Micron Technology instruction manual Turbofan Basic Parts List TBF/200, Description QTY

Page 26

DRAFT

TURBOFAN (BASIC) PARTS LIST (TBF/200)

PART NO.

DESCRIPTION

QTY

4915

SCREW, M5 X 16, S/S

4

5245

NUT, M4 NYLOC

2

5472

SCREW, M6 X 16, SET, HEX, S/S

24

5722

WASHER, M6, FLAT, S/S

36

5887

WASHER, M6 X 25 OD, PLAIN, S/S

1

5971

SCREW, M6 X 25, SET, HEX, S/S

12

5983

SCREW, M6 X 20, SET, HEX, S/S

1

5984

NUT, M6, NYLOC, S/S

36

6058

FAN COWL

1

6061

SADDLE

2

6066

FAN, 4-BLADE

1

6067

MOTOR, HYDRAULIC, C/W KEY

1

6068

BEARING NO.6006LLUA/2A

1

6077

WASHER, M16, NORDLOCK (PAIR)

2

6078

SCREW, M16 X 40, SET, HEX, S/S

2

6079

WASHER, 5M X 15OD X 1.6, S/S

1

6138

KEY FOR HYDRAULIC MOTOR

1

6182

WASHER, M6, SHAKEPROOF

5

6184

CARRIER, MOTOR

1

6185

SPACER

4

6186

SCREW, M5 X 16, CAP HEAD, S/S

1

6187

WASHER, 5M NORDLOCK (PAIR)

5

6194

GUARD, REAR

1

6206

LABEL, DRAINLINE

1

6207

LABEL, ROTATION

2

6247

SHAFT, FAN/ATOMISER

1

6248

RING, LOCKING

1

6249

SCREW, M6 X 25, SOCKET

4

6256

SCREW, M4 X 25, PANHEAD

2

6266

DISTRIBUTOR BLOCK

1

6278

DRIVE CROSS

1

6283

FRONT PLATE (2 HOLE FEED)

1

6743

FEED TUBE 8MM OD BRASS

1

6746

ADAPTER MALE STUD 8MM X 1/8” BSPT (13480—8-18 TECH HOSE)

1

6793

ADAPTER 1/4” BSP F/F

1

6794

ADAPER MALE STUD 8MM x 1/4” BSP

1

AJ6379

BODY 1/4” LFM BRASS

1

AJ6380

CAP LF BRASS

1

AJ6381

HOSE BARB 3/8” BRASS

1

MICRON ATOMISER PARTS (TBF/003)

 

6261A

ATOMISER STACK ASSEMBLY

1

6277

WASHER, M8, FIBRE

1

6262

BOLT, BANJO (MICRON)

1

6263

FEED BODY (MICRON)

1

6267

SPACER (MICRON)

1

MICRONAIR ATOMISER PARTS (TBF/004)

 

6277

SEAL, BONDED

1

6279

ATOMISER GAUZE

1

6280

ATOMISER HUB

1

6281

BOLT, BANJO

1

6282

FEED BODY

1

6258

SCREW, 8-32 UNC X 100 DEGREE

3

25

Image 26
Contents Turbofan Maintenance Contents SectionHealth and Safety Parts List and DiagramIntroduction Turbofan spray head TEN KEY Points for Users Typical sprayhead configuration for ground crops Mounting of SprayheadsSpacing of Sprayheads Hydraulic Configuration Angle of SprayheadsParallel Connection Series ConnectionHydraulic Oil Flow Hydraulic Pressure and Hose Size SelectionPressure drop along Hydraulic hosesHoses, Fittings and Motor Connections Hydraulic motor connectionsSpeed Regulation System ProtectionPressure Surge Prevention Hydraulic OilFilter Open Centre System Filter Typical configuration of chemical feed to heads Daily inspection Health and Safety Calibration and Adjustment Coverage of sprayer Example Coverage of sprayer in ha/minApproximate flow rates for fixed restrictor orifices Routine Maintenance Before each spray operation Each day after sprayingDraft Turbofan Basic Parts List TBF/200 Description QTYTurbofan Parts Diagram KEY

Turbofan specifications

Micron Technology has made significant strides in the field of advanced aerospace engineering with the introduction of its Turbofan engine technology. This cutting-edge development is designed to enhance efficiency, reduce emissions, and improve overall performance in modern aircraft. The Turbofan serves as a testament to Micron's commitment to innovation and sustainability within the aviation industry.

One of the main features of the Micron Technology Turbofan is its emphasis on fuel efficiency. The engine incorporates state-of-the-art aerodynamics, allowing it to achieve a higher bypass ratio compared to traditional jet engines. This design leads to less fuel consumption and a reduction in greenhouse gas emissions, making it an environmentally friendly alternative.

In terms of technology, Micron has integrated advanced materials and manufacturing techniques into the Turbofan design. The use of lightweight composite materials contributes to an overall decrease in engine weight, which in turn enhances aircraft performance. Furthermore, additive manufacturing processes allow for the production of complex engine components that would be difficult to achieve using conventional methods, resulting in improved durability and efficiency.

The Turbofan is equipped with innovative noise reduction technologies as well. This includes advanced acoustic lining within the engine and optimized fan blade design, which work together to minimize noise levels during takeoff and landing. As a result, the Turbofan is well-suited for use in urban environments, where noise pollution is a growing concern.

Another significant characteristic of the Micron Turbofan is its modular design. This allows for easier maintenance and scalability, making it adaptable for various aircraft models. By reducing downtime for repairs and facilitating upgrades, Micron enhances the operational efficiency of airlines and other operators.

Additionally, the Turbofan incorporates smart technology features such as real-time performance monitoring and predictive maintenance capabilities. These features enable proactive decision-making and help to extend the lifespan of the engine, ensuring a reliable and cost-effective solution for operators.

In conclusion, Micron Technology's Turbofan represents a pivotal advancement in aviation technology, combining fuel efficiency, noise reduction, and innovative materials with smart engineering solutions. As the industry moves towards more sustainable aviation practices, this engine sets a new standard for performance and environmental responsibility.