CN213317617U - Mould for crystallizing metal section by continuous liquid flow cooling - Google Patents

Abstract

The utility model discloses a mould of continuous liquid flow cooling messenger section metal crystallization, a serial communication port, including last mould and lower mould, it offers the last cooling die cavity that is used for liquid to flow to go up the mould, the lower cooling die cavity that is used for liquid to flow is offered to the lower mould, go up the cooling die cavity with all seted up liquid inlet and liquid outlet on the cooling die cavity down, liquid inlet with external liquid circulating device of liquid outlet connection. The utility model provides a present mould heat conductivity is not good, and manufacturing process is complicated, defects such as with high costs.

Description

Mould for crystallizing metal section by continuous liquid flow cooling

Technical Field

The utility model belongs to the technical field of metal section smelting cooling crystallization, especially, relate to a mould that continuous liquid flow cooling made metal section crystallization.

Background

The existing copper strip section cooling die adopts an inner container and outer container circulation technology, the die is poor in heat conductivity, low in heat exchange efficiency, complex in manufacturing process and high in cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a continuous liquid flow cools off mould that makes metal section crystallization, it is not good to solve present mould heat conductivity, and manufacturing process is complicated, defects such as with high costs.

The technical scheme of the utility model is that:

the utility model provides a mould that continuous liquid flow cooling made metal section crystallization, includes mould and lower mould, go up the mould and offer the last cooling die cavity that is used for liquid to flow, the lower cooling die cavity that is used for liquid to flow is offered to the lower mould, go up the cooling die cavity with all seted up liquid inlet and liquid outlet on the cooling die cavity down, liquid inlet with external liquid circulating device is connected to the liquid outlet.

The utility model relates to a preferred embodiment, go up the cooling die cavity with the cooling die cavity all includes die cavity and apron down, the die cavity forms inclosed space with the apron is fixed, seted up on the apron liquid inlet with the liquid outlet.

The utility model relates to a preferred embodiment, the internal surface of die cavity be equipped with many projections in the floor of die cavity internal surface, the floor increase improves heat exchange efficiency with circulating liquid's area of contact.

The utility model relates to a preferred embodiment, the mould material is copper.

The utility model discloses owing to adopt above technical scheme, make it compare with prior art and have following advantage and positive effect:

the utility model discloses an on, lower cooling die cavity, on, lower cooling die cavity is gone up mould and the direct machine tooling of lower mould by the monoblock and is formed, and the heat conduction of metal is fast, and the processing is easy, and the leakproofness is good, and liquid flows in from liquid inlet, thereby cools off die cavity and lower cooling die cavity heat exchange on the process, thereby flows out from the liquid outlet and gets into the cooling crystallization of external cooling water system realization to metal section. The cooling efficiency is improved, the manufacturing cost of the die is saved, the process is scientific and reasonable, economical and practical, easy to operate, suitable for smelting and cooling similar various metal profiles, and wide in market prospect.

Drawings

FIG. 1 is a schematic structural diagram 1 of a mold for crystallizing a metal profile by continuous liquid flow cooling according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a mold for crystallizing a metal profile by continuous liquid flow cooling according to an embodiment of the present invention, shown in FIG. 2;

fig. 3 is a schematic structural view of a cooling cavity in an embodiment of the present invention;

fig. 4 is a schematic structural view of the upper and lower cover plates in the embodiment of the present invention.

Description of reference numerals: 1-upper mould; 2-lower mould; 3-cover plate; 4-a water inlet; 5-water outlet; 6-molding the cavity; 7-ribbed plate.

Detailed Description

The present invention provides a mold for crystallizing a metal profile by continuous liquid flow cooling, which is described in further detail below with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more fully apparent from the following description and appended claims.

Referring to fig. 1-4, the embodiment provides a mold for crystallizing a copper strip by cooling with circulating water, which includes an upper mold 1 and a lower mold 2, wherein the upper mold 1 is provided with an upper cooling cavity for circulating water to flow, the lower mold 2 is provided with a lower cooling cavity for circulating water to flow, the upper cooling cavity and the lower cooling cavity are both provided with a water inlet 4 and a water outlet 5, and the water inlet 4 and the water outlet 5 are connected with an external liquid circulation device. Go up the cooling die cavity and all include die cavity 6 and apron 3 down, the apron 3 of going up cooling die cavity 6 is upper cover plate 3, the apron 3 of lower cooling die cavity 6 is apron 3 down, die cavity 6 and the fixed inclosed space that forms of apron 3, water inlet 4 and delivery port 5 have been seted up on the apron 3, the internal surface of die cavity 6 is equipped with two ribs 7 of protrusion in the internal surface of die cavity 6, rib 7 increases and improves heat exchange efficiency with circulating liquid's area of contact.

The material of the mould is copper, the upper mould 1 and the lower mould 2 are machined and milled to form a cavity 6, then the cavity is drilled and tapped at equal intervals to form M5, M5 counter bores are arranged at equal intervals on the upper cover plate 3 and the lower cover plate 3, the upper cooling cavity 6 is formed into a closed space by fixing the upper cover plate 3 and the cavity 6 through M5 stainless steel screws, the lower cooling cavity 6 is formed into a closed space by fixing the lower cover plate 3 and the cavity 6 through M5 stainless steel screws, and circulating water enters the upper cooling cavity 6 or the lower cooling cavity 6 from the water inlet 4 and is discharged from the water outlet 5.

Through last cooling die cavity 6, lower cooling die cavity 6, upper cover plate 3, lower cover plate 3 is formed by the direct machine tooling of monoblock copper material, the heat conduction of copper is fast, the processing is easy, the leakproofness is good, go up cooling die cavity 6, respectively there are two bellied floor 7 increase and the area of contact of water in lower cooling die cavity 6 the inside and improve heat exchange efficiency, apron 3 is linked the fastening with a plurality of M5 stainless steel screws with die cavity 6, form a confined space like this, water flows in from water inlet 4, through cooling die cavity 6 heat exchange, thereby it gets into the external circulating water system and realizes the cooling crystallization to the copper material to have 5 outflows of delivery port 5. The cooling efficiency is improved, the manufacturing cost of the die is saved, the process is scientific and reasonable, economical and practical, easy to operate, suitable for smelting and cooling similar various metal profiles, and wide in market prospect.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments. Even if various changes are made to the present invention, the changes still fall within the scope of the present invention if they fall within the scope of the claims and their equivalents.

Claims (4)

1. The mold for crystallizing the metal section through continuous liquid flow cooling is characterized by comprising an upper mold and a lower mold, wherein the upper mold is provided with an upper cooling cavity for liquid flow, the lower mold is provided with a lower cooling cavity for liquid flow, a liquid inlet and a liquid outlet are formed in the upper cooling cavity and the lower cooling cavity respectively, and the liquid inlet and the liquid outlet are connected with an external liquid circulating device.

2. The mold for crystallizing a metal profile through continuous liquid flow cooling according to claim 1, wherein the upper cooling cavity and the lower cooling cavity each comprise a cavity and a cover plate, the cavities and the cover plates are fixed to form a closed space, and the cover plates are provided with the liquid inlets and the liquid outlets.

3. A mold for crystallizing a metal shape from a continuous liquid flow as claimed in claim 2, wherein the inner surface of said cavity is provided with a plurality of ribs projecting from the inner surface of said cavity.

4. A mold for crystallizing metal form in continuous liquid flow cooling as claimed in claim 1 wherein said mold material is copper.

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