无功补偿装置生产厂家
Your Position:  Home > Baoding Sifang Sanyi Electric > Product Show > Solid State Superaudio Frequency/ Medium Induction Hating Equipment >

Series Copper Tube Annealing Equipment

Author:Sifang Sanyi    Date:2013-11-25 18:40

Product picture


Application Scope

Online annealing and tempering heat treatment of copper, aluminum and stainless steel non-ferrous metal tube or wire.



Function Structure

Series copper tube annealing equipment adopts AC-DC-AC variable frequency power supply structure. The rectifier of the power supply adopts 3-phase thyristor rectifying. 12-pulse rectifier can be adopted for large power equipment (above 1000kW) to decrease grid side harmonic current. The inverter adopts high voltage large power IGBT module to form inverter power unit, to realize large power output through the superposition of inverter power unit. The inverter realizes impedance matching and electric isolation through matching transformer. The resonant tank circuit adopts serial resonance, which needs independent design for different load heating.

The whole unit of equipment is composed of serial induction heating power supply, resonant tank circuit, circulation soft water cooling system, console (optional), automatic control system (optional).

 

Technical Features

Ø Perfect structure design

1.Integration design of switchgear rectifying cabinet and inverter output cabinet, with compact structure and small size.

2.Power combination of the inverter bridge is accomplished by the way of power unit superposition, which is convenient for installation and repair. Each IGBT power unit is designed to be 200kW. Inverter output adopts matching transformer to realize electric isolation of power supply and load with high security and reliability of power supply.

3.Multi-section of inductors adopt serial connection with high voltage and small current. The whole heating efficiency is higher than parallel power supply.

4.Resonant tank circuit mode is an independent design as per users actual requirement with convenient and flexible site layout.

5.High standard electromagnetism compatibility design, electromagnetism radiation meets national standard. Closed cabinet design, meeting rigor environmental requirements on site.


Ø Full digital control system

1.3-phase rectifier adopts high cost performance MCU controlling to realize precise synchronism trigger with high control precision and small grid-side non characteristic harmonic.

2. Resonant inverter adopts CPLD to form full-digital control system that is characterized by their automatic constant angle, high phase-lock precise and wide scope of phase-lock.

3. Adopt inverter side PSM power adjustment technology with strong load adaptability and easy impedance matching. The grid side power coefficient≥0.92 and harmonic content is the relatively lowest.

4. The power supply has perfect protection function with reliable working and low failure rate.


Ø HMI and fault diagnosis system (optional)

1.Adopt PLC and touch screen to form perfect HMI system.

2.Realize integrated automatic control of power supply system.

3.Fault display and diagnosis system.


Main Technical Parameter

Model

AC input

Power coefficient

Rated DC voltage

Rated DC current

Frequency

Scope

Working status

GZP200kW

/10kHz-C

3AC380V

50/60Hz

0.95

500V

400A

8

10 kHz

continuous

GZP400kW

/10kHz-C

3AC380V

50/60Hz

0.95

500V

800A

8

10 kHz

continuous

GZP600kW

/10kHz-C

3AC380V

50/60Hz

0.95

500V

1200A

8

10 kHz

continuous

GZP800kW

/10kHz-C

3AC380V

50/60Hz

0.95

500V

1600A

8

10 kHz

continuous

GZP1000kW

/10kHz-C

3AC380V

50/60Hz

0.95

500V

2000A

8

10 kHz

continuous

*  Can be customized according to user’s grid.


Equipment selection


power





weight of heated metal per second kg

temperature rise℃;

specific heat capacity of metal,steel0.165,copper0.085,Aluminum0.14;

heating efficiency,copper0.3,Aluminum0.4,steel, below the Curie point 0.75、steel, above the Curie point 0.6.


frequency



 


Whenthe equipment has the highest heating efficiency.


distribution capacity



simultaneity factor0.8~0.9