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Automatic Horizontal Continuous Casting Machine 2 Strand For Alloy Copper Plate Strip

Place of Origin: Zhejiang

Company Profile

Location: Wuxi, Jiangsu, China (Mainland)
Business Type: Manufacturer

Product Detail

Model No.: BSC

Product Description

 

Automatic Horizontal Continuous Casting Machine 2 Strand For Alloy Copper Plate Strip

 

 

. .Process:

Burdening (Returns should be baled) → Smelting furnace → Chemical analysis → Heating up the sealed launder → Crystallizer → Primary cooling → Secondary cooling → Withdrawal machine → Shearing machine →Coiler

 

Select the raw materials according to process document, determine the feeding procedure according to melting points of metallic elements, furnace burden proportions, and difficulty of oxidation burning losses, and charge the raw material into the smelting furnace; When smelting, add certain thickness of covering agent into the furnace, which shall be supplemented in-time; When the molten copper inside the furnace reaches tapping temperature, lab-test the composition of molten copper inside the furnace; Before tapping, completely clean out the clinkers in molten copper; After the tapping of each furnace, keep around 800 kg molten copper inside the furnace, as the starting block. Transfer the molten copper (molten and well-adjusted in the melting chamber) through the sealed launder into the holding furnace, control the temperature of molten copper, keep the molten copper inside the holding furnace at the casting temperature and at certain level range. Under the action of level, the molten copper flows into the crystallizer, and get crystallized into plate-type copper billet through primary cooling by crystallizer. Under the continuous drawing by withdrawal machine, the plate billet of required shape is formed. Secondary cooling system is installed at plate billet outlet, and the flow rate of cooling water is adjustable. The main purpose for adopting these control measures is to ensure crystallization temperature as well as stabilization of process parameters, so as to ensure product quality. The withdrawal of strip billet is realized by means of the dragger, and the time of drawing, stop and reverse pushing by the dragger is continuously adjustable. The optimal control parameter should be determined and timely adjusted according to different materials, different specifications and surface quality conditions. The drawing is controlled by PLC program, realizing cyclical actions of drawing, stop, and reverse pushing.

 
. Specifications:
1. Types of casting specifications
* Production variety: copper base alloy (white brass) billet coils
 
2. Specification of finished-product coil

2.1 Number of billets: 2 strips
2.2 Billet width: 380mm-500mm
2.3 Billet thickness: 16- 20mm
2.4 Inside diameter of coil: minimum Φ 600- 800mm
2.5 Outside diameter of coil: maximum Φ1800mm
2.6 Maximum weight of coil: max: 6000kg

             

3. Guarantee value of billet thickness difference

  3.1 Transverse thickness difference of billet: 0.75mm—0.3 (After mould modification)

  3.2 Longitudinal thickness difference of billet: <0.3mm (After mould modification)

  3.3 Average energy consumption for smelting by smelting furnace: 250-380kwht

  3.4 Average energy consumption for temperature preservation by holding furnace: 50-80kwh/t

  3.5 Maximum pushing and drawing force: 50KN

  3.6 Pushing and drawing speed range: 1.5-70mm/ sec

  3.7 Average maximum casting speed: 300mm min

  3.8 Maximum shearing force of hydraulic shear: 600KN

  3.9 Coiling speed of coiler: 750mmmin

 
 

 

.Major Technical Parameters of Equipment:

 

1 Smelting furnace:
1.1 Total capacity of furnace 5.0T
1.2 Effective capacity of furnace 2.5T
1.3 Furnace voltage 380V
1.4 Furnace power 600KW
1.5 Melting rate 2t/h
1.6 Power factor after compensation: 0.95-1.0
1.7 Number of phases and connection mode of inductor:

Single-phase series-connection

 

1.8 Rated capacity of transformer:

900KVA water-cooled autotransformer (380V incoming-line, three-phase,

 

 

1.9 coil cooling mode: Water-cooling
1.10 Cooling water consumption: 5m3h
1.11 Maximum temperature of furnace: 1500
2 Holding furnace section

 

 

2.1 Effective capacity of furnace: 4.0T
2.2 Effective casting capacity: Less than 85 dB
2.3 Rated voltage: 380V
2.4 Rated power : 250KW
2.5 Rated capacity of transformer:

400KVA water-cooled autotransformer

(380V incoming-line, three-phase,

no-load stepped voltage-regulating).

2.6 Power factor after compensation: 0.95-1.0
2.7 Temperature control precision: ±8
2.8 Maximum temperature of furnace: 1300
2.9 Coil cooling mode:

Water-cooling

 

3 Mould  
3.1 width 380- 500mm
3.2 thickness 16-20mm.
3.3 Material 1Cr18Ni9Ti stainless steel, lined with copper bush (made of T2 copper)
4 Secondary cooling device  
4.1 Water consumption: 3m ³h
4.2 Water pressure: 0.2-0.3Mpa
5 Withdrawa
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