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KEF-MOTOR A/S Industrivej 3-9 DK 9460 Brovst Denmark Tel. +45 9823 6266 Fax. +45 9823 6144 Manual BSH Belt Grinding Machines 20-75 22-75 25-75 20-100 20-150 25-100 25-150 EU declaration of conformity KEF-MOTOR A/S Industrivej 3-9 DK-9460 Brovst Denmark www.scantool-group.com Tel.: +45 98 23 62 66 Fax: +45 98 23 61 44 hereby declares that BSH Belt Grinding Machine are manufactured in accordance with the provisions of the COUNCIL DIRECTIVE of 17. May 2006 (2006/42/EC) – The Machinery Directive (order no. 561 of 25 June 1994 with subsequent amendments) Also on accordance with: · The council directive of 19 February 1973 (73/23/EEC) – The Low Voltage Directive – with later amendments (order no. 797 of 30 August 1994) · The council directive of 3 May 1989 (89/336/EEC) – The EMC Directive – with later amendments (order no. 796 of 5 December 1991 with subsequent amendments).
The flexible flat clothings, manufactured with utmost accuracy substantially influence the carding quality. Burr-free flat clothings, ground straight with utmost precision are imperative to achieve best possible carding results. For this reason, GRAF has developed the flat-grinding machine DSM 20 and DSM 20/1, which allows for all spinning mills to grind and resharpen the flat-tops economically and efficiently with the precision required. Number of strokes of slides 50 / min Gear motor rating 0,18 kW Weight DSM 20 420 kg ● Precisely straight flat clothings following initial equalising (entire set within a height tolerance of 0,05 mm or less) ● There is the choice to have the DSM 20 or DSM 20/1 grinding roller equipped with either ceramic grinding rings or else an emery grinding fillet ● We recommend the ceramic grinding roller for the initial equalising provided the subsequent resharpening is carried out with a DSW on the card ● The ceramic grinding roller allows the socalled heel grinding, i.e. significantly less abrasion of the tooth points at the time of initial equalising leading to extended life time ● In cases where the resharpening of the flat clothings on the card is not possible we recommend the DSM 20 and DSM 20/1 to be equipped with the emery fillet grinding roller
Welcome to the MCILEARN Series Your Webinar Will Begin Shortly Today’s Topic Shake Out: Vibration Analysis If you do not have an audio connection, dial 877-739-5904 and enter the Audio PIN number given to you on your screen © 2012 Motor Coach Industries Int'l, Inc. and its subsidiaries. All Rights Reserved. Learning Objectives • Identify the different classifications of vehicle driveline vibrations • Begin to diagnose & locate the source of a vehicle driveline vibration • Provide a correction to eliminate the vibration from the vehicle © 2012 Motor Coach Industries Int'l, Inc. and its subsidiaries. All Rights Reserved. Safety Message • Always use personal protection devices – Safety glasses, ear protection, etc • Always observe all safety precautions listed in the Maintenance Manual including but not limited to: – – – – – – Ensure coach is on a level surface Ensure parking brake is applied Chock wheels Always use jack stands Shut off batteries Utilize Lock Out/Tag Out procedures © 2012 Motor Coach Industries Int'l, Inc. and its subsidiaries. All Rights Reserved. Vibration Identification: Identifying the Source of a Vibration © 2012 Motor Coach Industries Int'l, Inc. and its subsidiaries. All Rights Reserved. Vibration Analysis Primary sources of vibrations • Tires & Wheels – Rims, tires, hub & drum assemblies • Driveline – Driveshaft & slip-joint, u-joints, yokes & flanges – Working angle of driveshaft • Engine & Transmission – Crankshaft, injectors & cylinders, vibration dampers, engine supports, exhaust...
driveshaft series 6Q – 175 – 250 I N S TA L L AT I O N - O P E R AT I O N - M A I N T E N A N C E M92-1442B I SSU E D 4/2013 R EAD AN D U N D E R STAN D TH I S MAN UAL PR IOR TO OPE RATI NG OR S E RVICI NG TH I S PROD UCT. Before installing the driveshaft, be sure the motor and Geareducer are on level bases and that their shafts are in reasonable alignment. Note match numbers on the driveshaft flanges and remove the yokes. Coat the motor shaft and Geareducer shaft with “Thred-Gard” (Crane Packing Co.) or similar lubricant. Place the key halfway in motor and Geareducer shafts, then install yokes as shown in Figure 4. Use a rubber mallet or wood block when tapping yokes to prevent damage. Tighten each yoke set screw against key. Align match numbers on tube and yoke flanges and bolt the tube and flange assembly to the Geareducer yoke while supporting the motor end of the tube and flange assembly. Progressively tighten bolts to 60 ft·lbƒ (82 N·m) torque. Slide the motor so that motor yoke can be bolted to the tube and flange assembly without pushing or pulling on the bushings. Align match numbers and bolt the motor yoke to the tube and flange assembly. Progressively tighten bolts to 60 ft·lbƒ (82 N·m) torque. The distance between tube and yoke flanges should be as shown in Figure 4.
Vibration Diagnostics S tart 1 Gather Info When did vibration start? Where is vibration felt? What road conditions? Under load or high torque conditions? During acceleration/deceleration? Speed dependent? RPM dependent? Noise? Suspension modified recently? Lube clean and at proper level? 2 Important: Use factory service manuals and procedures and refer to all applicable safety precautions when servicing vehicles. This document is intended to assist with drivetrain vibration diagnosis. It does not guarantee an immediate solution nor does it guarantee warranty responsibility or reimbursement. Refer to Roadranger.com for Product Warranty Statements, Warranty Manual, and Warranty Guidelines. 6 Vibrations While Stationary Previous work on clutch or engine Y es In the road test in Step 2, the vehicle was run up to the suspected RPM and the transmission shift lever was placed in neutral. No Y es No If clutch work recently done, problem could be related to the clutch. Verify proper clutch was installed. If engine work recently done, problem could be related to the engine. Contact your engine distributor. 4 No Problem is related to the clutch. Road Test Have vehicle driver recreate complaint condition, if possible Leave trailer attached Run up to suspected RPM and put transmission in neutral Simulate Conditions Speed Related? Y es Does ride height meet OEM specs Y es No No Perform visual inspection and use Eaton Driveline Angle Analyzer (DAA). U-joint bearing cups and trunnions Bearing straps Flange yoke / companion flange Yoke-mounted damper Parking brake Center bearing Fasteners Driveshaft for damage / missing weights Driveshaft slip spline (wear / bottoming / inadequate engagement) Cab mounts / air ride system Correct per OEM procedures. Speed RPM Gear Position Coast Under power Loaded / Unloaded Problem Solved No Remove all drive axle shafts and lock in power divider. Run truck in same condition as when complaint occurred. Y es Done! Problem Solved Isolate Suspect Shaft No Y es Problem is related to the wheel end. Take known good wheel assembly and test replacement from wheel to wheel to isolate problem.
1888 PressRelease - Benz Inc. announces their new HF103 Solidfix® Spindle Motor, which enables users to change tools quickly using adapters that hold a variety of tools rather than using an expensive automatic tool changer or a labor-intensive manual tool. BENZ will have the HF103 Solidfix Spindle Motor on display at this years IWF tradeshow.
The latest 3.4 litre version of the Powertec RP V8 Doubled up Tom Sharp investigates a cost effective V8 racing engine on behalf of Powertec. It essentially consists of a pair of Hayabusa engines, arranged at a 72° bank angle, driving a common crankshaft and mounted to a dedicated dry-sumped crankcase. The result is a P keenly priced V8 engine that is very light, powerful and reliable. The having initially a 2.6 litre displacement, it had been commissioned by been joined by three other varieties (see Table 1), which demonstrates Radical Motorsport for installation into that company’s SR8 sports-racing just how much flexibility is in the base package. The numbers tell the car. Radical specialised in motorcycle-engined sports-racers and was story of commercial success well enough. Powertec have to date built keen to augment its popular four cylinder machines with a V8. a total of 110 RP engines (including 75 RPAs and 25 RPBs); volumes owertec Engineering’s innovative, Suzuki Hayabusa-based engine is now owned, manufactured and built by Powertec Engineering RP V8 engine was introduced in the UK at the Autosport from its base in Peterborough, England. Run by former motorbike International show back in January 2005 since when it engine tuning specialist Ted Hurrell, Powertec employs 14 people in a has been a resounding technical and commercial success. 3000 sq ft factory. Founded upon a pair of 1.3 litre Hayabusa I4 motorcycle engines and The RP was designed and detailed by Steve Prentice of SPD Ltd 68 The original 2.6 litre RPA and the subsequent 2.8 litre RPB have now which any bespoke engine manufacturers would be proud of. However, DOSSIER : POWERTEC RP V8 ENGINE RP V8 CAD image governs UK motorsport – they banned it on the grounds of it not being derived from a passenger-carrying vehicle. Horne’s solicitors eventually ensured the car received its required log book but the MSA made it clear that the RP was not welcome in rallying. Powertec’s original product portfolio plan had included a 2.0 litre ‘screamer’ version, but as Ted Hurrell explains customer demand drove the capacity in the opposite direction. “The screamer was originally conceived for use in 2.0 litre hillclimb and VdeV sportscar racing, however the VdeV regulations quickly changed to insist upon four cylinder car engines and our hillclimb customers went in the direction of the unlimited classes, which means increasing swept volume as far as possible to maximize torque. So only one 2.0 litre engine was built before that variant was then unfortunately the RP series only represents 20% of Powertec’s business; the majority revolves around building and tuning the Suzuki Hayabusa four cylinder shelved. “Those two examples, of the 2.5 and 2.0 litre engines go to engines for markets such as motorbike racing, low volume production...
Suzuki Hayabusa 2000 - 2005 Engine Protection Cage installation instructions Items included in this kit Cage loop (1each) Side struts (2 each) Extended frame sliders (2 each) Hardware kit (1 each) (contents listed below) M10-1.25 x 70mm bolt (1 each) M10-1.25 x 80mm bolt (1 each) ¼”-20 x 1 ½” bolts (2 each) ¼”-20 x 2” bolts (2 each) ¼”-20 lock nuts (4 each) 3/8”-24 x ¾” bolts (2 each) Flange Bushings (2 each) M10-1.5 x 15 1/2" all thread rod (1 each) M10-1.5 hex nuts (2 each) 1. Follow installation instructions for extended frame sliders. (See page 1) Note: Do not attach delron tips or tighten extended frame sliders until all components are installed. 2. Place the cage loop inside short telescoping tubes on sliders (See fig. G), push the ¼”-20 x 1 ½” bolts through the bolt holes in the telescoping tubes from the outside and start the ¼”-20 lock nuts. Do not tighten lock nuts at this time. 3. Install the left side strut using the all thread rod, flange bushings and hex nuts provided. Slide the following components over one end of the all thread rod in this order: flange bushing marked with "L", side strut marked with "L" and one M10-1.5 hex nut. (See fig A) Slide the all thread rod through the swing arm bolt on the left side of the motorcycle. (make sure the flange bushing slides into the swing arm bolt) On the right side of the motorcycle slide the following components over the all thread rod in this order: flange bushing marked "R", side strut marked "R" and M10-1.5 hex nut. (you may need to hold the left side to ensure it stays in place) 4. Push the bottom of the cage loop towards the rear of the motorcycle while pulling the bottom of the left side strut towards the front until the bolt hole on the side strut meets the threaded hole on the tab welded to the cage loop. Attach the side strut to the outside of the tab on the cage loop with a 3/8”-24 x ¾” bolt. (See fig J) Do not tighten the bolt at this time. Repeat for other side. 5. Once all components are attached tighten all bolts and nuts. Be sure to torque all engine mount bolts to factory specifications. Torque the hex nuts on the all thread stud to 12ft lbs. We recommend using "blue" loctite on the all thread stud to ensure the hex nuts do not vibrate loose. 6. Install delron tips with ¼”-20 x 2” bolts and ¼”-20 lock nuts.
GREETER TRAIL General Description: This short trail connects the Alum Gap Camp Area with the Greeter Falls Area. The first mile is an easy plateau top walk with the last half mile a moderate gorge walk. The falls are sometimes dry but there is always a cool water hole at the bottom. Miles Trail Description: 0.0 Trail begins at Alum Gap, 1 mile down Big Creek Gulf Trail from camping area. Big Bluff Overlook to left. 0.2 1.0 Suspension Bridge across Boardtree Creek, junction of Greeter Falls Loop Trail. 1.3 Trail splits—left is Lower Falls (50’ high) and plunge pool; right is Upper Falls (15’ high) Greeter Falls. 1.4 General Description: This long, difficult trail is designed to accommodate extended trips. Half the length is the Collins River Gorge and the other half is along the east rim. The gorge section has many beautiful geological features. Trail is closed during part of winter due to dangerous ice buildup at 6.3. Miles Trail Description: Trail begins atop Peak Mountain at the end of the South Rim Trail and the Stage 0.0 Road Historic Trail. 0.5 Blue Branch Overlook to the right, an outstanding view of a short tributary gorge and the main gulf. Ford of Blue Branch; thick Rhododendron growth. 1.1 Horsepound Point Overlook to right. 1.8 2.4 Standing Rock Overlook to right. 2.6 Collins River Overlook to right. 3.0 A small stream is forded with the remains of an old moonshine still visible to the left. Another still site to the left on a larger stream. 4.7 4.9 Collins East Camp Area to left. 5.3 Collins River is crossed on a 100’ suspension bridge, above huge boulders. 6.2 Collins West Camp Area on trail straight ahead; main trail to right. Camp area is on the mountaintop and has the best overlook along the trail—Rocky Point. There is also a parking area from 55th AVE off HWY 108, 1/4th mile out access trail from campsite. 6.3 The spectacular triple waterfall of Rocky Mountain Creek, a huge overhang, and creek ford. A large mound of fallen rocks and exceptionally large Chestnut Oak Tree to trail 6.8 right; start of descent.....
Satisfy Professional's Needs Chain Saw UC3020A / UC3520A / UC4020A 300mm (12") 350mm (14") 400mm (16") Designed with the concept of "Easy Operation and Maintenance" Rubberized Soft Rear Grip Toolless Blade Change and Adjustment Large View Window of Oil Tank Ergonomically Positioned and Angled Front Grip Flat External Design Metal Spike Bumper Provides increased stability in tool maintenance such as oiling/blade change. Powerful Cutting Thanks to the High Torque Delivered by Heavy-Duty 1,800 W Motor. Chain Saw UC3020A 300mm (12") / UC3520A 350mm (14") / UC4020A 400mm (16") 132 Double Insulation Electric Brake Automatic Oiling Chain Brake Specification Continuous rating Input Chain speed per minute Guide bar length Chain Blade Dimensions (L x W x H) Net weight Power supply cord Standard equipment UC3020A UC3520A UC4020A 1,800W 800m (2,620ft) 300mm (12") pitch : 3/8" gauge : 0.050" 417 x 245x 198mm (19-3/8" x 9-5/8" x 7-3/4" ) 3.7kg (8.2lbs) 0.3m (0.98ft) 1,800W 800m (2,620ft) 350mm (14") pitch : 3/8" gauge : 0.050" 417 x 245x 198mm (19-3/8" x 9-5/8" x 7-3/4" ) 3.7kg (8.2lbs) 0.3m (0.98ft) 1,800W 800m (2,620ft) 400mm (16") pitch : 3/8" gauge : 0.050" 417 x 245x 198mm (19-3/8" x 9-5/8" x 7-3/4" ) 3.7kg (8.2lbs) 0.3m (0.98ft) Chain Blade, Guide Bar Scabbard, Hook completed Dimensions and Net weight : excluding blade and guide bar Items of standard equipment and specifications may differ from country to country.