CN202804143U - Continuous vacuum induction smelting furnace system - Google Patents

Abstract

A continuous vacuum induction smelting furnace system comprises an industrial personal computer which is respectively connected with a continuous feeding device, an electromagnetic sensor at an alloy feeding port, an induction heating controller inside a smelting room, a detector at a liquid discharge port of an induction heating crucible, a chute controller outside the liquid discharge port and an ingot mould cart controller. The industrial personal computer is capable of controlling the induction heating crucible to arrange the continuous feeding device right above, adding smelted materials into the induction heating crucible, opening a valve of the liquid discharge port when the detector detects that metal liquid reaches the set amount, controlling the chute controller, moving a right chute to the liquid discharge port to guide the metal liquid to a right casting room to be ingot blank cast and ingot mould cast after the ingot blank is cooled, and moving out an ingot mould cart controlled by the ingot mould cart controller. The continuous vacuum induction smelting furnace system is capable of achieving continuous alternative operations of multiple species, efficiently saving energy and substantially improving metal quality.

Description

A kind of continous vacuum induction fusion casting furnace system

Technical field

The utility model relates to a kind of induction fusion casting stove, is specifically related to a kind of continous vacuum induction fusion casting furnace system.

Background technology

Traditional semicontinuous vacuum induction casting furnace all adopts direct pouring or a very short metallic framework lead-over groove is set between eddy-current heating crucible device and ingot mould at present, so that can not carry out double purification to molten metal in when casting and process, finally avoid cast metals or part that obvious or recessive casting flaw is arranged like this.Simultaneously traditional semicontinuous stove can only adapt to simple function, does not have the Function Extension interface in later stage, brings the later stage overlapping investment and can not adapt to the market demand of product diversification.Because melting chamber and casting chamber are fully independent, so relatively traditional semicontinuous vacuum induction casting furnace also has very large minimizing on evacuated time, closely reduced the energy consumption of finding time.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, the purpose of this utility model provides a kind of continous vacuum induction fusion casting furnace system, has continuous many kinds alternately operating, efficient energy-saving and increases substantially the characteristics of metal quality.

To achieve these goals, the technical solution adopted in the utility model is: a kind of continous vacuum induction fusion casting furnace system, include industrial computer, industrial computer links to each other with electromagnetic inductor on the material alloying mouth with continuous feeding respectively, industrial computer links to each other with eddy-current heating controller in the melting chamber, industrial computer also links to each other with the detector of eddy-current heating crucible fluid oral area, and industrial computer links to each other with liquid outlet chute controller outward, and industrial computer links to each other with the ingot mould vehicle controller.

Beneficial effect of the present utility model:

The present invention can have efficient energy-saving by industrial computer automatically reinforced, the drainage of control, casting and continuous many kinds alternately operating, and automaticity is high and increase substantially the characteristics of metal quality.

Description of drawings

Fig. 1 is structural representation of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail.

Referring to accompanying drawing 1, a kind of continous vacuum induction fusion casting furnace system, include industrial computer 1, industrial computer 1 links to each other with electromagnetic inductor 2 on the material alloying mouth with continuous feeding respectively, industrial computer 1 links to each other with eddy-current heating controller 3 in the melting chamber, industrial computer 1 also links to each other with the detector 4 of eddy-current heating crucible fluid oral area, and industrial computer 1 links to each other with liquid outlet chute controller 5 outward, and industrial computer 1 links to each other with ingot mould vehicle controller 6.

Operation principle of the present utility model is:

Continuous feeding directly over the industrial computer 1 control eddy-current heating crucible device, the material that melts is added in the eddy-current heating crucible, when the molten metal that device 4 to be detected records the liquid outlet place reaches set amount, open the liquid outlet valve, control chute controller 5, right chute shifted in the ingot mould that liquid outlet imports molten metal right casting chamber carry out the ingot casting base, ingot mould after the ingot blank cooling shifts out by ingot mould vehicle controller 6 control ingot mould cars.

Claims (1)

1. continous vacuum induction fusion casting furnace system, include industrial computer (1), it is characterized in that, industrial computer (1) links to each other with electromagnetic inductor (2) on the material alloying mouth with continuous feeding (7) respectively, eddy-current heating controller (3) in industrial computer (1) and the melting chamber links to each other, industrial computer (1) also links to each other with the detector (4) of eddy-current heating crucible fluid oral area, industrial computer (1) links to each other with liquid outlet chute controller (5) outward, and industrial computer (1) links to each other with ingot mould vehicle controller (6).

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