CN215614913U - Molten steel shunt bracket - Google Patents

Abstract

The utility model relates to a molten steel diverter bracket, belonging to the field of steelmaking equipment design, wherein a molten steel diverter is arranged on the molten steel diverter bracket, and the molten steel diverter bracket is characterized in that: the molten steel flow divider support comprises a bottom plate, angle steel columns and supporting plates, wherein the angle steel columns are respectively arranged at four corners of the bottom plate, a plurality of threaded through holes are sequentially formed in the angle steel columns from bottom to top, bolts are screwed in the threaded through holes, inner threaded holes are formed in the side edges of the supporting plates, and positioning columns perpendicular to the supporting plates are further arranged at the four corners of the supporting plates; the bolt is screwed into the threaded through hole and the internal threaded hole in sequence to fixedly connect the supporting plate with the four corner steel columns, positioning holes matched with the positioning columns are formed in the four corners of the molten steel splitter, and the molten steel splitter is inserted into the positioning columns and fixed to the supporting plate through the positioning holes. The utility model has reasonable and simple structure, convenient production and manufacture and convenient use.

Description

Molten steel shunt bracket

Technical Field

The utility model relates to a support structure, in particular to a molten steel diverter support, and belongs to the field of design of steelmaking equipment.

Background

In the steel-making process, molten steel which is melted by exercise is often poured into a cavity of an ingot mold through a molten steel diverter, and the ingot mold is generally cylindrical and internally provided with the cavity. The molten steel shunt is placed on a supporting plate in a support, the conventional molten steel shunt is of a cuboid structure, a plurality of through holes capable of placing an ingot mold are formed in the molten steel shunt, the through holes of the molten steel shunt correspond to the positions of cavities of the ingot mold one by one, molten steel is slowly poured into the molten steel shunt when the molten steel shunt is used, the molten steel flows into the cavity of the ingot mold below along the through holes in the molten steel shunt, and after the molten steel is cooled, the ingot mold is taken out of the support and then the steel ingot in the fixed mold is taken out.

However, the height of the support plate in the existing molten steel diverter support is fixed and can not be adjusted, when the support plate is used, only an ingot mold with one length can be used, the molten steel diverter can not be used for ingot molds with different heights, and steel ingots with different forming lengths need to be made into molten steel diverter supports with different heights, so that the support cost is greatly increased, and much inconvenience is brought to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and provide the adjustable molten steel shunt bracket which has the advantages of reasonable and simple structure, easy production and manufacture and convenient use.

The utility model is realized in such a way that a molten steel shunt bracket is provided with a molten steel shunt, and the molten steel shunt bracket is characterized in that: the molten steel flow divider support comprises a bottom plate, angle steel columns and supporting plates, wherein the angle steel columns are respectively arranged at four corners of the bottom plate, a plurality of threaded through holes are sequentially formed in the angle steel columns from bottom to top, bolts are screwed in the threaded through holes, inner threaded holes are formed in the side edges of the supporting plates, and positioning columns perpendicular to the supporting plates are further arranged at the four corners of the supporting plates; the bolt is screwed into the threaded through hole and the internal threaded hole in sequence to fixedly connect the supporting plate with the four corner steel columns, positioning holes matched with the positioning columns are formed in the four corners of the molten steel splitter, and the molten steel splitter is inserted into the positioning columns and fixed to the supporting plate through the positioning holes.

The threaded through holes are uniformly and equidistantly distributed on the angle steel column.

And connecting supports are arranged between the angle steel columns.

The number of the internal thread holes and the number of the bolts are 4.

The support structure is reasonable and simple in structure, convenient to produce and manufacture and convenient to use, and the support structure is provided by the utility model, particularly the molten steel shunt support. When the steel water distributor is used, the molten steel distributor support is placed stably, the ingot molds are arranged on the bottom plate, the height of the ingot molds is observed, the support plate is placed in the support, and the proper threaded through hole is selected and screwed into the inner threaded hole in the support plate through the threaded through hole by using a bolt, so that the support plate is fixed on 4 corner steel columns. The ingot moulds with different heights are provided with threaded through holes with different heights, so that the height of the supporting plate is adjusted. And finally, positioning holes in the molten steel shunt are placed on the supporting plate along the positioning columns on the supporting plate and fixed, so that the molten steel is directly injected into the molten steel shunt, the molten steel flows into the ingot mold cavity from the through holes, and the steel ingot is taken out after cooling. Finally, the molten steel splitter support can meet the requirements of ingot moulds with different lengths and steel ingots with different lengths can be manufactured. The utility model has simple structure and easy production and manufacture, and can effectively solve the problem that the traditional molten steel bracket can not be adjusted, thereby saving the cost and increasing the working efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the utility model.

In the figure: the steel water distributor comprises a molten steel distributor 1, a bottom plate 2, an angle steel column 3, a round hole 4, a positioning column 5, a supporting plate 6, a bolt 7, a connecting support 8, an internal threaded hole 9 and a positioning hole 10.

Detailed Description

The utility model provides a molten steel shunt support, has placed molten steel shunt 1 on the molten steel shunt support, characterized by: the molten steel flow divider support comprises a bottom plate 2, an angle steel column 3 and a supporting plate 6, wherein the angle steel column 3 is respectively arranged at four corners of the bottom plate 2, a plurality of threaded through holes 4 are sequentially arranged on the angle steel column 3 from bottom to top, bolts 7 are screwed in the threaded through holes 4, an inner threaded hole 9 is arranged at the side edge of the supporting plate 6, and positioning columns 5 vertical to the supporting plate 6 are further arranged at four corners of the supporting plate 6; the bolt 7 is sequentially screwed into the threaded through hole 4 and the internal threaded hole 9, so that the supporting plate 6 is fixedly connected with the four corner steel columns 3, positioning holes 10 matched with the positioning columns 5 are formed in four corners of the molten steel flow divider 1, and the molten steel flow divider 1 is inserted into the positioning columns 5 through the positioning holes 10 and fixed on the supporting plate 6.

The threaded through holes 4 are uniformly and equidistantly distributed on the angle steel column 3.

And connecting supports 8 are arranged between the angle steel columns 3.

The number of the internal thread holes 9 and the number of the bolts 7 are 4.

The plurality of threaded through holes on the angle steel column determine the up-and-down adjustment of the supporting plate, so that the molten steel diverter bracket can be suitable for steel ingots with various lengths.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. A molten steel shunt bracket, on which the molten steel shunt bracket (1) is placed, is characterized in that: the molten steel shunt bracket comprises a bottom plate (2), an angle steel column (3) and a support plate (6) , the angle steel columns (3) are respectively arranged at the four corners of the bottom plate (2), the angle steel columns (3) are sequentially provided with a number of threaded through holes (4) from bottom to top, and the threaded through holes (4) are internally screwed with Bolts (7), the sides of the support plate (6) are provided with internally threaded holes (9), and four corners of the support plate (6) are also provided with positioning columns (5) that are perpendicular to the support plate (6); the bolts ( 7) Screw in the threaded through hole (4) and the inner threaded hole (9) in turn, so that the support plate (6) and the four angle steel columns (3) are fixedly connected. The four corners of the molten steel flow divider (1) are provided with positioning columns. (5) The matching positioning hole (10), the molten steel flow divider (1) is inserted into the positioning column (5) through the positioning hole (10) and fixed on the support plate (6). 2. The molten steel flow divider bracket according to claim 1, wherein the threaded through holes (4) are evenly distributed on the angle steel column (3). 3. The molten steel flow divider bracket according to claim 1, wherein a connecting support (8) is provided between the angle steel columns (3). 4. The molten steel shunt bracket according to claim 1, wherein the number of the internal threaded holes (9) and the bolts (7) is 4.

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