slab hot-rolling production technology and horizontal casting production technology, be two contacts between different process route, the raw material supply in the time of can guaranteeing horizontal caster 32 continuous operation.

The above is only preferred embodiment of the present utility model, and protection domain of the present utility model is also not only confined to above-described embodiment, and all technical schemes belonging under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, in the some improvements and modifications that do not depart under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. a copper strips production line, comprise system material part, cast part and processing part, described material processed partly comprises the hydraulic press-packing setting gradually, pay-off and smelting furnace, it is characterized in that: described cast part comprises hot rolling pipelining equipment and horizontal casting pipelining equipment, described hot rolling pipelining equipment comprises the vertical semi-continuous casting machine setting gradually, sawing machine, hot-rolling mill, devices for taking-up, volume base quenching unit, the head and the tail two ends of hot rolling pipelining equipment are connected with processing part with system material part respectively, described horizontal casting pipelining equipment comprises horizontal caster, the head and the tail two ends of horizontal pipelining equipment are connected with processing part with system material part respectively, described processing part comprises the double sides milling machine setting gradually, roughing mill, step heating-furnace and finishing mill.

2. copper strips production line according to claim 1, it is characterized in that: described processing part also comprises pickling pipelining equipment, described pickling pipelining equipment comprises material placing machine, descaling bath, water brush device, Rinsing Area, wiping arrangement, drying unit, sanding device and the coiling machine connecting successively.

3. copper strips production line according to claim 2, it is characterized in that: described water brush device comprises casing, is placed in the water brush assemblies in casing, described water brush assemblies comprises at least two brush rolls and at least two live-rollers, the setting corresponding to brush roll of described live-roller, the rotation of live-roller and the rotation of brush roll be arranged in parallel.

4. according to the copper strips production line described in claim 2 or 3, it is characterized in that: described sanding device comprises support, frosted assembly, conveying assembly, described frosted assembly, conveying assembly are all connected with support, described conveying assembly comprises delivery wheel and reclaiming plate, the two ends of reclaiming plate are connection bracket and coiling machine respectively, and the corresponding frosted assembly of reclaiming plate one side is provided with copper scale gathering-device.

5. copper strips production line according to claim 1 and 2, is characterized in that: described pay-off comprises chassis, be located at the wheel of below, chassis, can drive wheel movement motor, be located at the loading roll-over table of top, chassis and the driving mechanism that can drive the upset of loading roll-over table.

6. copper strips production line according to claim 5, is characterized in that: described pay-off also comprises the track coordinating with wheel, and described driving mechanism is hydraulic cylinder, and the equal signal of described motor and driving mechanism is connected with remote control.

7. copper strips production line according to claim 2, it is characterized in that: described coiling machine comprises workbench, rotary tray motor and fixed mechanism, described workbench is provided with guide and rotating disk, described fixed mechanism is arranged on rotating disk, described rotary tray motor is provided with output, described fixed mechanism is connected with output, described fixed mechanism and rotating disk circumferentially link, described fixed mechanism is provided with lifting assembly, described workbench is provided with pusher and gathering-device, and described pusher rotating disk axis relative to gathering-device is symmetrical.

8. copper strips production line according to claim 1 and 2, it is characterized in that: described hydraulic press-packing comprises host machine part and controls the dynamical system that host machine part is moved, described host machine part includes metal molding box, in metal molding box, be provided with the waste material accommodating cavity with the square shape of opening, the diapire that waste material accommodating cavity is connected by one and surrounding sidewall enclose and form, described surrounding sidewall comprises antetheca, rear wall, Zuo Bi and You Bi, metal molding box is provided with and presses down cover plate in opening part, the opposite side that presses down the corresponding metal molding box of cover plate has been connected and has pressed down hydraulic cylinder, metal molding box is provided with mount pad, press down hydraulic cylinder and mount pad is articulated and connected, described antetheca and diapire junction are provided with rotating shaft, diapire and antetheca are connected by rotating shaft, described rotating shaft is provided with and can drives antetheca rotation to the drive unit of conflicting and being connected with ground, rear wall, left wall, right wall all arranges with diapire split and forms to conflict and is connected, the other end of the corresponding diapire of described antetheca forms waste material metal discrepancy end.

9. copper strips production line according to claim 8, is characterized in that: described drive unit comprises drive motors and shaft coupling, and the output of described drive motors is connected by shaft coupling and rotating shaft.

10. copper strips production line according to claim 1 and 2, is characterized in that: described material part processed also comprises transfer holding furnace, and smelting furnace, transfer holding furnace, horizontal caster are connected successively with double sides milling machine.

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