CN105344953A - Cooling structure with baffling for inner annular surface of continuous casting crystallizer - Google Patents

Abstract

The invention discloses a cooling structure with baffling for an inner annular surface of a continuous casting crystallizer. The cooling structure comprises a crystallizing wheel body which is assembled between two rotary disks and is provided with a casting groove, wherein a cross plate positioned on the annular inner side of the crystallizing wheel body is arranged between the two rotary disks; the crystallizing wheel body, the rotary disks and the cross plate form a main cavity for cooling liquid circulation; an annular cavity communicated with the main cavity is formed in the assembly surface of the crystallizing wheel body and the rotary disks; inlets are formed in the cross plate; outlets are formed in the positions of the annular cavity in the rotary disks; a baffling plate is arranged on the annular periphery inside the main cavity; and the outlets stretch to the positions on the radius of the cross plate or within the radius of the cross plate through pipelines. According to the cooling structure with baffling for the inner annular surface of the continuous casting crystallizer provided by the invention, the design is ingenious, and the structure is simple and reliable; compared with a conventional cavity type cooling scheme, the cooling structure has the advantages that the cooling efficiency of the inner annular surface of the continuous casting crystallizer can be effectively improved, and the stability of the cooling process is improved.

Description

A kind of continuous cast mold inner ring surface has the cooling structure of baffling

Technical field

The present invention relates to a kind of production equipment of continuous casting and rolling, particularly a kind of continuous cast mold inner ring surface in continuous casting continuous rolling equipment has the cooling structure of baffling, belongs to continuous casting continuous rolling equipment technical field.

Background technology

Crystallizer is the key equipment in aluminium (copper) bar continuous casting and tandem rolling production line, and crystallizing wheel generally adopts the metal material of good heat conductivity (as copper or copper alloy) to make, and its periphery wall is with the casting groove arranged around ring week.In the production line course of work, wheeled steel traction steel band and the casting groove of crystallizing wheel fit formation die cavity, after the molten metal of melting enters die cavity by the casting gate of side, through the process of supercooling, crystallization and coagulation forming in die cavity, and pull out from throwing mouth along with the rotation of crystallizing wheel.

The outgoing quality that cooling procedure is produced casting process crystallizing wheel is most important.The form that general existing crystallizing wheel adopts multiaspect (on four sides) to cool carries out pressure cooling to crystallizing wheel.Mode comparatively commonly by directly spraying cools, as then disclosed a kind of continuous cast mold adopting four sides spraying cooling in CN10165890A.

Obviously, the mode cooling effect of spraying cooling depends on the intensity of spray, but the time of staying that cooling fluid sprays process too small makes amount of cooling water not easily reach requirement, or the intensity of spraying cooling is wayward.Also there is the situation of cooling fluid splash in the process of spraying cooling in addition, makes to cause high-temperature liquid metal to produce the defect such as bubble or interlayer in the forming process of casting groove, directly affects the quality of product.

In order to solve the problem, CN201217063Y and CN204321127U discloses and builds at crystallizing wheel inner ring surface the technology that the scheme of cooling chamber carries out cooling.This cooling structure design improves the controllability of amount of cooling water and cooling procedure on the one hand, also makes the problem of traditional spray process cooling fluid splash be resolved on the other hand.

But due to the loop configuration of crystallizing wheel and the production process of rotation, existing cooling chamber carries out in cooling scheme design, the distribution of cooling fluid and the cooling fluid abundant contact problems on Cooling Heat Transfer face are not also fully solved, particularly in CN204321127U, it is arranged in the cooling liquid inlet of same inner ring side and cooling liquid outlet design makes may there is gas district or region of no pressure at whole operation process heat-transfer area, be difficult to ensure that heat-transfer area can contact with cooling fluid all the time completely, so that the heat transfer of cooling procedure is undesirable, efficiency is lower, or make cooling procedure on whole ring week be difficult to regulate and a control.

Summary of the invention

Goal of the invention of the present invention is: for above-mentioned Problems existing, provides simple, the reliable continuous cast mold inner ring surface of a kind of structure to have the cooling structure of baffling, with the stability of the cooling effectiveness and cooling procedure that improve continuous cast mold inner ring surface.

The technical solution used in the present invention is as follows:

A kind of continuous cast mold inner ring surface has the cooling structure of baffling, comprise crystallizing wheel wheel body and the casting groove being arranged at crystallizing wheel wheel body periphery wall, crystallizing wheel wheel body is assemblied between two rotating disks, and be also provided with the transverse slat arranged along ring week between two rotating disks, described transverse slat is positioned at inside the ring of crystallizing wheel wheel body; Described crystallizing wheel wheel body, be configured between rotating disk and transverse slat cooling fluid circulation main cavity, all ring cavity is offered between the fitting surface of described crystallizing wheel wheel body both sides and rotating disk, described ring cavity is connected with main cavity, the centre position of described transverse slat width is provided with the import entered for cooling fluid, the rotating disk of ring cavity position is provided with the outlet of flowing out for cooling fluid, main cavity inner circumference is provided with deflection plate, arranges along cloth main cavity width between described deflection plate and make in main cavity, form the baffling passage by middle part to both sides; Each outlet all extends to transverse slat place radial location by pipeline, or extends to the position within the radius of transverse slat place.

Further, the deflection plate on described crystallizing wheel wheel side welds mutually with crystallizing wheel wheel body.

Further, the deflection plate on described crystallizing wheel wheel side is identical with crystallizing wheel wheel body material.

Further, the ring week of described transverse slat is provided with multiple import.

Further, described inlets even was distributed on the ring week of transverse slat.

Further, the ring week of described ring cavity is provided with multiple outlet.

Further, described outlet was uniformly distributed on the ring week of ring cavity.

In sum, owing to have employed technique scheme, the invention has the beneficial effects as follows:

1, described continuous cast mold inner ring surface has the cooling structure of baffling, crystallizing wheel wheel body, the main cavity of cooling fluid circulation is configured between rotating disk and transverse slat, the heat-transfer area of crystallizing wheel wheel body is as the sidewall cooling main cavity, the mode of ring cavity is offered between the fitting surface being simultaneously engaged in crystallizing wheel wheel body and rotating disk, and import cooling fluid entered is arranged on transverse slat, the outlet that cooling fluid flows out is arranged on the rotating disk of ring cavity position, the thermal transfer surface of crystallizing wheel wheel body is made to be submerged in cooling fluid all the time, cool compared to existing cooling chamber, in this programme, cooling fluid is greatly improved in the uniformity of chamber indoor distribution and effective heat transfer area, effectively ensure that the controllability of cooling effectiveness and cooling procedure,

2, ring week in main cavity arranges deflection plate, and deflection plate arranges along cloth main cavity width and form baffling passage in main cavity, can improvement coolant fluid in the flow regime of main cavity, extend the time of staying, improve heat transfer efficiency, simultaneously baffling passage by middle part to both sides, effectively ensure that the consistent of the intensity of cooling of crystallizing wheel wheel body both sides, the scheme that the transverse slat width centre position adopted in addition arranges import makes to ensure to have the strongest cooling effect in the middle part of casting groove, be conducive to promoting in the middle part of casting groove and the uniformity of both sides cooling procedure,

3, in the present invention, deflection plate and the crystallizing wheel wheel body on crystallizing wheel wheel side weld mutually, this deflection plate also has identical material with crystallizing wheel wheel body in addition, make to further increase crystallizing wheel wheel body heat-transfer area, be conducive to production process casting groove and interior molten metal cooled efficiently;

4, middle outlet of the present invention extends to the design of transverse slat place radial location by pipeline, or extend to the design of the position within the radius of transverse slat place, make continuous cast mold in operation process, particularly at the crystallizing wheel wheel body place being positioned at below, be beneficial to the fluidised form forming cooling fluid low in and high out in main cavity, ensure the cooling effect of crystallizing wheel wheel body low spot further.

Accompanying drawing explanation

Examples of the present invention will be described by way of reference to the accompanying drawings, wherein:

Fig. 1 is the cross section structure schematic diagram that continuous cast mold inner ring surface of the present invention has the cooling structure of baffling,

Fig. 2 is that the A-A of Fig. 1 of the present invention is to generalized section.

Mark in figure: 1-crystallizing wheel wheel body, 11-cast groove, 12-fin, 2-rotating disk, 3-transverse slat, 4-main cavity, 41-import, 42-outlet, 5-ring cavity, 6-deflection plate, 7-pipeline.

Detailed description of the invention

All features disclosed in this description, or the step in disclosed all methods or process, except mutually exclusive feature and/or step, all can combine by any way.

Arbitrary feature disclosed in this description, unless specifically stated otherwise, all can be replaced by other equivalences or the alternative features with similar object.That is, unless specifically stated otherwise, each feature is an example in a series of equivalence or similar characteristics.

Embodiment

Continuous cast mold inner ring surface of the present invention has the cooling structure of baffling, its structure as shown in Figure 1, comprise crystallizing wheel wheel body 1 and the casting groove 11 being arranged at crystallizing wheel wheel body 1 periphery wall, crystallizing wheel wheel body 1 is assemblied between two rotating disks 2, also be provided with the transverse slat 3 arranged along ring week between two rotating disks 2, described transverse slat 3 is positioned at inside the ring of crystallizing wheel wheel body 1; Described crystallizing wheel wheel body 1, be configured between rotating disk 2 and transverse slat 3 cooling fluid circulation main cavity 4, ring cavity 5 is all offered between the fitting surface of described crystallizing wheel wheel body 1 both sides and rotating disk 2, described ring cavity 5 is connected with main cavity 4, the centre position of described transverse slat 3 width is provided with the import 41 entered for cooling fluid, the rotating disk 2 of ring cavity 5 position is provided with the outlet 42 of flowing out for cooling fluid, main cavity 4 inner circumference is provided with deflection plate 6, arranges along cloth main cavity 4 width between described deflection plate 6 and make to be formed by the baffling passage of middle part to both sides in main cavity 4; Each outlet 42 all extends to transverse slat 3 place radial location by pipeline 7, or extends to the position within the radius of transverse slat 3 place.

Described continuous cast mold inner ring surface has the cooling structure of baffling, crystallizing wheel wheel body, the main cavity of cooling fluid circulation is configured between rotating disk and transverse slat, the heat-transfer area of crystallizing wheel wheel body is as the sidewall cooling main cavity, the mode of ring cavity is offered between the fitting surface being simultaneously engaged in crystallizing wheel wheel body and rotating disk, and import cooling fluid entered is arranged on transverse slat, the outlet that cooling fluid flows out is arranged on the rotating disk of ring cavity position, the thermal transfer surface of crystallizing wheel wheel body is made to be submerged in cooling fluid all the time, cool compared to existing cooling chamber, in this programme, cooling fluid is greatly improved in the uniformity of chamber indoor distribution and effective heat transfer area, effectively ensure that the controllability of cooling effectiveness and cooling procedure.

Meanwhile, the ring week in main cavity arranges deflection plate, and deflection plate arranges along cloth main cavity width and in main cavity, forms baffling passage, can improvement coolant fluid in the flow regime of main cavity, extend the time of staying, improve heat transfer efficiency.In addition baffling passage by middle part to both sides, effectively ensure that the consistent of the intensity of cooling of crystallizing wheel wheel body both sides, the scheme that the transverse slat width centre position adopted in addition arranges import makes to ensure to have the strongest cooling effect in the middle part of casting groove, is conducive to the uniformity promoting casting groove both sides cooling procedure.

Obviously as main cavity or unit chamber cooling fluid circulation and store necessary, the structure of to be main cavity 4 a be edge seal.In a specific embodiment, resistant to elevated temperatures seal (not shown in the figures anticipate out, but the puzzlement in understanding can not be caused those skilled in the art) is provided with between the fitting surface of described crystallizing wheel wheel body 1 and rotating disk 2.Crystallizing wheel wheel body 1 and rotating disk 2 can be connected and fixed by bolt in addition, concrete: on crystallizing wheel wheel body 1 sidewall, tapped screw is set, crystallizing wheel wheel body 1 and rotating disk 2 are assembled into overall structure through rotating disk 2 by bolt, and resistant to elevated temperatures seal is between crystallizing wheel wheel body 1 and rotating disk 2.

In addition, also seal is provided with between rotating disk 2 and transverse slat 3 fitting surface.Rotating disk 2 and transverse slat 3 are connected by conventional bolt and assemble, or rotating disk 2 and transverse slat 3 directly weld and crystallizing wheel wheel body 1, rotating disk 2 and transverse slat 3 are assembled into overall structure.

In order to strengthen the heat transfer efficiency of crystallizing wheel wheel body 1 further, crystallizing wheel wheel body 1 sidewall is provided with fin 12.

In another detailed description of the invention, mainly the position of offering of ring cavity 5 is further elaborated, because ring cavity 5 is arranged at the fitting surface of crystallizing wheel wheel body 1 and rotating disk 2, therefore ring cavity 5 has three concrete set-up modes: a kind of is offer annular groove at the sidewall of crystallizing wheel wheel body 1, form ring cavity 5 structure as shown in Figure 1, another kind offers annular groove at the madial wall of rotating disk 2 and forms (to offer annular groove similar with the sidewall of crystallizing wheel wheel body 1), also has one to be all offer annular groove at crystallizing wheel wheel body 1 and rotating disk 2 and jointly formed.The sidewall of crystallizing wheel wheel body 1 is offered annular groove and is formed the scheme of ring cavity 5 preferably in a specific embodiment, reduces the consumption of crystallizing wheel wheel body 1 copper material on the one hand, improves its heat transfer area on the other hand, can not affect the structural design of rotating disk 2 simultaneously.

When all offering ring cavity 5 between the crystallizing wheel wheel body 1 of crystallizing wheel wheel body 1 both sides and rotating disk 2 fitting surface, import 41 can be arranged on any width place of transverse slat 3.But as preferably design, import 41 should be positioned at the centre position of transverse slat 3 width, to ensure that the ring cavity 5 of both sides has impartial fluid resistance and transmission path, ensure the even of both sides heat exchange.

Further explanation is done below by the concrete setting of deflection plate 6.Referring to that monolithic deflection plate 6 is arranged along whole circumference as being provided with deflection plate 6 the ring week in Fig. 1 main cavity 4, at transverse slat 3 width, many groups deflection plate 6(being side by side set as shown in Figure 1) make whole ring week upper formed by the middle part of main cavity 4 to the baffling passage of both sides and cooling fluid baffling direct of travel.

In order to further increase crystallizing wheel wheel body heat-transfer area, be beneficial to production process casting groove and interior molten metal cooled efficiently, the deflection plate 6 of described crystallizing wheel wheel body 1 side welds mutually with crystallizing wheel wheel body 1, make to utilize the deflection plate 6 on crystallizing wheel wheel body 1 directly to carry out conduct heat (be equivalent to deflection plate 6 and also played the effect of fin), the deflection plate 6 of crystallizing wheel wheel body 1 side is identical with crystallizing wheel wheel body 1 material in addition, all adopts copper or copper alloy material to make to ensure good heat transfer.

On basis based on above-mentioned design, each outlet 42 on main cavity 4 all extends to transverse slat 3 place radial location by pipeline 7, or extends to the position within the radius of transverse slat 3 place.As shown in Figure 1 or 2, indicate in Fig. 1 and extend to the radial location signal of transverse slat 3 place, and Fig. 2 indicates the position signal extended within the radius of transverse slat 3 place.Such design makes continuous cast mold in operation process, is particularly conducive at the crystallizing wheel wheel body place being positioned at below forming the fluidised form of cooling fluid in main cavity low in and high out, ensures the cooling effect of crystallizing wheel wheel body low spot further.

As optionally, pipeline 7 can be the independently pipeline be arranged on outside rotating disk 2, or is opened in the duct of rotating disk 2 inwall.

In order to improve the heat transfer efficiency at whole circumference, the ring week of described transverse slat 3 is provided with multiple import 41.In order to ensure the uniformity of the heat transfer of each ring week position, described import 41 is uniformly distributed on the ring week of transverse slat 3.

Identical with import 41 setting principle, the ring week of described ring cavity 5 is provided with multiple outlet 42.In order to ensure the uniformity of the heat transfer of each ring week position, described outlet 42 is uniformly distributed on the ring week of ring cavity 5.

Multiple import 41 and multiple outlet 42 design as described in Figure 2, and Fig. 2 only as the schematic diagram that is circular layout of import 41, outlet 42, and does not illustrate according to attach ratios.

As another one optimal design, the ring cavity 5 of both sides has the identical outlet of quantity 42, to ensure that both sides have identical cooling fluid discharge, ensure the amount of cooling water on whole casting groove 11 width.As the further optimization of this design, import 41 and outlet 42 are crisscross arranged on ring week, and as shown in Figure 2, i.e. import 41, outlet 42 have angle with the line in axle center.

Continuous cast mold inner ring surface of the present invention has the cooling structure of baffling, its design is ingenious, simple and reliable for structure, compared to existing cavity type cooling scheme, effectively can improve the cooling effectiveness of continuous cast mold inner ring surface, and be beneficial to the stability improving cooling procedure.

The present invention is not limited to aforesaid detailed description of the invention.The present invention expands to any new feature of disclosing in this manual or any combination newly, and the step of the arbitrary new method disclosed or process or any combination newly.

Claims (7)

1. a continuous cast mold inner ring surface has the cooling structure of baffling, it is characterized in that: comprise crystallizing wheel wheel body (1) and be arranged at the casting groove (11) of crystallizing wheel wheel body (1) periphery wall, crystallizing wheel wheel body (1) is assemblied between two rotating disks (2), also be provided with the transverse slat (3) arranged along ring week between two rotating disks (2), described transverse slat (3) is positioned at inside the ring of crystallizing wheel wheel body (1), described crystallizing wheel wheel body (1), the main cavity (4) of cooling fluid circulation is configured between rotating disk (2) and transverse slat (3), ring cavity (5) is all offered between the fitting surface of described crystallizing wheel wheel body (1) both sides and rotating disk (2), described ring cavity (5) is connected with main cavity (4), the centre position of described transverse slat (3) width is provided with the import (41) entered for cooling fluid, the rotating disk (2) of ring cavity (5) position is provided with the outlet (42) of flowing out for cooling fluid, main cavity (4) inner circumference is provided with deflection plate (6), arrange along cloth main cavity (4) width between described deflection plate (6) and make to be formed by the baffling passage of middle part to both sides in main cavity (4), each outlet (42) all extends to transverse slat (3) place radial location by pipeline (7), or extends to the position within the radius of transverse slat (3) place.

2. continuous cast mold inner ring surface as claimed in claim 1 has the cooling structure of baffling, it is characterized in that: the deflection plate (6) of described crystallizing wheel wheel body (1) side welds mutually with crystallizing wheel wheel body (1).

3. continuous cast mold inner ring surface as claimed in claim 1 has the cooling structure of baffling, it is characterized in that: the deflection plate (6) of described crystallizing wheel wheel body (1) side is identical with crystallizing wheel wheel body (1) material.

4. continuous cast mold inner ring surface as claimed in claim 1 has the cooling structure of baffling, it is characterized in that: be provided with multiple import (41) the ring week of described transverse slat (3).

5. continuous cast mold inner ring surface as claimed in claim 4 has the cooling structure of baffling, it is characterized in that: described import (41) was uniformly distributed on the ring week of transverse slat (3).

6. continuous cast mold inner ring surface as claimed in claim 1 has the cooling structure of baffling, it is characterized in that: be provided with multiple outlet (42) the ring week of described ring cavity (5).

7. continuous cast mold inner ring surface as claimed in claim 6 has the cooling structure of baffling, it is characterized in that: described outlet (42) was uniformly distributed on the ring week of ring cavity (5).