Wuxi Wondery Industry Equipment Co., Ltd ruth@wondery.cn 86-153-0529-9442
Product Details
Place of Origin: JIANGSU
Brand Name: WONDERY
Certification: CE
Model Number: RT2-250-11D
Payment & Shipping Terms
Minimum Order Quantity: 1SET
Price: Negotiable
Packaging Details: Nude package or steel case package, suitable for sea transportation
Delivery Time: 50SETS/YEAR
Payment Terms: L/C, T/T, Western Union
Name: |
Bogie Hearth Furnace |
Energy Medium: |
Electricity |
PLC Control: |
Siemens S7-200 PLC |
Bogie Hearth Plate: |
Cr25Ni20 |
Working Temperature: |
1150 Degree Celcius |
VOLTAGE: |
380V,3P,50Hz |
Name: |
Bogie Hearth Furnace |
Energy Medium: |
Electricity |
PLC Control: |
Siemens S7-200 PLC |
Bogie Hearth Plate: |
Cr25Ni20 |
Working Temperature: |
1150 Degree Celcius |
VOLTAGE: |
380V,3P,50Hz |
380V 3P 50HZ Bogie Hearth Furnace With Siemens S7-200 PLC Control
1. Application
The gas and electrical combined bogie hearth furnace is mainly used for heat treatment of metal parts.
2. Main Technical Parameters
No. | Item | Technical Parameters |
1 | Rated power | 250kW+5% (1-100%) adjustable |
2 | Power supply | 380V,3P,50Hz |
3 | Rated temperature | 1150℃ |
4 | Empty furnace temperature rising speed | ≤2.5h to receive 950℃ |
5 | Control zone | 2 zones for temperature and 2 other points for measuring the temperature, 4 thermal couples in total |
6 | Effective working size | 2500×1500×1500mm (L*W*H) |
7 | Heating element connection | Y |
8 | Temperature uniformity | ±5℃ |
9 | Instrument control accuracy | ±2℃ |
10 | Empty furnace power consumption | ≤18% |
11 | Temperature control method | SCR, PID regulator, Shimaden temperature controller, over-temperature alarm |
12 | furnace surface temperature rise | <45℃+ room temperature |
13 | Heating element material | 0Cr27AL7Mo2 (strip) 5-wall heating |
14 | Bogie face plate | Cr25Ni20 |
15 | Loading method | Product loaded on the bogie, and then bogie moves into the furnace |
16 | Furnace lining | High temperature refractory fiber structure |
17 | Furnace door opening method | Electrical up-down, spring compression sealing structure |
18 | Bogie in/out method | 2.2KW cycloidal pin wheel reducer |
3. Structural Introduction
The bogie hearth furnace is mainly comprised of furnace body, lining, furnace door and door up-down system, bogie,
heating element, and temperature control system.
3.1 furnace body
The furnace body steel structure of bogie hearth furnace is made from 10-12mm sectional steel and 4mm steel plates.
The side pillar and back pillars are made from sectional steel, and are reinforced with sectional steel bracings. The external
wall of the furnace is painted with 2 layers of primers, and 2 layers of coating paint. The key part of the furnace is painted
with heat resistant paint.
3.2 lining
The lining material used is quality high aluminum fibers fixed by round steel parts. The aluminum fibers are pre-compressed
into blocks (compression gravity: ≥230Kg/m3 ) and then fixed to the furnace body by stainless steel parts. This refractory
lining structure has the advantages of low heat conductivity, strong anti-shock capacity, and anti-erosion. The lining layer
total thickness is 350mm.
The silicate aluminum fiber resists a maximum temperature of 1250℃. The round steel fixation parts are made of 304 material.
3.3 furnace door and door up-down system
The furnace door is comprised of all-fiber lining and steel structure shell. The furnace body is made of 10mm steel plate and
10mm sectional steel. The door is built with silicate aluminum fiber blocks same as that for the furnace body. The fiber blocks
are fixed by stainless steel parts. The overall structure of the furnace maintains its shape while heated. The door edge is made of
10mm thick steel.
Driving method of door: The bogie hearth furnace door is electrically lifted up or down by the electric hoist, and the door is sealed by the
spring compression mechanism. The use of the electric hoist removes the need of a foundation pit.
Sealing structure: The door sides are sealed together with the furnace body through the fiber blocks, and the fiber block is
compressed by the spring to ensure a firm sealing between the door and the body.
3.4 bogie
The bogie is comprised of bogie frame, wheels, refractory bricklaying body, Cr25Ni20 heat resistant bogie face plate,
heating elements, and bogie driving mechanism.
bogie structure: the bogie frame is made from 14# beam and 10mm steel plates.
wheel: The wheels are made from ZG55# steel casting. The transmission shaft is made from 45# steel, and it is heat treated.
The transmission bearing is of the heavy type pillar bearing to bear the weight. There are 3 pairs of Ø300 wheels to support the
weight of the parts.
bricklaying body: The bogie is built with a combination of high aluminum refractory bricks, light refractory bricks, and heat
preservation bricks. The bricklaying body of the bogie has heating elements installation slot for easy installation of the heating
elements. The impacted parts and weight bearing area are bricked especially with heavy type high aluminum refractory bricks.
There is also free space left for the refractory lining expansion when heated.
bogie face plate: 30mm thick Cr25Ni20 heat resistant steel casting part with working temperature≤1200℃. It can prevent scales
from falling into the heating elements slot which would form a short circuit.
bogie moving mechanism: The bogie has a self-moving method. The reducing gear drives the bogie wheel to move.
The bogie movement is smooth and stable.
Sealing among furnace door, furnace body and bogie: Sealing between bogie and the furnace body is through
deformed bricks and fiber blocks.
3.5 heating element
heating element: The 0Cr27AL7Mo2 resistance spiral-shape alloy resistance strips are mounted in the 2 side walls and the bogie.
The resistance strips are produced through special molds, and are installed in the furnace wall by porcelain nails. And there is a
porcelain gasket between the fiber wall and the resistance strips to avoid short-circuit. There are 2 heating zones. All lead-out
conductor bars are made of φ16 0Cr27AL7Mo2 material.
3.6 temperature control system
Temperature control: the furnace adopts Shimaden intelligent temperature controller (Japan brand) to control the temperature
which has self-tuning function to calculate the ideal PID parameter and achieve a temperature stability.
The furnace has 2 temperature control zones for controlling the linkage between the temperature and the motor movements.
Each zone is set with an over-temperature alarm. When the furnace works, the heating loop works according to the set program
of the temperature controller.
The control actuation system of the car bottom furnace is a large-power triggering one complete with a radiator and an air cooling system.
The heating loop is equipped with ammeter, voltmeter, heating element on-off indicator, power-on interlock protection, and safe
earthing measures.
4. Supply Scope of Bogie Hearth Furnace
No. | Item | Q’ty | Notes |
1 | Furnace body | 1 set | |
2 | Bogie | 1 set | Including bogie face plate |
3 | Electrical driving system | 2 sets | 1 set for bogie and 1 set for door |
4 | Heating element | 1 set | Resistance strip |
5 | Temperature control system | 1 set | |
6 | Control cabinet | 1pc | 1800×800×600mm |
7 | Temperature controller | 4pcs | |
8 | SSR | 2Sets | |
9 | Wire collet | Several | According to the wiring post number |
10 | Compensation lead wire | 60m | |
11 | Thermal couple | 4 pcs | 0-1200 degree celcius |
12 | Electrical components | 1 set | SCR, air switch, ammeter, voltmeter, heat relay, and switches |
5. Main Components List
No. | Item | Origin |
1 | Temperature controller | Shimaden, Japan |
2 | SSR | Shimaden, Japan |
3 | Resistance strip | Shougang, Beijing |
4 | Refractory fiber | Morgan |
5 | Refractory brick | Morgan |
6 | Reducer | ABB |
7 | Low voltage components | Schneider |
8 | Bogie face plate | Xinghua, Taizhou |
Picture of PLC control for Electric Resistance Bogie Hearth Furnace