CN209647545U - A kind of aluminium continuous ingot-casting device - Google Patents

Abstract

The utility model relates to a kind of aluminium continuous ingot-casting devices, including rack, drive sprocket, transmission chain, heat preservation chute, running gate system, ingot mould, guide rail, cooling system, dismoulding system, driven sprocket, casting ladle of the molten aluminum to running gate system of chute melting without interruption is kept the temperature, casting ladle is for being poured ingot mould；After cooling system cools down the ingot mould after casting, dismoulding system strikes the back of ingot mould, completes the demoulding of ingot casting.Several ingot mould pitches are impartial to be arranged on transmission chain, cooling system cools down the ingot mould after casting, dismoulding system strikes the slack list of the transmission chain at drive sprocket, complete the demoulding of ingot casting, the ingot processed that the transmission chain of closed loop drives ingot mould to continue next period after demoulding produces, to realize the effect of platform aluminum steel continuous casting.The utility model is rationally distributed, structure integrated level is high, work efficiency is high, stability is good, economic performance is good, is suitable for series ingot processed of various shapes.

Description

A kind of aluminium continuous ingot-casting device

Technical field

The utility model relates to metallurgy to smelt catalytic field, in particular to a kind of aluminium continuous ingot-casting device.

Background technique

Currently, platform aluminium is the important auxiliary material for steel mill deoxidation of molten steel or deep deoxidation, conventional method is usually first by aluminium Water, which is poured onto aluminium ingot mold, casts aluminium ingot, is then processed into satisfactory aluminium ingot size again, but molding is often poured once all Manual moulding is wanted, cooling is demoulded again, taken up a large area, the time is long, and production efficiency is low, and production security is poor.

Utility model content

The purpose of this utility model is to provide a kind of aluminium continuous ingot-casting devices, existing manual or semi-automatic to solve Ingot casting and caused by the technical problems such as production efficiency is low, production security is poor.

To solve the above-mentioned problems, the utility model provides a kind of aluminium continuous ingot-casting device, including rack, drive chain Wheel, transmission chain, heat preservation chute, running gate system, ingot mould, guide rail, cooling system, dismoulding system, driven sprocket, the drive chain Wheel and driven sprocket are rotatably arranged on the both ends of the rack, and the two sides of the rack are respectively corresponded equipped with the guide rail；It is described Transmission chain is set in the periphery of the drive sprocket and driven sprocket；Several ingot moulds arrange and are fixed on the transmission chain On, the drive sprocket drives the driven sprocket so that the transmission chain is moved along the guide rail；

Heat preservation chute, running gate system, cooling system and the dismoulding system are successively set along the direction of transfer of the transmission chain It sets, the heat preservation chute and running gate system are erected at the top of the transmission chain, the heat preservation chute melting without interruption Molten aluminum gives the casting ladle of the running gate system, and the casting ladle is for being poured the ingot mould；The cooling system is to casting After ingot mould afterwards cools down, the dismoulding system strikes the back of the ingot mould, completes the demoulding of ingot casting.

Preferably, the heat preservation chute and running gate system pass through the top that two support arms are erected at the transmission chain, The two sides of the rack are arranged in two support arms:

The two sides of the heat preservation chute are separately fixed on two support arms；

The running gate system further includes driving wheel, transmission belt, first connecting rod and link assembly, and the first connecting rod rotation is set It sets in the rack or/and support arm, the two sides of the casting ladle are rotatably arranged on respectively on two support arms；The transmission Wheel is fixedly and coaxially connected with the driven sprocket, and the driving wheel drives the first connecting rod to do circumference fortune by the transmission belt Dynamic, the first connecting rod is connect to drive the casting ladle to do fan-shaped swing to realize that casting is dynamic with the casting ladle by link assembly Make.

Preferably, the link assembly includes second connecting rod, third connecting rod and fourth link, the first connecting rod, second Connecting rod, third connecting rod are successively rotatablely connected, and the third connecting rod is fixedly connected with fourth link, and the fourth link is poured with described One end of packet is fixedly connected.

Preferably, a link block, two link blocks are respectively fixedly installed in the connecting pin of the third connecting rod and fourth link On be correspondingly provided with jack, two link blocks are inserted into two jacks by a shotpin with by the third connecting rod and fourth link It is fixedly connected.

Preferably, a bearing block is fixedly installed on two support arms, a bearing is respectively set in the two sides of the casting ladle, Two bearings are separately mounted in corresponding bearing block.

Preferably, being equipped with heating rod in the casting ladle.

Preferably, described pour is wrapped using integral type, short runner shunting nozzle.

Preferably, the cooling system includes cooling cylinder, atomizing disk and gas gathering mask, the cooling cylinder is arranged in the rack Side, the atomizing disk be located in the top of the transmission chain, the gas gathering mask is located on the atomizing disk, the gas collection The gas collecting tube being connected to the atomizing disk is provided on cover, the cooling cylinder is connected by influent stream pipe and return pipe and the atomizing disk Lead to and forms closed loop.

Preferably, the dismoulding system includes air pump, strikes bar and rotation axis, the bar that strikes is fixed in the rotation axis, The rotation axis is rotatably arranged in the rack, and the air pump is fixedly mounted in the rack, and the air pump strikes with described Bar is drivingly connected, and bar is struck described in the air pump driving and is struck around rotation axis rotation with the back to ingot mould.

Preferably, the width of the ingot mould is 80mm-100mm.

Preferably, the material that uses of the ingot mould for containing chromium, molybdenum, vanadium high performance hot-work die steel.

Compared with prior art, there are following technical effects for the utility model:

The utility model provides a kind of aluminium continuous ingot-casting device, and several ingot moulds are arranged on transmission chain, cooling system Ingot mould after casting is cooled down, dismoulding system strikes the slack list of the transmission chain at drive sprocket, completes ingot casting Demoulding, the ingot processed that the transmission chain of closed loop drives ingot mould to continue next period after demoulding produces, so that it is continuous to realize platform aluminum steel The effect of ingot casting.The utility model is rationally distributed, structure integrated level is high, work efficiency is high, stability is good, economic performance is good, can Adapt to series ingot processed of various shapes.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it is therefore apparent that and the drawings in the following description are merely some embodiments of the present invention, For those skilled in the art, without creative efforts, other be can also be obtained according to these attached drawings Attached drawing.In attached drawing:

Fig. 1 is the stereoscopic schematic diagram of a kind of aluminium continuous ingot-casting device of the utility model；

Fig. 2 is the stereoscopic schematic diagram of the utility model running gate system；

Fig. 3 is the main view of the utility model casting ladle；

Fig. 4 is the cross-sectional view A-A of the utility model casting ladle；

Fig. 5 is the top view of the utility model casting ladle；

Fig. 6 is the structural schematic diagram of the utility model ingot mould；

Fig. 7 is the cross-sectional view B-B of the utility model ingot mould；

Fig. 8 is the structural schematic diagram of the utility model cooling system；

Fig. 9 is the structural schematic diagram of the utility model dismoulding system；

Figure 10 is the schematic diagram of the utility model casting ladle shunting nozzle minimum point；

Figure 11 is the schematic diagram of the utility model casting ladle shunting nozzle highest point；

Figure 12 is the utility model cast ingot product stereoscopic schematic diagram.

Specific embodiment

Detailed retouch is carried out to a kind of aluminium continuous ingot-casting device provided by the utility model below with reference to Fig. 1 to Figure 12 It states, the present embodiment is implemented under premised on technical solutions of the utility model, gives detailed embodiment and specific Operating process, but the protection scope of the utility model is not limited to the following embodiments, and those skilled in the art are not changing this In the range of utility model spirit and content, can it be modified and be polished.

Please refer to Fig. 1 to Figure 12, a kind of aluminium continuous ingot-casting device, including rack 11, drive sprocket 10, transmission chain 2, guarantor Warm chute 3, running gate system 5, ingot mould 6, guide rail 7, cooling system 8, dismoulding system 9, driven sprocket 1, the drive sprocket 10 The both ends of the rack 11 are rotatably arranged on driven sprocket 1, the two sides of the rack 11 are respectively corresponded equipped with the guide rail 7； The transmission chain 2 is set in the periphery of the drive sprocket 10 and driven sprocket 1.In the present embodiment, drive sprocket 10 passes through Motor driven, drive sprocket 10 drive that driven sprocket 1 provides power that transmission chain 2 is moved along guide rail 7 and running gate system 5 is nodded and poured The power of note.

Several ingot moulds 6, which are arranged and are fixed on the transmission chain 2, does closed loop cycle movement.

The heat preservation chute 3, running gate system 5, cooling system 8 and dismoulding system 9 along the transmission chain 2 direction of transfer according to Secondary setting, the heat preservation chute 3 and running gate system 5 are erected at the top of the transmission chain 2, the mobile pitch of ingot mould 6 The casting ladle 509 of corresponding running gate system 5 completes a period casting；The molten aluminum of the heat preservation melting without interruption of chute 3 is to described The casting ladle 509 of running gate system 5 maintains the dynamic equilibrium of weight and temperature in casting ladle 509；The casting ladle 509 is used for the casting Ingot mould 6 is poured；After ingot mould 6 after 8 pairs of cooling system casting cools down, the dismoulding system 9 is struck The demoulding of ingot casting 12 is completed at the back of the ingot mould 6.

In the present invention, several 6 pitches of ingot mould are impartial is arranged on transmission chain 2, after 8 pairs of cooling system casting Ingot mould 6 cool down, dismoulding system 9 strikes the slack list of the transmission chain 2 at drive sprocket 10, completes the de- of ingot casting Mould, the ingot processed that the transmission chain 2 of closed loop drives ingot mould 6 to continue next period after demoulding produces, so that it is continuous to realize platform aluminum steel The effect of ingot casting.

The heat preservation chute 3 and running gate system 5 are erected at the top of the transmission chain 2, two institutes by two support arms 4 State the two sides that the rack 11 is arranged in support arm 4:

The two sides of the heat preservation chute 3 are separately fixed on two support arms 4；

Referring to FIG. 2, the running gate system 5 further includes driving wheel 501, transmission belt 502, first connecting rod 503 and connection rod set Part, first connecting rod 503 are rotatably arranged on the rack 11 or/and support arm 4, and the two sides of the casting ladle 509 rotate respectively to be set It sets on two support arms；The driving wheel 501 is fixedly and coaxially connected with the driven sprocket 1, and the driving wheel 501 passes through The transmission belt 502 drives the first connecting rod 503 to move in a circle, the first connecting rod 503 by link assembly with it is described The connection of casting ladle 509 is to drive the casting ladle 509 to do fan-shaped swing to realize that casting acts.

Further, the link assembly includes second connecting rod 504, third connecting rod 505 and fourth link 506, and described One connecting rod 503, second connecting rod 504, third connecting rod 505 are successively rotatablely connected, third connecting rod 505 and the fixed company of fourth link 506 It connects, the fourth link 506 is fixedly connected with one end of the casting ladle 509.

A link block 508, two connections are respectively fixedly installed in the connecting pin of the third connecting rod 505 and fourth link 506 Jack is correspondingly provided on block 508, two link blocks 508 are inserted into two jacks by a shotpin 507 to connect the third Bar 505 is fixedly connected with fourth link 506.

A bearing block 510 is fixedly installed on two support arms 4, a bearing is respectively set in the two sides of the casting ladle 509, Two bearings are separately mounted in corresponding bearing block 510.

In the present embodiment, the driving force of the driving wheel 501 of running gate system 5 derives from the transmission of transmission chain 2, ensure that biography The mobile rhythm of ingot mould 6 on dynamic chain 2 is poured the synchronous of rhythm with casting ladle 509, after molten aluminum amount is stablized in casting ladle 509, please join Figure 10 is examined, the die cavity intermediate region of the molten aluminum stamping die point ingot mould 6 of shunting nozzle 509b outflow when being poured low spot；Figure 11 is please referred to, When casting ladle 509, which is located at, shuts off high point, shunting nozzle 509b shuts off molten aluminum.

In the present embodiment, casting ladle 509 belongs to hot cell casting ladle, is equipped with heating rod 509a in casting ladle 509, realizes casting process Temperature of aluminum liquid control, molten aluminum mobility reduces after avoiding temperature of aluminum liquid from reducing, so as to cause the extension side of shunting nozzle and flying for ingot casting Side phenomenon.Casting ladle 509 uses integral type, short runner shunting nozzle 509b, and integral type shunting nozzle avoids split type easy vibration, and stream is not Stable problem；Further short runner shunting nozzle 509b reduces the temperature loss of molten aluminum flow process, flies convenient for control ingot casting Side problem.

In the present embodiment, the width range of ingot mould 6 is 80mm-100mm, this range is the device optimal width size Range, to reach production efficiency maximum and ingot quality is optimal.The material that ingot mould 6 uses is the high-performance containing chromium, molybdenum, vanadium Hot die steel, with the cracking of good thermal fatigue resistance, thermal shock cracking, hot wear energy, anticorrosion, die cavity is convenient for ingot casting Demoulding.The use of ingot mould 6 is detachable, can also customize the cast ingot product of different size according to demand.The present apparatus can produce 20g- 500g series different size cast ingot product, has expanded the scope of application.

Referring to FIG. 8, in the present embodiment, cooling system 8 includes cooling cylinder 805, atomizing disk 803 and gas gathering mask 802, institute The side that the rack 11 is arranged in cooling cylinder 805 is stated, the atomizing disk 803 is located at the top of the transmission chain 2, the gas collection Cover 802 is located on the atomizing disk 803, and several gas collections being connected to the atomizing disk 803 are provided on the gas gathering mask 802 Pipe 801, the cooling cylinder 805 are connected to the atomizing disk 803 by influent stream pipe 806 and return pipe 804 and form closed loop. In the present embodiment, cooling water is pumped into atomizing disk 803 from cooling cylinder 805 by influent stream pipe 806 and is atomized, and carries out water to ingot mould 6 Cold cooling, gas collecting tube 801 can be collected the smoke exhaust of cooling procedure by gas gathering mask 802 and be discharged by gas collecting tube 801.It is right The high-temperature cooling water after cooling of ingot mould 6 is back to cooling cylinder 805 by return pipe 804 and cools down, and returns to form closed loop Road, circulating cooling are convenient for 12 cooling and demolding of ingot casting.

In the present embodiment, referring to FIG. 9, dismoulding system 9 further includes air pump 901, strikes bar 902 and rotation axis 903, bar is struck 902 are fixed in the rotation axis 903, and the rotation axis 903 is rotatably arranged in the rack 11, and air pump 901 is fixed on machine On frame 11, the air pump 901 strikes the drive connection of bar 902, the pitch period mobile according to ingot mould 6 of air pump 901 with described It carries out driving to strike bar 902 and strike 6 back of ingot mould around rotation axis 903, strikes 902 end of bar using idler wheel and strike ingot mould At 6 backs left, center, right three, it is ensured that ingot casting all demoulds in ingot mould 6.

Disclosed above is only the specific embodiment of the application, and however, this application is not limited to this, any this field Technical staff can think variation, should all fall in the protection domain of the application.

Claims (11)

1. a kind of aluminium continuous ingot-casting device, which is characterized in that including rack, drive sprocket, transmission chain, heat preservation chute, casting System, ingot mould, guide rail, cooling system, dismoulding system, driven sprocket, the drive sprocket and driven sprocket are rotatably arranged on The both ends of the rack, the two sides of the rack are respectively corresponded equipped with the guide rail；The transmission chain is set in the drive chain The periphery of wheel and driven sprocket；Several ingot moulds are arranged and are fixed on the transmission chain, and the drive sprocket drives institute Driven sprocket is stated so that the transmission chain is moved along the guide rail；

Heat preservation chute, running gate system, cooling system and the dismoulding system are set gradually along the direction of transfer of the transmission chain, institute It states heat preservation chute and running gate system is erected at the top of the transmission chain, the molten aluminum of the heat preservation chute melting without interruption is given The casting ladle of the running gate system, the casting ladle is for being poured the ingot mould；The cooling system is to the casting after casting After ingot mould cools down, the dismoulding system strikes the back of the ingot mould, completes the demoulding of ingot casting.

2. a kind of aluminium continuous ingot-casting device as described in claim 1, which is characterized in that the heat preservation chute and running gate system The top of the transmission chain is erected at by two support arms, the two sides of the rack are arranged in two support arms:

The two sides of the heat preservation chute are separately fixed on two support arms；

The running gate system further includes driving wheel, transmission belt, first connecting rod and link assembly, and the first connecting rod is rotatably arranged on In the rack or/and support arm, the two sides of the casting ladle are rotatably arranged on respectively on two support arms；The driving wheel with The driven sprocket is fixedly and coaxially connected, and the driving wheel drives the first connecting rod to move in a circle by the transmission belt, The first connecting rod is connect to drive the casting ladle to do fan-shaped swing to realize that casting is acted with the casting ladle by link assembly.

3. a kind of aluminium continuous ingot-casting device as claimed in claim 2, which is characterized in that the link assembly includes the second company Bar, third connecting rod and fourth link, the first connecting rod, second connecting rod, third connecting rod are successively rotatablely connected, the third connecting rod It is fixedly connected with fourth link, the fourth link is fixedly connected with one end of the casting ladle.

4. a kind of aluminium continuous ingot-casting device as claimed in claim 3, which is characterized in that the third connecting rod and fourth link Connecting pin a link block is respectively fixedly installed, be correspondingly provided with jack on two link blocks, two link blocks pass through a shotpin Two jacks are inserted into so that the third connecting rod to be fixedly connected with fourth link.

5. a kind of aluminium continuous ingot-casting device as claimed in claim 2, which is characterized in that fixation is set on two support arms A bearing block is set, a bearing is respectively set in the two sides of the casting ladle, and two bearings are separately mounted in corresponding bearing block.

6. a kind of aluminium continuous ingot-casting device as claimed in claim 1 or 2, which is characterized in that be equipped with heating in the casting ladle Stick.

7. a kind of aluminium continuous ingot-casting device as claimed in claim 1 or 2, which is characterized in that described pour is wrapped using one Formula, short runner shunting nozzle.

8. a kind of aluminium continuous ingot-casting device as described in claim 1, which is characterized in that the cooling system includes condensation The side of the rack is arranged in case, atomizing disk and gas gathering mask, the cooling cylinder, and the atomizing disk is located at the upper of the transmission chain Side, the gas gathering mask are located on the atomizing disk, and the gas collecting tube being connected to the atomizing disk, institute are provided on the gas gathering mask Cooling cylinder is stated to be connected to the atomizing disk by influent stream pipe and return pipe and form closed loop.

9. a kind of aluminium continuous ingot-casting device as described in claim 1, which is characterized in that the dismoulding system include air pump, Bar and rotation axis are struck, the bar that strikes is fixed in the rotation axis, and the rotation axis is rotatably arranged in the rack, the gas Pump is fixedly mounted in the rack, and the air pump and the bar that strikes are drivingly connected, and strikes bar around described described in the air pump driving Rotation axis rotation is struck with the back to ingot mould.

10. a kind of aluminium continuous ingot-casting device as described in claim 1, which is characterized in that the width of the ingot mould is 80mm-100mm。

11. a kind of aluminium continuous ingot-casting device as described in claim 1, which is characterized in that the material that the ingot mould uses For containing chromium, molybdenum, vanadium high performance hot-work die steel.