CN217252655U - Split combined type iron alloy cast iron ingot mold corrugated bottom plate - Google Patents

Abstract

The utility model relates to the technical field of ferroalloy preparation, in particular to a split combined type ferroalloy cast iron ingot mold corrugated bottom plate; including ingot mould enclosure and ingot mould bottom plate, the inside of ingot mould enclosure has the cell body, the inside wall of cell body is the setting of multilateral trapezium structure, ingot mould bottom plate can dismantle with ingot mould enclosure and be connected, ingot mould bottom plate is inlayed to the cell body in, the centre at ingot mould enclosure is inlayed to the ingot mould bottom plate, the last plane of ingot mould bottom plate and the last frame composition of ingot mould enclosure hold ferroalloy's shaping cavity, ingot mould bottom plate has a plurality of profile of tooth, a plurality of profile of tooth align to grid are in the upper and lower two sides of ingot mould bottom plate, and be the wave, setting through above-mentioned structure, broken machining efficiency has been improved, powder and the tiny particle that produces in the crushing process obviously reduce, broken powder rate has been reduced.

Description

Split combined type iron alloy cast iron ingot mold corrugated bottom plate

Technical Field

The utility model relates to a ferroalloy preparation technical field especially relates to a components of a whole that can function independently combination formula ferroalloy cast iron ingot mould ripple shape bottom plate.

Background

The domestic and foreign iron alloy production and forming method mainly comprises die casting. The method comprises the steps of proportioning, tapping after smelting, deslagging, pouring into an ingot mold, starting primary crushing, then removing impurities, starting secondary crushing through screening, finally packaging and warehousing. In the crushing and screening process, powders and small particles are produced which are as much as less desirable for use.

At present, the iron alloy has high crushing processing difficulty, low crushing processing efficiency and high crushing powder rate, so that the iron alloy has low production benefit.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a components of a whole that can function independently combination formula ferroalloy cast iron ingot mould ripple shape bottom plate aims at solving the ferroalloy broken machining degree of difficulty among the prior art height, and broken machining efficiency is low, and broken powder rate is high to the technical problem that ferroalloy productivity effect is low.

For realizing above-mentioned mesh, the utility model discloses a components of a whole that can function independently combination formula ferroalloy cast iron ingot mould ripple shape bottom plate, including ingot mould enclosure and ingot mould bottom plate, the inside of ingot mould enclosure has the cell body, the inside wall of cell body is multilateral trapezium structure setting, the ingot mould bottom plate with the connection can be dismantled to the ingot mould enclosure, the ingot mould bottom plate inlay extremely in the cell body, the ingot mould bottom plate is inlayed the centre of ingot mould enclosure, the last plane of ingot mould bottom plate with the last frame composition of ingot mould enclosure holds ferroalloy's shaping cavity, the ingot mould bottom plate has a plurality of profile of tooth, and is a plurality of profile of tooth align to grid in the upper and lower two sides of ingot mould bottom plate to be the wave.

One surface of the cast iron alloy is a plane, the other surface of the cast iron alloy is wavy, the cast iron alloy is uneven, thick and thin and is easy to crush, the crushing processing difficulty of the iron alloy is reduced, the subsequent crushing processing amount is obviously reduced, the crushing processing efficiency is improved, powder and small particles generated in the crushing process are obviously reduced, and the crushing powder rate is reduced.

The split combined iron alloy cast iron ingot mold corrugated bottom plate further comprises a square tube steel assembly welding frame, and the square tube steel assembly welding frame is arranged below the ingot mold bottom plate.

The square tube steel assembly welding frame is adopted to support the lower surface of the ingot mould bottom plate, so that the middle of the ingot mould bottom plate can be prevented from collapsing after the ingot mould bottom plate is used for a long time.

Wherein each tooth form has a transition fillet.

After the ferroalloy is cast, one surface of the ferroalloy is wavy, uneven and thick, and the cooling speed of each part is inconsistent, so that thermal stress and deformation are generated. The iron alloy is easy to separate from the ingot mould bottom plate after being cooled and solidified, and the mould sticking is seldom generated.

Wherein the angle of the transition fillet is greater than 4 mm.

The transition round angle on the tooth form is larger than 4mm, so that the demoulding can be convenient.

Wherein, the outer part of the ingot mould surrounding ring is provided with a hoop.

The outer part of the ingot mould surrounding ring is provided with the hoop, and the hoop can prevent cracking.

The utility model discloses a combination formula ferroalloy cast iron ingot mould ripple shape bottom plate of components of a whole that can function independently, when beginning to add man-hour, with the ingot mould bottom plate with the ingot mould encloses the ring and assembles, then the ingot mould bottom plate inlays to in the cell body, the last plane of ingot mould bottom plate and the last frame group of ingot mould encloses the shaping cavity that the synthesis holds ferroalloy, in use when local pit is watered to one side of ingot mould bottom plate appearing, as long as change one side of the ingot mould bottom plate, can continue to use, when the pit is watered out to the local of ingot mould bottom plate, can resume the function as long as overturn or change new ingot mould bottom plate, thereby avoided ingot mould whole to scrap, the ingot mould bottom plate is two upper and lower planes, the tooth form on the ingot mould bottom plate is unanimous evenly arranged, and two upper and lower sides staggered teeth are arranged, makes the ingot mould bottom plate thickness is unanimous basically, in use warp and ftracture, the iron alloy cast by the ingot mould bottom plate is flat, and the other side of the iron alloy is wavy, so that the iron alloy is easy to crush due to the uneven thickness, the crushing processing difficulty of the iron alloy is reduced, the subsequent crushing processing amount is obviously reduced, the crushing processing efficiency is improved, the powder and small particles generated in the crushing process are obviously reduced, and the crushing powder rate is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the corrugated bottom plate of the split combined iron alloy cast iron ingot mold of the present invention.

Fig. 2 is a structural schematic diagram of the split combined type corrugated bottom plate of the iron alloy cast iron ingot mold of the utility model.

Fig. 3 is a structural schematic diagram of the split combined type iron alloy casting ingot mold supporting frame of the present invention.

Fig. 4 is a tooth profile of the corrugated bottom plate of the split combined iron alloy cast iron ingot mold of the present invention.

1-ingot mould surrounding ring, 2-ingot mould bottom plate, 3-groove body, 4-forming cavity, 5-tooth form, 6-square tube steel assembly welding frame, 7-transition fillet and 8-shroud ring.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Please refer to fig. 1 to 4, the utility model provides a combination formula ferroalloy cast iron ingot mould ripple shape bottom plate of components of a whole that can function independently, including ingot mould surrounding ring 1 and ingot mould bottom plate 2, ingot mould surrounding ring 1's inside has cell body 3, the inside wall of cell body 3 is multilateral trapezium structure setting, ingot mould bottom plate 2 with ingot mould surrounding ring 1 can dismantle the connection, ingot mould bottom plate 2 inlay to in the cell body 3, ingot mould bottom plate 2 inlays in the centre of ingot mould surrounding ring 1, the last plane of ingot mould bottom plate 2 with the synthetic shaping cavity 4 that holds ferroalloy of the last frame group of ingot mould surrounding ring 1, ingot mould bottom plate 2 has a plurality of profile of teeth 5, and a plurality of profile of teeth 5 align to grid in the upper and lower two sides of ingot mould bottom plate 2 to be the wave.

In this embodiment, when the processing is started, the ingot mold bottom plate 2 and the ingot mold enclosure 1 are assembled, the ingot mold bottom plate 2 is embedded into the groove 3, the upper plane of the ingot mold bottom plate 2 and the upper frame of the ingot mold enclosure 1 are combined into a forming cavity 4 for accommodating iron alloy, when a local casting pit is formed on one surface of the ingot mold bottom plate 2 in use, the ingot mold bottom plate 2 can be continuously used only by exchanging one surface, when the casting pit is formed on the local surface of the ingot mold bottom plate 2, the function can be recovered only by turning over or replacing a new ingot mold bottom plate 2, so that the whole ingot mold is prevented from being scrapped, the ingot mold bottom plate 2 is an upper plane and a lower plane, the tooth forms 5 on the ingot mold bottom plate 2 are uniformly arranged, the upper plane and the lower plane are staggered, the thickness of the ingot mold bottom plate 2 is substantially uniform, and the ingot mold bottom plate 2 is not easy to deform and crack in use, one surface of the ferroalloy cast by the ingot mould bottom plate 2 is a plane, and the other surface of the ferroalloy cast by the ingot mould bottom plate 2 is in a wave shape, and the ferroalloy is uneven, thick, thin and easy to crush, so that the crushing processing difficulty of the ferroalloy is reduced, the subsequent crushing processing amount is obviously reduced, the crushing processing efficiency is improved, the powder and small particles generated in the crushing process are obviously reduced, and the crushing powder rate is reduced.

Furthermore, the corrugated bottom plate of the split combined type iron alloy cast iron ingot mold further comprises a square tube steel assembling and welding frame 6, and the square tube steel assembling and welding frame 6 is arranged below the ingot mold bottom plate 2.

In the present embodiment, the lower surface of the ingot mold bottom plate 2 is supported by the square tube steel assembly welding frame 6, so that it is possible to prevent the middle of the ingot mold bottom plate 2 from collapsing after a long period of use.

Further, each tooth form 5 has a transition fillet 7; the angle of the transition fillet 7 is larger than 4 mm.

In the present embodiment, the transition fillet 7 on the tooth profile 5 is larger than 4mm, and after the iron alloy is cast, one surface is wavy, uneven, thick and thin, and the cooling speed of each part is inconsistent, thereby generating thermal stress and deformation. The ferroalloy is easy to separate from the ingot mold bottom plate 2 after being cooled and solidified, the mold sticking is seldom generated, and the demolding can be conveniently carried out.

Further, the outer part of the ingot mould enclosure 1 is provided with a shroud band 8.

In this embodiment, the outer portion of the ingot mould enclosure 1 is provided with the shroud ring 8, and the shroud ring 8 can prevent cracking.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (5)

1. A split combined iron alloy cast iron ingot mold corrugated bottom plate, which is characterized in that,

the ingot mold comprises an ingot mold enclosure and an ingot mold bottom plate, wherein a groove body is arranged inside the ingot mold enclosure, the inner side wall of the groove body is of a polygonal trapezoid structure, the ingot mold bottom plate is detachably connected with the ingot mold enclosure, the ingot mold bottom plate is embedded into the groove body, the ingot mold bottom plate is embedded in the middle of the ingot mold enclosure, the upper plane of the ingot mold bottom plate and the upper frame of the ingot mold enclosure are combined to form a forming cavity for containing iron alloy, the ingot mold bottom plate is provided with a plurality of tooth shapes, and the tooth shapes are uniformly arranged on the upper surface and the lower surface of the ingot mold bottom plate and are wavy.

2. The split combined type iron alloy cast iron ingot mold corrugated bottom plate as claimed in claim 1,

the split combined type iron alloy cast iron ingot mold corrugated bottom plate further comprises a square tube steel assembly welding frame, and the square tube steel assembly welding frame is arranged below the ingot mold bottom plate.

3. The split combined type iron alloy cast iron ingot mold corrugated bottom plate as claimed in claim 1,

each tooth form has a transition fillet.

4. The sectional composite iron alloy cast iron ingot mold corrugated bottom plate as claimed in claim 3,

the angle of the transition fillet is greater than 4 mm.

5. The split combined type iron alloy cast iron ingot mold corrugated bottom plate as claimed in claim 1,

the outer part of the ingot mould enclosure is provided with a hoop.

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