CN108044064A - A kind of slewing equipment and equipment for horizontally rotating continuous casting machine - Google Patents
A kind of slewing equipment and equipment for horizontally rotating continuous casting machine Download PDFInfo
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- CN108044064A CN108044064A CN201810065085.XA CN201810065085A CN108044064A CN 108044064 A CN108044064 A CN 108044064A CN 201810065085 A CN201810065085 A CN 201810065085A CN 108044064 A CN108044064 A CN 108044064A
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- alloy graining
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- casting machine
- continuous casting
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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
- B22D5/00—Machines or plants for pig or like casting
- B22D5/02—Machines or plants for pig or like casting with rotary casting tables
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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
- B22D35/00—Equipment for conveying molten metal into beds or moulds
- B22D35/04—Equipment for conveying molten metal into beds or moulds into moulds, e.g. base plates, runners
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Casting Devices For Molds (AREA)
Abstract
The invention discloses a kind of slewing equipments and equipment for horizontally rotating continuous casting machine, including driving device, driving wheel, conveyor, follower, alloy graining device and supporting mechanism, conveyor is mounted on driving wheel and follower, alloy graining device is fixed in conveyor, supporting mechanism includes pedestal and multigroup idler wheel, idler wheel is installed on the lower section of alloy graining device, driving device driving driving wheel rotation, and driving wheel drives conveyor and alloy graining device work to horizontally rotate.The beneficial effects of the invention are as follows:First, optimizing the load distribution of casting machine, the load of single bearing is reduced, the abrasion of bearing is greatly reduced, significantly extends the service life of bearing;Second is that structure is more succinct, compact, facilitate installation and maintenance;Third, power transmission is more uniform, extend the service life of driving member;Fourth, using intermittent-rotation platform, be conducive to cast and demould.
Description
Technical field
The present invention relates to alloy casting field, more particularly to a kind of slewing equipment for horizontally rotating continuous casting machine and set
It is standby.
Technical background
The fixed metal pattern of the conventional method of prior art production alloy casting rod or the casting of sand stick, iron and steel enterprise's continuous casting
Production then uses semicontinuous casting using vertical continuous casting machine or most of horizontal caster, nonferrous materials.Metal pattern or sand mo(u)ld
The characteristics of casting is that simple, investment in fixed assets expense is low, but production efficiency is very low, and occupied ground is big, is not suitable for scale
Metaplasia is produced.
Continuous casting of iron and steel technology, suitable for large-scale production, but its investment is big, complex process, and the demoulding of model is difficult, and model holds
It easily metals run out, molten iron is easily sticked in problems such as model inner walls.It is existing using dummy bar come sealing and plugging model, complicated, iron
Water loss rate is big, and continuously casting effect is undesirable.The loom of continuously casting production alloy is seldom in the market now, is the one of market
A blank spot.
Country calls environment protecting and power-saving production, and the requirement of following alloy continuous casting machine is more green, more environmentally friendly, more energy efficient
Efficiently, therefore the alloy continuous casting machine compact-sized, production efficiency is high, molten iron utilization rate is high is researched and developed, into major factory
The competition key point of family, the research and development of the wherein slewing equipment of continuous casting machine are even more the most important thing!
Existing casting machine revolving structure is of high cost, bearing loss is big, bulky, complicated, efficiency is low etc. many asks
Topic, it would be highly desirable to it captures or even has become the key point for influencing the development of alloy continuous casting machine, therefore continuous casting machine revolving structure
Research and development into a hot topic, the present invention is researched and developed around this point and innovation and creation.
The content of the invention
It is an object of the invention to overcome the deficiencies of the prior art and provide the slewing equipments for horizontally rotating continuous casting machine.
The technical scheme is that:
A kind of slewing equipment for horizontally rotating continuous casting machine, it is characterised in that:Including driving device, driving wheel, transmission
Band, follower, alloy graining device and supporting mechanism, conveyor are mounted on driving wheel and follower, and alloy graining device is consolidated
It is scheduled in conveyor, supporting mechanism includes pedestal and multigroup idler wheel, and idler wheel is arranged on the lower section of alloy graining device, and driving device is driven
Dynamic driving wheel rotation, driving wheel drive conveyor and alloy graining device work to horizontally rotate.
Preferably, the driving device includes motor, reducing gear, and reducing gear output terminal includes intermittent movement machine
The input terminal connection of structure, motor and reducing gear, the output terminal of reducing gear are connected with driving wheel, and reducing gear drives actively
Wheel does intermittent rotary.
Preferably, the output terminal of the reducing gear is connected with driving wheel by cam one-way intermittent motion mechanism, this is convex
Taking turns one-way intermittent motion mechanism includes actuating cam and driven disc, and the reducing output shaft of reducing gear is connected with actuating cam, main
Driving wheel is connected with driven disc.
Preferably, the output terminal of the reducing gear is connected with driving wheel by incomplete gear mechanism, the incomplete tooth
Taking turns mechanism includes driving gear and driven gear, and the reducing output shaft of reducing gear is connected with driving gear, driving wheel with it is driven
Gear connects.
Preferably, the alloy graining device includes movable bottom cover and body, and movable bottom cover is mounted below body, living
Using hinge connection, the lower plane of dump bottom cover upper planar surface and body closely connects, and connecting hole is opened on body for dynamic bottom cover and body,
Alloy graining device is fixedly connected by connecting hole with conveyor.
Preferably, it is a kind of to horizontally rotate continuous casting machine including slewing equipment as described above, further include sychronisation,
Flow distributor, junction station, ingot stripper, cooling device, flow distributor are fixed on the top of junction station, and junction station is located at alloy graining device
Top and below flow distributor, driving device is connected with sychronisation, and sychronisation is connected with ingot stripper, ingot stripper installation
Directly over alloy graining device, cooling device is arranged near alloy graining device;Driving device driving sychronisation drives de-
The mandril of mould machine makees interval and moves up and down;When the mandril of ingot stripper moves downward, the alloy of shaping is ejected into alloy graining device.
Preferably, flush coater is further included, the sychronisation is connected with flush coater, and sychronisation drives the jet pipe of flush coater
Make interval to move up and down, the jet pipe of flush coater, which moves downward, stretches into alloy graining device inner cavity, and the jet pipe of flush coater coagulates alloy
It is fixedly mounted with the inner cavity sprayed coating put.
Preferably, powder adding machine is further included, which is located at the top of alloy graining device, for giving alloy graining device
Intracavity bottom addition alloyed metal powder.
Preferably, tank gage is further included, this includes tank gage and further includes level sensor, for obtaining in alloy graining device
The liquid level of liquid alloy.
Preferably, the junction station includes housing and inner cavity, and the cross section of inner cavity is wide at the top and narrow at the bottom, and intracavity bottom, which offers, to be drawn
Head piece, symmetrically opens that there are one notches in the two side walls of junction station.
The beneficial effects of the invention are as follows:First, optimizing the load distribution of casting machine, the load of single bearing is reduced, significantly
Reduce the abrasion of bearing, significantly extend the service life of bearing;Second is that structure is more succinct, compact, facilitate installation and maintenance;Three
It is that power transmission is more uniform, extends the service life of driving member;Fourth, using intermittent-rotation platform, be conducive to cast and demould.
Description of the drawings
Fig. 1 is to horizontally rotate continuous casting machine top view with slewing equipment.
Fig. 2 is to horizontally rotate continuous casting machine front view with slewing equipment.
Fig. 3 is alloy graining apparatus structure schematic diagram.
Fig. 4 is junction station structure elevation cross-sectional view.
Fig. 5 is junction station structure top view.
Fig. 6 is the unidirectional indexing mechanism schematic diagram of cam.
Fig. 7 is partial gear indexing mechanism internal messing form schematic diagram.
Fig. 8 is partial gear indexing mechanism external toothing form schematic diagram.
Reference numeral:1- driving devices, 1.1- motor, 1.2- reducing gears, 2- driving wheels, 3- conveyors, 4- are passive
Wheel, 5- supporting mechanisms, 5.1- idler wheels, 6- alloy graining devices, 6.1- activity bottom covers, 6.2- bodies, 7- sychronisations, 8- flows
Device, 9- junction stations, 9.1- housings, 9.2- inner cavities, 9.3- draining holes, 9.4- notches, 10- ingot strippers, 11- cooling devices, 12- sprays
Painting machine, 13- powder adding machines, 14- tank gages, 15.1- actuating cams, 15.2- driven discs, 16.1- driving gears, 16.2- driven tooths
Wheel.
Specific embodiment
It should be appreciated that the invention is not restricted to the specific device or component, but alterable.It should also be noted that
It is that terminology used here is only the purpose for describing specific embodiment, and does not mean that and limit the scope of the invention, of the invention
Scope is defined solely by the appended claims.
It has to be noticed that singulative used here and in appended claims includes the connotation of plural number, unless up and down
It is provided expressly otherwise in text.Thus, for example, the connotation of " alloy graining device " is the connotation of one or more stripper apparatus,
And including its equivalent well known by persons skilled in the art etc..Unless otherwise defined, used herein of all technologies and section
Technics has is generally understood the identical meaning with general technical staff of the technical field of the invention.
Below in conjunction with the implementation structure of the attached drawing description present invention.
Embodiment one
As shown in Figure 1, 2, one of better embodiment of the invention, claimed is that one kind horizontally rotates company
The slewing equipment of continuous casting machine, including driving device 1, driving wheel 2, conveyor 3, follower 4 and supporting mechanism 5, conveyor 3 is pacified
On driving wheel 2 and follower 4, alloy graining device 6 is fixed in conveyor 3, and supporting mechanism 5 can be rolled including multigroup
Idler wheel 5.1, idler wheel 5.1 be mounted on alloy graining device 6 underface, the alloy graining above it is supported to fill by idler wheel 5.1
6 are put, driving device 1 includes motor 1.1, reducing gear 1.2, and motor 1.1 is connected with the input terminal of reducing gear 1.2, subtracts
The output terminal of fast mechanism 1.2 is connected with driving wheel 2, and reducing gear 1.2 is connected by intermittent motion mechanism with driving wheel 2, is slowed down
Mechanism 1.2 drives driving wheel 2 to make intermittent rotary, and driving wheel 2 drives conveyor 3 and alloy graining device 6 to make interval horizontal annular
It rotates.
Preferably, reducing gear 1.2 is unidirectionally intermittently transported with the connection of driving wheel 2 using intermittent motion mechanism using cam
Motivation structure or incomplete gear mechanism.
As shown in fig. 6, one of preferred embodiment of the present invention, cam one-way intermittent motion mechanism includes 15.1 He of actuating cam
Driven disc 15.2, during using cam one-way intermittent motion mechanism, the output terminal of reducing gear 1.2 is equipped with actuating cam 15.1, main
Driving wheel 2 is equipped with driven disc 15.2, when actuating cam 15.1 one-directionally rotates, driven disc 15.2 is driven to make unidirectional intermittent movement,
Horizontally rotate so as to which conveyor 3 be driven to do interval.Should be to the understanding of scheme:The unidirectional intermittent movement machine of cam of the prior art
In structure is intended to be included in, and it should not be limited to example in figure.
As shown in Figure 7,8, another preferred embodiment of the invention, incomplete gear mechanism include 16.1 He of driving gear
Driven gear 16.2, the output terminal of reducing gear 1.2 are equipped with driving gear 16.1, and driving wheel 2 is equipped with driven gear 16.2, main
When moving gear 16.1 one-directionally rotates, driven gear 16.2 is driven to make unidirectional intermittent movement, so as to which conveyor 3 be driven to do interval water
Flat turn is moved.Should be to the understanding of scheme:In the incomplete gear mechanism of the prior art is intended to be included in, and it should not be limited to
Example in figure.
Preferably, driving wheel 2 can be belt wheel, sprocket wheel or gear or friction wheel, on column, be divided to two up and down.
Preferably, conveyor 3 is mounted on driving wheel 2 and follower 4, and 3 structure of conveyor is corresponding with driving wheel 2, can
To be steel band or adhesive tape, chain or rack, the quantity of conveyor 3 is also two up and down.It is mounted with to be provided with connecting hole in conveyor 3
Connecting plate, for alloy graining device 6 to be fixed on conveyor 3.Follower 4 rises to 3 tension of conveyor and keeps
Conveyor 3 engages or contacts with driving wheel 2 closely, and the structure of follower 4 is consistent with driving wheel 2.
As shown in Figure 2,3, one of preferred embodiment of the invention, supporting mechanism 5 is by multigroup 5.1 groups of idler wheel that can be rolled
Be mounted on the underface of the movable bottom cover 6.1 of alloy graining device 6 into, idler wheel 5.1, function be support alloy graining device 6,
The all-mass of junction station 9, conveyor 3.In demoulding station idler wheel 5.1 is not installed then, is supported without idler wheel 5.1, movable bottom cover
6.1 can just open.
Embodiment two
One kind horizontally rotates continuous casting machine, as shown in Figure 1, 2, by horizontally rotating continuously casting slewing equipment, synchronous dress
Put 7, supporting mechanism 5, flow distributor 8, junction station 9, alloy graining device 6, ingot stripper 10, cooling device 11, flush coater 12 plus powder
Device 13, tank gage 14 form, and flow distributor 8 is fixed on the surface of junction station 9, and junction station 9 is located at alloy graining device 6 and flow
The centre of device 8, ingot stripper 10 are mounted on directly over alloy graining device 6 and after 8 station of flow distributor, and flush coater 12 is located at alloy
After 6 top of coagulation system and 10 station of ingot stripper, powder adding machine 13 is mounted on after demoulding station, and tank gage 14 is located at flow distributor
Behind 8, sychronisation 7 drives alloy graining device 6 to do interval to horizontally rotate movement, at the same drive ingot stripper 10 push rod,
The jet pipe of flush coater 12 synchronously pumps, the support alloy graining of supporting mechanism 5 device 6, junction station 9, conveyor 3
All-mass, cooling device 11 are used to accelerate the cooling velocity of alloy graining device 6.
Preferably, sychronisation 7 includes reduction box and transfer case, and motive power passes to transfer case, transfer case will by slowing down
Power-supply change-over is output to each telecontrol equipment of casting machine into multiple synchronous intermittent movement outputs.
Preferably, multiple intermittent motion mechanisms are used inside transfer case, power is exported with cloth as one or more interval circle
Zhou Yundong and one or more intermittent straight reciprocating motion.
Further, the interval circular motion mechanism of transfer case is connected with horizontally rotating continuously casting slewing equipment, is driven
Horizontally rotate continuously casting slewing equipment and do intermittent-rotation movement;The intermittent linear reciprocating mechanism and ingot stripper of transfer case
10th, flush coater 12, tank gage 14 connect, and corresponding component is driven to do intermittent straight reciprocating motion.
Preferably, motive power uses motor.Further, the scheme that intermittent motion mechanism may be employed inside transfer case
Have:Roller disk intermittent motion mechanism, cam intermittent motion mechanism, partial gear intermittent motion mechanism, ratchet intermittent movement machine
Structure, sheave intermittent motion mechanism etc..
Preferably, ingot stripper 10 is made of movable push bar and transmission parts, the intermittent straight line of transmission parts and transfer case
Reciprocating mechanism connects, and transmission parts drive movable push bar to pump.Ingot stripper 10 is filled mounted on alloy graining
It puts directly over 6 and after 8 station of flow distributor, if using equipment center axis as the center of circle, 6 center line of alloy graining device is horizontal to be turned
Dynamic 10 ° -355 ° reach 10 lower section of ingot stripper.After alloy graining device 6 is gone to immediately below it, 10 push rod of ingot stripper can be downward
Movement, stretches into the interior intracavitary of 6 body of alloy graining device, the casting rod after solidification is pushed away alloy graining device 6.In alloy graining
Before device 6 is with swing mechanism indexing, movable push bar is returned to a high position, 6 indexing of alloy coagulation system is not caused to interfere.
It is highly preferred that movable push bar is manufactured with steel.
Preferably, flush coater 12 is by jet pipe and transmission parts, coating provide equipment and compressed air steam line forms, and sprays
There are coating material passage and compressed air channel in pipe, the intermittent linear reciprocating mechanism connection of transmission parts and transfer case passes
Dynamic component drives jet pipe to pump.Jet pipe is mounted on after 6 top of alloy graining device and 10 station of ingot stripper, than
Ingot stripper 10 lags 1 ° -255 °.When the alloy graining device 6 after the demoulding is gone to immediately below it, jet pipe moves downward, and stretches into
The interior intracavitary of 6 body of alloy graining device, gives inner cavity sprayed coating;Before alloy graining device 6 is with swing mechanism indexing, jet pipe
A high position is returned to, 6 indexing of alloy coagulation system is not caused to interfere.
Preferably, jet pipe is connected by pressure hose with material feeding pipe, compressed air supply pipe.
Preferably, it can be high-order coating case or paint pump to provide coating apparatus.
Preferably, the jet pipe of flush coater 12 is made of steel pipe.
Preferably, powder adding machine 13 is made of steel plate, and inner cavity is inverted tubaeform, and flow control valve is equipped in its outlet,
For adjusting powder addition.After powder adding machine 13 installs demoulding station, function is the movable bottom cover in alloy graining device 6
It is upper to quantify the layer overlay small metal particles powder consistent with casting metals material.
Preferably, tank gage 14 is mounted on behind 8 station of flow distributor, highly reaches setting when detecting metal liquid level
During scheduling, output electric signal driving casting vehicle reduces casting rate.Tank gage 14 can be contactless or contact
Formula.
One of preferred scheme, using the tank gage 14 of selection contact, detection electrode and transfer case it is intermittent straight
Line reciprocating mechanism connects, and pumps.When alloy graining device 6 is reached below the detection electrode of tank gage 14,
The detection electrode of tank gage 14 moves downward;Before alloy graining device 6 is with swing mechanism indexing, the detection electrode of tank gage 14
A high position is returned to, 6 indexing of alloy coagulation system is not caused to interfere.
Junction station, as shown in Figure 4,5,9 include housing 9.1 and inner cavity 9.2, and the cross section of inner cavity 9.2 is wide at the top and narrow at the bottom, inner cavity
9.2 bottoms offer draining hole 9.3, are symmetrically opened in the two side walls of junction station 9 there are one notch 9.4.Inner cavity 9.2 accommodates metal
Liquid, the bottom of cavity offer downward draining hole 9.3, and draining hole 9.3 is in tubular, a diameter of 3mm- of draining hole 9.3
50mm.Wherein, the quantity of draining hole 9.3 is at least two, when the quantity of draining hole 9.3 is three or more, is arranged in side
9.3 diameter of draining hole is not more than the diameter for being arranged in intermediate draining hole 9.3.Case shell, chamber is made with metallic plate in 8 four sides of flow distributor
Internal wall builds up the cavity for accommodating metal liquid with refractory material.Flow distributor 8 includes cavity, refractory masses successively from the inside to surface
And metal shell.More than flow distributor 8 there are one in every equipment is fixed on the surface of certain several junction station 9, with junction station 9
It does not contact.
As shown in figure 3, alloy graining device, 6 are made of movable bottom cover 6.1 and body 6.2, and movable bottom cover 6.1 is mounted on
Below body 6.2, movable bottom cover 6.1 and body 6.2 using hinge connection, on movable bottom cover 6.1 plane under body 6.2
Plane closely connects, and connecting hole is opened on body 6.2, and alloy graining device 6 is fixedly connected by connecting hole with conveyor 3.
It is above-mentioned it is a kind of horizontally rotate vertical casting machine workflow it is as follows:
After driving device 1 starts, driving device 1 drives 2 intermittent rotary of driving wheel, and it is horizontal that 2 conveyor 3 of driving wheel does interval
Annular rotates, and conveyor 3 drives alloy graining device 6, and horizontal annular rotates together, and follower 4 follows conveyor 3 to rotate.Each portion
The job order of part is as follows:Flush coater 12 is to the inner-wall spraying coating of alloy coagulation system 6 first;It is then switched off movable bottom cover
It 6.1 and locks, the 6.1 surface basis weight placed powder of movable bottom cover of alloy graining device 6 of the powder adding machine 13 after spraying;Casting vehicle
Liquid metal is continuously injected into flow distributor 8;Liquid metal in flow distributor 8 is flowed down from the tap hole below flow distributor 8, then is led to
Cross junction station 9, it is steady, uniformly, be continuously injected into alloy graining device 6, reach setting when tank gage 14 detects metal bath surface
Height when, survey meter output electric signal control casting vehicle reduce casting rate;Cooling work is carried out to alloy coagulation system 6 simultaneously
Industry.
Liquid metal is quickly tied under the chilling action of itself and the cooling effect of cooling device 11 in alloy graining device 6
Crystalline substance obtains fine and close grain structure, that is, the alloy-steel casting solidified;When waiting 6 arrival demoulding station of alloy graining device, dump bottom
Lid 6.1 is opened, the push rod sharp downward movement of ingot stripper 10, by alloy bar casting ejection alloy graining device 6.
After the demoulding of alloy casting rod, you can followed into next:Spray metal die coating material-closing activity bottom cover 6.1- is to work
6.1 plane of dynamic bottom cover is laid with alloy powder-liquid metal and is molded into the alloy graining device 6- coolings-demoulding-spray metal
Die coating material.
The above description is merely a specific embodiment, but protection scope of the present invention is not limited thereto, any
The variation expected without creative work or simple replacement should be all included within the scope of the present invention.
Claims (10)
1. a kind of slewing equipment for horizontally rotating continuous casting machine, it is characterised in that:Including driving device (1), driving wheel (2),
Conveyor (3), follower (4), alloy graining device (6) and supporting mechanism (5), conveyor (3) be mounted on driving wheel (2) and by
On driving wheel (4), alloy graining device (6) is fixed in conveyor (3), and supporting mechanism (5) includes pedestal and multigroup idler wheel
(5.1), idler wheel (5.1) is installed on the lower section of alloy graining device (6), and driving device (1) driving driving wheel (2) rotates, actively
Wheel (2) drives conveyor (3) and alloy graining device (6) work to horizontally rotate.
2. the slewing equipment as described in claim 1 for horizontally rotating continuous casting machine, it is characterised in that:The driving device
(1) motor (1.1), reducing gear (1.2) are included, reducing gear (1.2) output terminal includes intermittent motion mechanism, motor
(1.1) input terminal with reducing gear (1.2) is connected, and the output terminal of reducing gear (1.2) is connected with driving wheel (2), speed reducer
Structure (1.2) drives driving wheel (2) to do intermittent rotary.
3. the slewing equipment as claimed in claim 2 for horizontally rotating continuous casting machine, it is characterised in that:The reducing gear
(1.2) output terminal is connected with driving wheel (2) by cam one-way intermittent motion mechanism, the cam one-way intermittent motion mechanism bag
Actuating cam and driven disc are included, the reducing output shaft of reducing gear (1.2) is connected with actuating cam, driving wheel (2) and driven disc
Connection.
4. the slewing equipment as claimed in claim 2 for horizontally rotating continuous casting machine, it is characterised in that:The reducing gear
(1.2) output terminal is connected with driving wheel (2) by incomplete gear mechanism, the incomplete gear mechanism include driving gear and
Driven gear, the reducing output shaft of reducing gear (1.2) are connected with driving gear, and driving wheel (2) is connected with driven gear.
5. the slewing equipment as described in claim 1 for horizontally rotating continuous casting machine, it is characterised in that:The alloy graining dress
Putting (6) includes movable bottom cover (6.1) and body (6.2), and movable bottom cover (6.1) is mounted below body (6.2), movable bottom cover
(6.1) with body (6.2) using hinge connection, plane is closely connected with the lower plane of body (6.2) on movable bottom cover (6.1),
Connecting hole is opened on body (6.2), alloy graining device (6) is fixedly connected by connecting hole with conveyor (3).
6. one kind horizontally rotates continuous casting machine, it is characterised in that:Including horizontally rotating company as described in claim 1-6 is any
The slewing equipment of continuous casting machine, further includes sychronisation (7), flow distributor (8), junction station (9), ingot stripper (10), cooling device
(11), flow distributor (8) is fixed on the top of junction station (9), and junction station (9) is located above alloy graining device (6) and in flow
Below device (8), driving device (1) is connected with sychronisation (7), and sychronisation (7) is connected with ingot stripper (10), ingot stripper
(10) it is mounted on directly over alloy graining device (6), cooling device (11) is arranged near alloy graining device (6);Driving device
(1) drive sychronisation (7) that the mandril of ingot stripper (10) is driven to make interval to move up and down;The mandril of ingot stripper (10) moves downward
When, by the alloy ejection alloy graining device (6) of shaping.
7. horizontally rotate continuous casting machine as claimed in claim 6, it is characterised in that:Flush coater (12) is further included, it is described same
Step device (7) is connected with flush coater (12), and sychronisation (7) drives the jet pipe of flush coater (12) to make interval and moves up and down, spraying
The jet pipe of machine (12) moves downward the inner cavity for stretching into alloy graining device (6), and the jet pipe of flush coater (12) is to alloy coagulation system
(6) inner cavity sprayed coating.
8. horizontally rotate continuous casting machine as claimed in claim 6, it is characterised in that:Powder adding machine (13) is further included, powder should be added
Device (13) is located at the top of alloy graining device (6), for adding alloying metal powder to the intracavity bottom of alloy graining device (6)
End.
9. horizontally rotate continuous casting machine as claimed in claim 8, it is characterised in that:Tank gage (14) is further included, this includes liquid
Position instrument (14) further includes level sensor, for obtaining the liquid level of alloy graining device (6) interior liquid alloy.
10. horizontally rotate continuous casting machine as claimed in claim 6, it is characterised in that:The junction station (9) includes housing
(9.1) and inner cavity (9.2), the cross section of inner cavity (9.2) is wide at the top and narrow at the bottom, and inner cavity (9.2) bottom offers draining hole (9.3), converges
Notch (9.4) there are one symmetrically being opened in the two side walls of stream device (9).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112318683A (en) * | 2020-11-05 | 2021-02-05 | 湖北誉象生态环保科技有限公司 | Rotating disc type brick making equipment |
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CN1466501A (en) * | 2000-09-29 | 2004-01-07 | ���п�ķ�����Ϲɷݹ�˾ | Method and apparatusd for casting metal |
CN2586549Y (en) * | 2002-12-05 | 2003-11-19 | 宁夏惠冶镁业有限公司 | Semi-sealed cooling type continuous casting machine |
CN2661339Y (en) * | 2003-11-29 | 2004-12-08 | 郭建华 | Stepping type ball continuous casting machine |
CN100999016A (en) * | 2007-01-13 | 2007-07-18 | 王仲珏 | Grinding ball continuous casting production line |
CN104690237A (en) * | 2015-01-07 | 2015-06-10 | 赣州金玛机械设备有限公司 | Full-automatic quantitative single-disc anode casting equipment |
CN105215339A (en) * | 2015-10-22 | 2016-01-06 | 浙江德盛铁路器材股份有限公司 | Conticaster and continuous cast method |
CN208083381U (en) * | 2018-01-23 | 2018-11-13 | 广西欧迪姆重工科技有限公司 | A kind of slewing equipment and equipment horizontally rotating continuous casting machine |
Cited By (1)
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CN112318683A (en) * | 2020-11-05 | 2021-02-05 | 湖北誉象生态环保科技有限公司 | Rotating disc type brick making equipment |
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