Wednesday, May 30, 2012

0 BlackBerry Pearl 8220 User Guide Manual

Here you will find a useful user guide manual for your BlackBerry Pearl 8220 series in 277 pages and pdf format. Here are some of the shortcuts list for your BlackBerry Pearl 8220 Camera and video camera :Shortcuts 9 BlackBerry basics shortcuts 9 Phone shortcuts 9 Message shortcuts 9 Attachment shortcuts 10 Camera and video camera shortcuts 10 Media shortcuts 11 Browser shortcuts 11 Calendar shortcuts 12 Typing shortcuts 12 Search shortcuts 13 Map shortcuts

0 Blackberry Pearl 8110 Tips Guide

Start up your Blackberry Pearl 8110Thank you for choosing a BlackBerry® Pearl™ smartphone! See the Getting Started Guide that came with your device for step-by-step instructions for your device.Setup checklistComplete the following tasks to set up your device. See the Getting Started Guide that came with your BlackBerry® device for help. – Insert the SIM card – Insert the battery – Charge the battery – Complete the setup wizard.

0 Samsung prepares Samsung S5260 Star II


Korean handset manufacturer, Samsung, apparently is preparing the successor cell phones Samsung Star that is one of the best-selling phones Samsung, and already have a successor to Samsung S5260 Star II.Samsung S5260 Star II specifies a 3 inch WQVGA touchscreen capacitive type, 3.2 megapixel camera, support Wireless N Wi-Fi, bluetooth, FM radio and microSD card slot, 3.5 mm audio jack and EDGE data network.

0 Nokia X 7 recent sightings



Recent photos from Nokia X 7 resurfaced. This time we're seeing more and more Symbian ^ 3 smartphone from all sides and once again we see an announcement from AT & t label on the front of her.

0 The Sony Ericsson Xperia Play



PlayStation phone made by Sony Ericsson, which is also called Xperia Play, it has not been announced at CES 2011 earlier. Indeed the phone this time before the new rumored to be announced at the event MWC (Mobile World Congress) in 2011 started on 13 February in Barcelona.The closer estimate of the announcement, rumors of more detailed specifications are also present.

0 Nokia will present the new e-series phones



One of the world's largest mobile phone maker Nokia seems new E series phones will launch the newest in the event the MWC 2011 held in Barcelona in February. The reason, CES 2011, held in Las Vegas a few days ago, the latest Nokia E series phones have not yet been announced. As information is quoted from Ubergizmo, Wednesday (12/1), recently reported that most likely the Finnish handset manufacturer, Nokia will launch new mobile phone with E6-00 series in the event the MWC 2011 held on 14 February.
It is believed that the source because of the ongoing CES 2011 in Las Vegas on January 6 and the latest E series mobile phones made

0 Attendance Rumors Blackberry Apollo



Not only BlackBerry Dakota is coming soon as the successor to the first bold model, equipped with a multi-touch trackpad and a higher specification. RIM also said the latest generation of presenting family BlackBerry Curve named Apollo.This phone is the same keyboard design as well as the previous generation curve BlackBerry OS 6.1 is already using the latest, NFC, GPS, 5 megapixel camera with flash, 512 MB of RAM and one of only 11 mm thick.It is estimated, Dakota and Apollo will be officially announced the Mobile World Congress (MWC), which took place in Barcelona next month, followed by the launch of some months after the event.

Mora Apollo specifications:

0 Latest BlackBerry sightings Dakota



Dakota mora has a similar view is supported by the BlackBerry Bold features HD video recording, NFC, 3 g Mobile HotSpot, magnetometers, and more. Latest BlackBerry devices are supported operating system BlackBerry 6.1.

Dakota will take advantage of Quad-Band GSM/GPRS/EDGE, tri-band UMTS, 5 MP camera with flash and video recorder, image stabilization features. In addition, the device is supported by 4 GB of data storage and 768 MB of RAM. Dakota has VGA screen measuring capabilities from 640 x 480 2.8 inches.

0 IPhone 4 reportedly ready to present in Asian regions



Recently, versions of Apple iPhone 4 CDMA was officially launched in the United States. Apparently, not only in the land of Uncle Sam's citizens are going to enjoy. Now the news that blows will be CDMA iPhone soon visited Asia.Media Taiwan's DigiTimes claims that the iPhone 4 will be brought versions of CDMA telecommunications operators in China, Japan and South Korea. As quoted by detikINET AppleInsider Apple iPhone has been prepared for the supply of CDMA to the country in question.

0 Cancel AT & T launches Nokia X 7

Previous news Nokia X7 or also referred to as Nokia Journey is reported to be released in February in the United States through AT & T, but is now reportedly plans have been canceled. If if Nokia X7 so released will certainly be the first Symbian ^ 3 phones through AT & T networkAccording to the news that blow, AT & T unilaterally decided the plan and it makes the Nokia should fight harder for the Symbian ^ 3 platform can be accepted in the U.S.. Is it true that a decision from AT & T and it is still possible to change your mind or is this just a mere issue? Apparently all will be answered next month, to be precise February when the event MWC 2011 in Barcelona.Nokia X7 is a smartphone that focus on the game, using an 8 megapixel camera with dual-LED flash on the back of the device as well as 2 built in speakers for multimedia performance. To screen still use ClearBlack screen resolution 640x360, with the ability of the CPU which is equivalent to the Nokia N8. If you see this phone is very similar to one another Nokia phone, which is E7 and C7.terjemahan alternatif">decided the plan and it makes the Nokia should fight harder for the Symbian ^ 3 platform can be accepted in the U.S..

0 BlackBerry Playbook in Indonesia in the second quarter 2011



Tablet market in Indonesia is expected to increasingly crowded with the Playbook, which with time would come soon to their homeland. Tablets from Research in Motion (RIM) should be able to talk a lot.

"In North America Playbook will be present at the end of the first quarter. As for the Asia-Pacific region, including Indonesia, will be shortly thereafter, namely the second quarter, "said the Managing Director of Asia Pacific Rim, Gregory Wade, on the sidelines of the Developer Conference 2011 Asia-Pacific.

0 BlackBerry Android-Motorola charm, elegant supply



Motorola has launched a new OS based on Android phone and the style is very similar to the Blackberry. The newest candybar phone is called the Motorola charm.

0 February Apple iPad 2 will be launched



Apple Inc. was allegedly going to launch iPad 2, beginning next February. At least, that's the inventor of the prediction of social networking sites Digg, Kevin Rose. Issues surrounding the launch of the iPad 2's helped to enliven the implementation of the Consumer Electronics Show in Las Vegas this weekend. In fact, some visitors claim to see these products in booth mockup Apple accessories.

0 Apparition Mobile Phone Successor Sony Ericsson X10 Mini Pro



As information is quoted from the SEMC Blog via Ubergizmo, Monday (10 / 1), one of the leading gadget guide sites from China, IT168 again made a surprise appearance by releasing pictures of the prototype is claimed to be the successor for Sony Ericsson X10 Mini Pro.

Monday, May 28, 2012

0 Installing Wi-Fi iPad battery replacement

Get this guide to installing Wi-Fi iPad battery replacement in step 21. Check out the step by step instruction how to follow and gets the full installation guide iPad from its source in our source details section.

Monday, May 21, 2012

0 ArchiCAD 9 3D for architects: part I

ArchiCAD 9 arrived with what at first I thought they were small improvements. But add up to a lot, especially for 3D visualisation work, and work on a laptop with a cramped screen (Figure 1). The latter situation can occur often now that ArchiCAD supports the terminal server technology that enables you to work on the Internet from a remote location.

This new release also benefits from improvements in DWG compatibility and an improved search system that allows library symbols to be found by name (Figure 2). About 2,600 symbols are included in libraries supplied with the software.

Text input and display are improved. Users can grab the dimension text with visible handles to move and edit and paste even entire blocks of text formatted by most word processor (Figure 3). All this is particularly important for the market of ArchiCAD architects, builders, designers and managers of facilities (there is a special version of ArchiCAD for FM). Among the majors, full-featured (and we need to add expensive) CAD packages, ArchiCAD and Nemetschek's Allplan are specifically intended for the market. Bentley and Autodesk add an architectural interface to their products. ArchiCAD gives much more power than the architectural design software package, but it's still easy, flexible and intuitive to use.

Download pdf ArchiCAD 9 3D for architects: part I

Saturday, May 5, 2012

0 Convert your 2D floor plan to a 3D model of ArchiCAD DXF and DWG files

Plan2Model Architects provides the power to transform your 2D floor plans in ArchiCAD 3D models quickly and effectively. With this add-on for ArchiCAD 7.0, representations of 2D elements on floorplans can be converted to objects in a model of ArchiCAD automatically and/or semiautomatic. Use of source data in any file format 2D floor plan, such as DXF and DWG files can be imported or processed by sketches and drawings software conversion of raster to vector. The simple entity – vector lines, polylines, arcs and circles that make up the 2D floor plans are converted from Plan2Model in a complete model ArchiCAD intelligent building containing walls, columns, Windows, doors, beams and other items.

Work efficiently convert Legacy 2D
There is a big gap between vector data provided by AutoCAD 2D drafting and other 2D systems and ArchiCAD building model objects. In ArchiCAD, the building blocks are not simple geometric primitives such as lines, polylines, arcs and circles, but the ' construction elements – walls, Windows, doors and the like. Plan2Model fills this gap by making the integration of the ArchiCAD drawings archive quick and easy. One-click conversion eliminates the lengthy process of manual data entry, increasing your efficiency at this stage.

Also exploit the capabilities of Plan2Model for converting scanned drawings. Plan2Model also supports vector data created by software converting raster to vector. To create an ArchiCAD model from this data source type without Plan2Model would take the same amount of time and effort to create a template from scratch.

Download pdf convert your 2D floor plan to a 3D model of ArchiCAD DXF and DWG files

Friday, May 4, 2012

0 Manufacturer or ArchiCAD and behavior of the wall

This document provides a summary of the behaviors for the wall in the current object and ArchiCAD, GraphiSoft constructor.
The appendix is quoted directly from the help files in the constructor. It provides detailed information of an object of the wall, including its buildings and behaviors.
Five activities are to be studied in this report, including:
1) is a segment of wall delimited by having a unique floor plan?
2) is a wall bordered a plane one roof?
3) can a non-horizontal changes have wall under construction (through the cross section)?
4) If the internal wall framing layout object support?
5) can a wall to be a Loft surface, with a lower and upper curve (or intermediate curve) which is between housing?

In fact, ArchiCAD and Builder are adapted to different users. Construction of objects (BO) in ArchiCAD are objects with less information for preliminary construction and fine details. It is primarily to be used by architects rather saleswoman (GC).

1) is a segment of wall delimited by having a unique floor plan?
Not necessarily, constructing objects can automatically cut from other items in the constructor.
Objects like the wall, column and beam are cut automatically intersect or roof slab. Most are unredoable to their original state except for cropping slab, slab meaning is clipped without being able to convert his initiative status. Slop is another object, then the slab, where the plate is considered a single horizontal element with or without openings. A step-like is a composite element composing multiple segments as a grouped piece or alternatively, using a ladder to imitate a slab object. Wall, as a single piece, will be cut automatically from a step or gradient if they intersect.

Download pdf ArchiCAD and wall behavior or constructor

0 Jaguar XJ6 XJ12 XJS 1975-77 Drive Axles Repair Manual

DESCRIPTION 
The differential assembly is of hypoid design with centerline of drive pinion gear set below centerline of ring gear. A collapsible spaer is used to set drive pinion bearing preload and all other differential adjustments are accomplished using shims. Stub axles transmit power out of differential, through independent rear suspension, to drive wheels. A clutch pack limited slip unit, "Powr-Lok", is available as an option.
AXLE RATIO AND IDENTIFICATION
Jaguar uses only one basic rear axle design, however, unit may not be fitted with a traction lock device. Also several different axle ratios are used. To determine axle ratio, divide number of ring gear teeth by number of pinion gear teeth. Whether or not axle is fitted with traction lock should be determined owner inquiry or test.

REMOVAL AND INSTALLATION
Rear Suspension Assembly
NOTE - This procedure is provided since many operations on the final drive require removal of rear suspension assembly before starting work on final drive.
1) Raise and support vehicle. Place stands forward of radius arms on body with wood blocks between body and stands. Remove wheels. Remove mufflers from tail pipes. Remove safety wire and bolts securing safety strap and radius arm from body mounting post. Disconnect and plug brake lines at body.
2) Remove clevis pin securing hand brake cable to actuating levers on crossmember. Loosen lock nut and remove outer hand brake cable screw from adjuster block. Detach drive shaft from differential. Place jack under rear suspension. Remove bolts and lock nuts securing crossmember mounts to frame. Lower and remove rear suspension from vehicle. To install, reverse removal procedure and note the following. Bleed brakes. Tighten radius arm nuts on lower control arm when weight of vehicle is on wheels.
HALF SHAFT
1) Remove rear suspension assembly. Remove rear hub as follows: Remove fulcrum shaft grease fitting. Withdraw cotter pin and remove nut and washers from splined end of half shaft. Using suitable puller, pull hub and carrier from half shaft. Remove spacer from half shaft and examine inner oil seal track. Replace track if necessary. Remove one nut from outer suspension arm fulcrum shaft and using soft hammer, drift out shaft. Remove hub and carrier assembly from car.
2) Support suspension arm with jack and remove nut and bolt securing top of forward shock absorber. Remove nuts and washer securing shock absorber to suspension arm and remove shock. Remove four nuts securing half shaft flange to stub axle flange and brake rotor. Pull half shaft from suspension unit noting number of camber shims installed between half shaft flange and brake rotor. If necessary, remove joint shields by drilling out rivets.
3) To install, reverse removal procedure, noting the following if necessary, replace joint shield, positioning grease nipple access hole correctly. Cover joint lines in shield with non hardening waterproof sealing compound. Be sure to replace camber shims. To reinstall rear hub, proceed as follows: Install suitable dummy shaft (JD.14) in hub carrier fulcrum. Install carrier on suspension arm, installing shims removed from between carrier and suspension arm. Replace outer suspension arm fulcrum shaft, displacing dummy shaft. Secure shaft with nut and reinstall grease nipple.
Fig. 1 Exploded view of Jaguar "Power-Lok" Differential Assembly
4) If necessary, install oil seal track to half shaft splined flange, replace spacer. Thoroughly clean and de-grease splines of half shaft and bore of hub. Using a small brush sparingly apply Lactite "Stud Lock" to outer two thirds of half shaft splines. Assemble hub carrier to half shaft. Install washer and tighten hub carrier assembly nut. Install new cotter pin. Install dial indicator so it bears against hub and zero indicator. Using two levers, pry out on hub and measure hub bearing endfloat. If endfloat exceeds specifications, overhaul rear hub and carrier assembly. After installation of rear suspension in vehicle, check rear wheel camber.
STUB AXLE OIL SEAL
1) Remove half shaft. Remove locking wire and withdraw bolts securing brake caliper to final drive unit. Remove brake rotor, noting number of shims removed between rotor and stub axle flange. Remove lock wire and five bolts securing caliper mounting bracket. Withdraw drive shaft, together with caliper mounting shims, ball bearing and oil seal. Turn down tab washer and remove nut nut from stub axle. Remove ball bearing and caliper mounting bracket from stub axle.
2) Lightly oil seal and position carefully in final drive case. Press seal squarely and fully seat in case groove. Do NOT remove protruding portion of seal. Coat seal with hypoid oil and place caliper mounting bracket and seal assembly over stub axle. Slide ball bearing on drive shaft followed by new tab washer and nut. Ensure bearing seats square to stub axle shoulder and tighten nut. Turn up tab on washer.
3) Lightly oil stub axle splines and install shaft in final drive housing. Install bolts securing mounting bracket finger tight. Using feeler gauge, measure dimension between inside face of mounting bracket and final drive housing. The measurement obtained determines shim thickness required, and thinly coat mating faces and shims with suitable sealant (Hylomar). Tighten bolts in a diagonal sequence.
4) Wire lock securing bolts to tension in clockwise direction. Install brake rotors and half shaft flange, using shims removed from between rotor and flange. Install caliper on mounting bracket. Install suitable distance spacers (oversize nuts) to rotor studs and tighten nuts. Use feeler gauges to ensure that rotor is centrally located between jaws of caliper. If necessary add to or remove from shim pack between flange and disc to center rotor. Continue assembly in reverse of disassembly procedure.
PINION FLANGE AND SEAL
1) Disconnect propeller shaft. Check and record torque required to turn drive shaft flange clockwise (viewed from front) through backlash movement. Check rear wheels and remove flange securing nut and washer. Remove flange. Pry oil seal out of final drive case. Lightly score oil seal recess with tang of file.
2) Ensure oil seal recess is clean and free of oil. Lightly top new oil seal into recess ensuring seal is square with case. Reinstall flange, washer and nut. Tighten nut to 120 ft. lbs. (16.5 mkg) while rotating flange to ensure bearing seats correctly. Again check pinion preload. If preload is below specifications, continue tightening flange nut until specified preload is obtained. However, if preload exceeds maximum specified value, new collapsible spacer must be installed, see differential overhaul. Reconnect propeller shaft and remove wheel chocks.
FINAL DRIVE UNIT
1) Remove rear suspension assembly and drain final drive unit. Remove final drive mounting plate and shock absorber/spring units. Remove nuts securing half shaft inner universal joint to brake rotor and disconnect half shaft, noting shims removed. Remove nut from inner suspension arm fulcrum shaft and drift out shaft. Repeat for other side of unit. Disconnect and plug brake lines. Disconnect hand brake levers from compensator.
2) Remove locking wire from final drive mounting bolts, remove bolts and crossmember by tilting forward over pinion. Remove calipers from final drive unit. Remove brake rotors, noting number of shims removed from between rotor and stub axle flange. To install, reverse removal procedure  making sure brake rotor is centered between jaws of caliper and wire lock tension bolts in clockwise direction.

OVERHAUL
Fig. 2 Exploded View of Limited Slip
Differential Clutch Pack and Side
and Pinion Gears
1) Remove rear cover and discard gasket. Remove lock wire and bolts securing caliper mounting bracket. Withdraw stub axle along with caliper mounting brracket shims, ball bearing and oil seal. Turn down tab washer and remove nut, ball bearing and caliper mounting bracket from stub axle. Repeat procedure fro second stub axle. Remove bolts securing differential bearing caps and lift off caps. Pry out differential assembly using two levers and taking care not to damage housing.
2) Remove drive pinion nut and washer. Mark relative positions of flange and pinion and remove flange. Using a suitable press, remove pinion from differential housing. Remove oil seal, oil thrower and outer bearing cone. Examine inner and outer bearing cups fro wear. If replacement is required, extract cups using suitable tools (SL.14 and SL. 14/1). NOTE - If removal of bearing cups is difficult, gently heat final drive housing in rear of bearing caps. On "Powr-Lok" differentials only, proceed as follows:
3) Remove differential side bearings using suitable tools (SL.14 and 14/3). If no reference marks are present, scribe a line across both halves of differential case to ensure correct reassembly. Remove bolts securing both halves of differential case. Split case and remove clutch discs and plates from one side. Remove differential side ring, pinion side gear and pinion cross shafts complete with gears. Remove remaining side gear and ring and extract remaining clutch discs and plates.
4) On non "Powr-Lok" differential only, remove peening and drift pinion shaft lock pin out of carrier. Remove gears, shaft and shims from carrier.

REASSEMBLY AND ADJUSTMENT
 Fig. 3 Measuring Side Bearing Preload
Case Assembly - 1) On "Powr-Lok" differentials, install clutch plates and disc alternately into flange half of case. Installtwo belleville clutch plates so that convex sides are against case. Install side ring and position one side gear into ring recess. Install cross shafts. Install pinion cross shafts complete with pinion gears ensuring that ramps on shafts coincide with mating ramps in case.
2) Assemble differential case halves ensuring that reference marks are lined up and clutch friction plate tongues are aligned with grooves in differential case. Install bolts but do not tighten yet. Check alignment of splines by inserting both stub axles. Tighten differential case bolts with stub axles in position. With one stub axle locked, other axle must not turn more than .75" (19 mm) measured on a 6" (152 mm) radius.
3) On non "Powr-Lok" differentials, install pinion shaft, shims and gears into differential carrier. Secure lock pin by peening.
Side Bearing Preload - Install differential side bearing without shims, on differential case, making sure that bearing and housing are perfectly clean. Place differential assembly in housing. Install dial indicator with indicator leg against back face of ring gear. Using sutiable pry bars between housing and bearing cups, move differential assembly fully to one side of housing. Zero dial indicator and move assembly to other side. Record indicator reading and add .009" (.20 mm) to reading to give total shim pack required. Remove differential assembly from housing.
Fig. 4 Measuring Drive Pinion
Gear Installed Depth
Drive Pinion Depth - 1) Place pinion, together with inner bearing cone, into housing. Turn housing over and support pinion. Install pinion outer bearing cone, flange, washer and nut, omitting collapsible spacer, oil slinger and oil seal, tighten nut. Using suitable dial indicator support fixture (SL3), zero dial indicator on setting block (4.H.A.). Place dial indicator fixture firmly on face of pinion and not indicator reading to bottom of housing bearing bore (see illustration).
2) The indicator reading shows deviation of pinion setting from zero cone setting. This value agree with value etched on face of pinion at bottom. For example, if value etched on pinion is -2, dial indicator should read -.002". If setting is incorrect, dismantle pinion and remove pinion inner bearing cup. Add or remove shims as required, reassemble and recheck pinion depth.
3) When setting is correct, extract pinion fro housing sufficiently far to remove outer bearing cone. Install collapsible spacer to pinion ensuring that it seats firmly on machined shoulder of pinion. Insert pinion into housing, install outer bearing cone, oil slinger and oil seal. Lightly grease splines of pinion shaft and install flange. Install new washer on end of pinion with convex side facing end of shat. Install but DO NOT tighten nut.
Backlash Adjustment - 1) Place differential assembly complete with side bearings but less shims, in housing. Ensure that bearings and housing are perfectly clean. Install dial indicator on housing with feeler on back face of ring gear. Pry differential case and ring gear assembly away from pinion until opposite side bearing is seated against housing. Zero dial indicator at this point.
2) Move differential assembly towards pinion until ring gear is deeply meshed with pinion. Note indicator reading and from this value, subtract the backlash allowance etched on drive gear (eg B/L.007 dones .007"). This result will yield the thickness of shims (in inches) to be placed between differential case and side bearing on ring gear side of differential. Install this thickness of shims (in inches) to be placed between differential case and side bearing on ring gear side of differential. Install this thickness of shims, taking shims from pack determined previously under "Side Bearing Preload". Install balance of total shims required on opposite side of case. An example of calculations required follows
EXAMPLE:
Fig. 5 Measuring to Determine Ring Gear
Side Shim Thickness
     Side Bearing Preload Reading.....................  .080"
     PLUS Preload Value.................................   .009"
     Total Shim Pack.......................................  .089"

     Pinion-to-Ring Gear Clearance...................  .042"
     MINUS Etched Backlash Value..................  .007"
     Total Ring Gear Side Shims.......................  .035"

     Total Shim Pack.......................................  .089"
     MINUS Ring Gear Side Shims...................  .035"
     Opposite Ring Gear Shim Pack..................  .050"
3) With shims calculated installed, lower differential assembly into position, lightly tapping bearings home with a soft hammer. Make sure ring and pinion gears mesh as installation proceeds. Install side bearing cups, ensure proper cup is placed in proper bearing. Tighten cup bolts. Mount dial indicator on housing with feeler against back face of ring gear. Turn pinion by hand and check ring gear run out. If run out exceeds specifications, disassemble differential, clean all mounting surfaces and check for burns.
Fig. 6 Measuring  Ring Gear-to-Drive Pinion
Gear  Backlash
4) Now place dial indicator to measure ring gear backlash. Move ring gear and check that backlash is to specifications, transfer necessary shims from side of differential case to the other. NOTE - To increase backlash, remove shims from ring gear side and install on opposite side and vise versa. Finally run a gear tooth contact pattern and adjust shims as necessary.
Pinion Bearing Preload - Install pinion and stub axle of seals. Install stub axles following procedure given under stub axle removal and installation. Tighten flange nut to specified torque. During tightening process rotate flange to ensure correct seating of taper roller bearings. Use care not to over tighten nut. if nut is overtightened, install a new collapsible spacer as pinion bearing preload will otherwise be incorrect. Install final drive rear cover using new gasket and suitable sealer (Hylomar).


0 Land Rover Discover Series II Wiring Diagrams

Contains the follwing information and electrical diagrams for:

  • Power Distribution
  • Earth Distribution
  • Anti-Theft Alarm
  • Central Door Locking
  • Windows
  • Sunroof
  • Door Mirrors
  • Seats
  • Diagnostic Socket
  • Body Control Unit
  • Charging and Starting
  • Engine Management System
  • Cooling Fans
  • Shift Interlock
  • Cruise Control
  • Electronic Automatic Transmission
  • Active Cornering Enhancement (ACE)
  • Self Leveling and Anti-Lock Braking System (SLABS)
  • Anti-Lock Braking System (ABS)
  • Supplemental Restraint System (SRS)
  • Air Conditioning
  • Heater
  • Fuel Burning Heater
  • Heated Front Screen
  • Heated Rear Window
  • Wipers and Washers
  • Exterior and Interior Lamps
  • Interior Illumination
  • Instruments
  • Clock
  • Horn
  • Accessory Socket
  • Cigarette Lighter
  • Audio Systems
  • Navigation Systems
  • Header Joints
  • Splices and Center Taps
  • Park Distance Control (PDC)
  • Trailer Socket
File Size: 8 MB
File Type: PDF, RAR

0 Nissan Rouge 2007-09 Repair Manual

Contains the following information and repairs for:

  • Accelerator Control System
  • Audio, Visual and Navigation System
  • Body Control System
  • Brake System
  • Body Repair
  • Charging & Starting System
  • Engine Cooling System
  • Defogger
  • Door and Lock
  • Drive Line
  • Engine Control System
  • Engine Mechanical
  • Exhaust System
  • Exterior Lighting System
  • Exterior and Interior
  • Front and RearAxle
  • Fuel System
  • Glass and Window System
  • Heater and Airconditioning System
  • Interior Lighting System
  • Instrument Panel
  • LAN System
  • Engine Lubrication System
  • Maintenance
  • Meter, Warning Lamp & Indicator
  • Parking Brake System
  • Power Control System
  • Power Supply, Ground and Circuit Elements
  • Power Window Control System
  • Transaxle and Transmission
  • Power Outlet
  • Front and Rear Suspension
  • Seatbelts, Seat, Horn, Wiper and Washer Mirror, Roof, SRS Airbag, Warning Chime and Ventilation System
  • Security Control System
  • Steering System
  • Road, Wheels and Tires
File Size:
File Type: PDF, RAR

Thursday, May 3, 2012

0 Structural design with ArchiCAD and its integration with the structural software

Architectural design of the building and its physical structure are closely interrelated: on the one hand, the architectural design of the building defines the structure; on the other hand, the structural design of the building reflects the design in architectural complex. As a Visual and aesthetics became part of modern architecture design, structures must be the lightest possible while retaining complete integrity. In addition, the structure must be optimized for performance and price.

ArchiCAD ® is the solution purpose-built virtual modeling of Graphisoft that allows architects to create a 3D model of their design, effectively creating a Virtual Building ™. This White Paper details how ArchiCAD (AC) supports key aspects of structural design and optimized workflow between the two disciplines. Architectural and structural Design use the same Virtual Building model from the first sketches through production of CNC machines, using the appropriate software solution for each phase of construction.

Standard for structural design
The standards set by the authorities and developed over the decades are traditionally different for each material (RC, steel, wood, etc.) in each country or region (for example, DIN in Germany and Central Europe; BS in United Kingdom; AISC in United States). Lately, there has been a tendency to unify these into a common standard – at least through regional economies, as European Union Eurocode.

Production and structural analysis
ArchiCAD provides information to sophisticated design together with the necessary level of detail of the model. This information can be directly imported and exported in native format or structural software through IFC and used for structural analysis by a specialized software. These add-ins import/export full integration design and structural analysis simulation program that enables you to dramatically improve simulation approaches of all construction in the design, engineering, manufacturing and construction. This opens new doors for structural optimization and cost savings and performance.

Using ArchiCAD with these tools provide great benefits both the architects and structural engineers. Why structural analysis tool to directly access models ArchiCAD Virtual Building, feedback on the structural design of the building can be obtained at any time during the design process. And ongoing changes in the project do not result in exhausting (and duplicated) reprocessing in separate applications – both manually adjust the geometry of the building to keep up with the changes – because the essence of a 3D model means that all data are updated and immediately usable.

Download pdf structural design with ArchiCAD and its integration with the structural software

0 Permission granted: ADC Triumphs on a site with ArchiCAD

The site was in a very attractive location, inside one of the hotspots of the Midlands housing. The private path in a green leaf was perfect for the development of high quality detached four 2500sqft home 2.5 floors. However, our proposal would design many backland sitting on development, more houses built within an area already built up, on the edge of Sutton Park. "We were confident that we could design a schema that would give the maximum site coverage whilst retaining the leafy setting.

The trick would be to reassure the residents of four Oaks, who had already established several action committees to oppose and thwart many backland sitting on developments in their neighbourhood and many similar systems had been refused planning permission ".

2D to 3D
ADC was formed by Nick Kirkland in 2001. The practice has focused on residential sector and become adept at dealing with the problems of local planning. Initially, ADC was committed to use CAD software 2D MicroStation, but realizing that the practice had to innovate to succeed, Kirkland and his team decided to about 18 months ago to move to a 3D work platform.

"ADC invested in ArchiCAD by Graphisoft because three dimensional architectural presentations to customers and designers give a better view in the box," says Hathaway. "They misconceive proposals; residents and consultees have better understanding; and contractors can predict what the build finished will look like. The benefits are potentially endless

Download pdf permission granted: ADC triumphs on a site with ArchiCAD

0 Electronic thesis or theses of Adobe Acrobat ® using the create.

This tutorial papers or thesis of your own Adobe ® Acrobat ® was created to learn how to convert to PDF using the Professional or standard. This lesson was written on the Acrobat 6.0 standard or Professional. However, brief must be reproduced to later version of Acrobat is. To create a PDF file, software installed on the computer is required. Adobe Reader ®, is available for free download from the Adobe Web site can be used only to read PDF files. Using it, you cannot create a PDF file.

Five consisits of the tutorial lessons and practice for including each to complete a specific task. Corresponding demo movie you can see the tasks to each movement. To view demo click the bookmark or window in the navigation to click a button in the title of each exercise. Open browser to view film page. Click the play button to start the demo.

Download

0 Toyota 1MZ-FE Engine Repair Manual

Toyota Vehicles that Uses this Engine:

  • Toyota Camry
  • Lexus ES300
  • Windom (Japanese Domestic Market)
  • Lexus RX300
  • Toyota Harrier
  • Toyota Sienna
  • Toyota Solara
  • Toyota Estima

Contains the following information and engine repairs for:

TOYOTA 1MZ-FE ENGINE

  • Engine Mechanical
  • Emission Control Systems
  • SFI System
  • Cooling System
  • Lubrication System
  • 1MZ-FE Engine Troubleshooting
  • Engine Operating Condition
  • Matrix Chart of Problem Symptoms
  • Location of Connectors
  • Circuit Inspection
File Size: 22 MB
FileType: PDF, RAR

0 Mercedez 190E Electric Wiring Diagrams

Contains the Following Electric Wiring Diagrams for:

  • Active Bass Speaker System
  • Anti-Lock Brake System
  • Anti-Lock Brake System/Acceleration Slip Control (ABS/ASR)
  • Anti-Theft Alarm System
  • Automatic Antenna
  • Automatic Locking Differential (ASD)
  • Auxiliary Fan/ Coolant Fant
  • Auxiliary Relay Box
  • Cellular Telephone
  • Center Console (Oil Temperature Gauge, Stop Watch, Voltmeter)
  • Central Locking System
  • Cigar Lighter
  • Clock
  • Component Location
  • Coolant Fan
  • Cruise Control
  • Diagnostic Socket
  • Electrical Center
  • Electronic Accelerator System
  • Electronic Diesel System (EDS)
  • Electronic Engine Control
  • Electronic Speed Control
  • Engine Overload Protection
  • Exhaust Gas Recirculation
  • Fuel Delivery
  • Fuse Circuit List
  • Gauges
  • Ground Distribution
  • Hall-Effect Speed Sensor
  • Headlamp Wiper/Washer
  • Heated Steats
  • Horn
  • Intake Manifold Preheater
  • Ignition
  • Lamps 
    • Back-up
    • Center Console
    • Courtesy
    • Daytime Driving
    • Fog
    • Gear Selector 
    • Glove Box
    • Hazard
    • Headlamps
    • Instrument Cluster
    • License
    • Park
    • Shift Pattern
    • Side Marker
    • Stop
    • Tail 
    • Trunk 
    • Vanity
  • Orthopedic Seats
  • Outside Heated Mirrors
  • Oxygen Sensor Replacement Indicator
  • Power Distribution
  • Power Seats/ Windows
  • Preglow System
  • Radio
  • Rear Defogger
  • Right Outside Mirror 
  • Sliding Roof
  • Start
  • Supplemental Restraint System (SRS)
  • Tachometer
  • Tempmatic Climate Control
  • Air Deliver
  • Blower Control
  • Component Location Table
  • Compressor Clutch Control
  • Power and Ground Distribution
  • Transmission Kickdown (Diesel/Gas)
  • Transmission Upshift Delay (201.028 / 201.029)
  • Warning Indicators
  • Warning System
  • Wiper/Washer
File Size: 31 MB
File Type: PDF, RAR

0 Mitsubishi Triton 2008-10 Repair Manual

Model: Triton, L200, Strada
Year: 2008-2010
Manufacturer: Mitsubishi

Contains the following information and electrical repairs for:

  • Injector Identification Code Registration Procedure
  • Small Injection Quantity Learning Procedure
  • Supply Pump Correction Learning Procedure
  • Learning Procedure for Idling 
  • Servicing Electrical System
  • Vehicles with Semi-Automatic Air Conditioner
  • Application of Anti-Corrosion Agents and Undercoats
  • Vehicle Washing
  • Pre-Inspection Condition
  • Multi Use Tester (M.U.T.-III) Sub Assembly
  • How to use the Throttle Controller In order to Prevent Vehicles from Fire
  • Engine Oils
  • Supplemental Restraint System (SRS)
  • SRS Service Precautions
  • Support Locations for Lifting Jacking
  • Standard Part/Tightening-Torque Table
File Size: 37 MB
File Type: PDF, RAR

Wednesday, May 2, 2012

0 Piano Suite user guide

The Floor Suite includes a number of custom objects made to compile and planning mid-floor framing and ArchiCAD tool add-on that allows the user to operate more easily with objects, create schedules and export this data into an XMLfile.

Installation
To install the LayUp coverings on your computer:
1. FloorSuite.zip download the installer and double-click on the file. zip to extract the file. exe installer.
2. double-click the file FloorSuite.exe. exe to run the Setup program.
3. follow the instructions to complete the installation of screen-

Tips
If you are installing over a network, make sure that you are logged on as the system administrator.
If you placed the library in ArchiCAD 10 library the library will automatically be loaded as part of the library ArchiCAD 10, as it exists in a subfolder
If you did not install ArchiCAD 10 library at the library, or have not included the ArchiCAD Library 10 in loaded libraries, you must load the library Suite floor separately. See the screen shot ...

Download pdf floor Suite User Guide

0 ArchiCAD 10 tutorials

01 tool – placing a figure in the 2d image
mesh tool-02 modeling three-dimensional topography
plotmaker 03 – export pages/print pages
04 item attributes/Customizing settings
05 camera tool and creating 3d views etc.
06 browsing around the window and internal engine 3d open-gl engine
-Isometric view/perspective settings
the settings of the engine 3d rendering/07 lightworks
08 2d line savings from the 3d work
export files for submission Appendix/additional references 09
10 general orientation within archicad
11 guidelines for drawing with any instrument
-magic wand
-shift and assignment lengths and angles
-Pet palettes
-selecting items with shift key
-move the key and select/deselect multiple items
12 settings dialog box
13 layers

The tool is used for entering a flat image file as a jpg. in 2d format. In particular, this is generally useful when inserting information on the site, such as site boundaries, contours etc and can also be used where sketch designs were completed by hand and the design is making the transition to cad.
the:: before you put a figure, ensure the scale of 2d window for coresponds scale of drawings be placed [if it is a drawing scale]. This will ensure that the figure will be placed on the correct scale.
II: the figure lies in the 2d elements tool. Select this tool and start a figure placing folder, open the Settings dialog figure tool. From there click Open under the tab "Preview and positioning".
III: from file dialog box, select the file that you want to move and click Open, and then click ok in the settings dialog.
IV:: Add-ons for the figure in the window, click once in the desired position.
v:: if necessary, the figure can be resized by clicking on the corner nodes or dragged to another location

Get tutorial pdf Archicad 10

0 Nissan Versa 2008 Repair Manual

Model: Versa
Year: 2008
Manufacturer: Nissan

Contains the following information and repairs for:

  • General Information
  • Engine Mechanical
  • Engine Lubrication System
  • Engine Cooling System
  • Engine Control System
  • Fuel System
  • Exhaust System
  • Accelerator Control System
  • Clutch System
  • Manual and Automatic Transaxle
  • CVT
  • Front Axle
  • Rear Axle
  • Front and Rear Suspension
  • Road, Wheels and Tires
  • Brake System
  • Parking Brake System
  • Brake Control Sytem
  • Power Steering System
  • Steering Control System
  • Seat Belts
  • Supplemental Restraint System (SRS)
  • Body, Lock and Security System
  • Glasses, Window System and Mirrors
  • Roof
  • Exterior and Interior
  • Instrument Panel
  • Seat
  • Manual Airconditioner
  • Starting and Charging System
  • Lighting System
  • Driver Information System
  • Wiper, Washer and Horn
  • Body Control System
  • LAN System
  • Audio, Visual, Navigation and Telephone System
  • Auto Cruise Control System
  • Power Supply, Ground and Circuit Elements
  • Maintenance
File Size: 57 MB
File Type: PDF

0 FIAT 131 1975-77 Drive Axles Repair Guide

DESCRIPTION
Rear axle assembly uses an integral carrier type differential having hypoid type ring and drive pinion gear set. Drive pinion bearing preload is maintained by a collapsible spacer and differential bearing preload is obtained through the use of shims between the bearings and rear axle housing. Semi-floating axles use ball bearings retained on the axle by a press fit retaining ring and the axle is secured in the housing with a retaining flange. A removable rear cover permits inspection and service of differential assembly.
AXLE RATIO AND IDENTIFICATION
The fiat 131 uses only one rear axle assembly. The axle ratio is 4.44-1; a nine tooth drive pinion with a forty tooth ring gear.
REMOVAL AND INSTALLATION
Axle shafts and Bearings
 FIG. 1  SECTIONAL VIEW OF AXLE SHAFT
AND BEARING ASSEMBLY 
Removal - 1) Raise and support vehicle. Remove rear wheels and brake drums. Remove bolts retaining axle shaft retaining flange to brake backing plate.
2) Attach slide hammer to axle flange and pull axle from housing using care to guide the brake backing plate off the axle as if it is extracted.
3) Remove axle bearing from shaft using an arbor press and suitable support tools. Discard axle shaft bearing retainer. Inspect retainer seat on axle shaft and if seat is scored or damaged, replace axle shaft.
Installation - 1) Place retainer flange and bearing on axle shaft. Heat bearing retaining ring to about 600°F (300°C) and place heated retainer on axle shaft.
2) Using an arbor press and appropriate support tools, press bearing retainer onto shaft until bearing is locked between retainer and shoulder on axle shaft. NOTE - Do not exceed 13,000 lbs. force with press as damage to axle shaft assembly may occur.
3) If axle is to be installed at this time, replace oil seal inside axle housing (if required), and install axle in reverse order of removal.

REAR AXLE ASSEMBLY
Removal - Raise and support vehicle. Release parking brake and remove spring from parking brake bracket and support. Pull cable housings away from bracket and remove cables from bracket and support. Remove propeller shaft from drive pinion flange and stabilizer bars from rear axle housing. Remove brake hose from "T" connector and slip link out of slot in bracket on axle housing. Support rear axle assembly floor jack(s), remove shock absorber-to-axle housing bolts and lower and remove axle assembly.
Installation - Reverse removal procedure then bleed the brake system and check for proper operation of parking brake.

OVERHAUL
Disassembly
FIG. 2 REMOVING DIFFERENTIAL
BEARINGS FROM CASE
NOTE - Overhaul of differential assembly can be accomplished with rear axle assembly installed in vehicle
Differential Case Assembly - 1) Raise and support vehicle, remove axle shafts as previously described, and separate propeller shaft from drive pinion flange. Remove cover from rear of housing and drain lubricant.
2) Install spreader (8064), on housing, mark differential bearing caps for reference at time of reassembly, the remove bearing caps. Spread housing and remove differential case along with bearings and shims, noting position of bearing outer race and shims and keeping all left and right side components separated.
3) Using a puller, remove differential bearings from case. Keep bearings separated with other components. Put locating reference marks on ring gear and case, then removing eight ring gear-to-case retaining bolts and remove ring gear. NOTE - Drive ring gear from case (if required) using a soft headed mallet.
FIG. 3 EXPLODED VIEW OF FIAT 131 DIFFERENTIAL ASSEMBLY

4) Using a soft drift, drive differential pinion gear shaft out of case. Remove pinion gears, side gears, and side gear thrust washers.
Drive Pinion Gear - Hold drive pinion flange and remove flange nut and flange from drive pinion gear. Remove oil seal and dust shield from pinion shaft then push dive pinion gear out of rear housing. Remove drive pinion  bearing outer races from housing. Using an arbor press, remove rear bearing from drive pinion shaft and retain shims found between bearing and gear.

REASSEMBLY AND ADJUSTMENT
FIG. 4 REMOVING REAR BEARING
FROM DRIVE PINION GEAR
Drive Pinion Gear - 1) Install pinion bearing outer races in rear axle housing. Before installing rear bearing on drive pinion gear, establish pinion depth adjusting shim thickness as follows (all values given are in hundredths of a millimeter):
NOTE - If the original ring and pinion gears will be used for reassembly, and right-to-drive pinion gear tooth contact pattern is satisfactory, use original shim(s).
Note marking on original drive pinion shaft. Measure original shim thickness and add it to the value give on the pinion shaft to establish the nominal dimension.
Example: Pinion marking is +10 and original shim thickness is 2.90. Nominal dimension is 3.00 (2.90 plus +10).
Note marking on new pinion gear and subtract this value from the established nominal dimension and this will give you the new required shim thickness.
EXAMPLE: Nominal dimension is 3.00 and marking on new drive pinion is +20, then new shim thickness is 2.80 (3.00 minus +20, then new shim thickness is 2.80 (3.00 minus +20).
2) Place new (or original) pinion depth adjusting shim on drive pinion gear, and using a press install rear bearing on drive pinion gear. Lubricate bearing and install drive pinion and bearing in housing. Install new collapsible spacer, front pinion bearing, dust shield, new oil seal, and pinion flange in housing.
3) Start pinion flange nut on shaft and as nut is tightened, keep checking rotating torque of pinion shaft (pinion bearing preload) using an inch pound torque wrench. Tighten nut until pinion bearing preload is within specifications. NOTE - If pinion bearing preload torque is exceeded, do not back off nut to obtain preload. Install new collapsible spacer and repeat procedure.
Differential Case Assembly - 1) Place thrust washers on side gears and install side gears in case. Install pinion gears by rolling them into position and install pinion shaft. Check rotating torque is not to specification, install new thrust washers on side gears. NOTE -Thrust washers are available in thicknesses from .0709" (1.80 mm) to .0817" (2.10 mm) in increments of .002" (.05 mm).
2) Install ring gear on case and tighten bolts to specified torque. Press differential bearings onto case, and if using original bearings, spread housing and install case using original shims. If using new bearing or case, install case in housing and insert enough shims equally on both sides to eliminate any end play.
3) Install bearing caps and bolts and tighten bolts. Measure ring gear backlash using a dial indicator mounted to hoousing ring gear backlash using a dial indicator mounted to housing with plunger contacting ring gear at right angel to the gear teeth. Block drive pinion flange from turning. Zero dial indicator. Rotate ring geaer back as far as possible and note backlash reading on indicator. If backlash is not within specification, adjust backlash by changing size of shims. To increase backlash, increase size of shim on pinion side of carrier, and to decrease backlash, increase size of shim on ring gear side of carrier. When changing shims, be sure to install shims of equal size to opposite side of carrier.
4) After determining correct shims to be used, add .002" (.05 mm) more shim thickness to each side. Install spreader on housing, spread housing and install bearing outer races and shims. Remove spreader and install bearing caps and tighten bolts. With differential completely assembled, check ring-to-pinion gear tooth contact pattern to ensure all adjustments are correct.

0 Jeep Grand Cherokee 2005-08 Repair Manual

Model: Jeep Grand Cherokee
Year: 2005-2008
Manufacturer: Jeep

Contains the following repairs and information for:

  • Lubrication and Maintenance
  • Suspension
  • Differential and Driveline
  • Brakes
  • Cooling 
  • Audio/Video
  • Chime/Buzzer
  • Electronic Control Modules
  • Engine Systems
  • Heated Systems
  • Horn 
  • Ignition Control
  • Instrument Cluster
  • Lamps
  • Message Systems
  • Power Systems
  • Restraints
  • Speed Control
  • Vehicle Theft Security
  • Wipers/Washers
  • Navigation/Telecommunication
  • Wiring
  • Engine
  • Exhaust System
  • Frame and Bumpers
  • Fuel System
  • Steering
  • Transmission and Transfer Case
  • Tires/Wheels
  • Body
  • Heating and Air Conditioning
  • Emission Control 4.0/4.7L
  • Component and System Index
  • DTC Index
File Size: 114MB
File Type: PDF, RAR

0 Fiat 124 1975-77 Drive Axles Repair Manual

DESCRIPTION
Rear axle assembly is semi-floating, hypoid gear type with centerline of pinion set below centerline of ring gear. Axle shafts have integral wheel hubs and are supported in the differential case by side gears and in the axle housing by ball bearings. Service of these assemblies, with exception of axle housing, may be performed without removing complete rear axle assembly from vehicle.
AXLE RATIO IDENTIFICATION
The semi-floating, hypoid gear type rear axle assembly with separate housing is used on all Fiat models, The axle ration is 4.3-1.
REMOVAL AND INSTALLATION
Axle Shafts and Bearings
Removal - 1) Raise vehicle and remove rear wheels and disc brake front shield. Remove caliper support bracket mounting bolt and remove caliper (without disconnecting brake lines). Remove bolts attaching brake disct to axle shaft hub and remove brake disc and plate.
2) Remove snap ring securing bearing dust shield. Attach slide hammer and withdraw axle shaft assembly. Inspect axle shaft bearing, dust shield and bearing retaining collar for wear or damage and replace as necessary.
Disassembly - Using suitable arbor press (A. 74108/1/2), press bearing retaining collar off axle shaft and discard collar. NOTE - Retaining collar must never be reused; replace with new collar. Remove snap ring, dust shield and bearing. If axle shaft is score or damaged, replace shaft.
Reassembly - 1) Install snap ring, dust shield and bearing onto axle shaft held vertically on solid plate of arbor press (A. 74107/1). Insert new collar into suitable holder (A. 74107/4), place in oven and heat to 571°±18°F (300°±10°C). Remove unit from oven and plae on axle shaft. Press axle shaft into collar using 13,000 lb (6,000 kg) maximum pressure.
2) Place axle shaft assembly in tool A. 9560. Position dial indicator to contact hub of axle shaft. Apply 4400 lbs. (2000 kg) axial load with tool A. 95601. Rotate axle by applying 58 to 61.5 ft. lbs. to 8.5 mkg) of torque then check dial indicator reading at opposite end of axle shaft. Reading should remain at zero during rotation of axle shaft.
3) Remove load from axle and recheck dial indicator for zero reading. This will insure that collar has not moved on axle shaft.
Installation - Install new oil seal and "O" ring and complete installation by reversing removal procedure.
FIG 1. CHECKING FIT OF AXLE SHAFT BEARING RETAINER AND AXIAL LOAD


DIFFERENTIAL CARRIER
Removal - Drain fluid, raise vehicle, and remove wheels. Withdraw axle shafts for enough to disengage from side gears. Disconnect propeller shaft, support differential and remove attaching bolts. Remove differential assembly from axle housing.
Installation - Thoroughly clean oil residue from axle housing. Position new gasket in place and reverse removal procedure.

OVERHAUL
Disassembly - 1) With differential secured in suitable holding fixture, remove two bolts and spring washers from caps and remove lock plates. Remove bolts and spring washers securing case bearing caps, and remove caps, adjuster rings and roller bearing cups. Remove differential case from carrier.
2) Turn differential carrier upside down and lock bevel pinion in place. Loosen self-locking nut securing sleeve to bevel pinion shaft and remove sleeve. Remove pinion, thrust ring, rear roller bearing cone and collapsible spacer from inside housing. Remove oil seal, oil slinger, and front bearing cone from carrier.
3) Slide collapsible spacer off pinion, then draw off rear roller bearing .Thrust washer can then be removed from pinion. Using a suitable puller, remove differential case roller bearings. Remove screws holding ring gear to differential case roller bearings. Remove screws holding ring gear to differential case then use drift to remove pinion gear from case. Remove pinion gears, side gears, and thrust washers.

REASSEMBLY AND ADJUSTMENT
FIG 3. CHECKING FOR CORRECT
THICKNESS OF WASHER FOR DRIVE
PINION DEPTH ADJUSTMENT
Case Assembly - 1) Install thrust washers on differential side gears and position gears in differential case. Insert pinion gears in case and engage them with side gears. Align holes in pinion gears through openings in case and insert pinion shaft. Check axial play in each side gear.
2) Axial play should not exceed .004" (.10 mm). If play exceeds specification, replace side gear thrust washers. These washers are available in various thicknesses. If correct clearance cannot be obtained, gears must be replaced. Assemble ring gear to differential case and torque to specification. Using suitable driver (A. 70152), install both roller bearings on differential case.
Drive Pinion Depth - 1) Fit front and rear roller bearing cups of bevel pinion in position using suitable driver. Using same driver, attach cone  of rear roller bearing to dummy pinion (A. 70184) then position dummy pinion in differential carrier.
FIG. 4 LOCATION OF STAMPED NUMBER
ON DRIVE PINION GEAR
2) Install cone on front roller bearing and place nut on dummy pinion. Turn pinion to seat bearing cones and tighten nut.
3) Zero dial indicator (A. 95690) on a surface plate then attach to dummy pinion. Position dial indicator to allow plunger to contact roller bearing seat in differential case. Obtain minimum reading on dial indicator by moving plunger from right to left. Record reading and repeat procedure on opposite side.
4) Determine on average from the two readings, then from this average, subtract the value stamped on bevel pinion to be used. This will give correct thickness of thrust washers to be inserted between the head of the pinion and the shoulder of rear roller bearing.
5) If the number stamped on the pinion is preceded by a plus sign, the thickness of the washer to be used is derived by subtracting this number from the dial gauge reading. If the number stamped on the pinion is preceded by a minus sign, the thickness of the washer is obtained by adding this figure to the dial gauge reading.
FIG. 5 CHECKING DIFFERENTIAL BEARING
AND RING GEAR BACKLASH
6) Place thrust washer (correct thickness) on bevel pinion, then rear roller bearing cone followed by collapsible spacer. Install pinion assembly in carrier and attach the front roller bearing cone, oil slinger, oil seal, and "U" joint sleeve. Install washer and self-locking nut on tail of pinion.
Pinion Bearing Preload - Secure pinion to keep it from turning. Gradually tighten nut on tail of pinion shat to 87-166 ft. lbs. (12-23 mkg). Check turning torque of pinion shaft using dynamometer (A.95697) and adapter (A. 55075) fitted to pinion nut and set to 17 INCH lbs. (20 cmkg). If turning torque is less than 14 INCH lbs. (16 cmkg), pinion nut must be tightened (without exceeding maximum torque). If turning torque is more than 17 INCH lbs. (20 cmkg), pinion must be removed an collapsible spacer changed.
Backlash and Side Bearing Preload - 1) Place differential side bearing cups on side bearings and place differential assembly into carrier. Fit two bearing retaining and adjusting rings, install caps and torque to specifications.
2) Attach suitable tool (A. 95688)  (see illustration), to differential carrier. Adjust backlash between ring gear and pinion to .0031-.0051" (0.08-0.13 mm). Insure that bearings are not preloaded.
3) Set preload by tightening two bearing adjusting rings alternately with equal number of turns until dial indicator "A" (see illustration), shows an increase of .0055-.0071" (0.14-0.18 mm). After preload is set, check backlash of bevel gears.
4) To check backlash, set dial indicator to "B" (see illustration), so that plunger rests against tooth of bevel gear. Rotate gear to obtain maximum reading. Backlash must be .0031-.0051" (0.08-0.13 mm).
Final Inspection and Assembly - With pinion bearing and ring gear backlash properly adjusted, make a tooth contact pattern check. NOTE - Check gear tooth contact using paint impression method described at beginning of this section. When pattern is satisfactory, install axle shafts, brake drums, wheels and tires, propeller shaft and refill with suitable gear lubricant.

0 Mazda 1968-74 Models Drive Axles Repair Manual

MODELS COVERED:

  • 616 (1971)
  • 618 (1972-73)
  • 808 (1972-74)
  • 1200 (1971-72)
  • B1600 (1972-74)
  • R100 (1971-72)
  • RX-2 (1971-74)
  • RX-3 (1972-74)
  • RX-4 (1974)
  • RE (Rotary Pick-Up) (1974)
DESCRIPTION
Axle housing is banjo type with removable differential carrier and semi-floating axle shafts. Ring and pinion are hypoid type in which centerline of pinion is set below centerline of ring gear. Differential case may be either two pinion or four pinion design. The axle shafts are retained in housing by ball bearings and bearing retainers at axle housing outer ends.
AXLE RATIO AND IDENTIFICATION
All Mazda models use one basic type of rear axle assembly. Any differences in Removal and Installation or Overhaul procedures will be noted where they occur. To determine axle ratio, divide number of ring gear teeth by number of pinion teeth.
REMOVAL AND INSTALLATION
Axle Shaft and Bearings
Removal (All. Exc. Pick-Up) - Remove wheel and tire assembly and brake drum. Remove brake shoe return springs and brake shoes. On RX-4 models, remove center cap adapter from axle shaft flange. On all models, withdraw nuts attaching retainer and backing plate to axle housing, then use a suitable puller (49 0259 631 and 49 0223 630A) to remove axle from housing.
Bearing Replacement (All Exc. Pick-Up) - Remove axle bearing and collar using a press and a suitable bearing adapter (49 0259 745). NOTE - If pressure necessary to remove bearing exceeds 10 tons, or if bearing adapter is not available, grind bearing retaining collar down and cut with a chisel to remove. To reassemble, apply a light coat of oil to axle shaft and place bearing retainer and spacer on shaft. Position bearing on shaft with sealed side toward axle shaft flange, then press bearing on shaft until spacer contacts shaft shoulder. Next, press bearing retaining collar on shaft until it seats firmly against bearing. NOTE - Do not press bearing and collar on shaft at the same time. In addition, if collar is installed with less than 3 tons of pressure, replace a new part.

AXLE SHAFT ASSEMBLY (EXCEPT PICK-UP)
Installation (All Exc. Pick-Up - 1) Apply a light coat of grease to oil seal in axle housing. Check axle shaft end clearance as follows. Install backing plate and gasket temporarily and measure depth of bearing seat in axle housing. Then measure width of axle bearing outer race. The difference between the two measurements indicates the required thickness of shim.
2) Shims are available in thicknesses of .004" (.1 mm) and .016" (.4 mm). After selecting correct shim pack, apply sealant to shims and position brake backing plate and shims on axle housing. Install axle shaft assembly in housing using a new gasket, then install and tighten retainer bolts. At this time, recheck end play, maximum end play allowable is .004" (.1 mm). Install brake shoes, return springs, brake drum and wheel and tire assembly.
AXLE SHAFT ASSEMBLY (B1600 & RE PICK-UP)
Removal (B1600 and Pick-Up) - Remove wheel and tire assembly, then remove brake drum and brake shoes. Remove parking brake cable retainer and disconnect brake lines at wheel cylinders. Remove nuts attaching backing plate and bearing housing to axle housing, then pull axle shaft, backing plate, bearing housing assembly, and shims off axle housng.
Bearing Replacement (B1600 and RE Pick-Up) - Straighten tools of lock washer, and using a suitable spanner wrench (49 0603 621A), remove lock nut and lock washer. Using a puller withdraw bearing and housing assembly from axle shaft, then remove backing plate. Remove bearing and oil seal from housing. To reassemble, reverse disassembly procedure.
Installation (B1600 and RE Pick-Up) 1) Install axle shaft, backing plate, and bearing housing to rear axle housing, temporarily attaching with two bolts and nuts. Mount a dial indicator on backing plate and check axle shaft end play. End play should be .002-.006" (.05-.15 mm).
2) NOTE - If both axle shafts were removed, a special procedure must be followed: The end play for the first axle shaft installed should be set to .026-.033" (.65-.85 mm). The second axle shaft installed should be set to the normal end play of .002-.006" (.05-.15 mm).

DIFFERENTIAL CARRIER
Removal and Installation - Raise vehicle until rear wheels are clear of ground. Remove drain plug and drain rear axle lubricant, reinstall plug and tighten. Remove axle shafts. Mark propeller shaft and pinion flange for reassembly reference, then disconnect propeller shaft. Remove carrier attaching nuts and withdraw carrier from axle housing. To install, reverse removal procedure, making sure to refill axle with lubricant.

OVERHAUL
Disassembly 
MEASURING PINION HEIGHT
1) Mount carrier in a suitable repair stand. Attach a dial indicator to carrier (with button of indicator contacting backface of ring gear) and check ring gear deflection. Maximum allowable deflection is .004" (.1 mm); replace ring and pinion if above specification. Punch identification marks on side bearing supports of carrier, differential bearing caps, and side bearing adjusters. Remove adjuster lock plates, loosen bearing cap attaching nuts or bolts, and slightly back off adjusters to relieve preload.
2) Remove bearing caps and adjusters, then withdraw differential assembly from carrier, making sure side bearing races remain with their respective bearings. If necessary for replacement, use a suitable puller and remove side bearings from gear case. Straighten lock tabs, remove ring gear attaching bolts, and separate ring gear from gear case.
3) On all models except RX-4, drive out differential pinion shaft lock pin with a punch and remove pinion shaft. Rotate pinion gears 90 degrees and remove gears, thrust washers, thrust block (if equipped), and differential side gears. On RX-4 models, remove bolts joining differential case halves and separate case. Remove side gears, thrust washers, pinion gears, and spider.
4) On all models, remove pinion nut and pinion flange. Remove drive pinion and rear bearing assembly, adjusting shims (if equipped), spacer and bearing collar if used). NOTE - It may be necessary to top end of pinion with soft hammer to remove from carrier. Remove front oil seal and withdraw front pinion bearing. Using a press, remove rear bearing from drive pinion, then lift off pinion adjusting shim. If necessary for replacement, use a drift punch and remove pinion bearing races from carrier.
MAZDA REAR AXLE ASSEMBLY

REASSEMBLY AND ADJUSTMENT
Drive Pinion Depth - 1) NOTE -The use of a suitable dial indicator assembly (49 0727 570) and pinion gauging set (49 0305 555, all exc. pick-up; or 49 0603 555A, B1600 and RE pick-up) is required for this procedure. Install dial indicator on gauge body, place gauge body on a surface plate, and preload indicator .040-.120" (1-3 mm). When preloaded, turn outer ring of indicator assembly to "zero" gauge.
2) Make sure differential bearing bores are free of dirt and burrs, then install drive pinion, dummy bearing, and original pinion depth shim into carrier. Place gauge block on pinion and position indicator assembly on block so button of indicator contacts lowest portion of differential bore.
3) Record the amount indicator moves in a "+" (plus) or "-" (minus) direction from zero. Remove gauging assembly and pinion from carrier. Check rear face of pinion for the machining correction figure. If pinion is marked "+" (plus), SUBTRACT amount specified on pinion from dial indicator reading; if marked "-" (minus), ADD amount to indicator reading. NOTE - Figures on pinion are hundredth millimeters.
4) Place dummy pinion and rear pinion bearing on surface plate and compare heights. If pinion bearings is higher than dummy bearing, SUBTRACT difference from dial indicator reading, if pinion bearing is lower than dummy bearing, ADD amount to indicator reading.
5) Select correct pinion depth adjusting shim to be used for reassembly by adding or subtracting the amount determined in steps 2), 3), and 4) from the thickness of the original pinion depth shim used during gauging process. Position correct shim on pinion and install pinion bearing. Shims are available in the following thicknesses for all models except RX-4:
Identification Mark                              Thickness In. (mm)
08.......................................................   .121 (3.08)
11.......................................................   .122 (3.11)
14.......................................................   .124 (3.14)
17.......................................................   .125 (3.17)
20.......................................................   .126 (3.20)
23.......................................................   .127 (3.23)
26.......................................................   .128 (3.26)
29.......................................................   .130 (3.29)
32.......................................................   .131 (3.32)
35.......................................................   .132 (3.35)
38.......................................................   .133 (3.38)
41.......................................................   .134 (3.41)
44.......................................................   .135 (3.44)
SOLID BEARING PRELOAD SPACER
AND SHIMS
47.......................................................   .137 (3.47)
For RX-4 models, the following thickness shims are available
Identification Mark                             Thickness In. (mm)
52.......................................................   .139 (3.52)
55.......................................................   .140 (3.55)
58.......................................................   .141 (3.58)
61.......................................................   .142 (3.61)
64.......................................................   .143 (3.64)
67.......................................................   .145 (3.67)
70.......................................................   .146 (3.70)
73.......................................................   .147 (3.73)
Pinion Bearing Preload (W/ Solid Bearing Spacer) - 1) Position drive pinion and rear bearing assembly into carrier, then install bearing spacer and preload shims onto pinion. Install front pinion bearing and pinion flange (do not install oil seal at this time). Install pinion nut and tighten to 110 ft. lbs. (15 mkg) on 1200 models or 130 ft. lbs. (18 mkg) on R-100 models.
2) Using a torque wrench installed on pinion nut, measure turning torque of drive pinion through at least one full revolution. If preload is greater than specified (see Axle Assembly Specifications), a thicker shim or longer bearing spacer is required; if preload is less than specified, a thinner shim or shorter bearing spacer is required. Shims and spacer are available in the following thicknesses and lengths:
Identification Mark                               Thickness/Length In. (mm)
INSTALLING COLLAPSIBLE
BEARING SPACER
Shims
   4.....................................................   .013 (.34)
   6.....................................................   .014 (.36)
   8.....................................................   .015 (.38)
Spacer (1200 Model Only)
   10...................................................   1.658 (41.10)
   18...................................................   1.661 (41.18)
   26...................................................   1.664 (41.26)
   34...................................................   1.668 (41.34)
Spacer (R-100 Model Only)
   60...................................................   2.149 (54.60)
   68...................................................   2.152 (54.68)
   76...................................................   2.155 (54.76)
   84...................................................   2.159 (54.84)
INSTALLING PINION SHAFT
& LOCK PIN
3) After obtaining correct preload shim pack, remove pinion flange, install pinion oil seal, and reinstall pinion oil seal, and reinstall pinion flange. Tighten pinion nut to specification.
Pinion Bearing Preload (W/Collapsible Bearing Spacer) - 1) Position drive pinion in carrier and install bearing spacer. Place front pinion bearing in position on pinion gear, hold gear fully forward, and drive bearing over pinion until seated. Apply grease to lip of pinion by tapping with a soft hammer. Install pinion washer and nut. Before tightening nut (when pinion preload is zero), check oil seal drag using a torque wrench. Tighten pinion nut as follows:
Application                                       Ft. Lbs. (mkg)
808 (W/1300 cc)...................................   87 (12)
INSTALLING DIFFERENTIAL
ASSEMBLY
RX-4....................................................  101(14)
B1600, RE (Rotary Pick-Up)...................  145(20)
All Others..............................................   94(13)
2) With nut tightened, check preload using a torque wrench mounted on pinion nut. If preload is not as specified (see Axle Assembly Specifications), continue tightening nut and checking preload until specified preload is obtained. CAUTION - Preload builds quickly. Nut should be tightened a little at a time and preload checked after each slight amount of tightening.
Case Assembly - 1) On all models except RX-4, install a thrust washer on each differential side gear and install into case. Through openings in gear case, insert pinion gears exactly 180 degrees opposite each other. Rotate pinion gears 90 degrees so holes in gears line up with pinion shaft holes in gear case. Insert pinion shaft through case and pinion gears.
ADJUSTING BEARING PRELOAD
(CASE SPREAD)
2) On RX-4 models, install a thrust washer on each differential side gear and install into case halves. Position pinion gears on spider and install spider into differential case half. Align identification marks, mate case halves, and install and tighten retaining bolts.
3) On all models, check backlash between side gears and pinion gears. Backlash should be less than .004" (.1 mm); if not, install selective thrust washers to bring backlash within specifications. Washers are available in thicknesses of .063" (1.6 mm), .067" (1.7 mm), .071" (1.8 mm), .079" (2.0 mm), .083" (2.1 mm), and .087" (2.2 mm). NOTE - Always use some thickness thrust washer for both side gears.
4) If equipped with thrust block, remove pinion shaft, install thrust block, and reinstall pinion shaft. On all models except RX-4, drive lock pin into case to secure pinion shaft. Using a punch, shake lock pin into case to secure pinion shaft. Using a punch, stake lock pin hole to prevent pin from working loose. On all models, mount ring gear on case, then install and tighten ring gear attaching bolts. If removed, instal differential side bearings.
Backlash & Side Bearing Preload - 1) Place differential case assembly into carrier making sure timing marks on ring and pinion gears are aligned. Install bearing adjusters and bearing caps, then tighten bearing cap nuts or bolts finger tight. Turn adjusters with a suitable spanner wrench (49 0259 720) until bearing end play is eliminated and some backlash exists between ring gear and pinion. Slightly tighten one bearing cap nut or bolt on each side carrier.
2) Mount a dial indicator to carrier flange so button of indicator contacts of the ring gear teeth at a right angle then check backlash between ring and pinion gears. Using the spanner wrench, turn both bearing adjusters equally until backlash is as specified in Axle Assembly Specifications.
3) Differential bearing preload (case spread) is obtained by tightening both bearing adjusters equally.  Tighten adjusters until the distance between pilot section of side bearing caps in as specified in Axle Assembly Specifications. Tighten bearing cap nuts or bolts, then recheck backlash adjustement. Make a gear tooth pattern check to insure correct assembly, then install adjuster lock plates on bearing caps.


 

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