CN203371009U - Guiding wire feeding mechanism - Google Patents

Abstract

The utility model relates to a guiding wire feeding mechanism which comprises a pay-off mechanism, a wire feeding machine, a conduit, a core wire, a ladle cover and a casting ladle. The pay-off mechanism and the wire feeding machine are arranged on a platform, the core wire is coiled on the pay-off mechanism, one end of the core wire passes through the wire feeding machine, the conduit and the ladle cover and enters the casting ladle, a guiding and positioning tube is fixed on the ladle cover, the lower portion of the guiding and positioning tube is arranged in metal liquid in the casting ladle, and the lower end of the core wire penetrates through the lower end of the guiding and positioning tube. According to the guiding wire feeding mechanism, the guiding and positioning tube is fixed in the center of the ladle cover below the wire feeding machine and is deep in the middle and lower portion of the casting ladle, when passing through the pay-off mechanism, the wire feeding machine, the conduit, and the guiding and positioning tube in the center of the ladle cover and entering the casting ladle, the core wire can not bend and deform due to the constraint function of the guiding and positioning tube and can be smoothly guided into the middle and lower part of the high-temperature metal liquid, the phenomena that the core wire turns to the upper half part of the metal liquid and even floats out of the surface of the metal liquid because the core wire bends and deforms are prevented, the fusion reaction, in the middle and lower part of the metal liquid, of the core wire is ensured, and the absorptivity of the core wire is obviously improved.

Description

Guiding wire feeder structure

technical field:

The utility model belongs to the metal metallurgy smelting technical field, is specifically related to the guiding wire feeder structure of a kind of metal metallurgy smelting with the guide-localization pipe.

background technology:

Feeding the silk technology is twentieth century a kind of furnace outer refining process that the end of the seventies, development abroad was got up.This technology is widely used in metallurgical steel industry, it is feed deoxidier, the desulfurizing agent wrapped up with iron sheet or directly feed aluminum steel, carbon line etc. in ladle by wire feeder, the process that molten steel is carried out dark desulfurization, calcium is processed and finely tunes the constituent content such as carbon and aluminium in steel.Progress and development along with feeding the silk technology, progressively be applied to casting field now, especially is suitable for spheroidal graphite cast-iron, vermicular cast iron etc.Its equipment mainly is comprised of payingoff mechanism, hello a silk main frame, conduit, clad four major parts, and it is easy to operation, strong adaptability.

Existing wire feeder is generally the vertical silk of simple single current to the heart yearn of molten bath feeding, be subject to the impact of high temperature, molten metal buoyancy and other factors during the heart yearn feeding, the heart yearn of feeding is easy to flexural deformation and turns to molten metal the first half, emersion molten metal surface even, therefore often occur that the heart yearn of feeding reacts near the molten metal top layer, cause feeding a silk poor effect, the spheroidising of take easily causes magnesium absorption rate lower as example, middle and lower part iron liquid abnormal nodularizing in bag, and easily cause air pollution.

the utility model content:

In sum, in order to overcome the deficiency of prior art problem, the utility model provides a kind of guiding wire feeder structure, it is clad center fixed guide positioning pipe below wire feeder, the guide-localization pipe gos deep into the casting ladle middle and lower part, heart yearn is through payingoff mechanism, feed the silk main frame, conduit, when the guide-localization pipe of clad center enters casting ladle, can not flexural deformation due to the constraint effect of guide-localization pipe, heart yearn just imports the high-temperature liquid metal middle and lower part smoothly, prevented that heart yearn from turning to molten metal the first half because of flexural deformation, emersion molten metal surface even, guarantee that heart yearn is in the fusing reaction of molten metal middle and lower part, the absorptivity of heart yearn is improved significantly.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of guiding wire feeder structure, comprise payingoff mechanism, wire feeder, conduit, heart yearn, clad and casting ladle, payingoff mechanism and wire feeder are arranged on platform, core line disk is on payingoff mechanism, one end of heart yearn enters casting ladle through wire feeder, conduit and clad, wherein: be fixed with the guide-localization pipe on described clad, guide-localization pipe bottom is arranged in the molten metal in casting ladle, and the lower end of heart yearn is passed from the lower end of guide-localization pipe.

Further, the lower end of described guide-localization pipe is arranged on the middle and lower part of casting ladle.

Further, described guide-localization pipe is fixed on the center of clad.

The beneficial effects of the utility model are:

1, the utility model is clad center fixed guide positioning pipe below wire feeder, the guide-localization pipe gos deep into the casting ladle middle and lower part, when the guide-localization pipe of heart yearn through payingoff mechanism, wire feeder, conduit, clad center enters casting ladle, can not flexural deformation due to the constraint effect of guide-localization pipe, heart yearn just imports the high-temperature liquid metal middle and lower part smoothly, prevented that heart yearn from turning to molten metal the first half because of flexural deformation, emersion molten metal surface even, guarantee that heart yearn is in the fusing reaction of molten metal middle and lower part, the absorptivity of heart yearn is improved significantly.

2, the utility model is simple in structure, easy to operate, can effectively improve the absorptivity of heart yearn, guarantees to feed the silk effect, thereby guarantees Metallurgical Quality, has reduced air pollution simultaneously, improves the production work environment, reduces production costs.

the accompanying drawing explanation:

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.

As shown in Figure 1, a kind of guiding wire feeder structure, comprise payingoff mechanism 1, wire feeder 2, conduit 3, heart yearn 4, clad 5 and casting ladle 6, payingoff mechanism 1 and wire feeder 2 are arranged on platform 8, heart yearn 4 is coiled on payingoff mechanism 1, and an end of heart yearn 4 enters casting ladle 6 through wire feeder 2, conduit 3 and clad 5, and the center of described clad 5 is fixed with guide-localization pipe 7, guide-localization pipe 7 bottoms are arranged on the middle and lower part of the molten metal in casting ladle 6, and the lower end of heart yearn 4 is passed from the lower end of guide-localization pipe 7.

During use, guide-localization pipe 7 holds onto heart yearn 4, thereby prevents that heart yearn 4 from producing flexural deformation, has prevented that heart yearn 4 from turning to molten metal the first half because of flexural deformation, and even emersion molten metal surface, make heart yearn 4 import smoothly the high-temperature liquid metal middle and lower part.

Be noted that, the above embodiment is to the explanation of technical solutions of the utility model and unrestricted, other modification that is equal to replacement or makes according to prior art of affiliated technical field those of ordinary skill, as long as do not exceed thinking and the scope of technical solutions of the utility model, within all should being included in the desired interest field of the utility model.

Claims (3)

1. a guiding wire feeder structure, comprise payingoff mechanism (1), wire feeder (2), conduit (3), heart yearn (4), clad (5) and casting ladle (6), payingoff mechanism (1) and wire feeder (2) are arranged on platform (8), heart yearn (4) is coiled on payingoff mechanism (1), one end of heart yearn (4) is through wire feeder (2), conduit (3) and clad (5) enter casting ladle (6), it is characterized in that: be fixed with guide-localization pipe (7) on described clad (5), guide-localization pipe (7) bottom is arranged in the molten metal in casting ladle (6), the lower end of heart yearn (4) is passed from the lower end of guide-localization pipe (7).

2. guiding wire feeder structure according to claim 1, it is characterized in that: the lower end of described guide-localization pipe (7) is arranged on the middle and lower part of casting ladle (6).

3. guiding wire feeder structure according to claim 1, it is characterized in that: described guide-localization pipe (7) is fixed on the center of clad (5).

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