Page 1 SERVICE MANUAL THEORY OF OPERATION magicolor 2480MF 2005.11 2005.11 Ver. 1.0 Ver. 1.0...
Page 2: Table Of Contents
WARNING INDICATIONS ON THE MACHINE ............S-18 MEASURES TO TAKE IN CASE OF AN ACCIDENT ............S-20 Composition of the service manual ................. C-1 Notation of the service manual ..................C-2 magicolor 2480MF Main Unit Outline ..........................1 Composition/Operation ....................9 Auto Document Feeder Unit Outline ..........................
Page 4: Safety And Important Warning Items
IMPORTANT NOTICE Because of possible hazards to an inexperienced person servicing this product as well as the risk of damage to the product, KONICA MINOLTA BUSINESS TECHNOLOGIES, INC. (hereafter called the KMBT) strongly recommends that all servicing be performed only by KMBT-trained service technicians.
Page 5: Safety Warnings
[1] MODIFICATIONS NOT AUTHORIZED BY KONICA MINOLTA BUSINESS TECHNOLOGIES, INC. KONICA MINOLTA brand products are renowned for their high reliability. This reliability is achieved through high-quality design and a solid service network. Product design is a highly complicated and delicate process where numerous mechanical, physical, and electrical aspects have to be taken into consideration, with the aim of arriving at proper tolerances and safety factors.
Page 6 SAFETY AND IMPORTANT WARNING ITEMS [2] POWER PLUG SELECTION In some countries or areas, the power plug provided with the product may not fit wall outlet used in the area. In that case, it is obligation of customer engineer (hereafter called the CE) to attach appropriate power plug or power cord set in order to connect the product to the supply.
Page 7: Checkpoints When Performing On-Site Service
SAFETY AND IMPORTANT WARNING ITEMS [3] CHECKPOINTS WHEN PERFORMING ON-SITE SERVICE KONICA MINOLTA brand products are extensively tested before shipping, to ensure that all applicable safety standards are met, in order to protect the customer and customer engi- neer (hereafter called the CE) from the risk of injury. However, in daily use, any electrical equipment may be subject to parts wear and eventual failure.
Page 8 SAFETY AND IMPORTANT WARNING ITEMS Power Plug and Cord WARNING • When using the power cord set (inlet type) that came with this product, make sure the connector is securely inserted in the inlet of the product. When securing measure is provided, secure the cord with the fixture properly.
Page 9 SAFETY AND IMPORTANT WARNING ITEMS Wiring WARNING • Never use multi-plug adapters to plug multiple power cords in the same outlet. If used, the risk of fire exists. • When an extension cord is required, use a specified one. Current that can flow in the extension cord is limited, so using a too long extension cord may result in fire.
Page 10 SAFETY AND IMPORTANT WARNING ITEMS Ventilation CAUTION • The product generates ozone gas during operation, but it will not be harmful to the human body. If a bad smell of ozone is present in the following cases, ventilate the room. a.
Page 11 SAFETY AND IMPORTANT WARNING ITEMS Work Performed with the Product Powered On WARNING • Take every care when making adjustments or performing an operation check with the product powered. If you make adjustments or perform an operation check with the external cover detached, you may touch live or high-voltage parts or you may be caught in moving gears or the timing belt, leading to a risk of injury.
Page 12 SAFETY AND IMPORTANT WARNING ITEMS Safety Checkpoints WARNING • Check electrode units such as a charging corona unit for deterioration and sign of leakage. Current can leak, leading to a risk of trouble or fire. • Before disassembling or adjusting the write unit (P/H unit) incorporating a laser, make sure that the power cord has been disconnected.
Page 13: Handling Of Consumables
SAFETY AND IMPORTANT WARNING ITEMS Safety Checkpoints WARNING • Make sure that all screws, components, wiring, connec- tors, etc. that were removed for safety check and mainte- nance have been reinstalled in the original location. (Pay special attention to forgotten connectors, pinched cables, forgotten screws, etc.) A risk of product trouble, electric shock, and fire exists.
Page 14 SAFETY AND IMPORTANT WARNING ITEMS Handling of Service Materials CAUTION • Use only a small amount of cleaner at a time and take care not to spill any liquid. If this happens, immediately wipe it off. A risk of fire exists. •...
Page 15: Internal Laser Radiation
SAFETY AND IMPORTANT WARNING ITEMS [4] Laser Safety • This is a digital machine certified as a class 1 laser product. There is no possibility of danger from a laser, provided the machine is serviced according to the instruction in this manual.
Page 16 SAFETY AND IMPORTANT WARNING ITEMS the U.S.A., Canada (CDRH Regulation) • This machine is certified as a Class I Laser product under Radiation Performance Stan- dard according to the Food, Drug and Cosmetic Act of 1990. Compliance is mandatory for Laser products marketed in the United States and is reported to the Center for Devices and Radiological Health (CDRH) of the U.S.
Page 17 SAFETY AND IMPORTANT WARNING ITEMS Finland, Sweden VARO! • Avattaessa ja suojalukitus ohitettaessa olet alttiina näkymättömälle lasersäteilylle. Älä katso säteeseen. LOUKAN 1 LASERLAITE KLASS 1 LASER APPARAT VAROITUS! • Laitteen Käyttäminen muulla kuin tässä käyttöohjeessa mainitulla tavalla saattaa altistaa käyttäjän turvallisuusluokan 1 ylittävälle näkymättömälle lasersäteilylle. Puolijohdelaser Laserdiodin suurin teho 10 mW...
Page 18: Laser Safety Label
SAFETY AND IMPORTANT WARNING ITEMS Laser Safety Label • A laser safety labels is attached to the outside of the machine as shown below. COMPLIES WITH 21 CFR 1040.10 AND 1040.11 EXCEPT FOR DEVIATIONS PURSUANT TO LASER NOTICE NO.50, DATED JULY 26, 2001. or/and 4139P0E501DA S-15...
Page 19: Laser Caution Label
SAFETY AND IMPORTANT WARNING ITEMS Laser Caution Label • A laser caution label is attached to the inside of the machine as shown below. 4139P0E503DA S-16...
Page 20: Precautions For Handling The Laser Equipment
SAFETY AND IMPORTANT WARNING ITEMS Precautions For Handling The Laser Equipment • When laser protective goggles are to be used, select ones with a lens conforming to the above specifications. • When a disassembly job needs to be performed in the laser beam path, such as when working around the printerhead and PC Drum, be sure first to turn the copier OFF.
Page 21: Warning Indications On The Machine
SAFETY AND IMPORTANT WARNING ITEMS WARNING INDICATIONS ON THE MACHINE Caution labels shown are attached in some areas on/in the machine. When accessing these areas for maintenance, repair, or adjustment, special care should be taken to avoid burns and electric shock. High temperature High voltage 4139P0E504DA...
Page 22 SAFETY AND IMPORTANT WARNING ITEMS High voltage 4139P0E505DA CAUTION: • You may be burned or injured if you touch any area that you are advised not to touch by any caution label. Do not remove caution labels. If any caution label has come off or soiled and therefore the caution cannot be read, contact our Service Office.
Page 23: Measures To Take In Case Of An Accident
MEASURES TO TAKE IN CASE OF AN ACCIDENT MEASURES TO TAKE IN CASE OF AN ACCIDENT 1. If an accident has occurred, the distributor who has been notified first must immediately take emergency measures to provide relief to affected persons and to prevent further damage.
Page 24: Composition Of The Service Manual
Composition of the service manual This service manual consists of Theory of Operation section and Field Service section to explain the main machine and its corresponding options. Theory of Operation section gives, as information for the CE to get a full understanding of the product, a rough outline of the object and role of each function, the relationship between the electrical system and the mechanical system, and the timing of operation of each part.
Page 25: Notation Of The Service Manual
Notation of the service manual A. Product name In this manual, each of the products is described as follows: (1) IC board: Standard printer (2) magicolor 2480MF: Main body (3) Microsoft Windows 95: Windows 95 Microsoft Windows 98: Windows 98...
Page 26: Main Unit
SERVICE MANUAL THEORY OF OPERATION magicolor 2480MF magicolor 2480MF ® Main Unit 2005.11 Ver. 1.0...
Page 27: Revision History
Revision history After publication of this service manual, the parts and mechanism may be subject to change for improvement of their performance. Therefore, the descriptions given in this service manual may not coincide with the actual machine. When any change has been made to the descriptions in the service manual, a revised version will be issued with a revision mark added as required.
Page 28 Theory of Operation Ver. 1.0 Nov. 2005 CONTENTS magicolor 2480MF Main Unit Outline System configuration....................1 Product specifications ..................... 2 Built-in Controllers ....................4 Center cross section ....................5 Paper path....................... 6 Image creation process ................... 7 Composition/Operation Overall composition....................9 Operation sequence .....................
Page 29 Theory of Operation Ver. 1.0 Nov. 2005 10.3 Operation......................23 10.3.1 Photo Conductor drive mechanism............. 23 10.3.2 Photo Conductor cleaning mechanism ............23 Charge Corona section ..................24 11.1 Composition ....................... 24 11.2 Operation......................25 11.2.1 Charge Corona Unit ON/OFF control ............25 Developing section....................
Page 30 Theory of Operation Ver. 1.0 Nov. 2005 15.3.2 Paper feed speed control ................51 15.3.3 Paper feed mechanism ................52 15.3.4 Double feed prevention mechanism............53 15.3.5 Paper empty condition detection..............53 15.3.6 Paper feed retry function................53 Conveyance Section/Registration Roller ............... 54 16.1 Composition......................
Page 31 Theory of Operation Ver. 1.0 Nov. 2005 20.1.2 Control ......................72 20.2 Temperature/ Humidity Sensor ................73 20.2.1 Composition....................73...
Page 32: Outline
Theory of Operation Ver. 1.0 Nov. 2005 1. System configuration Outline System configuration Machine Front View 4139T2E562AA magicolor 2480MF Lower Feeder Unit Duplex Option Dust Cover* *: Standard for U.S.A and Europe...
Page 33: Product Specifications
2. Product specifications Theory of Operation Ver. 1.0 Nov. 2005 Product specifications A. Type Type Desktop Printing System Semiconductor laser and electrostatic image transfer to plain paper Exposure System 2 laser diodes and polygon mirror PC Drum Type OPC (organic photo conductor) Photoconductor Blade cleaning system Cleaning...
Page 34 Theory of Operation Ver. 1.0 Nov. 2005 2. Product specifications B. Functions Average: 70 seconds (100 V area) Warm-up Time Average: 75 seconds (200 - 240 V area) (at ambient temperature of 23 °C/73.4 °F and rated source voltage) Plain paper 126.78 mm/second System Speed Thick stock...
Page 35: Built-In Controllers
2. Product specifications Theory of Operation Ver. 1.0 Nov. 2005 E. Operating Environment 10 °C to 35 °C / 50 °F to 95 °F (with a fluctuation of 10 °C / 18 °F or less per Temperature hour) Humidity 15% to 85% (with a fluctuation of 20% or less per hour) Built-in Controllers DC2040 108MHz Standard Memory...
Page 36: Center Cross Section
Theory of Operation Ver. 1.0 Nov. 2005 3. Center cross section Center cross section [11] [10] 4139T1C501AA Fusing section Toner Cartridge Section Duplex Unit Section * Drum Cartridge Section 2nd Transfer Section Transfer Belt Section Lower Feeder Section * [10] IR section Paper Feed Section [11]...
Page 37: Paper Path
4. Paper path Theory of Operation Ver. 1.0 Nov. 2005 Paper path <Machine Right Side View> 4139T1C502AA <Machine Front View> 4139T1C504AA...
Page 38: Image Creation Process
Theory of Operation Ver. 1.0 Nov. 2005 5. Image creation process Image creation process [1] CCD (Photoelectric Conversion) [2] Image Processing Board [11] Transfer Belt Cleaning [12] Fusing [7] 1st Image Transfer [6] Developing [9] Paper Separation [8] 2nd Image Transfer [10] Photo Conductor Cleaning [4] Photo conductor [5] Photo Conductor Charging...
Page 39 5. Image creation process Theory of Operation Ver. 1.0 Nov. 2005 • Light reflected off the surface of the original is converted to a corre- CCD (Photoelectric sponding electric signal by CCD and the resultant electric signal is sent Conversion) to the Image Processing Board.
Page 40: Composition/Operation
Theory of Operation Ver. 1.0 Nov. 2005 6. Overall composition Composition/Operation Overall composition Operation sequence Print Request Fusing Motor (M7) Main Motor (M1) Polygon Motor Charge output 1st transfer output 2nd transfer output 2nd Transfer Roller retracted Pressure/Retraction Solenoid /Cleaning Blade (SL3) Developing Motor (M3) Rack Motor (M2) Tray1 Paper Pick-up Solenoid (SL1)
Page 41: Control Block Diagram
6. Overall composition Theory of Operation Ver. 1.0 Nov. 2005 Control block diagram CCD Unit Scanner Motor Operation Auto Document Various IR sensors Panel Feeder IR Cooling Fan Motor Image Processing Board (IPB) IR Unit open/close sensor Image processing DC power supply2 Write Unit (PH) Lower Feeder Unit Printer Control Board PRCB)
Page 42: Scanner Section (Ir Section)
Theory of Operation Ver. 1.0 Nov. 2005 7. Scanner Section (IR Section) Scanner Section (IR Section) Composition 4139T2C560AA 4139T2C502AA Scanner Unit Scanner Motor IR Cooling Fan Motor 4139T2C565AA...
Page 43: Drive
7. Scanner Section (IR Section) Theory of Operation Ver. 1.0 Nov. 2005 Drive 4139T2C566AA...
Page 44: Operation
Theory of Operation Ver. 1.0 Nov. 2005 7. Scanner Section (IR Section) Operation 7.3.1 IR Unit Open/Close Mechanism • The machine is provided with the IR Unit open/close mechanism to allow the Toner Car- tridge, Drum Cartridge, and other disposables to be replaced with new ones. •...
Page 45 7. Scanner Section (IR Section) Theory of Operation Ver. 1.0 Nov. 2005 A. IR Unit open/close operation • Pulling the IR Unit Lock Release Lever will disengage the IR Unit Lock Pawl, allowing the IR Unit to be opened. IR Unit Lock Pawl IR Unit Lock Release Lever 4139T2C550AA •...
Page 46: Auto Document Feeder Unit Open/Close
Theory of Operation Ver. 1.0 Nov. 2005 7. Scanner Section (IR Section) 7.3.2 Auto Document Feeder Unit Open/Close • To prevent the Auto Document Feeder Unit from being raised or lowered when the IR Unit is opened or closed, the Auto Document Feeder Unit is secured to the IR Unit when the IR Unit is to be opened or closed.
Page 47: Write Section (Ph Section)
8. Write section (PH section) Theory of Operation Ver. 1.0 Nov. 2005 Write section (PH section) Composition 4139to2002c0 Semiconductor Laser 4139T2C503AA G2 Lens SOS Sensor SOS Mirror G1 Lens G2 Lens (SOS Lens) Polygon Mirror Return Mirror 4139T2C511AA...
Page 48: Operation
Theory of Operation Ver. 1.0 Nov. 2005 8. Write section (PH section) Operation 8.2.1 Outline • The surface of the Photo Conductor is irradiated with a laser light and an electrostatic latent image is thereby formed. • The Polygon Mirror has four faces. The machine uses a two-beam array LD to inhibit the speed of the Polygon Mirror from increasing because of the decreased number of faces the Polygon Mirror has as compared with the conventional models.
Page 49: Laser Emission Timing
8. Write section (PH section) Theory of Operation Ver. 1.0 Nov. 2005 8.2.3 Laser emission timing • When a Ready signal is detected after the lapse of a given period of time after the print cycle has been started, a Laser ON signal is output from the Print Control Board (PWB- •...
Page 50: Cartridge Section
Theory of Operation Ver. 1.0 Nov. 2005 9. Cartridge section Cartridge section Composition Drum Cartridge 4139to2053e0 Toner Cartridge 4139T2C504AA 4139to2054e0...
Page 51: Drive
9. Cartridge section Theory of Operation Ver. 1.0 Nov. 2005 Drive Main Motor Drum Cartridge Photo Conductor Developing Motor Toner Cartridge 4139to2055e0 Operation 9.3.1 Drum Cartridge (DC) life control • The Drum Cartridge offers the following life controls: detecting a new DC and resetting the life counter.
Page 52: Toner Cartridge (Tc) Life Control
Theory of Operation Ver. 1.0 Nov. 2005 9. Cartridge section 9.3.2 Toner Cartridge (TC) life control A. Toner Cartridge detection and new cartridge detection timing • The machine attempts to perform a detection sequence when the Front Door is closed. B.
Page 53: Photo Conductor Section
10. Photo Conductor section Theory of Operation Ver. 1.0 Nov. 2005 10. Photo Conductor section 10.1 Composition Drum Cartridge Photo Conductor 4139to2056e0 4139T2C505AA Charge Generating Layer Charge Transport Layer Aluminum Base 4139to2057e0 10.2 Drive Main Motor Photo Conductor 4139to1058e0...
Page 54: Operation
Theory of Operation Ver. 1.0 Nov. 2005 10. Photo Conductor section 10.3 Operation 10.3.1 Photo Conductor drive mechanism • The Photo Conductor is driven by the Main Motor (M1). • When the Main Motor (M1) is energized, it turns the drive gear, which in turn rotates the Photo Conductor.
Page 55: Charge Corona Section
11. Charge Corona section Theory of Operation Ver. 1.0 Nov. 2005 11. Charge Corona section 11.1 Composition Charge Corona 4139T2C505AA 4139T2C512AA Grid Mesh Electrode 4139T2C513AA...
Page 56: Operation
Theory of Operation Ver. 1.0 Nov. 2005 11. Charge Corona section 11.2 Operation 11.2.1 Charge Corona Unit ON/OFF control • The grid voltage (Vg) applied to the Grid Mesh is controlled by image stabilization con- trol. Standby Position Polygon Motor Energized Belt Positioning K Toner Developing Position Sensor Activated...
Page 57: Developing Section
12. Developing section Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section 12.1 Composition 4139T2C559AA 4139T2C504AA Main Motor (M1) Developing Motor (M3) 4139T2C514AA Photo Conductor Cleaning Blade Hopper Waste Toner Supply Roller Agitating Screw Developing Roller Charge Corona Regulator Blade/2nd Agitating Blade Regulator Blade/1st 4139T2C515AA...
Page 58: Drive
Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section 12.2 Drive Main Motor (M1) Photo Conductor Developing Motor (M3) Developing Roller 4139T2C517AA A. Developing Roller drive • The Developing Roller is driven by the Developing Motor (M3) and Intermediate Gear. •...
Page 59: Developing Drive Control
12. Developing section Theory of Operation Ver. 1.0 Nov. 2005 12.2.1 Developing drive control Polygon Motor Energized K Toner Standby Position Developing Belt Positioning Position Print Start Sensor Activated Rack Motor (M2) Developing Motor (M3) Developing bias AC Developing bias DC Main Motor (M1) Charge output bias 4139to2102e0...
Page 60: Developing Bias
Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section 12.2.3 Developing bias • The developing bias voltage (Vb) is applied to the Developing Roller so that an adequate amount of toner is attracted onto the surface of the Photo Conductor. •...
Page 61: Toner Cartridge Rack
12. Developing section Theory of Operation Ver. 1.0 Nov. 2005 12.2.5 Toner Cartridge Rack • The Toner Cartridge Rack is mounted with four Toner Cartridges. The rack employs a rotary system. • Development of the image of each color of toner is performed by rotating the Toner Car- tridge Rack.
Page 62 Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section B. Toner Cartridge Rack stop position • The Toner Cartridge Rack must be brought to a stop so that the Toner Cartridge of each color of toner is located at its correct position. To accomplish this task, three stop posi- tions are established: the standby (reference) position, the developing position, and the cartridge replacement position.
Page 63 12. Developing section Theory of Operation Ver. 1.0 Nov. 2005 (3) Cartridge replacement position • The cartridge replacement position is where the Toner Cartridge Rack is rotated 70° from the developing position. For Developing of K 70˚ K Developing Position Cartridge Replacement Position 4139to2069e0 C.
Page 64 Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section D. Color printing process (1) Operation sequence 1. The Toner Cartridge Rack is stationary at the standby position. 2. When a print request is received from the controller, the Toner Cartridge Rack is rotated to bring the Y Toner Cartridge to its developing position.
Page 65 12. Developing section Theory of Operation Ver. 1.0 Nov. 2005 E. Toner Cartridge Rack stop position detection • The Toner Cartridge Rack stop position for each color of toner is detected by the Rack Motor (M2) and the Rack Positioning Sensor (PS3). •...
Page 66 Theory of Operation Ver. 1.0 Nov. 2005 12. Developing section (2) Toner Cartridge Rack developing position • To bring the Toner Cartridge Rack to a stop at the corresponding developing position, the rack is rotated from the standby position 45° through pulse control of the Rack Motor. (3) Cartridge replacement position •...
Page 67: Image Transfer Section
13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section 13.1 Composition 13.1.1 1st transfer section 4139to2019c0 4139T2C506AA Driven Roller Transfer Belt 1st Transfer Roller IDC Sensor (IDC) Transfer Belt Drive Roller Cleaning Blade Toner Collecting Screw Belt Positioning Sensor (PS4) Photo Conductor 4139T2C519AA...
Page 68: 2Nd Transfer Section
Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section 13.1.2 2nd transfer section 4139to2020c0 4139T2C506AA 2nd Transfer Roller Pressure/Retraction Clutch Pressure/ Retraction Slider Pressure/Retraction Roller 4139T2C520AA Pressure/ Retraction Slider 2nd Transfer Roller 4139T2C521AA...
Page 69: Drive
13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 13.2 Drive Main Motor (M1) 2nd Transfer Roller Transfer Belt Drive Roller Transfer Belt Unit 1st Transfer Roller 4139T2C522AA 13.3 Operation 13.3.1 Transfer Belt cleaning mechanism • To scrape residual toner off the surface of the Transfer Belt, there is a Cleaning Blade provided.
Page 70 Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section A. Cleaning Blade pressure/retraction mechanism • In color printing, an image is formed on the Transfer Belt for each color of toner. The Cleaning Blade is therefore provided with a pressure/retraction mechanism. •...
Page 71 13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 (2) Operation timing SL3 Energization Signal (after Main Motor has been energized) When power is turned ON: Main Motor (M1) Pressure/Retraction Solenoid To pressed position /Cleaning Blade (SL3) Retraction Position Sensor /Cleaning Blade (PC6) K print completed Y-TOD (CD Print Start signal for yellow)
Page 72 Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section (4) Pressure sequence 1. When the Pressure/Retraction Solenoid /Cleaning Blade (SD3) is energized in the condition, in which the Cleaning Blade is retracted from the Transfer Belt, the pres- sure cam rotates a half turn.
Page 73: 1St Transfer Roller Voltage On/Off Control
13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 13.3.2 1st Transfer Roller voltage ON/OFF control Image write start position for Image write start position for a paper size of A4 or smaller a paper size greater than A4 Belt Positioning Sensor (PC4) /TOD (Image Write Start signal) Rack Motor (M2)
Page 74 Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section (1) Pressure sequence 1. Drive from the Main Motor (M1) is transmitted to the drive gear. 2. Rotation of the drive gear is transmitted to the Pressure/Retraction Clutch. 3. When the Pressure/Retraction Solenoid /2nd Image Transfer (SD4) is energized, the Pressure/Retraction Clutch rotates a half turn.
Page 75: 2Nd Transfer Roller Cleaning
13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 13.3.4 2nd Transfer Roller cleaning • DC positive and negative transfer bias voltages are alternately applied to the 2nd Trans- fer Roller. This allows toner residue on the surface of the 2nd Transfer Roller to be trans- ferred back to the Transfer Belt, thus cleaning the 2nd Transfer Roller.
Page 76: Neutralization And Separation Of Paper
Theory of Operation Ver. 1.0 Nov. 2005 13. Image Transfer Section 13.3.5 Neutralization and separation of paper • To neutralize the paper that has undergone the 2nd transfer process, a Charge Neutraliz- ing Cloth is provided for the guide plate after the 2nd Transfer Roller. Charge Neutralizing Cloth Charge Neutralizing Cloth 2nd Transfer Roller...
Page 77: Atvc (Auto Transfer Voltage Control)
13. Image Transfer Section Theory of Operation Ver. 1.0 Nov. 2005 13.3.7 ATVC (Auto Transfer Voltage Control) • The ATVC, or Auto Transfer Voltage Control, is for optimizing the transfer output. A con- stant current is made to flow through each of the Transfer Rollers. From the voltage thereby detected, the resistance of each of the 1st Transfer Roller, 2nd Transfer Roller, and Transfer Belt is measured.
Page 78: Toner Collecting Section
Theory of Operation Ver. 1.0 Nov. 2005 14. Toner collecting section 14. Toner collecting section 14.1 Composition Toner Collecting Screw Waste Toner Conveyance Unit 4139T2C507AA Toner Agitating Screw 4139T2C523AA 14.2 Drive Toner Collecting Screw Transfer belt Waste Toner Conveyance Unit Driven Roller Main Motor (M1) Toner Agitating Screw...
Page 79: Operation
14. Toner collecting section Theory of Operation Ver. 1.0 Nov. 2005 14.3 Operation 14.3.1 Toner collecting mechanism • Waste toner scraped off by the Cleaning Blade of the Transfer Belt and that scraped off by the Cleaning Blade of the Photo Conductor are conveyed by each of the Toner Col- lecting Screws into the Drum Cartridge.
Page 80: Waste Toner Full Detection System
Theory of Operation Ver. 1.0 Nov. 2005 14. Toner collecting section 14.3.2 Waste toner full detection system • A waste toner near full condition is detected using the output state of the Waste Toner Near Full Detect Board/led (WTDTB/LED). • A waste toner near full condition is detected by letting the light emitted from the LED mounted on the Waste Toner Near Full Detect Board/led (WTDTB/LED) travel through the light guide.
Page 81: Paper Feed Section
15. Paper feed section Theory of Operation Ver. 1.0 Nov. 2005 15. Paper feed section 15.1 Composition Lower Feeder Unit 4139T2C525AA 4139T2C508AA Pick-up Roller Tray1 Paper Pick-up Solenoid Tray1 Paper Empty Sensor (SD1) (PS9) 4139T2C551AA...
Page 82: Drive
Theory of Operation Ver. 1.0 Nov. 2005 15. Paper feed section 15.2 Drive Main Motor (M1) Paper Pick-up Clutch Pick-up Roller Tray1 Paper Pick-up Solenoid (SL1) 4139T2C527AA 15.3 Operation 15.3.1 Paper feed control Print Start Signal * C-TOD * C-TOD Main Motor (M1) Belt Positioning Sensor (PC4) Tray1 Paper Pick-up Solenoid (SL1)
Page 83: Paper Feed Mechanism
15. Paper feed section Theory of Operation Ver. 1.0 Nov. 2005 15.3.3 Paper feed mechanism • When the Tray1 Paper Pick-up Solenoid (SL1) is energized, drive from the Main Motor (M1) is transmitted to the Pick-up Roller via the Paper Pick-up Clutch. The Pick-up Roller is thereby rotated.
Page 84: Double Feed Prevention Mechanism
Theory of Operation Ver. 1.0 Nov. 2005 15. Paper feed section 15.3.4 Double feed prevention mechanism • The fixed Separation Pad system plus the Claw Stoppers are used for paper separation. This ensures that only the first sheet of paper is taken up and fed in. Pick-up Roller Separation Pad 4139to2090e0...
Page 85: Conveyance Section/Registration Roller
16. Conveyance Section/Registration Roller Theory of Operation Ver. 1.0 Nov. 2005 16. Conveyance Section/Registration Roller 16.1 Composition Registration roller OHP Sensor (PS2) Conveyance roller 4139T2C528AA 4139T2C509AA Registration roller Main Motor (M1) Registration Sensor (PS1) Registration Roller Solenoid (SD2) Conveyance roller 4139T2C529AA...
Page 86: Drive
Theory of Operation Ver. 1.0 Nov. 2005 16. Conveyance Section/Registration Roller 16.2 Drive Actuator Registration Sensor (PS1) 4139T2C530AA 16.3 Operation 16.3.1 Registration Roller control • The Registration Sensor (PS1) detects whether or not the paper has reached the Con- veyance Section. •...
Page 87: Ohp Film Detection
16. Conveyance Section/Registration Roller Theory of Operation Ver. 1.0 Nov. 2005 16.3.2 OHP film detection • To ensure that the paper of the correct type is being used, the OHP Sensor (PS2) detects the type of the paper being conveyed. •...
Page 88: Fusing Section
Theory of Operation Ver. 1.0 Nov. 2005 17. Fusing section 17. Fusing section 17.1 Composition 4139T2C567AA Thermistor (TH1) 4139T2C510AA Exit Sensor (PS7) Thermostat Fusing Motor (M4) Cleaning Roller Heater Lamp Pressure Roller Heating Roller 4139T2C531AA 4139T2C532AA...
Page 89: Drive
17. Fusing section Theory of Operation Ver. 1.0 Nov. 2005 17.2 Drive Fusing Motor Heating Roller 4139to2094e0 17.3 Operation 17.3.1 Heating Roller drive control A. Speed change control • Drive for the Heating Roller is provided by the Fusing Motor (M4). •...
Page 90 Theory of Operation Ver. 1.0 Nov. 2005 17. Fusing section C. Operation flow 1. The initial fusing speed is set to the low speed, thereby forming a loop in the paper between the 2nd Transfer Roller and Fusing Rollers. When the length of the loop formed in the paper becomes greater, the Fusing Paper Loop Sensor (PS8) is activated (blocked).
Page 91: Fusing Temperature Control
17. Fusing section Theory of Operation Ver. 1.0 Nov. 2005 17.3.2 Fusing temperature control • A thermistor is used to detect the surface temperature of the Heating Roller. The Heater Lamp (H1) is then turned ON and OFF as necessary to achieve the set temperature. Temperature control during monochrome printing (Plain paper) Power Switch ON Copy/Print Start...
Page 92 Theory of Operation Ver. 1.0 Nov. 2005 17. Fusing section Temperature control during color printing (Plain paper) Copy/Print Start Power Switch ON Fusing Ready Temperature [*b] [*a] Approx. 45 sec. Warm-up completed (approx.70 seconds for 100 V area) 4139T2E564AA (approx.75 seconds for 200 V area) [1] During warm-up cycle [3] During a print cycle Heating Roller temperature setting: 189 °C...
Page 93 17. Fusing section Theory of Operation Ver. 1.0 Nov. 2005 A. Warm-up • Control is provided until the Heating Roller temperature reaches 178 °C. • This control is performed when the Power Switch is turned ON, a malfunction or paper misfeed is reset, the Energy Saver mode is canceled, or the door is opened and closed.
Page 94 Theory of Operation Ver. 1.0 Nov. 2005 17. Fusing section (2) Color printing (1-sided) • If the print cycle is started in a condition, in which the Temperature/Humidity Sensor (TEM/HUMS) detects 20 °C or more, control is returned back to one having a control temperature of more than 60 °C after five printed pages have been produced.
Page 95: Protection Against Abnormally High Temperature
17. Fusing section Theory of Operation Ver. 1.0 Nov. 2005 17.3.3 Protection against abnormally high temperature • The machine provides protection at three different stages to prevent abnormally high temperature of the Fusing Unit. A. Soft protection • If the Thermistor (TH1) detects a temperature exceeding a predetermined value, the mal- function code representing abnormally high temperature is displayed.
Page 96: Ppm Control
Theory of Operation Ver. 1.0 Nov. 2005 17. Fusing section 17.3.4 PPM control • PPM control is provided to prevent the temperature on edges of the Heating Roller from increasing during a multi-print cycle using plain paper of a small size. •...
Page 97: Paper Exit Section
18. Paper exit section Theory of Operation Ver. 1.0 Nov. 2005 18. Paper exit section 18.1 Composition 4139T2C558AA 4139T2C510AA Exit Sensor (PS7) Paper Exit Roller 4139T2C552AA...
Page 98: Drive
Theory of Operation Ver. 1.0 Nov. 2005 18. Paper exit section 18.2 Drive Fusing Motor (M4) Paper exit roller 4139T2C557AA 18.3 Operation 18.3.1 Exit Tray Full Detection • The Exit Tray is provided with a paper full detection system. When the Exit Tray Full Sen- sor is unblocked, the corresponding message will be displayed on the control panel.
Page 99: Image Stabilization Control
19. Image stabilization control Theory of Operation Ver. 1.0 Nov. 2005 19. Image stabilization control 19.1 Overview • To ensure that a stabilized output image is produced at all times, the following image sta- bilization controls are provided. Purpose Control Detection ATVC To ensure stabilized transfer...
Page 100: Operation
Theory of Operation Ver. 1.0 Nov. 2005 19. Image stabilization control 19.2 Operation 19.2.1 Leak detection control • For the clearance between the Photo Conductor and Developing Roller, an optimum developing bias voltage is established that does not result in a leak image or uneven density.
Page 101: Operation Timing
19. Image stabilization control Theory of Operation Ver. 1.0 Nov. 2005 19.3 Operation timing Mode Operation Timing • The environment in which the Power Switch is turned ON is different from the environ- ment the machine was in when the Power Switch was turned OFF last. •...
Page 102: Other Control
Theory of Operation Ver. 1.0 Nov. 2005 20. Other control 20. Other control 20.1 Fan control 20.1.1 Construction IR Cooling Fan Motor Exhaust Power Supply Cooling Fan Motor Suction Ventilation Fan Motor Exhaust Ozone Filter 4139T2C554AA...
Page 103 20. Other control Theory of Operation Ver. 1.0 Nov. 2005 20.1.2 Control A. Power Supply Cooling Fan Motor <Full-speed conditions> • For the predetermined period of time after the Power Switch has been turned ON • For the specified period of time up to the end of Energy Saver mode •...
Page 104: Temperature/ Humidity Sensor
Theory of Operation Ver. 1.0 Nov. 2005 20. Other control 20.2 Temperature/ Humidity Sensor 20.2.1 Composition • The Temperature/Humidity Sensor is used to detect the temperature of the inside of the machine. It is also used for image stabilization, transfer ATVC, and fusing temperature control. Temperature/ Humidity Sensor (TEM/HUMS) 4139T2C555AA...
Page 105 20. Other control Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 106: Auto Document Feeder Unit
SERVICE MANUAL THEORY OF OPERATION Auto Document Feeder Unit 2005.11 Ver. 1.0...
Page 107 Revision history After publication of this service manual, the parts and mechanism may be subject to change for improvement of their performance. Therefore, the descriptions given in this service manual may not coincide with the actual machine. When any change has been made to the descriptions in the service manual, a revised version will be issued with a revision mark added as required.
Page 108 Theory of Operation Ver. 1.0 Nov. 2005 CONTENTS Auto Document Feeder Unit Outline Product Specifications..................... 1 Composition/Operation Composition ......................3 Drive ........................4 Mechanical operations .................... 5 Document Take-up Mechanism ................5 4.1.1 Document Take-up Mechanism..............5 4.1.2 Document Separation Mechanism ..............6 Document Transport/Exit Mechanism..............
Page 109 Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 110: Outline
Theory of Operation Ver. 1.0 Nov. 2005 1. Product Specifications Outline Product Specifications A. Type Name Automatic Document Feeder Installation Inserted at upper-rear side of main unit Document Alignment Center Document Loading Face up B. Functions Modes 1-Sided Mode C. Paper type Type of Document 1-Sided mode (Plain Paper): 35 g/m to 128 g/m...
Page 111 1. Product Specifications Theory of Operation Ver. 1.0 Nov. 2005 E. Paper feed not guaranteed originals • If fed, paper feed will be possible to some extent but trouble occurrence will be possible. Type of Original Possible Trouble Sheets lightly curled (Curled amount: 10 - 15 mm) Dog-eared, exit failure Heat Sensitive Paper Edge folded, exit failure, transport failure...
Page 112: Composition/Operation
Theory of Operation Ver. 1.0 Nov. 2005 2. Composition Composition/Operation Composition 4556T2C506AA 4556T2C505AA DF Control Board (DFCB) Pick-up Roller Original Detection Sensor (PS1) Main Motor (M1) Paper Feed Sensor (PS2) Paper Leading Edge Detection Sensor (PS3) 4556T2C507AA Take-up Roller...
Page 113: Drive
3. Drive Theory of Operation Ver. 1.0 Nov. 2005 3. Drive 4556T2C508AA...
Page 114: Mechanical Operations
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Mechanical operations Document Take-up Mechanism 4.1.1 Document Take-up Mechanism • The Original Detection Sensor detects a document that has been properly loaded in the Document Feeder. • The Document Stopper establishes the leading edge position of the document loaded in the Document Feeder.
Page 115: Document Separation Mechanism
4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 4.1.2 Document Separation Mechanism • Double feeding of paper is prevented using coefficient of friction between the Take-up Roller and Separator Pad. Take-up Roller Separator Pad 4556T2C502AA Single sheet feeding : The coefficient of friction on the front side of the paper fed between the Take-up Roller and Separator Pad is equal to that on the backside of the paper.
Page 116: Document Transport/Exit Mechanism
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Document Transport/Exit Mechanism 4.2.1 Document transport mechanism • The original that has been taken up blocks the Paper Feed Sensor. The Transport Roller turns to transport the original up to the document scanning position of the printer. •...
Page 117: Document Exit Mechanism
4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 4.2.2 Document exit mechanism • The Exit Roller turns to feed the original out of the Document Feeder. During this sequence, the original blocks the Paper Leading Edge Detection Sensor and is fed onto the Document Exit Tray.
Page 118: Miscellaneous
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Miscellaneous 4.3.1 Document Feeder raised/lowered position detection mechanism • There is a magnet provided in the Document Feeder, allowing the printer to detect the position of the Document Feeder whether the Document Feeder is raised or lowered. •...
Page 119 4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 120: Lower Feeder Unit
SERVICE MANUAL THEORY OF OPERATION Lower Feeder Unit 2005.11 Ver. 1.0...
Page 121 Revision history After publication of this service manual, the parts and mechanism may be subject to change for improvement of their performance. Therefore, the descriptions given in this service manual may not coincide with the actual machine. When any change has been made to the descriptions in the service manual, a revised version will be issued with a revision mark added as required.
Page 122 Theory of Operation Ver. 1.0 Nov. 2005 CONTENTS Lower Feeder Unit Outline Product specifications ..................... 1 Composition/Operation Composition ......................3 Drive ........................4 Mechanical operation ....................5 Conveyance Drive Mechanism ................5 Paper Empty Detection ..................6 Tray Set Detection ....................7...
Page 123 Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 124: Outline
Theory of Operation Ver. 1.0 Nov. 2005 1. Product specifications Outline Product specifications A. Type Name Add-on 500-sheet paper feed cassette Type Front-loading type Installation Desk type Document Alignment Center B. Paper type Paper Size A4/Letter Paper Type Plain paper: 60 to 90 g/m (16 to 24 lb) Capacity 500 sheets...
Page 125 1. Product specifications Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 126: Composition/Operation
Theory of Operation Ver. 1.0 Nov. 2005 2. Composition Composition/Operation Composition 4056T2C501AA 4056T2C509AA Tray Set Detecting Switch (SW1) PF Drive Board (PFDB) Paper Empty Sensor (PS1) Paper Pick-up Solenoid (SD1) 4056T2C502AA...
Page 127: Drive
3. Drive Theory of Operation Ver. 1.0 Nov. 2005 Drive 4056T2C510AA...
Page 128: Mechanical Operation
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operation cal operation Mechani Conveyance Drive Mechanism • The Lower Feeder Unit is not provided with any drive motor. The driving force for paper feeding and conveyance (drive from M1) is transmitted through a coupling gear from the printer.
Page 129: Paper Empty Detection
4. Mechanical operation Theory of Operation Ver. 1.0 Nov. 2005 Paper Empty Detection • The Paper Empty Sensor (PS1) of the PF Drive Board (PFDB) detects a paper empty condition in the Lower Feeder Unit. • When there is paper loaded in the Lower Feeder Unit, the actuator is raised, which unblocks the sensor.
Page 130: Tray Set Detection
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operation Tray Set Detection • The Lower Feeder Unit is provided with a Tray Set Detecting Switch (SW1) that is attached with a segment lever. • When Tray 2 is inserted, the switch actuator on the right-hand side of Tray 2 pushes the lever.
Page 131 4. Mechanical operation Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 132: Duplex Option
SERVICE MANUAL THEORY OF OPERATION Duplex Option 2005.11 Ver. 1.0...
Page 133 Revision history After publication of this service manual, the parts and mechanism may be subject to change for improvement of their performance. Therefore, the descriptions given in this service manual may not coincide with the actual machine. When any change has been made to the descriptions in the service manual, a revised version will be issued with a revision mark added as required.
Page 134 Theory of Operation Ver. 1.0 Nov. 2005 CONTENTS Duplex Option Outline Product specifications ..................... 1 Composition/Operation Composition ......................3 Drive ........................4 Mechanical operations .................... 5 Switchback mechanism ..................5 4.1.1 Switchback operation ..................5 4.1.2 Paper exit roller drive coupling mechanism........... 6 4.1.3 Switchback Motor Control ................
Page 135 Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 136: Outline
Theory of Operation Ver. 1.0 Nov. 2005 1. Product specifications Outline Product specifications A. Type Name Duplex Option Type Switchback and Circulating Duplex Unit Installation Mounted on the right side door of main unit Reversing System Exit Roller switchback Conveyance system Rubber roller + driven rolls Document Alignment Center...
Page 137 1. Product specifications Theory of Operation Ver. 1.0 Nov. 2005 Blank Page...
Page 138: Composition/Operation
Theory of Operation Ver. 1.0 Nov. 2005 2. Composition Composition/Operation Composition 4057T2C509AA Transport Roller 1 4057T2C501AA Registration Roller Transport Roller 2 4057T2C502AA Reverse Motor (M2) Cooling Fan Motor (FM1) Transport Motor (M1) Transport Sensor (PS3) Door Sensor (PS2) Registration Solenoid (SD1) AD Drive Board (ADDB) Paper Loop Sensor (PS1) Registration Roller...
Page 139: Drive
3. Drive Theory of Operation Ver. 1.0 Nov. 2005 Drive Reverse Motor (M2) Transport Roller 1 Transport Motor (M1) Registration Roller Transport Roller 2 4057T2C504AA...
Page 140: Mechanical Operations
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Mechanical operations Switchback mechanism 4.1.1 Switchback operation • The Paper Exit Roller of the main unit is used to subject the 1-sided print to a switchback sequence so that the 1-sided print is to be transported through the Duplex Option. Feeding the Paper into Duplex Option Exit Sensor (PS7) Paper Exit Roller...
Page 141: Paper Exit Roller Drive Coupling Mechanism
4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 4.1.2 Paper exit roller drive coupling mechanism • When the Duplex Option is mounted, the gear assy of the Fusing Unit is raised by the leading edge of the Duplex Option lever, thereby disconnecting drive from the machine (Fusing Roller).
Page 142: Transport And Duplex Paper Take-Up Mechanism
Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Transport and duplex paper take-up mechanism 4.2.1 Transport and duplex paper take-up operation • Drive for the Duplex Option is provided by the Transport Motor (M1). Transport Roller 1 Transport Motor (M1) Registration Roller Transport Roller 2 4057to2509c0...
Page 143: 2-Sided Printing Method
4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 2-sided printing method • The following two types of 2-sided printing methods are available. 2-sided printing with a single sheet of paper resident in the system 2-sided printing method 2-sided printing with two sheets of paper resident in the system (When the FD length is no less than 276 mm, no more than 297 mm).
Page 144 Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Operation 4 • The main unit carries out the second print cycle to produce the print image of the first page of the original on the other side of the 1-sided print. Operation 5 •...
Page 145: Operations In 2-Sided Printing With Two Sheets Of Paper Resident In The System
4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 4.3.2 Operations in 2-sided printing with two sheets of paper resident in the sys- Operation 1 Paper Exit Roller • The first sheet of paper is taken up and fed in from the main unit drawer and the main unit starts the first print cycle to produce the print image of the second page of the original.
Page 146 Theory of Operation Ver. 1.0 Nov. 2005 4. Mechanical operations Operation 5 • While feeding the first 2-sided print out, main unit produces the print image of the 6th page of the original on the third sheet of paper. • The second sheet of paper waits at the Duplex take-up position until the third sheet of paper is subjected to a switchback sequence.
Page 147 4. Mechanical operations Theory of Operation Ver. 1.0 Nov. 2005 • 2-sided printing of two A4 originals with two sheets of paper resident in the sys- Belt Positioning Sensor (PS4) Registration Sensor (PS1) Exit Sensor (PS7) Forward Backward Forward Backward Forward Backward Forward...
Page 148 © 2005 KONICA MINOLTA BUSINESS TECHNOLOGIES, INC. © 2005 KONICA MINOLTA BUSINESS TECHNOLOGIES, INC. Printed in Japan Printed in Japan Use of this manual should be strictly supervised to Use of this manual should be strictly supervised to DD4139CE1-XXXX DD4139CE1-XXXX avoid disclosure of confidential information.

Konica Minolta magicolor 2480MF Service Manual

Theory of Operation Total

Outline/Composition/Operation

Outline

1 System Configuration

2 Product Specifications

3 Center Cross Section

4 Paper Path

5 Image Creation Process

Composition/Operation

6 Overall Composition

7 Scanner Section (IR Section)

8 Write Section (PH Section)

9 Cartridge Section

10 Photo Conductor Section

11 Charge Corona Section

12 Developing Section

13 Image Transfer Section

14 Toner Collecting Section

15 Paper Feed Section

16 Conveyance Section/Registration Roller

17 Fusing Section

18 Paper Exit Section

19 Image Stabilization Control

20 Other Control

Auto Document Feeder Unit

Table of Contents

1 Product Specifications

2 Composition

3 Drive

4 Mechanical Operations

Lower Feeder Unit

Table of Contents

1 Product Specifications

2 Composition

3 Drive

4 Mechanical Operation

Duplex Option

Table of Contents

1 Product Specifications

2 Composition

3 Drive

4 Mechanical Operations

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Table of Contents