CN104972106A - Aluminum alloy ingot casting automatic production line - Google Patents

Abstract

The present invention discloses an aluminum alloy ingot casting automatic production line which comprises a smelting casting system, a cooling conveying system, an ingot casting discharge system and a stacking sideslip system; the smelting casting system comprises a smelting combustor and a molten aluminum casting mechanism; the cooling conveying system comprises an aluminum ingot cooling conveyer belt, and a plurality of ingot casting molds are disposed on the aluminum ingot cooling conveyer belt; the ingot casting discharge system comprises a discharge support and an aluminum ingot finished product conveyer belt, the aluminum ingot finished product conveyer belt comprises an aluminum ingot receiving end and an aluminum ingot stacking end, an aluminum ingot discharge end of the aluminum ingot cooling conveyer belt is disposed over the aluminum ingot receiving end of the aluminum ingot finished product conveyer belt, and a discharge upper guide rail and a discharge lower guide rail are disposed on the discharge support; and the stacking sideslip system comprises a stacking sideslip beam, a stacking sideslip support seat, a stacking elevating support seat, a grabbing mechanism, a gradual decline stacking platform and a stacking conveyer belt. The aluminum alloy ingot casting automatic production line is advantaged by high automation degree, good production continuity and smooth transition of various processes.

Description

A kind of aluminium alloy cast ingot automatic production line

Technical field

The present invention relates to a kind of aluminium alloy cast ingot automatic production line, belong to aluminum alloy materials preparing technical field.

Background technology

First use smelting furnace that aluminium block is melt into aluminium liquid in process prepared by aluminum alloy materials, aluminium liquid injects cooling forming in aluminium ingot die cavity by pig moulding machine, is finally taken off from mould by the aluminium ingot after shaping, also needs pile to become buttress for the ease of transport, storage operation.In prior art, the technical scheme relating to above-mentioned operation process mainly contains:

Chinese patent literature CN 103464698 A discloses a kind of aluminium ingot production cooling device, its deficiency existed mainly is: irregularly drop on aluminium ingot product conveying belt after aluminium ingot comes off from ingot mold, thus be unfavorable for follow-up mechanization automatic stacking operation, can only carry out artificial stacking operation, labour intensity greatly and easily scald; In addition, also easily there is the situation of aluminium ingot demoulding difficulty in above-mentioned aluminium ingot production automatic discharge unit.

Chinese patent literature CN 103447481 A discloses a kind of aluminium ingot production automatic discharge unit, its deficiency existed mainly is: irregularly drop on aluminium ingot product conveying belt after aluminium ingot comes off from ingot mold, thus be unfavorable for follow-up mechanization automatic stacking operation, can only carry out artificial stacking operation, labour intensity greatly and easily scald; In addition, also easily there is the situation of aluminium ingot demoulding difficulty in above-mentioned aluminium ingot production automatic discharge unit.

The continuous bunching device of a kind of cast metals disclosed in Chinese patent literature CN 102602706 A, its deficiency existed mainly is: the motion amplitude of work opportunity tool hand is excessive, therefore not only cause occupied ground area comparatively large, and the efficiency of operation is lower and energy consumption is higher.

Based on the deficiency that above-mentioned prior art exists, be necessary to provide a kind of aluminium alloy cast ingot automatic production line, have that automaticity is high, continuous production good, the stable feature of each operation transition, and the deficiency that prior art exists can be overcome.

Summary of the invention

The present invention for the deficiency that prior art exists, provides a kind of aluminium alloy cast ingot automatic production line just, has that automaticity is high, continuous production good, the stable feature of each operation transition, and can overcome the deficiency that prior art exists.

For solving the problem, the technical solution used in the present invention is as follows:

A kind of aluminium alloy cast ingot automatic production line, comprising: smelting and pouring system, cooling conveying system, ingot casting discharge system and pile crossing system;

Described smelting and pouring system comprises melting burner and aluminium liquid casting mechanism, and described melting burner is provided with aluminium liquid runner, and described aluminium liquid casting mechanism is arranged at the below of described aluminium liquid runner;

Described cooling conveying system comprises aluminium ingot cooling conveyor, described aluminium ingot cooling conveyor is equidistantly provided with some ingot molds, and described aluminium ingot cooling conveyor comprises aluminium liquid cast end and aluminium ingot delivery end, described aluminium liquid casting mechanism is positioned at the top of described aluminium ingot cooling conveyor, the described aluminium liquid cast end of described aluminium ingot cooling conveyor is positioned at the bottom of described melting burner, so that heat the described aluminium liquid cast end of described aluminium ingot cooling conveyor by described melting burner;

Described ingot casting discharge system comprises discharging support, aluminium ingot product conveying belt, described aluminium ingot product conveying belt comprises aluminium ingot receiving terminal and aluminium ingot pile end, the described aluminium ingot delivery end of described aluminium ingot cooling conveyor is arranged at above the described aluminium ingot receiving terminal of described aluminium ingot product conveying belt, described discharging support is provided with discharging upper rail and discharging lower guideway, described discharging upper rail vertically arranges and comprises straight line epimere and arc hypomere, described straight line epimere connects described discharging support, the spacing of the described aluminium ingot delivery end of described arc hypomere and aluminium ingot cooling conveyor from up to down increases gradually, described discharging lower guideway is obliquely installed and highly higher one end is positioned at the below of described discharging upper rail, one end that described discharging lower guideway height is lower is positioned on the described aluminium ingot receiving terminal of described aluminium ingot product conveying belt,

Described pile crossing system comprises pile traverse beam, the traversing bearing of pile, pile lifting support, grasping mechanism, gradually falls pile platform, stacking conveyer belt; The described aluminium ingot pile end of described aluminium ingot product conveying belt is provided with limiting block flitch, described pile traverse beam is perpendicular to described aluminium ingot product conveying belt, the traversing bearing settlement of described pile is in described pile traverse beam and can move along described pile traverse beam, and described pile lifting support is arranged at the below of the traversing bearing of described pile and is connected by lifting fluid cylinder; Described stacking conveyer belt is perpendicular to described aluminium ingot product conveying belt, described stacking conveyer belt comprises stacking pile end and stacking transports end, the described stacking pile end of described stacking conveyer belt is positioned at the described aluminium ingot pile end place of described aluminium ingot product conveying belt, described stacking conveyer belt is two parallel one-sided band formations of stacking conveying, the described pile platform that gradually falls is arranged at the described stacking pile end place of described stacking conveyer belt and carries between one-sided band at two described stackings, and the described pile mesa base that gradually falls is provided with pile fluid cylinder.

As the improvement of technique scheme, the driven wheel that described aluminium liquid casting mechanism comprises rotary casting tank and drives described rotary casting tank to rotate, described driven wheel coordinates with described aluminium ingot cooling conveyor, and described rotary casting tank is provided with some pouring heads around axial distribution.

As the improvement of technique scheme, described cooling conveying system also comprises the cooling suction opeing be arranged at below described aluminium ingot cooling conveyor.

As the improvement of technique scheme, the described arc hypomere of described discharging upper rail is provided with slide roller.

As the improvement of technique scheme, described discharging support is also provided with discharging and knocks hammer, described discharging is knocked hammer and is comprised and knock cylinder, hammer handle and hammer body, described hammer handle upper end and described discharging support are hinged, described hammer handle lower end is provided with described hammer body, describedly knock cylinder one end and described discharging support is hinged, described in knock the cylinder other end and described hammer handle is hinged.

As the improvement of technique scheme, the below of described aluminium ingot cooling conveyor is also provided with regenerative apparatus.

As the improvement of technique scheme, described crawl bearing connects described pile lifting support by rotating shaft, and described rotating shaft is provided with swing pinion, described pile lifting support is provided with the electric rotating machine driving described swing pinion.

As the improvement of technique scheme, the bottom of described crawl bearing is also vertically provided with steady compression leg, the bottom of described steady compression leg is provided with the steady depression bar being parallel to described aluminium ingot product conveying belt, described crawl bearing is provided with the through hole passed for described steady compression leg, and between described steady depression bar and described crawl bearing, is provided with the steady stage clip be sleeved on described steady compression leg.

As the improvement of technique scheme, the described stacking of described stacking conveyer belt transports end and is also provided with transport lifting platform, described transport lifting platform is arranged at two described stackings and carries between one-sided band, the bottom of described transport lifting platform is provided with transport fluid cylinder, and the described stacking of described stacking conveyer belt transports end and is also provided with stacking proximity switch in order to control described transport fluid cylinder and described stacking conveyer belt.

Compared with prior art, implementation result of the present invention is as follows in the present invention:

A kind of aluminium alloy cast ingot automatic production line of the present invention, has that automaticity is high, continuous production good, the stable feature of each operation transition, and has the following advantages:

The first, before the aluminium liquid pouring into a mould high temperature in ingot mold, first by melting burner heating ingot mold, thus the temperature difference of being heated of ingot mold can be reduced, thus extend the service life of ingot mold; Additionally by arranging, there is the rotary casting tank of multiple pouring head, aluminium liquid not easily being run off from the gap location between adjacent ingot mold, not only reduces the waste of aluminium liquid, and decrease the frequency of aluminium slag prune job of Active workings.

The second, drop to regularly on aluminium ingot product conveying belt after discharging upper rail and discharging lower guideway being set aluminium ingot can be made to come off from ingot mold, thus be beneficial to follow-up mechanization automatic stacking operation; By generation small expansion of being heated before arranging regenerative apparatus and making the aluminium ingot demoulding, because ingot mold is different with the coefficient of expansion of aluminium ingot, thus be conducive to aluminium ingot is separated with ingot mold, then coordinate follow-up discharging to knock hammer, effectively can reduce the probability of aluminium ingot demoulding difficulty.

3rd, during operation, the motion amplitude of pile crossing system is little, therefore occupied ground area is less, and the efficiency of operation is higher and energy consumption is lower, and directly can transport the good aluminium ingot of pile by forklift, automaticity is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of smelting and pouring system of the present invention and cooling conveying system;

Fig. 2 is the side structure schematic diagram of ingot casting discharge system of the present invention;

Fig. 3 is the end face structure schematic diagram (i.e. the right view of Fig. 2) of ingot casting discharge system of the present invention;

Fig. 4 is the traversing bearing of pile of the present invention, pile lifting support and the grasping mechanism structural representation before capturing aluminium ingot;

Fig. 5 is the traversing bearing of pile of the present invention, pile lifting support and the grasping mechanism structural representation when capturing aluminium ingot;

Fig. 6 is the traversing bearing of pile of the present invention, pile lifting support and the grasping mechanism structural representation when capturing aluminium ingot and being traversing;

Fig. 7 be of the present invention gradually fall pile platform, stacking conveyer belt and transport lifting platform look squarely structural representation;

Fig. 8 is the plan structure schematic diagram gradually falling pile platform, stacking conveyer belt and transport lifting platform of the present invention.

Detailed description of the invention

Below in conjunction with specific embodiments content of the present invention is described.

As shown in Figures 1 to 8, be a kind of aluminium alloy cast ingot automatic production line structural representation of the present invention.A kind of aluminium alloy cast ingot automatic production line of the present invention, comprising: smelting and pouring system, cooling conveying system, ingot casting discharge system and pile crossing system;

Smelting and pouring system comprises melting burner 11 and aluminium liquid casting mechanism, and melting burner 11 is provided with aluminium liquid runner 111, and aluminium liquid casting mechanism is arranged at the below of aluminium liquid runner 111; Particularly, the driven wheel 13 that aluminium liquid casting mechanism comprises rotary casting tank 12 and drives rotary casting tank 12 to rotate, driven wheel 13 coordinates with aluminium ingot cooling conveyor 21, rotary casting tank 12 is provided with some pouring heads 121 around axial distribution.

Cooling conveying system comprises aluminium ingot cooling conveyor 21, aluminium ingot cooling conveyor 21 is equidistantly provided with some ingot molds 211, and aluminium ingot cooling conveyor 21 comprises aluminium liquid cast end 212 and aluminium ingot delivery end 213, aluminium liquid casting mechanism is positioned at the top of aluminium ingot cooling conveyor 21, the aluminium liquid cast end 212 of aluminium ingot cooling conveyor 21 is positioned at the bottom of melting burner 11, so that heat the aluminium liquid cast end 212 of aluminium ingot cooling conveyor 21 by melting burner 11; Particularly, cooling conveying system also comprises the cooling suction opeing 22 be arranged at below aluminium ingot cooling conveyor 21.

Ingot casting discharge system comprises discharging support 31, aluminium ingot product conveying belt 32, aluminium ingot product conveying belt 32 comprises aluminium ingot receiving terminal 321 and aluminium ingot pile end 322, the aluminium ingot delivery end 213 of aluminium ingot cooling conveyor 21 is arranged at above the aluminium ingot receiving terminal 321 of aluminium ingot product conveying belt 32, discharging support 31 is provided with discharging upper rail 33 and discharging lower guideway 34, discharging upper rail 33 vertically arranges and comprises straight line epimere 331 and arc hypomere 332, straight line epimere 331 connects discharging support 31, arc hypomere 332 from up to down increases gradually with the spacing of the aluminium ingot delivery end 213 of aluminium ingot cooling conveyor 21, discharging lower guideway 34 is obliquely installed and highly higher one end is positioned at the below of discharging upper rail 33, one end that discharging lower guideway 34 is highly lower is positioned on the aluminium ingot receiving terminal 321 of aluminium ingot product conveying belt 32, the arc hypomere 332 of discharging upper rail 33 is provided with slide roller 333.Particularly, discharging support 31 is also provided with discharging and knocks hammer, discharging is knocked hammer and is comprised and knock cylinder 351, hammer handle 352 and hammer body 353, hammer handle 352 upper end and discharging support 31 are hinged, hammer handle 352 lower end is provided with hammer body 353, knock cylinder 351 one end and discharging support 31 is hinged, knock cylinder 351 other end and hammer handle 352 is hinged.Further, the below of aluminium ingot cooling conveyor 21 is also provided with regenerative apparatus 36.

Pile crossing system comprises pile traverse beam 41, the traversing bearing 42 of pile, pile lifting support 43, grasping mechanism, gradually falls pile platform 44, stacking conveyer belt 45; The aluminium ingot pile end 322 of aluminium ingot product conveying belt 32 is provided with limiting block flitch 46, pile traverse beam 41 is perpendicular to aluminium ingot product conveying belt 32, the traversing bearing 42 of pile to be arranged in pile traverse beam 41 and can to move along pile traverse beam 41, and pile lifting support 43 is arranged at the below of the traversing bearing 42 of pile and is connected by lifting fluid cylinder 421; Stacking conveyer belt 45 is perpendicular to aluminium ingot product conveying belt 32, stacking conveyer belt 45 comprises stacking pile end 451 and stacking transports end 452, the stacking pile end 451 of stacking conveyer belt 45 is positioned at aluminium ingot pile end 322 place of aluminium ingot product conveying belt 32, stacking conveyer belt 45 is two parallel one-sided band formations of stacking conveying, gradually fall pile platform 44 be arranged at stacking pile end 451 place of stacking conveyer belt 45 and carry between one-sided band at two stackings, gradually fall bottom pile platform 44 and be provided with pile fluid cylinder 441.Further, the stacking of stacking conveyer belt 45 transports end 452 and is also provided with transport lifting platform 48, transport lifting platform 48 is arranged at two stackings and carries between one-sided band, the bottom of transporting lifting platform 48 is provided with transports fluid cylinder 481, and the stacking of stacking conveyer belt 45 transports end 452 and is also provided with stacking proximity switch 482 in order to control to transport fluid cylinder 481 and stacking conveyer belt 45.

Particularly, grasping mechanism comprises crawl bearing 471, capture support arm 472, capture cylinder 473, capture the bottom that bearing 471 is arranged at pile lifting support 43, the middle part capturing support arm 472 is arranged at by axle and captures on bearing 471, capture support arm 472 be two and be arranged at the both sides capturing bearing 471 respectively, the upper end of each crawl support arm 472 is provided with one and captures cylinder 473, crawl cylinder 473 is horizontally disposed with and one end and crawl bearing 471 are hinged, capture cylinder 473 other end to be hinged with the upper end capturing support arm 472, the lower end of each crawl support arm 472 is provided with the Z-shaped crawl hand 474 that is parallel to aluminium ingot product conveying belt 32.Further, capture bearing 471 and connect pile lifting support 43 by rotating shaft 475, and rotating shaft 475 is provided with swing pinion 476, pile lifting support 43 is provided with the electric rotating machine 477 driving swing pinion 476.Further, the bottom capturing bearing 471 is also vertically provided with steady compression leg 478, the bottom of steady compression leg 478 is provided with the steady depression bar 479 being parallel to aluminium ingot product conveying belt 32, capture through hole bearing 471 being provided with and passing for steady compression leg 478, and be steadily provided with the steady stage clip be sleeved on steady compression leg 478 between depression bar 479 and crawl bearing 471.

During work, empty ingot mold 211 moves to aluminium liquid cast end 212 from aluminium ingot delivery end 213, the heating of melting burner 11 is subject at aluminium liquid cast end 212, then at the below cast aluminum liquid of aluminium liquid casting mechanism, move to aluminium ingot delivery end 213 again, when by cooling above suction opeing 22, cooling air from up to down moves, by ingot mold 211 place extremely empty for the carry heat be equipped with in the ingot mold 211 of aluminium liquid, and the ingot mold 211 that heating is empty, make it to avoid shock heating quenching, thus increase the service life.When aluminium ingot cooling conveyor 21 moves, driven wheel 13 can be driven to rotate, driven wheel 13 drives rotary casting tank 12 to rotate, make the intermittence reduction all the time of the height of the pouring head 121 being positioned at least significant end and raise, control the liquid level of aluminium liquid in rotary casting tank 12, make it the maximum height of the pouring head 121 lower than least significant end, when gap between adjacent ingot mold 211 is passed through below rotary casting tank 12, make the height of the pouring head 121 of least significant end just higher than the liquid level of aluminium liquid in rotary casting tank 12, thus aluminium liquid cannot be flowed out by pouring head 121, namely avoid aluminium liquid to be run off by the gap between adjacent ingot mold 211.

Ingot mold 211 on aluminium ingot cooling conveyor 21 moves to aluminium ingot delivery end 213 from aluminium liquid cast end 212 with aluminium ingot, to be heated at regenerative apparatus 36 place generation small expansion, because ingot mold 211 is different with the coefficient of expansion of aluminium ingot, thus be conducive to aluminium ingot is separated with ingot mold 211; Then aluminium ingot delivery end 213 is moved to, discharging knock hammer knock cylinder 351 drive under knock ingot mold 211, aluminium ingot is separated completely with ingot mold 211, be subject to the position-limiting action of discharging upper rail 33, the aluminium ingot of the demoulding can not arbitrarily drop, but landing is regularly to the highly higher one end of discharging lower guideway 34, be slipped on the aluminium ingot receiving terminal 321 of aluminium ingot product conveying belt 32 from discharging lower guideway 34 again, be delivered to aluminium ingot pile end 322 by aluminium ingot product conveying belt 32 and carry out stacking operation.

Aluminium ingot is delivered to aluminium ingot pile end 322 from aluminium ingot receiving terminal 321 by aluminium ingot product conveying belt 32, under the position-limiting action of the peaceful voltage stabilizing bar 479 of limiting block flitch 46, multiple aluminium ingot horizontal Tile is laid in together, then capturing cylinder 473 drives two lower ends capturing support arm 472 to close up, thus make the lower end of two Z-shaped crawl hands 474 hold up aluminium ingot from the bottom of aluminium ingot, then the height of pile lifting support 42 is raised by lifting fluid cylinder 421, the traversing bearing of pile 42 carries out traversing in pile traverse beam 41, being deposited into by multiple for one deck aluminium ingot spread out side by side gradually falls on pile platform 44, and in order to realize the staggered pile of aluminium ingot, namely all vertical between every one deck aluminium ingot with adjacent levels aluminium ingot, after can driving swing pinion 476 half-twist by electric rotating machine 477, pile realizes again: when being pile ground floor aluminium ingot particularly, electric rotating machine 477 not operation, during pile second layer aluminium ingot, electric rotating machine 477 operation, during pile third layer aluminium ingot, electric rotating machine 477 not operation, the rest may be inferred, electric rotating machine 477 is by heap code layer alternately operating.

Then the thickness of height reduction one deck aluminium ingot of pile platform 44 gradually fall, so that put lower one deck aluminium ingot; After the aluminium ingot number of plies of gradually falling pile on pile platform 44 reaches predetermined number of layers, gradually falling pile platform 44 is reduced to below stacking conveyer belt 45, one-sided band is carried to support aluminium ingot stacking by two stackings of stacking conveyer belt 45, then by stacking conveyer belt 45, aluminium ingot stacking is delivered to above transport lifting platform 48, after stacking proximity switch 482 senses aluminium ingot stacking, stacking conveyer belt 48 is stopped operating, and makes transport fluid cylinder 481 lifting transport lifting platform 48, thus be convenient to forklift fortune.

Above content is detailed description made for the present invention in conjunction with specific embodiments, can not assert that the present invention specifically implements to be only limitted to these explanations.For those skilled in the art, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to the scope of protection of the invention.

Claims (10)

1. an aluminium alloy cast ingot automatic production line, is characterized in that, comprising: smelting and pouring system, cooling conveying system, ingot casting discharge system and pile crossing system;

Described smelting and pouring system comprises melting burner (11) and aluminium liquid casting mechanism, and described melting burner (11) is provided with aluminium liquid runner (111), and described aluminium liquid casting mechanism is arranged at the below of described aluminium liquid runner (111);

Described cooling conveying system comprises aluminium ingot cooling conveyor (21), described aluminium ingot cooling conveyor (21) is equidistantly provided with some ingot molds (211), and described aluminium ingot cooling conveyor (21) comprises aluminium liquid cast end (212) and aluminium ingot delivery end (213), described aluminium liquid casting mechanism is positioned at the top of described aluminium ingot cooling conveyor (21), described aluminium liquid cast end (212) of described aluminium ingot cooling conveyor (21) is positioned at the bottom of described melting burner (11), so that heated described aluminium liquid cast end (212) of described aluminium ingot cooling conveyor (21) by described melting burner (11),

Described ingot casting discharge system comprises discharging support (31), aluminium ingot product conveying belt (32), described aluminium ingot product conveying belt (32) comprises aluminium ingot receiving terminal (321) and aluminium ingot pile end (322), the described aluminium ingot delivery end (213) of described aluminium ingot cooling conveyor (21) is arranged at described aluminium ingot receiving terminal (321) top of described aluminium ingot product conveying belt (32), described discharging support (31) is provided with discharging upper rail (33) and discharging lower guideway (34), described discharging upper rail (33) vertically arranges and comprises straight line epimere (331) and arc hypomere (332), described straight line epimere (331) connects described discharging support (31), described arc hypomere (332) from up to down increases gradually with the spacing of the described aluminium ingot delivery end (213) of aluminium ingot cooling conveyor (21), described discharging lower guideway (34) is obliquely installed and highly higher one end is positioned at the below of described discharging upper rail (33), the highly lower one end of described discharging lower guideway (34) is positioned on the described aluminium ingot receiving terminal (321) of described aluminium ingot product conveying belt (32),

Described pile crossing system comprises pile traverse beam (41), the traversing bearing of pile (42), pile lifting support (43), grasping mechanism, gradually falls pile platform (44), stacking conveyer belt (45), the described aluminium ingot pile end (322) of described aluminium ingot product conveying belt (32) is provided with limiting block flitch (46), described pile traverse beam (41) is perpendicular to described aluminium ingot product conveying belt (32), it is upper and can along described pile traverse beam (41) motion that the traversing bearing of described pile (42) is arranged at described pile traverse beam (41), and described pile lifting support (43) is arranged at the below of the traversing bearing of described pile (42) and is connected by lifting fluid cylinder (421), described stacking conveyer belt (45) is perpendicular to described aluminium ingot product conveying belt (32), described stacking conveyer belt (45) comprises stacking pile end (451) and stacking transports end (452), the described stacking pile end (451) of described stacking conveyer belt (45) is positioned at described aluminium ingot pile end (322) place of described aluminium ingot product conveying belt (32), described stacking conveyer belt (45) is two parallel one-sided band formations of stacking conveying, the described pile platform (44) that gradually falls is arranged at described stacking pile end (451) place of described stacking conveyer belt (45) and carries between one-sided band at two described stackings, described pile platform (44) bottom that gradually falls is provided with pile fluid cylinder (441).

2. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, it is characterized in that, the driven wheel (13) that described aluminium liquid casting mechanism comprises rotary casting tank (12) and drives described rotary casting tank (12) to rotate, described driven wheel (13) coordinates with described aluminium ingot cooling conveyor (21), described rotary casting tank (12) is provided with some pouring heads around axial distribution (121).

3. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, is characterized in that, described cooling conveying system also comprises the cooling suction opeing (22) being arranged at described aluminium ingot cooling conveyor (21) below.

4. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, is characterized in that, the described arc hypomere (332) of described discharging upper rail (33) is provided with slide roller (333).

5. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, it is characterized in that, described discharging support (31) is also provided with discharging and knocks hammer, described discharging is knocked hammer and is comprised and knock cylinder (351), hammer handle (352) and hammer body (353), described hammer handle (352) upper end and described discharging support (31) are hinged, described hammer handle (352) lower end is provided with described hammer body (353), describedly knock cylinder (351) one end and described discharging support (31) is hinged, described in knock cylinder (351) other end and described hammer handle (352) is hinged.

6. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, is characterized in that, the below of described aluminium ingot cooling conveyor (21) is also provided with regenerative apparatus (36).

7. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, it is characterized in that, described grasping mechanism comprises crawl bearing (471), capture support arm (472), capture cylinder (473), described crawl bearing (471) is arranged at the bottom of described pile lifting support (43), the middle part of described crawl support arm (472) is arranged on described crawl bearing (471) by axle, described crawl support arm (472) is two and is arranged at the both sides of described crawl bearing (471) respectively, the upper end of each described crawl support arm (472) is provided with a described crawl cylinder (473), described crawl cylinder (473) is horizontally disposed with and one end and described crawl bearing (471) are hinged, the upper end of described crawl cylinder (473) other end and described crawl support arm (472) is hinged, the lower end of each described crawl support arm (472) is provided with the Z-shaped crawl hand (474) that is parallel to described aluminium ingot product conveying belt (32).

8. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 7, it is characterized in that, described crawl bearing (471) connects described pile lifting support (43) by rotating shaft (475), and described rotating shaft (475) is provided with swing pinion (476), described pile lifting support (43) is provided with the electric rotating machine (477) driving described swing pinion (476).

9. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 7, it is characterized in that, the bottom of described crawl bearing (471) is also vertically provided with steady compression leg (478), the bottom of described steady compression leg (478) is provided with the steady depression bar (479) being parallel to described aluminium ingot product conveying belt (32), described crawl bearing (471) is provided with the through hole passed for described steady compression leg (478), and between described steady depression bar (479) and described crawl bearing (471), is provided with the steady stage clip be sleeved on described steady compression leg (478).

10. a kind of aluminium alloy cast ingot automatic production line as claimed in claim 1, it is characterized in that, the described stacking of described stacking conveyer belt (45) transports end (452) and is also provided with transport lifting platform (48), described transport lifting platform (48) is arranged at two described stackings and carries between one-sided band, the bottom of described transport lifting platform (48) is provided with transports fluid cylinder (481), the described stacking of described stacking conveyer belt (45) transports end (452) and is also provided with stacking proximity switch (482) in order to control described transport fluid cylinder (481) and described stacking conveyer belt (45).