CN204018717U - A kind of automation tin ball production line - Google Patents

Abstract

The utility model discloses a kind of automation tin ball production line, comprise alloy calciner, small-sized holding furnace, liquid level detector, casting groove, electric control box, air cooling section, casting mold mould, printing equipment, unloading part, water cooling section; The utility model is linearly arranged, and described alloy calciner is arranged on left side, is provided with thereafter module pipeline, printing equipment and unloading part; Left end is located at by described small-sized holding furnace, described cast segment of watering is arranged at bottom small-sized holding furnace and between module pipeline, described air cooling section is arranged at above described module pipeline, described printing equipment is arranged at the right-hand member of described module pipeline, described water cooling section is located at the below of described module pipeline, and described electric control box is arranged on side, middle part; The utility model adopts calciner and holding furnace supporting, casting mold mould tinuous production, and in conjunction with air-cooled and water-cooling pattern, operation process is safer, improves production capacity more than 10 times, reduces manufacturing cost, raising tin ball quality.

Description

A kind of automation tin ball production line

Technical field

The utility model relates to a kind of melting, casting rod production technology apparatus field of tin solder, particularly a kind of automation tin ball production line.

Background technology

Tin solder is by the multiple element alloy based on tin metal, and tin solder is produced first will by various element alloying in smelting furnace, and material material alloy being made definite shape is to facilitate the processing and forming in follow-up use.

Existing casting ball casting technique, generally combined by a smelting furnace and a casting machine machine, because manufacturing technique requirent, first be about to tin, silver, copper, nickel, germanium ... melt to scale by weight Deng ingot, and alloy melting is stirred, this process need several hours, ball casting machine is in shut down and treats material state during this period of time, ball casting machine cast ball speed is about 400Kg/ hour, furnace capacity is by 1.5 tons of calculating, one furnace charge about more than 5 hours, smelting furnace needs refuse ingot, ball casting machine is idle during this period of time, therefore capacity efficiency only has about 50%, have impact on cast ball efficiency, capacity utilization is not high, tin ball yields poorly down.

Shortcoming or the deficiency of prior art are: 1. equipment adopts hand teeming, and due to temperature higher (about 390 DEG C), during operator operation, danger is high; 2. production capacity cannot effectively promote; 3. the casting process time is long, and the maintenance of alloy temperature is more difficult, constantly heating alloys repeatedly, guarantees that alloy eutectic is all right.

Utility model content

For solving the problems of the technologies described above, the utility model provides a kind of automation tin ball production line, for deficiency of the prior art, adopts tin ball automatic transport mode, and in course of conveying, increases air-cooled and water-cooled, shorten cool time; Adopt alloying furnace and small-sized holding furnace supporting, insulation and temperature control effective; Production capacity improves relatively, shortens delivery date; Reduce cost of labor, and improve production security.

For achieving the above object, the technical solution of the utility model is as follows: a kind of automation tin ball production line, comprise alloy calciner, transit mixer, Melt Pump, small-sized holding furnace, liquid level detector, heat preservation tank, casting groove, electric control box, air cooling section, module pipeline, casting mold mould, printing equipment, unloading part, package post, product wire frame, water cooling section, conveying motor, automatically pulp cutlet, heater, tin ball die cavity, it is characterized in that:

Described automation tin ball production line, according to tin ball casting technique order, is disposed with alloy calciner, Melt Pump, small-sized holding furnace, waters cast segment, module pipeline, air cooling section, printing equipment, water cooling section, unloading part, electric control box; Described automation tin ball production line is linearly arranged, and described alloy calciner is arranged on left side, is provided with thereafter module pipeline, printing equipment and unloading part; Described small-sized holding furnace is arranged at the left end of described module pipeline, and the below of described small-sized holding furnace is the drive part of module pipeline; Described Melt Pump is set up in described alloy and melts between Shanghai and small-sized holding furnace, described cast segment of watering is arranged at bottom small-sized holding furnace and between module pipeline, described air cooling section is arranged at described module pipeline upper center region, described printing equipment is arranged at the right-hand member of described module pipeline, described water cooling section is arranged at the below central region of described module pipeline, described unloading part is arranged at the right side of described module pipeline, and described electric control box is arranged on side in the middle part of described module pipeline; Described electric control box and described alloy calciner, Melt Pump, transit mixer, liquid level detector, temperature control system, air cooling section, water cooling section, conveying motor, printing equipment are electrically connected; Described electric control box carries out comprehensive setting parameter to described automation tin ball production line and system cloud gray model controls.

Described alloy calciner is the electrothermal furnace of top cylinder shape bottom semicircular, described alloy calciner is for the various metal ingot that melts tin ball technical recipe and determine and batching, described alloy calciner pot bottom is provided with heater, and described alloy calciner top is provided with transit mixer and Melt Pump; Described Melt Pump draws the melt in alloy calciner, and conveying is supplied to small-sized holding furnace; Described small-sized holding furnace is the cylindrical furnace with thermal compensation function, be communicated with described cast segment of watering bottom it, its inside is provided with transit mixer and liquid level detector, and described liquid level detector is used for the two position change detecting melt in real time, so that supplement melt in time from described alloy calciner; Described cast segment of watering is made up of heat preservation tank and casting groove, and described casting groove is also provided with liquid level detector, for controlling the quantity of casting melt, guarantees that each the group casting mold mould on described module pipeline can both reach the casting amount of process stipulation; Described casting slot is directly over described module pipeline, its export volume mates with the tin ball cavity quantity on described casting mold mould and arranges, described electric control box control module pipeline moves continuously, and control described casting groove timing casting, guarantee that each the casting mold mould on module pipeline all can be cast in time.

Described module pipeline drives annular chain by carrying motor, shuttling movement is done along track, described conveying motor, chain are all assemblied in described product wire frame, described product wire frame is provided with multiple roller wheel, described chain is assemblied in outside described roller wheel, described chain is provided with multiple casting mold mould, described casting mold mould is provided with multiple tin ball die cavity, described casting mold mould is flexibly connected with described chain by bottom, under the drive of described chain, follow described chain and do cyclic rotation; Cold wind is blown into directly over described module pipeline by air-cooler by described air cooling section, for cooling the tin ball of casting in casting mold mould, described water cooling section, by guiding in the tank bottom entering by the chain of described module pipeline and casting mold mould, is cooled casting mold mould fast by flowing cooling water; Described printing equipment is at air cooling section rear portion, by steel die, Related product mark is transferred to tin ball surface, described unloading part is departed from by the tin ball of cast molding to come from described casting mold mould, and automatically fall on package post, and carry out weighing, packaging, transhipment warehouse-in to tin ball.

Described casting mold mould is at least provided with two kinds of tin ball die cavitys, described tin ball die cavity is semicircle spherical structure, and the diameter that different types of its semicircle of tin ball die cavity is spherical is different, and described tin ball die cavity is longitudinally arranged in a straight line, and described tin ball die cavity is provided with multiple.Therefore same tin ball production line can cast out the tin ball product of plurality of specifications simultaneously.

Described electric control box controls automatically to module pipeline and casting groove, realizes pouring flow rate homogeneous, solves the weight alloy difference defect that artificial casting model is interior.

Described alloy calciner capacity is 1 ton-2 tons.

The temperature that described transit mixer starts to stir is 390 DEG C.

Described casting concentrated flow amount can set in advance, and by electric control box to casting time and transporting velocity adjustment coupling, the alloy reaching melting in described casting groove is accurately complete to be poured in casting mold mould, is unlikely and overflows or deficiency.

Automatic pulp cutlet is provided with in described small-sized holding furnace, monitored by the melt level of high-low-position detector to described small-sized holding furnace by described electric control box, and automatically control the described automatic pulp cutlet alloy melt quantity that supplementary described small-sized holding furnace is interior in time.

Described casting groove is arranged at below described heat preservation tank, and described casting groove arranges height melt level detector equally, and is controlled by electric control box, guarantees that the alloy amount of heat preservation tank inflow casting groove meets technological standards.

Casting mold modulus amount on described module pipeline is 16-36 pieces; Each casting mold mould is arranged with 3-8 row tin ball die cavitys in parallel, intermediate portion is divided into minor diameter tin ball die cavity, and two sides are symmetrical arranged as major diameter tin ball die cavity.

The utility model principle illustrates: have higher temperature for the tin ball within the casting mold mould after having cast, need a period of time to cool, could become solid-state by liquid state; This time difference can be module pipeline circulation casting and provides possibility, by power drive module pipeline, mode that is air-cooled and water-cooled is adopted in course of conveying, air-cooled section of major function is the cool time of accelerating tin ball, water-cooled major function is then the heat produced because carrying tin ball at cooling reduction casting mold mould, make casting mold mould body be unlikely to temperature in lasting delivery cycle process too high, not only save the spent time to be cooled such as original, improve production capacity and efficiency by a larger margin.

First be about to tin, silver, copper, nickel, germanium ... after adjusting to scale Deng weight metal, insert 1 ton of alloy calciner, heat in described alloy calciner, when in-furnace temperature reaches 390 DEG C, open transit mixer to stir, after making alloy composition evenly, carry out sampling and testing, after test passes, injected in small-sized holding furnace by Melt Pump part by alloy in 1 ton of alloy calciner, reinject casting groove; The automatic module pipeline of starting device, injects in the tin ball die cavity of casting mold mould by alloy via casting groove; Inject the casting mold mould of liquid alloy via the air cooling section above module pipeline; solid tin ball is cooled to by air port; again through printing equipment marking product standard and type; arrive blanking after described unloading part; empty casting mold mould after blanking returns back to below described product wire frame; bosh through water cooling section cools; reduce the temperature that described casting mold mould produces because of alloy tin ball heat transfer; be beneficial to conveying casting mold mould and be back to casting groove when refilling alloy, described casting mold mould is unlikely to because the overheated alloy tin ball of circulation conveying that causes cools not up to standard.

Pass through technique scheme, the beneficial effect of technical solutions of the utility model is: adopt alloy calciner and small-sized holding furnace supporting, and use casting mold mould tinuous production, in conjunction with air-cooled and water-cooling pattern, operation process is safer, avoids hand teeming to touch the risk of high temperature; Improve production capacity more than 10 times, reduce manufacturing cost, improve tin ball quality.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of automation tin ball production line structural representation disclosed in this new embodiment;

Fig. 2 is a kind of automation tin ball production line casting mold mould top view schematic diagram disclosed in this new embodiment;

Fig. 3 is a kind of automation tin ball production line casting mold mould A-A generalized section disclosed in this new embodiment;

Fig. 4 is a kind of automation tin ball production line casting mold mould B-B generalized section disclosed in this new embodiment.

Numeral and the corresponding component title represented by letter in figure:

1. the small-sized holding furnace of alloy calciner 2. transit mixer 3. Melt Pump 4.

5. liquid level detector 6. heat preservation tank 7. is cast groove 8. electric control box

9. air cooling section 10. module pipeline 11. casting mold mould 12. printing equipment

13. unloading part 14. package posts 15. produce wire frame 16. water cooling section

17. conveying motors 18. pulp cutlet 19. heater 20. tin ball die cavity automatically

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

According to Fig. 1, the utility model provides a kind of automation tin ball production line, comprises alloy calciner 1, transit mixer 2, Melt Pump 3, small-sized holding furnace 4, liquid level detector 5, heat preservation tank 6, casting groove 7, electric control box 8, air cooling section 9, module pipeline 10, casting mold mould 11, printing equipment 12, unloading part 13, package post 14, produces wire frame 15, water cooling section 16, conveying motor 17, automatically pulp cutlet 18, heater 19, tin ball die cavity 20.

Described automation tin ball production line, according to tin ball casting technique order, be disposed with alloy calciner 1, Melt Pump 3, small-sized holding furnace 4, water cast segment, module pipeline 10, air cooling section 9, printing equipment 12, water cooling section 16, unloading part 13, electric control box 8; Described automation tin ball production line is linearly arranged, and described alloy calciner 1 is arranged on left side, is provided with thereafter module pipeline 10, printing equipment 12 and unloading part 13; Described small-sized holding furnace 4 is arranged at the left end of described module pipeline 10, and the below of described small-sized holding furnace 4 is the drive part of module pipeline 10; Described Melt Pump 3 is set up in described alloy and melts between Shanghai 1 and small-sized holding furnace 4, described cast segment of watering is arranged at bottom small-sized holding furnace 4 and between module pipeline 10, described air cooling section 9 is arranged at described module pipeline 10 upper center region, described printing equipment 12 is arranged at the right-hand member of described module pipeline 10, described water cooling section 16 is arranged at the below central region of described module pipeline 10, described unloading part 13 is arranged at the right side of described module pipeline 10, and described electric control box 8 is arranged on side in the middle part of described module pipeline 10; Described electric control box 8 with described alloy calciner 1, Melt Pump 3, transit mixer 2, liquid level detector 5, temperature control system, air cooling section 9, water cooling section 16, carry motor 17, printing equipment 12 is electrically connected; Described electric control box 8 carries out comprehensive setting parameter to described automation tin ball production line and system cloud gray model controls.

Described alloy calciner 1 is the electrothermal furnace of top cylinder shape bottom semicircular, described alloy calciner 1 is for the various metal ingot that melts tin ball technical recipe and determine and batching, described alloy calciner 1 pot bottom is provided with heater 19, and described alloy calciner 1 top is provided with transit mixer 2 and Melt Pump 3; Described Melt Pump 3 draws the melt in alloy calciner 1, and conveying is supplied to small-sized holding furnace 4; Described small-sized holding furnace 4 is for having the cylindrical furnace of thermal compensation function, be communicated with described cast segment of watering bottom it, its inside is provided with transit mixer 2 and liquid level detector 5, described liquid level detector 5 changes for the two position detecting melt in real time, so that supplement melt in time from described alloy calciner 1; Described cast segment of watering is made up of heat preservation tank 6 and casting groove 7, and described casting groove 7 is also provided with liquid level detector 5, for controlling the quantity of casting melt, guarantees that each the group casting mold mould 11 on described module pipeline 10 can both reach the casting amount of process stipulation; Described casting groove 7 is positioned at directly over described module pipeline 10, its export volume mates with the tin ball cavity quantity on described casting mold mould 11 and arranges, described electric control box 8 control module pipeline 10 moves continuously, and control described casting groove 7 timing casting, guarantee that each the casting mold mould 11 on module pipeline 10 all can be cast in time; Described module pipeline 10 drives annular chain by conveying motor 17, shuttling movement is done along track, described conveying motor 17, chain are all assemblied in described product wire frame 15, described product wire frame 15 is provided with multiple roller wheel, described chain is assemblied in outside described roller wheel, described chain is provided with multiple casting mold mould 11, described casting mold mould 11 is provided with multiple tin ball die cavity, described casting mold mould 11 is flexibly connected with described chain by bottom, under the drive of described chain, follow described chain and do cyclic rotation; Cold wind is blown into directly over described module pipeline 10 by air-cooler by described air cooling section 9, for cooling the tin ball of casting in casting mold mould 11, described water cooling section 16, by guiding in the tank bottom entering by the chain of described module pipeline 10 and casting mold mould 11, is cooled casting mold mould 11 fast by flowing cooling water; Described printing equipment 12 is at air cooling section 9 rear portion, by steel die, Related product mark is transferred to tin ball surface, described unloading part 13 is departed from by the tin ball of cast molding to come from described casting mold mould 11, and automatically fall on package post 14, and weighing, packaging, transhipment warehouse-in are carried out to tin ball.

Described casting mold mould is provided with two kinds of tin ball die cavitys, and described tin ball die cavity is semicircle spherical structure, and the diameter that different types of its semicircle of tin ball die cavity is spherical is different, and described tin ball die cavity is longitudinally arranged in a straight line.

Described electric control box 8 pairs of module pipelines 10 and casting groove 7 control automatically, realize pouring flow rate homogeneous, solve the weight alloy difference defect that artificial casting model is interior.

Described alloy calciner capacity is 1 ton

The temperature that described transit mixer starts to stir is 390 DEG C.

Described casting groove 7 flow can set in advance, and by electric control box 8 pairs of casting times and transporting velocity adjustment coupling, the alloy reaching melting in described casting groove 8 is accurately complete to be poured in casting mold mould 11, is unlikely spilling or not enough.

Automatic pulp cutlet 18 is provided with in described small-sized holding furnace 4, monitored by the melt level of two position detector 5 to described small-sized holding furnace 4 by described electric control box 8, and automatically control the described automatic pulp cutlet 18 alloy melt quantity that supplementary described small-sized holding furnace 4 is interior in time.

Described casting groove 7 is arranged at below described heat preservation tank 6, and described casting groove 7 arranges height melt level detector 5 equally, and is controlled by electric control box 8, guarantees that the alloy amount of heat preservation tank inflow casting groove meets technological standards.

Casting mold mould 11 quantity on described module pipeline 10 is 28 pieces; Each casting mold mould 11 is arranged with 5 row tin ball die cavitys in parallel, be provided with 3 row minor diameter tin ball die cavitys in the middle of it, two sides are symmetrically arranged with 2 row major diameter tin ball die cavitys.

The utility model concrete operation step is: have higher temperature for the tin ball within the casting mold mould 11 after having cast, need a period of time to cool, could become solid-state by liquid state; This time difference can be module pipeline 10 casting that circulates and provides possibility, by power drive module pipeline 10, mode that is air-cooled and water-cooled is adopted in course of conveying, air-cooled section of major function is the cool time of accelerating tin ball, water-cooled major function is then the heat produced because carrying tin ball at cooling reduction casting mold mould 11, casting mold mould 11 body is made to be unlikely to temperature in lasting delivery cycle process too high, not only to save the spent time to be cooled such as original, improve production capacity and efficiency by a larger margin.

First be about to tin, silver, copper, nickel, germanium ... after adjusting to scale Deng weight metal, insert 1 ton of alloy calciner 1, heat in described alloy calciner 1, when in-furnace temperature reaches 390 DEG C, open transit mixer 2 to stir, after making alloy composition evenly, carry out sampling and testing, after test passes, injected in small-sized holding furnace 4 by Melt Pump 3 part by alloy in 1 ton of alloy calciner 1, reinject casting groove 7, the automatic module pipeline 10 of starting device, injects in the tin ball die cavity of casting mold mould 11 by alloy via casting groove 7, inject the casting mold mould 11 of liquid alloy via the air cooling section 9 above module pipeline 10, solid tin ball is cooled to by air port, product standard and type is marked again through printing equipment 12, arrive the rear blanking of described unloading part 13, empty casting mold mould 11 after blanking returns back to below described product wire frame 15, bosh through water cooling section 16 cools, reduce the temperature that described casting mold mould 11 produces because of alloy tin ball heat transfer, be beneficial to conveying casting mold mould 11 and be back to casting groove 7 when refilling alloy, described casting mold mould 11 is unlikely to cause the alloy tin ball cooling of circulation conveying not up to standard because of overheated.

Described module pipeline is made up of 28 casting mold moulds 11, each casting mold mould 11 is arranged with 5 row tin ball die cavitys in parallel, via chain drive, initial segment is immediately below casting groove 7, alloy injects in continuous module, stage casing is respectively arranged with described air cooling section 9 and water cooling section 16, to accelerate the cooling effect of ashbury metal itself and casting mold mould 11; After completing, tin ball is in unloading part 13 blanking, described electric control box 8 can control conveying motor 17 motor rotary speed, and then adjust the speed of described module pipeline 10, the flow making casting groove 7 alloy inject casting mold mould 11 just can fill up the tin ball die cavity on each casting mold mould 11, and described printing equipment 12 object is marking product type specification.

By above-mentioned specific embodiment, the beneficial effects of the utility model are: adopt alloy calciner and small-sized holding furnace supporting, use casting mold mould tinuous production, and in conjunction with air-cooled and water-cooling pattern, operation process is safer, avoids hand teeming to touch the risk of high temperature; Improve production capacity more than 8 times, reduce manufacturing cost, improve tin ball quality.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (9)

1. an automation tin ball production line, it is characterized in that, comprise alloy calciner, transit mixer, Melt Pump, small-sized holding furnace, liquid level detector, heat preservation tank, casting groove, electric control box, air cooling section, module pipeline, casting mold mould, printing equipment, unloading part, package post, product wire frame, water cooling section, conveying motor, automatically pulp cutlet, heater; Described automation tin ball production line, according to tin ball casting technique order, is disposed with alloy calciner, Melt Pump, small-sized holding furnace, waters cast segment, module pipeline, air cooling section, printing equipment, water cooling section, unloading part, electric control box; Described automation tin ball production line is linearly arranged, and described alloy calciner is arranged on left side, is provided with thereafter module pipeline, printing equipment and unloading part; Described small-sized holding furnace is arranged at the left end of described module pipeline, and the below of described small-sized holding furnace is the drive part of module pipeline; Described Melt Pump is set up in described alloy and melts between Shanghai and small-sized holding furnace, described cast segment of watering is arranged at bottom small-sized holding furnace and between module pipeline, described air cooling section is arranged at described module pipeline upper center region, described printing equipment is arranged at the right-hand member of described module pipeline, described water cooling section is arranged at the below central region of described module pipeline, described unloading part is arranged at the right side of described module pipeline, and described electric control box is arranged on side in the middle part of described module pipeline; Described electric control box and described alloy calciner, Melt Pump, transit mixer, liquid level detector, temperature control system, air cooling section, water cooling section, conveying motor, printing equipment are electrically connected; Described electric control box carries out comprehensive setting parameter to described automation tin ball production line and system cloud gray model controls.

2. a kind of automation tin ball production line according to claim 1, it is characterized in that, described casting mold mould is at least provided with two kinds of tin ball die cavitys, described tin ball die cavity is semicircle spherical structure, the diameter that different types of its semicircle of tin ball die cavity is spherical is different, described tin ball die cavity is longitudinally arranged in a straight line, and described tin ball die cavity is provided with multiple.

3. a kind of automation tin ball production line according to claim 1, it is characterized in that, described small-sized holding furnace is the cylindrical furnace with thermal compensation function, be communicated with described cast segment of watering bottom it, its inside is provided with transit mixer and liquid level detector, described in water cast segment by heat preservation tank and casting groove form, described casting groove is also provided with liquid level detector, described casting slot is directly over described module pipeline, and its export volume mates with the tin ball cavity quantity on described casting mold mould and arranges.

4. a kind of automation tin ball production line according to claim 1, it is characterized in that, described module pipeline drives chain by carrying motor, move along orbital cycle, described conveying motor, chain is all assemblied in described product wire frame, described product wire frame is provided with multiple roller wheel, described chain is assemblied in outside described roller wheel, described chain is provided with multiple casting mold mould, described casting mold mould is provided with multiple tin ball die cavity, described casting mold mould is flexibly connected with described chain by bottom, under the drive of described chain, follow described chain to do cyclic rotation.

5. a kind of automation tin ball production line according to claim 1, it is characterized in that, described electric control box controls automatically to module pipeline and casting groove, realize pouring flow rate homogeneous, described casting groove flow controllable, and by electric control box to casting time and transporting velocity adjustment coupling, the alloy reaching melting in described casting groove is accurately complete to be poured in casting mold mould, is unlikely and overflows or deficiency.

6. a kind of automation tin ball production line according to claim 1, is characterized in that, described alloy calciner capacity is 1 ton-2 tons; The temperature that described transit mixer starts to stir is 390 DEG C.

7. a kind of automation tin ball production line according to claim 1, it is characterized in that, automatic pulp cutlet is provided with in described small-sized holding furnace, monitored by the melt level of high-low-position detector to described small-sized holding furnace by described electric control box, and automatically control the described automatic pulp cutlet alloy melt quantity that supplementary described small-sized holding furnace is interior in time.

8. a kind of automation tin ball production line according to claim 1, it is characterized in that, described casting groove is arranged at below described heat preservation tank, described casting groove arranges height melt level detector equally, and controlled by electric control box, guarantee that the alloy amount of heat preservation tank inflow casting groove meets technological standards.

9. a kind of automation tin ball production line according to claim 1, is characterized in that, the casting mold modulus amount on described module pipeline is 16-36 pieces; Each casting mold mould is arranged with 3-8 row tin ball die cavitys in parallel, intermediate portion is divided into minor diameter tin ball die cavity, and two sides are symmetrical arranged as major diameter tin ball die cavity.