CN111715862B - Method for producing die casting - Google Patents

Abstract

The invention relates to a manufacturing method of a die casting, which comprises die casting forming and post-processing, wherein the die casting forming comprises the following steps: s1, closing the movable die, spraying and blowing by the spraying manipulator, setting a safety position in slow motion before the movable die enters fast motion, finishing spraying, blowing and inserting the core before the movable die reaches the safety position, stopping the movable die at the safety position if the movable die does not finish spraying and blowing, and restarting the movable die after the movable die finishes working; s2, carrying out high-pressure die assembly on the movable die, pouring molten metal, and stopping pouring the molten metal if the movable die is not in place after the movable die is subjected to high-pressure die assembly for a period of time; s3, after die assembly, injecting molten metal; s4, after molding, opening the movable mold, drawing out the loose core during the quick movement of the movable mold, and starting the part taking manipulator; s5, after the movable die returns to the original position and the workpiece taking manipulator is in place, the hydraulic cylinder ejects the casting, and the workpiece taking manipulator takes out the casting; and S6, starting the spraying manipulator after the workpiece taking manipulator reaches the original position.

Description

Method for producing die casting

Technical Field

The invention relates to the field of die casting, in particular to a manufacturing method of a die casting.

Background

Referring to fig. 1, fig. 1 is a flowchart of a die casting method of a conventional die casting, which may be divided into two working processes, namely a die opening process and a die closing process.

Specifically, the mold opening process sequentially comprises the following steps:

1. the moving die moves in a slow speed-fast speed-slow speed mode in sequence;

2. after the movable mold is in place, the loose core 1 on the movable mold is reset (the loose core is pulled out);

3. after the loose core 1 is extracted, the part taking manipulator moves to a position between the movable mold and the fixed mold;

4. after the workpiece taking mechanical arm is in place, the hydraulic cylinder ejects the workpiece, and the workpiece taking mechanical arm takes out the workpiece and returns;

5. after the workpiece taking mechanical arm is in the original position, the spraying mechanical arm moves to a position between the movable mold and the fixed mold, and the spraying mechanical arm sprays and blows air to the mold cavities of the movable mold and the fixed mold;

6. and after the blowing is finished, the spraying manipulator returns to carry out die assembly of the next working cycle.

The mold closing process sequentially comprises the following steps:

1. after the spraying manipulator is sprayed to the original position, the loose core 1 on the movable die is inserted to lock the die on the movable die;

2. after the loose core on the movable die is inserted into the die 1, the movable die moves in a slow-fast-slow mode in sequence;

3. and then, closing the movable die at high pressure, pouring molten metal when the movable die is closed in place, and injecting the molten metal into the cavity.

Because the existing die-casting method needs to sequentially carry out the steps, and each machine needs to start after the machine in the previous process finishes the work, the machine has more waiting time in the running process, so the die-casting method has longer time consumption, lower working efficiency and still has space for further improvement.

Disclosure of Invention

Accordingly, an object of the present invention is to provide a method for manufacturing a die cast article, which can shorten the time required for die casting the die cast article and improve the work efficiency.

A manufacturing method of a die casting comprises die casting forming and post-processing of the die casting, wherein the die casting forming comprises the following steps:

s1, the movable die is sequentially closed in a slow-fast-slow mode, the spraying manipulator sprays and blows the die cavities of the movable die and the fixed die, a certain position in the moving process is set as a safe position in the slow motion before the movable die does not enter the fast motion, the spraying manipulator finishes spraying and blowing work and the loose core on the movable die is completely inserted into the movable die before the movable die reaches the safe position, if the movable die does not finish spraying and blowing work, the movable die stops at the safe position, and the movable die is restarted until the spraying manipulator and the loose core finish working;

s2, carrying out high-pressure die assembly on the movable die, and pouring molten metal, wherein after the movable die is subjected to high-pressure die assembly for a period of time, if the movable die is not subjected to die assembly in place, the molten metal is stopped to be poured, and the molten metal is not poured again until the movable die is subjected to die assembly in place;

s3, after the movable die is matched in place, injecting molten metal;

s4, after the casting is formed, sequentially opening the mold of the movable mold in a slow-fast-slow mode, drawing out the loose core on the movable mold during the fast movement of the movable mold, and moving the part taking manipulator between the movable mold and the fixed mold;

s5, after the movable die returns to the original position and the workpiece taking manipulator is in place, the hydraulic cylinder ejects the casting, and the workpiece taking manipulator takes out the casting;

and S6, moving the spraying manipulator to a position between the movable mold and the fixed mold after the workpiece taking manipulator is in the original position.

Further, in step S2, for the large die casting machine, after the movable die is high-pressure clamped for 3 to 4 seconds, if the movable die is not clamped in place, the pouring of molten metal is stopped; for a medium and small-sized die casting machine, after the movable die is subjected to high-pressure die assembly for 1 to 2 seconds, if the movable die is not subjected to die assembly in place, pouring of molten metal is stopped.

Furthermore, a detection device is arranged on the die casting machine, and the detection device comprises a detection probe for detecting whether the casting is taken out or not; in step S6, when the probe detects that the casting is taken out, the spray robot moves between the movable mold and the fixed mold.

Further, the post-treatment comprises the steps of cooling, flushing a slag ladle, flushing a water port and coding the casting in sequence; the aftertreatment adopts automatic die-casting island to accomplish, automatic die-casting island is including the manipulator of getting that is used for carrying the foundry goods, the die casting machine that is used for making the foundry goods, be used for dashing the sediment chartered plane that dashes that removes foundry goods sediment package and cooling foundry goods, be used for dashing the mouth of a river punch that removes the foundry goods mouth of a river, the industrial computer that is used for beating the coding machine of sign indicating number, respectively with manipulator of getting, die casting machine, dash sediment chartered plane, mouth of a river punch, coding machine communication.

Further, be equipped with the water supply system who is used for cooling off the mould on the die casting machine, be equipped with the cooling water installation with industrial computer electric connection on the towards sediment chartered plane, the cooling water installation includes electric water pump, shower nozzle, electric water pump will water supply system's water is taken out to the shower nozzle, the shower nozzle sets up on the drift of towards sediment chartered plane.

Furthermore, the spray heads are uniformly distributed on the punch heads of the slag flushing bag machine.

Further, still be equipped with the clamping jaw fixing device with industrial computer electric connection on the towards sediment chartered plane, clamping jaw fixing device is including placing platform, clamping part, centre gripping pneumatic cylinder, it is used for placing the foundry goods to place the platform, the tight foundry goods of centre gripping pneumatic cylinder drive clamping part clamp.

Further, still be equipped with the discharge device with industrial computer electric connection on the towards sediment chartered plane, discharge device includes sediment chartered plane, stock guide, the stock guide sets up under the foundry goods, the stock guide extends to the opening of sediment chartered plane from under the foundry goods downwards, the stock guide slope sets up on towards the side of sediment chartered plane keeping away from and getting a manipulator.

Furthermore, the slag ladle box is placed on one side of the slag ladle flushing machine, which is far away from the workpiece taking manipulator.

Furthermore, be equipped with the discharge apparatus with industrial computer electric connection on the mouth of a river punch press, discharge apparatus includes the scraping wings, pushes away the material pneumatic cylinder, the conveyer belt of unloading, mouth of a river case, the scraping wings sets up the below at the foundry goods, push away the material pneumatic cylinder drive scraping wings removal and push the mouth of a river that the punching press came to the conveyer belt of unloading, the conveyer belt of unloading transports the mouth of a river to the mouth of a river incasement.

Further, the discharging conveyor belt is arranged on one side, close to the workpiece taking manipulator, of the water gap punch press.

Further, be equipped with the detection device with industrial computer electric connection on the die casting machine, detection device is including being used for surveying whether the casting takes out probe, being used for driving the moving mechanism that probe removed.

Further, the automatic die-casting island further comprises a spraying mechanical arm, wherein the spraying mechanical arm is communicated with an industrial personal computer and is used for spraying and blowing the die cavity of the die.

The invention has the following beneficial effects:

1. the method of the invention simultaneously carries out a plurality of working steps within a time period, reduces the waiting time of each machine, thereby effectively improving the production efficiency;

2. the automatic die-casting island disclosed by the invention can automatically and sequentially remove the slag ladle, the water gap and the two-dimensional code on the product, so that the time for manufacturing the whole product is shortened, the working efficiency is improved, the mechanical automation is used for replacing the manual work, the quality stability of the product is improved, and the labor cost is reduced;

3. the workpiece taking manipulator is used as a center, a die casting machine, a slag punching bag machine, a water gap punching machine and a coding machine are sequentially placed in an anticlockwise direction, the die casting machine, the slag punching bag machine, the water gap punching machine and the coding machine are all in the moving range of the workpiece taking manipulator, all processes can be completed by using one manipulator, the efficiency is improved, and meanwhile the cost is reduced;

4. the cooling water device is arranged on the slag flushing packaging machine, so that when the slag flushing packaging machine removes slag packages from the castings, the castings can be cooled by spraying water, and the working efficiency is further improved.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a flow chart of a prior art method of die casting a die casting;

FIG. 2 is a flow chart of a method of manufacturing a die cast article according to the present invention;

FIG. 3 is a schematic structural diagram of an automated die-casting island according to the present invention;

FIG. 4 is a communication connection diagram of an automated die-cast island according to the present invention;

FIG. 5 is a schematic structural diagram of a detecting device according to the present invention;

FIG. 6 is a schematic structural diagram of a cooling water device according to the present invention;

FIG. 7 is a schematic view of a jaw securing arrangement according to the present invention;

FIG. 8 is a schematic view of a discharge apparatus according to the present invention;

FIG. 9 is a schematic structural view of a discharging device according to the present invention;

description of the drawings:

100. a spraying manipulator; 200. a pick-up manipulator; 300. die casting machine; 310. a detection device; 311. a probe is detected; 312. a moving mechanism; 400. a slag flushing and packing machine; 410. a cooling water device; 411. a water tank; 412. an electric water pump; 413. a spray head; 420. a jaw fixing device; 421. a placing table; 422. a clamping portion; 423. a clamping hydraulic cylinder; 430. a discharge device; 431. a slag ladle box; 432. a material guide plate; 500. a water gap punch press; 510. a discharge device; 511. a material pushing hydraulic cylinder; 512. a material pushing plate; 513. a discharge conveyor belt; 514. a nozzle box; 600. a coding machine; 700. an industrial personal computer; 800. and (5) casting.

Detailed Description

A method of manufacturing a die cast part, see fig. 2, comprises die casting and post-processing of the die cast part.

The die-casting molding comprises the following steps:

s1, the movable mold is sequentially closed according to a slow speed-fast speed-slow speed mode, meanwhile, the spraying mechanical arm 100 carries out spraying and blowing treatment on the mold cavities of the movable mold and the fixed mold, in the slow speed movement before the movable mold enters the fast movement, a certain position in the movement process is set as a safe position, before the movable mold reaches the safe position, the spraying mechanical arm 100 needs to finish spraying and blowing work and core pulling on the movable mold is completely inserted into the movable mold, if the movable mold is not finished, the movable mold stops at the safe position, the movable mold is restarted after the spraying mechanical arm 100 and the core pulling finish work, and the spraying mechanical arm 100 ascends to prevent the movable mold from being closed.

S2, carrying out high-pressure die assembly on the movable die, and pouring molten metal, wherein after the movable die is subjected to high-pressure die assembly for a period of time, if the movable die is not subjected to die assembly in place, the molten metal is stopped to be poured, and the molten metal is not poured again until the movable die is subjected to die assembly in place;

s3, after the movable die is matched in place, injecting molten metal;

s4, after the casting 800 is molded, sequentially opening the mold of the movable mold in a slow-fast-slow mode, drawing out the loose core on the movable mold during the fast movement of the movable mold, and moving the part taking manipulator 200 between the movable mold and the fixed mold;

s5, after the movable mold returns to the original position and the part taking manipulator 200 is located, the hydraulic cylinder ejects the casting 800, and the part taking manipulator 200 takes out the casting 800;

and S6, after the workpiece taking manipulator 200 is in the original position, the spraying manipulator 100 moves to a position between the movable mold and the fixed mold.

Specifically, in step S2, for the large die casting machine 300, after the movable die is high-pressure clamped for 3 to 4 seconds, if the movable die is not clamped in place, the pouring of molten metal is stopped; for the medium and small-sized die casting machine 300, after the movable die is closed for 1 to 2 seconds under high pressure, if the movable die is not closed in place, pouring of molten metal is stopped.

Specifically, the die casting machine 300 is provided with a detection device 310, and the detection device 310 includes a probe 311 for detecting whether the casting 800 is taken out; in step S6, when the probe 311 detects that the casting 800 is taken out, the spray robot 100 moves between the movable mold and the fixed mold.

The post-processing comprises cooling, slag flushing, flushing and code printing of the casting 800 in sequence. The post-processing is completed by an automatic die-casting island. Referring to fig. 3 and 4, the automatic die-casting island comprises a spraying manipulator 100, a workpiece taking manipulator 200, a die-casting machine 300, a slag flushing packer 400, a water gap punch 500, a coding machine 600 and an industrial personal computer 700. The industrial personal computer 700 is in communication connection with the spraying manipulator 100, the workpiece taking manipulator 200, the die casting machine 300, the slag flushing packaging machine 400, the water gap punch press 500 and the coding machine 600 respectively. The workpiece taking manipulator 200 is used as a center, the die casting machine 300, the slag flushing packaging machine 400, the water gap punch press 500 and the coding machine 600 are sequentially placed in the anticlockwise direction, and the die casting machine 300, the slag flushing packaging machine 400, the water gap punch press 500 and the coding machine 600 are all in the moving range of the workpiece taking manipulator 200.

Under the control of the industrial personal computer 700, after die casting is completed, the die casting machine 300 opens the die, and meanwhile, the casting 800 is taken out by the casting taking manipulator 200; then, the casting 800 is placed on the slag flushing ladle machine 400 by the workpiece taking manipulator 200, the slag flushing ladle machine 400 flushes the slag ladle on the casting 800, and during the process, the spraying manipulator 100 sprays and blows air on the die; then, the workpiece taking manipulator 200 conveys the casting 800 subjected to slag ladle flushing to a water gap punch press 500, and the water gap punch press 500 punches a water gap on the casting; after the water gap is punched, the casting 800 is placed on the coding machine 600 by the taking manipulator 200 for coding; finally, the part taking manipulator 200 places the coded casting 800 on a conveyor belt, and the casting 800 is conveyed to the next process by the conveyor belt.

Referring to fig. 3, the spray robot 100 is provided at the top of the die casting machine 300 and is located at one side of the stationary mold of the die casting machine 300.

Referring to fig. 3 and 5, a die casting machine 300 is used to manufacture a package, which is provided with a water supply system (not shown) for cooling the die. The die casting machine 300 is provided with a detection device 310. The detecting device 310 includes a detecting probe 311, and the detecting probe 311 is disposed at one side of a stationary die of the die casting machine 300 and is used for detecting whether the casting 800 is taken out. In order to adjust the mounting position of the probing tip 311 to adjust the detection region of the probing tip 311, the detecting device 310 further includes a moving mechanism 312, and the probing tip 311 is fixed to the die casting machine 300 by the moving mechanism 312. The moving mechanism 312 may be a mechanism capable of changing the position, such as a linear motor mechanism, a linear hydraulic cylinder mechanism, a slider-crank mechanism, etc., and in this embodiment, a linear hydraulic cylinder is used to change the position of the probe 311.

Referring to fig. 6 to 8, the slag flushing ladle 400 is further provided with a cooling water device 410, a clamping jaw fixing device 420 and a discharging device 430. Wherein, cooling water installation 410 includes electric water pump 412, shower nozzle 413, and the water inlet of electric water pump 412 inserts the water supply system of die casting machine 300, and electric water pump 412's delivery port inserts shower nozzle 413, and shower nozzle 413 sets up on the shower nozzle of towards sediment chartered plane 400, and in this embodiment, four shower nozzles 413 of evenly distributed on the shower nozzle, when towards sediment chartered plane 400 towards the sediment package, start electric water pump 412, shower nozzle 413 is to foundry goods 800 water spray in order to cool off foundry goods 800, improves work efficiency effectively. The clamping jaw fixing device 420 comprises a placing table 421, a clamping portion 422 and a clamping hydraulic cylinder 423, wherein the top surface of the placing table 421 abuts against the bottom surface of the casting 800, the clamping hydraulic cylinder 423 is used for driving the clamping portion 422 to clamp two sides of the casting 800, the degree of freedom of the casting 800 is limited through the placing table 421 and the clamping portion 422, and therefore the casting 800 is fixedly installed. The discharging device 430 comprises a ladle box 431 and a guide plate 432, wherein the guide plate 432 is arranged right below the casting 800, and the guide plate 432 extends downwards from the right below the casting 800 to an opening of the ladle box 431, so that flushed ladles and cooling water are guided into the ladle box 431. In order to avoid accidentally injuring the workers when the workpiece taking manipulator 200 works, the material guide plate 432 is obliquely arranged on the side surface of the slag ladle flushing machine 400 far away from the workpiece taking manipulator 200, and the slag ladle box 431 is arranged on the side of the slag ladle flushing machine 400 far away from the workpiece taking manipulator 200.

Referring to fig. 9, the nozzle press 500 is further provided with a discharging device 510, and the discharging device 510 is disposed below the casting 800. Specifically, the discharging device 510 includes a material pushing hydraulic cylinder 511, a material pushing plate 512, a discharging conveyor 513, and a water gap box 514. The pushing hydraulic cylinder 511 drives the pushing plate 512 to move, the pushing plate 512 pushes the flushed water gap to the discharging conveyor belt 513, and the discharging conveyor belt 513 transports the water gap into the water gap box 514. In order to save floor space, the discharge conveyor 513 is disposed on the side of the nozzle press 500 close to the part-removing robot 200.

The working process is as follows: after the die casting machine 300 finishes working, the casting taking manipulator 200 takes out the casting 800; then, the casting 800 is placed on the placing table 421 by the pick-up manipulator 200, the clamping part 422 clamps the casting 800 to fix the casting 800, and the slag flushing ladle machine 400 performs slag flushing ladle treatment and cooling treatment on the casting 800; meanwhile, when the detecting probe 311 detects that the casting 800 is taken out, the spraying manipulator 100 extends into the die-casting machine 300 and sprays and blows air to the die cavity of the die on the die-casting machine 300; then, the workpiece taking manipulator 200 conveys the casting 800 subjected to slag ladle flushing to a water gap punch press 500, and the water gap punch press 500 punches a water gap on the casting; after the water gap is punched, the casting 800 is placed on the coding machine 600 by the taking manipulator 200 for coding; finally, the part taking manipulator 200 places the coded casting 800 on a conveyor belt, and the casting 800 is conveyed to the next process by the conveyor belt.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (13)

1. A method of manufacturing a die casting, comprising die casting and post-processing of the die casting, characterized in that the die casting comprises the steps of:

s1, the movable die is sequentially closed in a slow-fast-slow mode, the spraying manipulator (100) sprays and blows the die cavities of the movable die and the fixed die, a certain position in the moving process is set as a safe position in the slow motion before the movable die enters the fast motion, the spraying manipulator (100) needs to finish spraying and blowing work and completely insert the loose core on the movable die into the movable die before the movable die reaches the safe position, and if the movable die does not finish spraying and blowing work, the movable die stops at the safe position until the spraying manipulator (100) and the movable die restart after the loose core finishes work;

s2, carrying out high-pressure die assembly on the movable die, and pouring molten metal, wherein after the movable die is subjected to high-pressure die assembly for a period of time, if the movable die is not subjected to die assembly in place, the molten metal is stopped to be poured, and the molten metal is not poured again until the movable die is subjected to die assembly in place;

s3, after the movable die is matched in place, injecting molten metal;

s4, after the casting (800) is molded, sequentially opening the die of the movable die in a slow-fast-slow mode, drawing out the loose core on the movable die during the quick movement of the movable die, and moving the part taking manipulator (200) between the movable die and the fixed die;

s5, after the movable die returns to the original position and the part taking manipulator (200) is in place, the hydraulic cylinder ejects the casting (800), and the part taking manipulator (200) takes out the casting (800);

and S6, after the workpiece taking manipulator (200) is in the original position, the spraying manipulator (100) moves to a position between the movable die and the fixed die.

2. The die casting manufacturing method according to claim 1, characterized in that: in step S2, for the large die casting machine (300), after the movable die is high-pressure clamped for 3 to 4 seconds, if the movable die is not clamped in place, the pouring of molten metal is stopped; for a medium and small-sized die casting machine (300), after the movable die is subjected to high-pressure die assembly for 1 to 2 seconds, if the movable die is not subjected to die assembly in place, pouring of molten metal is stopped.

3. The die casting manufacturing method according to claim 2, characterized in that: the die casting machine (300) is provided with a detection device (310), and the detection device (310) comprises a detection probe (311) used for detecting whether the casting (800) is taken out or not; in step S6, when the probe (311) detects that the casting (800) is taken out, the spray robot (100) moves between the movable mold and the fixed mold.

4. The die casting manufacturing method according to claim 1, characterized in that: the post-treatment comprises the steps of cooling, flushing a slag ladle, flushing a water port and coding the casting (800) in sequence; the aftertreatment adopts automatic die-casting island to accomplish, automatic die-casting island is including getting a manipulator (200) that is used for carrying foundry goods (800), die casting machine (300) that is used for making foundry goods (800), towards sediment chartered plane (400) that is used for dashing removing foundry goods (800) sediment package and cooling foundry goods (800), industrial computer (700) that is used for dashing removing the mouth of a river punch press (500) at foundry goods (800) mouth, is used for beating ink recorder (600) of sign indicating number, respectively with getting a manipulator (200), die casting machine (300), towards sediment chartered plane (400), mouth of a river punch press (500), ink recorder (600) communication.

5. The die casting manufacturing method according to claim 4, characterized in that: be equipped with the water supply system who is used for cooling the mould on die casting machine (300), be equipped with cooling water device (410) with industrial computer (700) electric connection on towards sediment chartered plane (400), cooling water device (410) include electric water pump (412), shower nozzle (413), electric water pump (412) will water supply system's water is taken out to shower nozzle (413), shower nozzle (413) set up on towards the drift of sediment chartered plane (400).

6. The die casting manufacturing method according to claim 5, characterized in that: the spray heads (413) are uniformly distributed on the punch heads of the slag flushing packing machine (400).

7. The die casting manufacturing method according to claim 4, characterized in that: still be equipped with clamping jaw fixing device (420) with industrial computer (700) electric connection on dash sediment chartered plane (400), clamping jaw fixing device (420) are including placing platform (421), clamping part (422), centre gripping hydraulic cylinder (423), place platform (421) and be used for placing foundry goods (800), centre gripping hydraulic cylinder (423) drive clamping part (422) press from both sides tight foundry goods (800).

8. The die casting manufacturing method according to claim 4, characterized in that: still be equipped with discharge device (430) with industrial computer (700) electric connection on dash sediment chartered plane (400), discharge device (430) are including sediment package case (431), stock guide (432) set up under foundry goods (800), stock guide (432) are from foundry goods (800) under down extending to the opening of sediment package case (431), stock guide (432) slope sets up on the side of dashing sediment chartered plane (400) and keeping away from a manipulator (200) of getting.

9. The die casting manufacturing method according to claim 8, characterized in that: the slag ladle box (431) is arranged on one side of the slag ladle flushing machine (400) far away from the workpiece taking mechanical arm (200).

10. The die casting manufacturing method according to claim 4, characterized in that: be equipped with discharge apparatus (510) with industrial computer (700) electric connection on mouth of a river punch press (500), discharge apparatus (510) are including scraping wings (512), push away material pneumatic cylinder (511), unload conveyer belt (513), mouth of a river case (514), scraping wings (512) set up the below at foundry goods (800), push away the removal of material pneumatic cylinder (511) drive scraping wings (512) and push the mouth of a river of punching press out to unload conveyer belt (513), it transports the mouth of a river to in mouth of a river case (514) to unload conveyer belt (513).

11. The die casting manufacturing method according to claim 10, characterized in that: the discharging conveyor belt (513) is arranged on one side of the water gap punch press (500) close to the workpiece taking manipulator (200).

12. The die casting manufacturing method according to claim 4, characterized in that: be equipped with detection device (310) with industrial computer (700) electric connection on die casting machine (300), detection device (310) are including being used for surveying probe (311) that whether foundry goods (800) took out, be used for driving moving mechanism (312) that probe (311) removed.

13. The die casting manufacturing method according to claim 4, characterized in that: the automatic die-casting island further comprises a spraying mechanical arm (100), wherein the spraying mechanical arm (100) is communicated with an industrial personal computer (700), and is used for spraying and blowing the die cavity of the die.

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