Post on 01-Jan-2022
DESAIN, PRODUKSI DAN
COMMISSIONING/TESTING
SARANA KA
Yunendar Aryo Handoko ST., PhD
Fakultas Teknik Mesin dan Dirgantara
DEFINISI – UU No 23 Th 2007
PerkeretaapianSatu kesatuan sistem yang terdiri atas prasarana, sarana dan sumber daya manusia, sertanorma, kriteria, persyaratan, dan prosedur untuk penyelenggaraan transportasi kereta api
Kereta apiSarana perkeretaapian dengan tenaga gerak, baik berjalan sendiri maupun dirangkaian dengansarana perkeretaapian lainya, yang akan ataupun sedang bergerak di jalan rel yang terkaitdengan perjalanan kereta api
Sarana perkeretaapianKendaraan yang dapat bergerak di jalan rel
SISTEM PERKERETAAPIAN: SARANA DAN PRASARANA
Centralized
power train
Distributed
power trainUnconventional
Train
Railway Rolling Stock
Spektrum Sarana Kereta Api
Passenger Coach
Freight Wagon
Motive power unit
(Locomotive)
Centralized power train
Steam Loco
Diesel Loco
Electric Loco
Mechanic
Hydraulic
Electric 6 Axle
4 Axle
Bulk Wagon
Box Wagon
Flat Wagon
Solid
Liquid
Gas
Container
Trailer
Open top
Sliding
Single Deck
Double Deck
Intercity
Tourist
Dining
Bagage
Sleeping Power
Tank
Hopper
SPEKTRUM SARANA KERETA API
CENTRALIZED POWER TRAIN
Push-Pull Locomotive
Electric Rail Car
Diesel Rail Car
Distributed power train
D.M.U
Rail Bus
Urban
Suburban
High speed
Metro
LRV
Tramway
Intercity
High Speed
Intercity
Surface
Underground
Elevated
SPEKTRUM SARANA PERKERETAAPIAN
DISTRIBUTED POWER TRAIN
A.G.V
Rubber EMU
Monorail
Unconventional Train
SPEKTRUM SARANA PERKERETAAPIAN
Maglev
Trackless/Autonomous Tram
UNCONVENTIONAL TRAIN
PPTI-KA
INTERIOR & EQUIPMENT CARBODY SHELL BOGIEPROPULSION & BRAKING
PRODUK KERETA
1
Rail VehicleProduct Structure
Bogie
Bearing
Bogie Frame
Air Spring
Primary Suspension
Roda
Carbody
Al Ekstrusi cm
Composite
Stainless Steel
Interior
Lighting
Seat
Door System
Panel
Traction Motor
VVVF Driver
Air Conditioner
Compressor
Brake Control Unit
Brake Actuator
Propulsi & Brake System
Static Inverter
RAIL VEHICLES PRODUCT STRUCTURE
Train Control and Management
System
Firmware
Hardware/ Sensor
Coupler
Toilet & Sanitary Eq.
Locking Device
Battery
Misc. Components
Mild Steel
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ENTRANCE DOOR PINTU MASUK
BOGIE & BRAKE SYSTEM
RUANG PENUMPANG - SALOON
ATAP
UNIT AC LAMPU SEMBOYAN
GANGWAY BELLOWS
ALAT PERANGKAI -
COUPLER
PLAT PENYEBERANG
- APRON
TOILET -LAVATORY
JENDELA - FIXED WINDOWS
STRIPING IDENTITYJENDELA – EMERGENCY WINDOWS
STAND HAND GRIP
PASSENGER DOUBLE SEAT REVOLVING -
RECLINING
WATER TANK
A- V PUBLIC ADDRESS
GANG - AISLE
VESTIBULE BORDES
EMERGENCY HAND BRAKE
SALOON DOOR
GANGWAY DOOR
PRODUCT STRUCTURE PASSENGER COACH
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4 STRUKTUR PRODUK (STRUKTUR UMUM GERBONG BARANG)
MECHANICAL COUPLER
END BEAMBOLSTERCENTER SILL
END CENTER SILL
CHEKERED PLATE FLOOR
SIDE SILL
TWIST LOCK POINT
EMERGENCY HAND WHEEL
THREE PIECE BOGIE
DISTRIBUTOR VALVE
AIR RESERVOIR
SLACK ADJUSTER
CROSS BEAM
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Sarana kereta api merupakan produk yang “customized” dan spesifikdiperuntukkan untuk kondisi operasional tertentu - yang sangatberhubungan erat dengan kondisi prasarana jalan rel
Diatur oleh regulasi / standard
Outline
specification
Technology
evaluation
Study phase
Component
SpecificationArrangement
Drawing,
Component Layout
Basic design phase
Detail design, Mnf. Drawing
Design phase
Production phase
Fabrication Finishing
Testing & CommissioningPurchasing
Time
OPERATION &
MAINTENANCE
INDUSTRIAL PRODUCT LIFE - CYCLESCOPE OF WORK OF AN INTEGRATED MANUFACTURING INDUSTRY
Quality Assurance Dalam Industri Manufaktur
Customer
Requirement
Marketing for
contract
review
Engineering
for design
process
Design for
ManufacturingProduction
Planning Control Quality Assurance
Management Review
Internal quality Audit
Corrective & Preventive
Action
Control of NC product
Logistic for
Procurement &
storage
Production
Logistic for
Delivery
Service for
after sales
Human resource
for training
Desain Sarana KA
DEPARTEMEN
DESAIN DAN
REKAYASA
Requirement
(Spesifikasi)
•Jadwal desain
•Spesifikasi produk
•Spesifikasi komponen
•Laporan verifikasi desain
•Gambar desain
•Produk manual
•Standard
•Procedure
•Tool
•Resources
Master Schedule
DIAGRAM INPUT-OUTPUT PROSES DESIGN DAN REKAYASA
DESIGN & ENGINEERING FLOW PROCESS • TRAIN PERFORMANCE
CALCULATION
• INTERIOR & EXTERIOR ARRANGEMENT
• ERGONOMIC STUDY
• QUALITY STANDARD REFERENCE
• GOVERNMENT REGULATION
• MAIN COMPONENT SELECTION - DESIGN & SPECIFICATION
• SCHEMATIC : BRAKE, PROPULSION, AUXILLARY SYSTEM, INTERFACE WITH OCC EQUIPMENT
• CLAUSE PER CLAUSE COMMENTARY
• TECHNICAL CALCULATION : STRUCTURAL STRENGTH, BRAKE & PROPULSION PERFORMANCE,
BASIC DESIGN
• BRIEF DESCRIPTION OF PRODUCT CONCEPT
• TECHNICAL SPECIFICATION & ARRANGEMENT DRWG PROPOSED
• VERIFICATION : DESIGN COMPARISON
• ESTIMATION PRICE
• TENTATIVE SCHEDULE
PROPOSAL/ CONCEPT DESIGN
• DESIGNING DETAIL DRAWING
• MANUFACTURING DRAWING
• INSPECTION & TEST REQUIREMENT
• TECHNICAL CALCULATION : AC, PRIMARY & SECONDARY STRUCTURE, BOGIE STRUCTURE, DYNAMIC ANALYZE, AIR CONSUMPTION, BATTERY
• INTERFACE SYSTEM :
• BRAKE & PROPULSION,
• INTERLOCK DOOR
• HV & LV SUPPLY SYSTEM,
• ATO –ATP – BRAKE –PROPULSION
• BOGIE TO BODI
• BOGIE COMPONENT
• DRIVER CONTROL
DESIGN DETAIL
Reability, Availability, Maintainability & Safety
Source: EN 50126 Standard
RAMS must be planned and engineered
Carbody Design Requirements
❖ Operational Characteristic (strength, durability, etc.)
❖ Safety (e.g crashworthiness)
❖ Aesthetics (good in appearance) and Comfort
❖ Economic (Low Cost, Energy Efficient)
Material Selection Construction Design
CARBODY DESIGN ATTRIBUTES AND THEIR IMPACTAttribute Impacts
Lightweight • Increased payload, high acceleration from propulsion, energy saving, lower emission, reduce track maintenance cost
• Higher initial cost --> expected to be repaid within several years of operation
Stiff Structure & Durability • Passenger Safety• Comfort, reduce structural vibration and noise• Lower maintenance, high salvage value
Corrosion resistance • Long service life, low maintenance• Reduces or eliminates painting
Fabricability (including extrudeability, formability, weldability, etc)
• Novel design• Integrally stiffened section with decreased weight• Improved side wall design, reduce labour• Reduces number of components• Reduces need for welding / machining
Recycleability • Retains high value at end-of-life• Support a sustainable industry
PPTI-KA
Teknologi Konstruksi Badan Kereta
Pertimbangan Dalam Merancang Badan Kereta
Daya Angkut Besar
Hemat Konsumsi Bahan
Kekakuan Tinggi
Harga Tegangan Kecil
Konstruksi
Besar & BeratKonstruksi
Kuat
Konstruksi
Lemah
Konstruksi
Ringan
Desain &
Pemilihan Material
Light Weight Carbody Design Process
Car Body
Weight Reduction
Construction
Monocoque Structure
(Layout, dimension, panels, doors,
windows, etc)
Material
Material Selection:
High tensile steel
Stainless steel
Aluminium Alloy
FRP / Composite
Etc
Stress Analysis
And Confirmation
Strenght and Rigidity
Construction
Re-arrangement & Re-modelling
(including dimension, number of
components and panels, doors,
windows, etc.)
Stress flow & consentration
Partial reinforcement
Material
Rational application according to
function and position
Miscellaneous
Thinner sheeting, weight saving,
perforation, etc, which is consistent
to the design parameters
Evaluation
Cost
Maintainability
Serviceability
etc
Lightweight Car Body
MATERIAL SELECTION
• Light weight
• Strength & Stiff Structure
• Durability
• Corrosion Resistance
• Fabricability• Formability
• Extrudability
• Weldability
• Recyclability
• STAINLESS STEEL
• ALUMINIUM
• COMPOSITE
CONSIDERATION:
Konstruksi Badan Kereta: Steel / Baja
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Konstruksi Badan Kereta: Stainless Steel
Konstruksi Badan Kereta Aluminium
ENGINEERING
ANALYSIS
DESIGN FOR
MANUFACTURING
PROTOTYPING
& TESTING
FE ANALYSIS
ENGINEERING DESIGN FOR CARBODY DEVELOPMENT
Aerodynamics Analysis
Parameter Desain Bogie• Kondisi Prasarana:
• Ruang Bebas (loading gauge)• Lebar Sepur (track gauge)• Radius Lengkung (curve radius)• Ketidakrataan Jalan Rel (track irregularity)
• Dimensi Utama Bogie:• Jarak gandar (bogie wheel base)• Jarak journal spring, damper & bearing/axle box (primary suspension)• Jarak secondary spring, vertical & lateral damper• Posisi traction rod, mechanical brake (tread brake/disc brake), dan
komponen lainnya seperti motor traksi, leveling valve, speed sensor dll.
• Berat Bogie dan Komponen
• Performansi Operasional: • Kecepatan operasi di track lurus dan di jalur lengkung• Kenyamanan (ride index/quality)
• Dan lain-lain kondisi operasi seperti kondisi lingkungan, fasilitasdan interval perawatan.
Ketidakrataan jalan rel
• Gage
• Lateral /alignment
• Vertical
• Cross Level
Verifikasi Dan Kalkulasidalam Rancang Bangun dan Rekayasa Bogie
• Kekuatan Struktur Rangka Bogie• Static
• Fatigue/Dynamic
• Performansi dinamik bogie• Stability / critical speed
• Curving performance
• Derailment Sensitivity
• Ride quality
• Gaya-gaya pengereman dan traksi
Perhitungan Kekuatan Struktur Rangka BogieSTATIC ANALYSIS BY FEA
Typical Task Analysis & Calculation Method in Train Dynamics Simulation
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Trai
n B
rake
Sys
tem
AUTOMATIC AIR BRAKE
ELECTRIC DIGITAL COMMAND AIR BRAKE
ELECTRIC ANALOGUE COMMAND AIR BRAKE
ELECTRIC AND REGENERATIVE BRAKE (DYNAMIC BRAKE)
Pengereman Kereta Api
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• Umumnya menggunakan sistem udara tekan• Aktuator dapat berupa brake cylinder atau brake caliper
Disc BrakeThreadBrake
Actuator Komponen friksi
Brake Pad
Brake Block
Pengereman Kereta Api
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• Transmisi yang menggunakan fluida untuk menyalurkan daya dari Mesin diesel ke Roda
• Terdiri dari : • Mesin Diesel
• Turbo Transmision / Transmisi
• Cardan Shaft / Poros Gardan
• Gear Box
PROPULSI (Transmisi Diesel Hidrolik)
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• Merubah daya putar Mesin Diesel menjadi daya listrik menggunakan Generator Listrik yang akan dipakai oleh Motor Listrik untuk menggerakkan Roda
• Pengaturan kecepatan dilakukan dengan mengubah parameter daya listrik dari generator / alternator yang masuk ke motor
Skematik diagram Transmisi Diesel Elektrik AC-AC :
Mesin Diesel sama dengan yang digunakan untuk Transmisi Diesel Hidrolik
PROPULSI (Transmisi Diesel Elektrik)
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• Merubah daya listrik kabel LAA menjadi energi gerak melalui motor listrik
• Ada 2 macam yaitu sistem AC - AC dan sistem DC - AC
PROPULSI (Transmisi Elektrik, KRL
Diagram sistem AC-AC
Diagram sistem DC-AC
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Pantograph
Inverter
Motor ListrikGear Box
Rectifier
Main Transformer
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• Transformator menurunkan tegangan arus AC kabel aliran atas yang tinggi (25KV) menuju level yang lebih rendah
• Rectifier mengubah tegangan AC menjadi tegangan DC• Inverter merubah tegangan DC kembali menjadi tegangan AC namun dengan frekuensi yang diatur untuk
mengatur putaran motor listrik
PROPULSI (Transmisi Elektrik, KRL AC-AC)
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PantographInverter
Motor ListrikGear Box
Inverter merubah tegangan DC kembali menjadi tegangan AC namun dengan frekuensi yang diatur untuk mengatur putaran motor listrik
PROPULSI (Transmisi Elektrik, KRL DC-AC)
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Merupakan suatu unit AC terpusat Agar distribusi pendinginan merata penyaluran udaramenggunakan sistem ducting
Air-conditioners for Greater Cairo Metro Line No.3
System Configuration
AC Kereta Api
Proses Produksi
FINAL INSPECTION
CARBODYPAINTING
INTEGRASI PROSES PRODUKSI
DESIGNENGINEERING
LOGISTIK FABRIKASI FINISHINGTEST &
COMMISIONINGPURNA JUAL &PERAWATAN
CUTTINGWELDINGSUB-ASSEMBLINGON JIG
CARBODYFINALASSEMBLING
INTERIORTRIMMINGWIRING
EQUIPMENTFITTING
BOGIEMOUNTING
BOGIEWELDINGMACHINING & ASSEMBLING
TESTING COMMISIONING
2
Carbody Manufacturing – Aluminium Carbody
Aluminium billet
Sub-assembly panel:
- Underframe
- Side wall
- Roof
- End wall
- Nose
Aluminium
extrusion panel
Finished carbody shell
Finished car
SUB ASSEMBLY IN ASSEMBLING WORKSHOP
SETTING JIG, MATERIAL PREPARATION
SUB ASSY WELDING, JOINING, BONDING ON JIG
CARBODY ASSEMBLY IN ASSEMBLING WORKSHOP
Carbody Assembling Line Process of Carbody Assembling
EQUIPMENT INSTALLATION IN FINISHING WORKSHOP
Line Equipment Fitting
Using Tack system
On Roof Eqp fitting
Wiring & Interior fitting
Beneath U/F Eqp fitting
BOGIE MOUNTING & INTERIOR FITTING IN FINISHING WORKSHOP
Lifting Jack, pit, line for pipe-bogie connection
Bogie Mounting
Interior fitting
Air piping & connection to eqp beneath U/F
PEMERIKSAAN, PENGUJIAN DAN SERTIFIKASI SARANA KA
Definisi
• Pemeriksaan adalah aktifitas untuk memastikankondisi suatu komponen atau sarana KA secarakeseluruhan sesuai dengan yang dipersyaratkan
• Pengujian adalah aktifitas untuk memastikan / menvalidasi bahwa performansi (unjuk kerja), sifat dan karakteristik suatu komponen atausarana KA secara keseluruhan sesuai denganyang dipersyaratkan
• Sertifikasi adalah suatu rangkaian aktifitas / proses untuk memberikan sertifikat layakoperasi/layak guna terhadap suatu tipekomponen atau terhadap suatu tipe sarana KA secara keseluruhan.
Dokumen Acuan
• Standar dan Regulasi
• Spesifikasi Teknis
• Manual/Petunjuk Pengoperasian
• Manual Perawatan
• Dokumen lain yang disepakati oleh para pihak(Mis: Notulen rapat, Laporan pengujianterdahulu, dll)
Macam-macam Pemeriksaan Sarana KA
• Pemeriksaan pertama saat barang keluar pabrik
• Pemeriksaan untuk keperluan uji pertama dan sertifikasi
• Pemeriksaan utuk keperluan uji berkala
• Pemeriksaan saat perawatan rutin/berkala atau insidentil
• Pemeriksaan harian:• Saat sarana KA akan dioperasikan (pre-departure inspection)
• Saat beroperasi (di stasiun/pos tertentu)
Macam-macam Pengujian Sarana KA
• Uji Pertama dan Uji Berkala
• Uji Statik dan Uji Dinamik
• Uji Beban (Statik) dan Uji Lelah (Fatigue)
• Uji Merusak / Tak Merusak
• Uji Komposisi material
TESTING AT ASSEMBLY WORKSHOP: CARBODY STRUCTURE TEST
COMPRESSION LOAD TEST ON U/F AS PRIMARY STRUCTUREVERTICAL LOAD IN CRUSH LOAD
CONDITION, EACH CRITICAL POINT WILL BE MEASURED USING PRECISION STRAIN GAUGE
STATIC TEST WITH ACTUAL LOAD VALUE AS DESIGN REQUIREMENT
BOGIE FRAME & POWERPACK FRAME FATIGUE TEST
Fatigue Test dengan beban dynamic
Bekerja sama dengan LUK Serpong
TESTING IN FINAL INSPECTION WORKSHOP: EQUIPMENT PERFORMANCE TEST
FINAL INSPECTION PIT
ELECTRICAL SYSTEM TEST
BOGIE AND AIR PRESSURE SYSTEM TEST
DRIVER CONTROL AND LIGHTING TEST
TESTING AT FINAL INSPECTION WORKSHOP: WEIGHT MEASUREMENT, LOADING GAUGE, RAIN TEST, DYNAMIC TEST
RAIN TEST, WEIGHT MEASUREMENT EQUIPMENT AND LOADING GAUGE
1.500 KVA POWER SUPPLY & SUB STATION FOR DYNAMIC TEST
• BRAKE SYSTEM : BRAKING TIME, STOPPING DISTANCE
• DRIVING SYSTEM
• ANTI SKID SYSTEM
• ELECTROMAGNETIC INTERFERENCE
• FAIL SAFE CONCEPT : ATP INTERFACE, POWER FAIL, FLAT TYRE, DOOR INTERLOCK, TMS COMMUNICATION
• RESCUE SIMULATION
SAFETY :
COMFORT
PERFORMANCE
• LIGHTING PERFORMANCE / LUX VALUE
• TEMPERATURE, HUMIDITY, HOMOGENOUS AIR FRESH DISTRIBUTION
• VIBRATION LEVEL AND NOISE
• DRIVER ERGONOMIC
• PASSENGER INFORMATION DISPLAY
• ACCELERATION AND DECELERATION
• MAXIMUM SPEED
• CURVE MANUVER
• PASSENGER CAPACITY & HANDICAP ACCESIBILITY
OPERATIONAL TEST
IN MAIN LINE
(DYNAMIC TEST)
THANK YOU