CN107755652B - A kind of amorphous alloy twin-belt caster and its continuous casing - Google Patents
A kind of amorphous alloy twin-belt caster and its continuous casing Download PDFInfo
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- CN107755652B CN107755652B CN201710777348.5A CN201710777348A CN107755652B CN 107755652 B CN107755652 B CN 107755652B CN 201710777348 A CN201710777348 A CN 201710777348A CN 107755652 B CN107755652 B CN 107755652B
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- roll
- setting gear
- steel band
- amorphous alloy
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D11/00—Continuous casting of metals, i.e. casting in indefinite lengths
- B22D11/06—Continuous casting of metals, i.e. casting in indefinite lengths into moulds with travelling walls, e.g. with rolls, plates, belts, caterpillars
- B22D11/0605—Continuous casting of metals, i.e. casting in indefinite lengths into moulds with travelling walls, e.g. with rolls, plates, belts, caterpillars formed by two belts, e.g. Hazelett-process
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- Continuous Casting (AREA)
Abstract
The invention discloses a kind of amorphous alloy twin-belt caster and its continuous casings.The twin-belt caster includes rack, upper band portion and lower band portion, and upper band portion and lower band portion are each attached in rack;The upper band portion includes heating roller, the first support device, the second support device, the first tensioning apparatus, slave unit and upper steel band;The lower band portion includes the first roll-setting gear, the second roll-setting gear, third roll-setting gear, the second tensioning apparatus, aggressive device and lower steel band;Lower strip between upper strip and the first roll-setting gear and the second roll-setting gear between first tensioning apparatus and heating roller forms molten bath for containing amorphous alloy liquid;A clinoplain is formed between two tangent tangent lines of the rotating roller of upper steel band and heating roller and slave unit, to another clinoplain is formed between three tangent tangent lines of the rotating roller of third roll-setting gear, two clinoplains are parallel to each other and form a solidification zone between two planes lower steel band and first.
Description
Technical field
The invention belongs to the double belts that metal material casting technology field more particularly to a kind of pair of amorphous alloy are cast
The continuous casing of conticaster and amorphous alloy.
Background technique
Compared with common crystal alloy, amorphous alloy has superior mechanical property and physical and chemical performance.Amorphous alloy
As a kind of new material, not only there is high intensity, toughness, wearability and corrosion resistance, but also show excellent
Soft magnetism and superconductivity are widely applied in fields such as electronics, machinery and chemical industry.However, the system of current amorphous alloy
Standby technique is copper mold casting, PM technique, melt water quenching, casting die etc., and the above method is limited only to production and fixes
The amorphous alloy of specification, and cannot achieve the continuously casting of amorphous alloy, production efficiency is low, when producing the slab of different size
Different molds is needed, production cost is increased.
Currently, the advantage that twin-belt caster is saved by original capital, casting yield is high, production cost is low is widely used
In the various non-ferrous metal strips such as copper, aluminium, lead, zinc and the continuous casting of Bar Wire Product, due to the harshness of amorphous alloy working condition, biobelt
Formula conticaster does not set foot in the continuously casting in amorphous alloy, and twin-belt caster generallys use pouring type and provides to casting machine
The mode of aluminium alloy realizes the continuously casting of slab.However when pouring type being used to inject aluminium alloy to conticaster, pours and outpour
Mouth can generate the fluctuation of aluminium alloy, and this fluctuation causes casting billet surface to generate uniformity defect without the slab steadily formed.Thus
As it can be seen that having obvious deficiency to casting machine injection aluminium alloy using pouring type, the surface quality of slab is influenced.
Summary of the invention
It is an object of that present invention to provide a kind of twin-belt casters cast without using pouring type to amorphous alloy.
In addition, the object of the invention is also to provide a kind of elimination aluminium alloys to fluctuate the continuously casting side influenced on cc billet surface quality
Method.
The technical solution that the present invention solves described problem is as follows:
A kind of amorphous alloy twin-belt caster, including rack 1, upper band portion and lower band portion, upper band portion and lower band portion are solid
It is scheduled in rack 1;The upper band portion include heating roller 7, the first support device 8, the second support device 11, the first tensioning apparatus 9,
Slave unit 13 and upper steel band 10;The lower band portion includes the first roll-setting gear 4, the second roll-setting gear 6, third roll-setting gear
14, the second tensioning apparatus 2, aggressive device 15 and lower steel band 3;Upper strip 10 between first tensioning apparatus 9 and heating roller 7 and
Lower strip 3 between one roll-setting gear 4 and the second roll-setting gear 6 forms molten bath 5 for containing amorphous alloy master alloy liquid;Its
In, amorphous alloy master alloy liquid of the heating roller 7 in the fixation position rotary heating molten bath 5 of conticaster keeps certain temperature;
First roll-setting gear 4, the second roll-setting gear 6 and third roll-setting gear 14 are mounted in rack 1 from top to bottom respectively, are adjusted simultaneously
First roll-setting gear 4, the second roll-setting gear 6 and third roll-setting gear 14 are changed flat between upper steel band 10 and lower steel band 3 with this
Row distance;It is flat that an inclination is formed between two tangent tangent lines of the rotating roller of upper steel band 10 and heating roller 7 and slave unit 13
Face, lower steel band 3 and first incline to forming another between three tangent tangent lines of the rotating roller of third roll-setting gear 4,6,14
Tapered plane, two clinoplains are parallel to each other and form a solidification zone 12 between two planes;First tensioning apparatus 9 and the second tensioning
Device 2 is respectively used to change the tightness of upper 10 steel band and lower steel band 3;Upper steel band 10 is protected with lower steel band 3 when conticaster is run
It holds and moves synchronously.
When conticaster carries out continuously casting to amorphous alloy, it is heated to the amorphous alloy master alloy liquid note of molten condition
Enter in above-mentioned molten bath, heating roller makes the amorphous alloy master alloy liquid in molten bath keep certain temperature, and driving device makes lower steel band
It is operated with upper synchronous steel belt, amorphous alloy master alloy liquid flows into steel band under steel band frictional force and gravity and lower steel band is flat
The solidification zone of row part, by being cooled into slab, when needing to produce the slab of different size, by adjust roll-setting gear come
Change the thickness of above-mentioned solidification zone, the continuous casting of different size amorphous alloy is completed with this.
The continuous casing of the amorphous alloy twin-belt caster, content are as follows:
By in the amorphous alloy master alloy liquid of melting injection molten bath, heating roller to the amorphous alloy master alloy liquid in molten bath into
Row heating, makes amorphous alloy master alloy liquid keep certain temperature;The movement driven by the driving device of upper and lower band portion, and
Move synchronously upper and lower band portion holding, to keep slab upper and lower surface speed consistent;Amorphous alloy master alloy liquid is in upper and lower band
Under the movement in portion, solidification zone is directly brought by molten bath, eliminates and fluctuates when injecting aluminium alloy using pouring type to slab table
The influence of face quality;Amorphous alloy master alloy liquid is cooled to by amorphous alloy slab by cooling device in cavity, thus complete
The continuously casting of pairs of amorphous alloy.
Compared with prior art, the invention has the advantages that twin-belt caster injects aluminium alloy without using pouring type,
But conticaster itself has molten bath, aluminium alloy directly injects cavity by molten bath, eliminates and injects aluminium alloy using pouring type
Influence to cc billet surface quality;The continuously casting of amorphous alloy is realized, and may be implemented not by changing cavity size
The continuous casting of same specification amorphous alloy;Structure simply saves space, and has saved expensive mold manufacturing expense.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of twin-belt caster;
Fig. 2 is the structural schematic diagram of the first tensioning apparatus;
Fig. 3 is the structural schematic diagram of the first roll-setting gear;
Fig. 4 is the structural schematic diagram of the first support device;
Fig. 5 is the structural schematic diagram of slave unit;
Fig. 6 is the structural schematic diagram of aggressive device.
Specific embodiment
Present invention is further described in detail with specific embodiment with reference to the accompanying drawing:
In the explanation of embodiments of the present invention, firstly, the detailed construction to twin-belt caster is illustrated, later
It is illustrated to continuous casting steel billet casting method is carried out.
As shown in Figure 1, a kind of amorphous alloy twin-belt caster of the present invention mainly by upper band portion and lower band portion with
And rack 1 forms, upper band portion and lower band portion are each attached in rack 1;The upper band portion includes heating roller 7, the first support device
8, the second support device 11, the first tensioning apparatus 9, slave unit 13 and upper steel band 10;The lower band portion is filled including the first roll adjustment
Set the 4, second roll-setting gear 6, third roll-setting gear 14, the second tensioning apparatus 2, aggressive device 15 and lower steel band 3;First tensioning dress
The lower strip 3 set between the upper strip 10 and the first roll-setting gear 4 and the second roll-setting gear 6 between 9 and heating roller 7 forms molten bath
5 for containing amorphous alloy master alloy liquid, wherein forming part and the part institute angulation of lower steel band 3 of the upper steel band 10 in molten bath 5
Degree is 10 °~170 °, i.e., the angle α is 10 °~170 °;Wherein, the first support device 8, the second support device 11 and upper steel band 10 will
Heating roller 7 is fixed, wherein the circle center line connecting of the center of circle of the first support device 8 and heating roller 7 and the center of circle of heating roller 7 and second
The circle center line connecting angulation of support arrangement 11 is 60 °~120 °, makes heating roller 7 in the fixation position rotary heating molten bath of conticaster
Amorphous alloy master alloy liquid in 5 keeps certain temperature;First roll-setting gear 4, the second roll-setting gear 6 and third roll-setting gear
14 are mounted in rack 1 from top to bottom respectively, and the linear distance between the first roll-setting gear 4 and the second roll-setting gear 6 is 50mm
~500mm, the linear distance between the second roll-setting gear 6 and third roll-setting gear 14 are 50mm~500mm, first roll adjustment
The rotating roller of the rotating roller of device 4, the rotating roller of the second roll-setting gear 6 and third roll-setting gear 14 is in the same clinoplain
Upper and range of tilt angles is 0 °~90 °, while adjusting the first roll-setting gear 4, the second roll-setting gear 6 and third roll-setting gear 14
Change the parallel distance between upper steel band 10 and lower steel band 3 with this, so as to realize that the amorphous alloy of different size is continuously cast
It makes;A clinoplain is formed between two tangent tangent lines of the rotating roller of upper steel band 10 and heating roller 7 and slave unit 13, under
Steel band 3 and first is put down to another inclination is formed between three tangent tangent lines of the rotating roller of third roll-setting gear 4,6,14
Face, two clinoplains are parallel to each other and form a solidification zone 12 between two planes, and solidification zone 12 is relative to horizontally tilting
Angular range is 0 °~90 °, i.e., β angular region is 0 °~90 °;First tensioning apparatus 9 and the second tensioning apparatus 2 are respectively used to change
The tightness of upper steel band 10 and lower steel band 3 convenient for the disassembly of upper and lower steel band 10,3, and can be such that conticaster was running
It is unlikely to the upper and lower loosening of steel band 10,3 occur and lead to accident in journey, since the length of upper and lower steel band 10,3 is fixed, institute
With when adjusting the first and second roll-setting gear 4,6, upper and lower steel band 10,3 tension or upper and lower steel band 10,3 mistakes after reconciling may occur
The situation of pine, therefore the first and second tensioning apparatus 9,2 can assist first simultaneously --- three roll-setting gears 4,6,14 carry out steel band
Adjustment;Aggressive device 15 couples motor by belt pulley, and under the action of motor and belt, aggressive device 15 is revolved
Turn, drives lower band portion overall operation;Fortune is realized between slave unit 13 and aggressive device 15 by synchronous backward transmission mechanism
Dynamic transmitting, therefore slave unit 13, under the action of aggressive device 15, band portion operates in drive, while ensure that steel band 10
With moving synchronously for lower steel band 3, wherein aggressive device 15 is located at the underface of slave unit 13, and the two distance depends on synchronizing anti-
To the size of transmission mechanism.
A kind of amorphous alloy twin-belt caster of the present invention, heating roller 7 should carry out rotary heating in fixed position,
To make the amorphous alloy master alloy liquid in molten bath keep certain temperature, except using the support of above-mentioned first support device 8, second
Device 11 and upper steel band 10 outside the fixed mode of heating roller 7, will also can be used and directly will heat the fixed device in 7 both ends of heating roller
Roller 7 is fixed.
A kind of amorphous alloy twin-belt caster of the present invention, one important feature are steel band 10 and lower steel
Band 3 moves synchronously, and just can guarantee slab quality in this way.The aggressive device 15 can be interchanged with slave unit 13, make in Fig. 1
13 become aggressive device makes 15 to become slave unit simultaneously, so that band portion be made to be operated under motor driven, lower band portion is then
It is to be operated under the drive of slave unit, steel band 10 is operated synchronously with lower steel band 3 in realization.Furthermore, it is possible in slave unit 13
And on aggressive device 15 not by the way of synchronous backward transmission mechanism, in 15 outer portion of slave unit 13 and aggressive device
A motor is not connected not respectively to realize moving synchronously for upper and lower band portion;In the case where not using synchronous backward transmission mechanism,
The device 2,4,6,14,15 of lower band portion and the device 9,13 of upper band portion, any one device and lower band of upper band portion in Fig. 1
Any one device in portion can be combined to install motor to realize upper steel band 10 fortune synchronous with lower steel band 3 two-by-two
Turn.
First tensioning apparatus 9 is as shown in Fig. 2, include eccentric shaft 901, the eccentric shaft 901 is that mid diameter is maximum
The multi-stage reducing eccentric shaft successively to become smaller to both ends, and be in symmetrical structure relative to the center of eccentric shaft 901;Rotating roller 910 is set
Supported in the middle part of the eccentric shaft 901 by first bearing 909a and second bearing 909b, and by first end cover 908a and
Second end cover 908b respectively fixes first bearing 909a and second bearing 909b positioning;901 both ends of eccentric shaft pass through the
Three bearing 906a and fourth bearing 906b are sleeved in two bearing blocks of rack 1, in 3rd bearing 906a and fourth bearing
The both ends of 906b respectively with cover third end cap 903a on eccentric shaft 901 and first sleeve 907a and the 4th end cap 903b and
Second sleeve 907b is fixed;The outer end third end cap 903a is with pin 905a by the first ratchet under the first spring 904a effect
902a is fixed, and the second ratchet 902b is fixed under second spring 904b effect with pin 905b in the 4th outer end end cap 903b.
When conticaster work, the first ratchet 902a above eccentric shaft 901 is fixed by pin 905a, and the second ratchet 902b is consolidated by pin 905b
It is fixed, thus keep eccentric shaft 901 circumferentially fixed, and rotating roller 910 passes through first bearing 909a and second under the action of steel band
Bearing 909b is rotated around eccentric shaft 901, changes eccentricity by rotation eccentric axis 901 when steel band needs to be tensioned to play
Tension.
Second tensioning apparatus 2 is identical with 9 structure of the first tensioning apparatus.
First roll-setting gear 4 is as shown in figure 3, include eccentric shaft 412, the eccentric shaft 412 is that multi-stage reducing is eccentric
Axis;Rotating roller 406 be placed in the eccentric shaft 412 middle part it is to the left supported by first bearing 405a and second bearing 405b,
First bearing 405a is positioned by first end cover 404a and is fixed by left side, right side by second end cover 404b and retaining ring 407 with
And second bearing 405b is positioned and is fixed by second end cover 404b;412 both ends of eccentric shaft pass through 3rd bearing 402a and the 4th
Bearing 402b is sleeved in two bearing blocks of rack 1, uses respectively at the both ends of 3rd bearing 402a and fourth bearing 402b
Three end caps 401 and first sleeve 403a and the 4th end cap 408 and second sleeve 403b are fixed;The eccentric shaft 412 is circumferential
The 4th end cap 408 is inserted under the effect of spring 410 by the pin 409 in flange 411 to fix.4th end cap 408 has not above
The corresponding hole of same distance, when conticaster work, pin 409 is inserted into the hole of the 4th end cap 408 eccentric shaft 412 is circumferential solid
Fixed, rotating roller 406 is rotated by first bearing 405a and second bearing 405b around eccentric shaft 412 under the action of steel band, when
When the thickness of slab needs to adjust, rotation eccentric axis 412 changes eccentricity, and then pin 409 is inserted into the corresponding casting of the 4th end cap 408
Eccentric shaft 412 is fixed to adjust 12 thickness of cavity, to change slab thickness in the hole of base thickness.
Second roll-setting gear 6 and third roll-setting gear 14 are identical with 4 structure of the first roll-setting gear.
For first support device 8 as shown in figure 4, including support roller 803, the support roller 803 is multi-stage reducing roller, and
Center relative to support roller 803 is in symmetrical structure;803 both ends of support roller pass through first bearing 802a and second bearing
802b is sleeved in two bearing blocks of rack 1, uses first end respectively at the both ends of first bearing 802a and second bearing 802b
801a and second end cover 801b is covered to fix.Heating roller 7 passes through upper steel band 10 and the first support device 8, the second support device
11 fix, and rotate heating roller 7 in the fixation position of conticaster.
Second support device 11 is identical with 8 structure of the first support device.
The slave unit 13 is as shown in figure 5, include driven shaft 1304, the driven shaft 1304 is that multi-stage reducing is concentric
Axis;The middle part side to the right that driven voller 1308 is placed in the driven shaft 1304 is fixed by sleeve 1307 and the shaft shoulder;It is described driven
Axis 1304 is sleeved in two bearing blocks of rack 1 by first bearing 1306a and second bearing 1306b, in first bearing
1306a and the both ends second bearing 1306b are fixed with first end cover 1305 and sleeve 1307 and second end cover 1309 respectively;From
Moving gear 1303 is placed in 1304 left part of driven shaft and is fixed by bolt 1301 and gasket 1302 and the shaft shoulder.Conticaster work
When making, driven gear 1303 drives driven shaft 1304 to rotate, and driven shaft 1304 drives driven voller 1308 to rotate, 1308 band of driven voller
Dynamic upper steel band 10 moves, so that band portion be made to operate.
The aggressive device 15 is as shown in fig. 6, include driving shaft 1506, the driving shaft 1506 is that multi-stage reducing is concentric
Axis;The middle part side to the right that drive roll 1510 is placed in the driving shaft 1506 is fixed by sleeve 1509 and the shaft shoulder;The active
Axis 1506 is sleeved in two bearing blocks of rack 1 by first bearing 1508a and second bearing 1508b, in first bearing
1508a and the both ends second bearing 1508b are fixed with first end cover 1507 and sleeve 1509 and second end cover 1511 respectively;It is main
It is solid by the shaft shoulder and axle sleeve 1504 that the axis that moving gear 1505 is placed in 1507 left side of first end cover in the driving shaft 1506 stretches place
It is fixed;The axle stretch end portion that belt pulley 1503 is placed in 1506 left side of driving shaft passes through bolt 1501 and gasket 1502 and axle sleeve
1504 is fixed.When conticaster works, motor drives belt by retarder, and belt makes driving gear 1505 by belt pulley 1503
And driving shaft 1506 rotates, driving shaft 1506 drives drive roll 1510 to rotate, and drive roll drives lower steel band 3 to move, to make
Lower band portion operating;Meanwhile the driven gear in the driving gear 1505 in the aggressive device 15 and the slave unit 13
1303 are meshed, the transmission of the driving gear 1505 in the aggressive device 15 and the driven gear 1303 in the slave unit
Than for 1:1.
As shown in Figure 1, amorphous alloy continuous casing is characterized in that, the amorphous alloy master alloy liquid of melting is injected
In molten bath 5, heating roller 7 heats the amorphous alloy master alloy liquid in molten bath 5, and amorphous alloy master alloy liquid is made to keep certain
Temperature;Upper steel band is moved synchronously with the holding of lower steel band, to guarantee slab quality, in the present embodiment in aggressive device 15
Belt pulley 1503 drives aggressive device 15 to move under the drive of motor and belt, to drive lower band portion operating, actively fills
Setting the driving gear 1505 in 15 drives the driven gear 1303 in slave unit 13 to rotate, and driven gear 1303 drives driven dress
13 movements are set, to drive upper band portion operating, and the transmission ratio of driving gear 1505 and driven gear 1303 is 1:1, therefore
Upper and lower band portion holding moves synchronously, to keep slab upper and lower surface speed consistent;Amorphous alloy liquid under the movement of upper and lower band portion,
Cavity 12 is directly brought by molten bath 5, eliminates the shadow fluctuated when injecting aluminium alloy using pouring type to cc billet surface quality
It rings;Aluminium alloy is cooled to by amorphous alloy slab by cooling device in cavity 12, to complete to the continuous of amorphous alloy
Casting.
Claims (5)
1. a kind of amorphous alloy twin-belt caster, it is characterised in that: the conticaster includes rack (1), upper band portion and lower band
Portion, upper band portion and lower band portion are each attached on rack (1);The upper band portion includes heating roller (7), the first support device (8),
Two support devices (11), the first tensioning apparatus (9), slave unit (13) and upper steel band (10);The lower band portion includes the first tune
Away from device (4), the second roll-setting gear (6), third roll-setting gear (14), the second tensioning apparatus (2), aggressive device (15) He Xiagang
Band (3);Upper strip (10) and the first roll-setting gear (4) and the second roll adjustment between first tensioning apparatus (9) and heating roller (7) fill
It sets the lower strip (3) between (6) and forms molten bath (5) for containing amorphous alloy master alloy liquid;Wherein, heating roller (7) is in continuous casting
Amorphous alloy master alloy liquid in the fixation position rotary heating molten bath (5) of machine keeps certain temperature;First roll-setting gear
(4), the second roll-setting gear (6) and third roll-setting gear (14) are mounted on from top to bottom respectively on rack (1), while adjusting first
Roll-setting gear (4), the second roll-setting gear (6) and third roll-setting gear (14) with this change upper steel band (10) and lower steel band (3) it
Between parallel distance;Shape between two tangent tangent lines of the rotating roller of upper steel band (10) and heating roller (7) and slave unit (13)
At a clinoplain, lower steel band (3) and the first three tangent lines tangent to the rotating roller of third roll-setting gear (4,6,14)
Between form another clinoplain, two clinoplains are parallel to each other and form a solidification zone (12) between two planes;First
Tensioning apparatus (9) and the second tensioning apparatus (2) are respectively used to change the tightness of upper (10) steel band and lower steel band (3);Continuous casting
Upper steel band (10) keep moving synchronously with lower steel band (3) when machine is run.
2. twin-belt caster as described in claim 1, it is characterised in that: the solidification zone (12) is relative to horizontally inclining
Rake angle range is 0 °~90 °, i.e., β angular region is 0 °~90 °;The rotating roller of first roll-setting gear (4), the second roll adjustment dress
The rotating roller of the rotating roller and third roll-setting gear (14) of setting (6) is on the same clinoplain and range of tilt angles is 0 °
~90 °.
3. twin-belt caster as described in claim 1, it is characterised in that: first tensioning apparatus (9) and heating roller (7)
Between upper strip (10) and the first roll-setting gear (4) and the second roll-setting gear (6) between lower strip (3) formed molten bath (5)
For containing amorphous alloy master alloy liquid, wherein formed molten bath (5) upper steel band (10) partially with lower steel band (3) part institute angulation
Degree is 10 °~170 °, i.e., the angle α is 10 °~170 °.
4. twin-belt caster as described in claim 1, it is characterised in that: the aggressive device (15) and slave unit (13)
It can be interchanged.
5. the continuous casing of amorphous alloy twin-belt caster as described in claim 1, content are as follows: by the non-of melting
Peritectic alloy master alloy liquid injects in molten bath, and heating roller heats the amorphous alloy master alloy liquid in molten bath, makes amorphous alloy
Master alloy liquid keeps certain temperature;The movement driven by the driving device of upper and lower band portion, and upper and lower band portion is made to keep same
Step movement, to keep slab upper and lower surface speed consistent;Amorphous alloy master alloy liquid is under the movement of upper and lower band portion, by molten bath
It directly is brought into solidification zone, eliminates influence of the fluctuation to cc billet surface quality when injecting aluminium alloy using pouring type;Solidifying
Gu amorphous alloy master alloy liquid is cooled to amorphous alloy slab by cooling device in area, to complete the company to amorphous alloy
Continuous casting.
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CN201710777348.5A CN107755652B (en) | 2017-09-01 | 2017-09-01 | A kind of amorphous alloy twin-belt caster and its continuous casing |
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CN201710777348.5A CN107755652B (en) | 2017-09-01 | 2017-09-01 | A kind of amorphous alloy twin-belt caster and its continuous casing |
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CN107755652B true CN107755652B (en) | 2019-09-10 |
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US1671360A (en) * | 1924-03-10 | 1928-05-29 | Morris J Wolf | Method and apparatus for making continuous metallic strips |
DE865940C (en) * | 1949-06-02 | 1953-02-05 | Clarence William Hazelett | Machine for casting metal bands and the like like |
GB1061459A (en) * | 1964-12-02 | 1967-03-15 | Aluminium Lab Ltd | Improvements in or relating to continuous casting of metals |
JPH01254356A (en) * | 1987-12-23 | 1989-10-11 | Sumitomo Metal Ind Ltd | Continuous casting method by belt caster |
CN2346526Y (en) * | 1998-09-09 | 1999-11-03 | 重庆钢铁(集团)有限责任公司 | Electrothermal side sealing device of double roller continuous caster |
CN101039762A (en) * | 2004-10-13 | 2007-09-19 | 西门子Vai金属技术两合公司 | Method and device for continuously producing a thin metal strip |
CN102107212A (en) * | 2010-11-09 | 2011-06-29 | 燕山大学 | Micro-scale six-roller mill with static stability |
CN204549253U (en) * | 2015-01-14 | 2015-08-12 | 湖州上银机械科技有限公司 | Live-rollers spacing adjusting device |
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2017
- 2017-09-01 CN CN201710777348.5A patent/CN107755652B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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US1671360A (en) * | 1924-03-10 | 1928-05-29 | Morris J Wolf | Method and apparatus for making continuous metallic strips |
DE865940C (en) * | 1949-06-02 | 1953-02-05 | Clarence William Hazelett | Machine for casting metal bands and the like like |
GB1061459A (en) * | 1964-12-02 | 1967-03-15 | Aluminium Lab Ltd | Improvements in or relating to continuous casting of metals |
JPH01254356A (en) * | 1987-12-23 | 1989-10-11 | Sumitomo Metal Ind Ltd | Continuous casting method by belt caster |
CN2346526Y (en) * | 1998-09-09 | 1999-11-03 | 重庆钢铁(集团)有限责任公司 | Electrothermal side sealing device of double roller continuous caster |
CN101039762A (en) * | 2004-10-13 | 2007-09-19 | 西门子Vai金属技术两合公司 | Method and device for continuously producing a thin metal strip |
CN102107212A (en) * | 2010-11-09 | 2011-06-29 | 燕山大学 | Micro-scale six-roller mill with static stability |
CN204549253U (en) * | 2015-01-14 | 2015-08-12 | 湖州上银机械科技有限公司 | Live-rollers spacing adjusting device |
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