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Universal grinding machine for the most Demanding ... - Hardinge Inc.

KEL-VIVA Universal grinding machine for the most Demanding Applications KEL-VIVA The innovative grinding system 2 2 different wheelheads UR-wheelhead R-wheelhead Wheelhead with fixed intermediate section B-axis KEL-SET automatic grinding wheel measuring system (option) Heidenhain control system GRINDplusIT Windows 2000 2-processors control system C-axis for unround components and threads (option) Hydrostatics X- and Z-guideways no stick slip good damping Scale on upper table for setting-up of table assemblies metric imperial Prepared connecting plates for table flooding for diamond cooling for stabilizing of measuring unit Flushing of base pan for good conveyance of grinding dust prevents dirt deposits Precision with hydrostatics These CNC universal cylindrical grinding machines have been developed to satisfy the highest demand for quality. Intensive application studies and the use of stateof-the-art technology in development and production have resulted to this universal grinding machine. Hydrostatic guideways and a strict separation of the machine base from the assemblies, generating heat or vibration, provide superb precision and productivity. The excellent static and dynamic rigidity of the machine base permits a three-point set-ut. The KEL-VARIA therefore has no particular requirements on the building’s...

ZE15A Gear Grinding Machine for economical hard gear finishing of ...

In recent years the demands for precision machining of gears in automobile transmissions, for low noise and vibrations, has been ever increasing. Historically, conventional finish machining of gears was a pre-heat treatment operation typically by shaving. However, the requirement for higher precision forced a shift toward a post heat treatment operation using a generating process, which eliminates thermal distortion, thus enabling high quality and precision. The Mitsubishi ZE15A gear-grinding machine was duly developed for the high production line applications and launched into a domestic market typically dominated by European machines. (3) Ease of use for the user achieved via interactive dialog functions and full CNC control of all axes. This paper describes the principle of grinding and control for the ZE15A before presenting some machining examples.

The ATE T50 Brake Booster - 190SL | 190 SL

Fifty percent less pedal force I n most of the models of the 1950s and 1960s, Mercedes-Benz provided a power brake booster manufactured by ATE. The booster does not pro- vide additional braking capacity, a common misconception, but rather reduces the pedal force required for braking. The power brake is a vacuum-assisted hydraulic component using the pressure difference between engine intake manifold vacuum and atmospheric pressure for its operation. The power unit increases the pressure created physically in the brake master cylinder so that the same braking effect can be produced with less pedal effort. With a brake booster installed, the pedal force required for braking is reduced by 50 percent. The ATE T50 Brake Booster uses vacuum to “boost” the hydraulic brakeline pressure. The booster contains a hydraulic cylinder, a large vacuum piston that presses against the hydraulic cylinder, and a control circuit that regulates the vacuum flow based on brake-line pressures. This technology had been well proven since the early 1900s, and the T50 has been exceptionally reliable over many years of use. The Booster in action The power booster is a very simple design requiring only a vacuum source to operate. In gasoline-engine cars, the engine provides a vacuum suitable for the boosters. Because diesel engines do not produce a vacuum, dieselpowered vehicles must use a separate vacuum pump. A vacuum hose from the intake manifold on the engine pulls air from both sides of the diaphragm when the engine is running. When the driver steps on the brake pedal, the input rod assembly in the booster moves forward, blocking off the vacuum port to the backside of the diaphragm and opening an atmospheric port that allows air to enter the back chamber. Suddenly, the diaphragm has vacuum pulling against one side and air pressure pushing on the other. The result is forward pressure that assists in pushing the input rod, which in turn pushes the piston in the master cylinder. The amount of power assist that’s provided by the booster depends on the size of the diaphragm and the amount of intake manifold vacuum produced by the engine. A larger diaphragm will increase the boost.

Introduction to Brake Systems – Study Guide

Introduction Everybody knows that when you press your foot on the brake pedal the vehicle is supposed to stop. But how does the pressure from your foot get to the wheels with enough force to stop a heavy vehicle? In the following sections, we will study the systems and components required to allow brakes to work effectively. Course Objectives Upon completion of this course, technicians should understand and be able to apply their knowledge of: • • • • • • • • • • • • Brake functions and components Split hydraulic systems Master cylinder operations Balance control systems Power brake booster systems Disc brake operation Micrometer reading Drum brake operation Brake fluids Brake bleeding operations Brake lines and hoses Basic diagnosis Using the Job Sheets As you proceed through the online module, on some pages you will find links that will open a window with a printable procedure or job sheet containing hands-on lab activities based on the NATEF standards related to the content you are studying. When you come upon a procedure or job sheet link, click on it and print the job sheet for completion in the shop. See your instructor for guidance in completing the job sheets. Some jobs sheets will require supplemental materials such as a vehicle service manual, equipment manual, or other references. Brake System Functions Automotive brakes are designed to slow and stop a vehicle by transforming kinetic (motion) energy into heat energy. As the brake linings contact the drums/rotors they create friction which produces the heat energy. The intensity of the heat is proportional to the vehicle speed, the weight of the vehicle, and the quickness of the stop. Faster speeds, heavier vehicles, and quicker stops equal more heat. Automotive brake systems can be broken down into several different sub-systems (fig. 1): • Apply system • Boost system • Hydraulic system • Wheel brakes • Balance control system • Warning system (fig. 1) Base Brake Systems .

HYDRAULICS & BRAKE BOOSTER CATALOG - Aisin

The clutch master cylinder is a device that transforms mechanical force into hydraulic pressure. As the driver presses the clutch pedal, the pedal lever applies force to the clutch master cylinder which transmits hydraulic pressure to the clutch release (slave) cylinder that disconnects engine power to the transmission. Structure and Components [Conventional Type] Inlet Union Oil Spill Hole Aluminum Body Flare Nut Pipe Joint Boot Spring Primary Cup Resin Piston Push Rod Rel Secondary Cup Spring Metallic Clevis Damper Stud Bolt The clutch master cylinder structure consists of the piston, cups, and springs, built within a precision machined body. The primary cup, positioned on the leading side of the body, functions to create hydraulic pressure when fluid is forced inside by the piston. Located on the trailing side is the secondary cup, which guides the piston and prevents fluid from leaking. When the clutch pedal is pressed, the primary cup is blocked away by the piston from the oil spill port leading to the reservoir tank, pressure in the cylinder rises as the fluid is fed through the pipeline. When the clutch pedal is released, the hydraulic pressure and the force of the return spring pulls back the piston to relieve fluid back into the reservoir. The clutch master cylinder is what provides the necessary force to control the application of drivetrain power. 2 Clutch Master Cylinder Variations Clutch Master Cylinder Variations Conventional Port-less Type Stand Alone / Integrated Reservoir Type Types With and Without Stud Bolts Types With and Without Clevis Damper Types With and Without Clutch Booster ...

Delta Worldwide Timetable - AirTimes

TABLE OF CONTENTS General Information 2-4 Using the Worldwide Timetable 5 Global Alliance and Airline Partners 6-7 Flight Schedules 8 -143 Train Schedules 144 U.S. Offices 145 - 149 International Offices 150 - 154 Service Highlights New Service Atlanta 1 roundtrip November 1 Palm Springs 1 roundtrip December 1 Jackson Hole 1 roundtrip December 14;Sat/Sun service only 2 roundtrips December 1 St. Thomas 1 roundtrip November 1 Ft. Myers DOMESTIC RESERVATIONS Montego Bay 1 roundtrip November 1 Salt Lake City Jackson Hole Additional Service Atlanta 800-221-1212 Delta Express Additional Service INTERNATIONAL RESERVATIONS Islip From U.S., Puerto Rico, Virgin Islands 800-241-4141 From Canada 800-221-1212 Ft. Lauderdale 1 roundtrip November 1 New York (JFK) 800-511-9629 RESERVATIONS IN JAPANESE 800-327-2850 DELTA EXPRESS 866-2 FLY DLX DELTA SHUTTLE 800-933-5935 DELTA VACATIONS™ 800-872-7786 ARRIVAL/DEPARTURE 800-325-1999 CARGO BOOKING, TRACKING/TRACING 800-DL-CARGO DELTA DASH 800-DL-CARGO SKYMILES INFORMATION 800-323-2323 BAGGAGE 800-325-8224 HEARING AND SPEECH IMPAIRED 800-831-4488 Telephone numbers in this publication are subject to monitoring for quality control purposes. 2 roundtrips November 1 Orlando RESERVAS EN ESPAÑOL Ft. Lauderdale 1 roundtrip November 1 General Information General Information continued DELTA PROGRAMS AND SERVICES SAFETY

FLEXIBLE HOSE DATA SHEET_1 - EasyFlex

FLEXIBLE HOSE DATA SHEET EASYFLEX Flexible Sprinkler Drops are designed to significantly reduce labor and installation costs. By eliminating the need for pipe cutting and midline connections, you save valuable time and money. EASYFLEX Flexible Sprinkler Drops can be installed on almost any suspended commercial ceilings. The flexible hose allows for fast installation while our innovative brackets are simple and easy to install. Brackets for T-Bar ceiling grids, wall mount, metal studs, woodbeams, open hat channels, industrial ducts, and cleanrooms. No special tools required, and installation completed in a few easy steps. Flexible hoses come in braided or unbraided types, from 24” to 72” in length. EASYFLEX Flexible Sprinkler Drops Appliance Standards National Fire Protection Association (NFPA): - NFPA 13: Standard for the Installation of Sprinkler Systems - NFPA 13D: Standard for the Installation of Sprinkler Systems in One and Two-Family Dwellings and Manufactured Homes - NFPA 13R: Standard for Installation of Sprinkler Systems in residential Occupancies up to and including four stories in height American Society for Testing and Methods (ASTM): - ASTM C635: Standards specifications for the manufacture, performance, and testing of metal suspension systems for acoustical tile and lay-in panel ceilings...

2009 Hayabusa - PCV - MPS Racing
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Parts List Power Commander USB Cable CD-ROM Installation Guide Power Commander Decals Dynojet Decals Velcro® Strip Alcohol Swab Wire tap O2 eliminator The ignition MUST be turned OFF before installation! YOU CAN ALSO DOWNLOAD THE POWER COMMANDER SOFTWARE AND LATEST MAPS FROM OUR WEB SITE AT: WWW.POWERCOMMANDER.COM PLEASE READ ALL DIRECTIONS BEFORE STARTING INSTALLATION 2191 Mendenhall Drive 20-008 www.powercommander.com North Las Vegas, NV 89081 (800) 992-4993 www.powercommander.com 2009 Suzuki Hayabusa PCV - 1 POWER COMMANDER V INPUT ACCESSORY GUIDE A C C E S S O RY I N P U T S Map - The PCV has the ability to hold 2 different base maps. You can switch on the fly between these two base maps when you hook up a switch to the MAP inputs. You can use any open/close type switch. The polarity of the wires is not important. When using the Autotune kit one position will hold a base map and the other position will let you activate the learning mode. When the switch is “CLOSED” Autotune will be activated. Shifter- These inputs are for use with the Dynojet quickshifter. Insert the wires from the Dynojet quickshifter into the SHIFTER inputs. The polarity of the wires is not important. Speed- If your application has a speed sensor then you can tap into the signal side of the sensor and run a wire into this input. This will allow you to calculate gear position in the Control Center Software. Once gear position is setup you can alter your map based on gear position and setup gear dependent kill times when using a quickshifter. USB CONNECTION CRANK ANALOG EXPANSION PORTS 1 & 2 Optional Accessories such as Color LCD unit or Auto tune kit.

RCC Turbos - Stage 1 Turbo Install - Suzuki Hayabusa - Gen 1

RCC Turbos - Stage 1 Turbo Install: Suzuki Hayabusa (Gen 1) • Preparation/Disassembly: Remove the seat. Disconnect negative terminal on the battery. Drain the fuel tank. Remove the fuel tank. Remove the stock fuel pump from the tank. Remove the air box. Remove the MAP sensor and temperature sensor from the air box. Remove left and right side fairings. Drain engine oil. Drain engine coolant. Remove the oil filter Remove the oil restrictor, behind the filter. Remove the oil cooler lines. Remove the radiator and oil cooler, as one unit, leaving only the bracket/support for radiator (before reinstalling the radiator please remove all the tabs along the bottom of the radiator). Remove the entire exhaust system. Remove the PAIR system. Remove the oil pan from the engine. • Sensor Bracket Modification: On the left hand side of bike, on the inside of the frame, you will see a bracket, with a plastic vacuum canister, vacuum control solenoid valve, atmospheric pressure sensor, and some vacuum lines, with a check valve in the vacuum line. Please remove this entire bracket, eliminate all the vacuum lines, the plastic canister, and the control solenoid valve, and also cut off the metal tab that held the vacuum canister. Then reinstall this bracket with only the atmospheric pressure sensor, and plug the wires back in. • Tap/plug PAIR System Holes: Tap the four small PAIR system holes, above the exhaust ports, with an M6 x 1.0 tap. Install the four small M6 screws into the exhaust holes after tapping them. • Modify the Oil Pan: Drill a ¾” hole on the left side of the oil pan. Use thread sealant on the washer, and red Loctite on the threads. Make sure the sealing washer is against the inside of pan, then the stainless flat washer, then the nut. Once the fitting is installed, reinstall the oil pan. • Install Header/Turbo/Oil Lines/Exhaust: Install the header and turbo as a unit, but with the bolts loose. Use four of your original header bolts on the top of the turbo header (Allen head). Use the four new bolts on the bottom row of the header (M8, 10mm flange head). PLEASE NOTE! After installing the dump pipes and waste gate, the nipple on the top of the waste gate remains open, and no hose gets installed on the top fitting. The top fitting is used for boost control on Stage 2 and higher end kits. It is not used on Stage 1 kits.

B&W print solutions for maximum power in minimum space

http://www.kmsa.com/Home/Products%20and%20Services | The bizhub 4700P, 4000P and 3300P from Konica Minolta are more than just ordinary printers. Quick B&W print speed and simple control panels make these printing machines perfect for fast paced office environments. Designed with the environment in mind, these printers also come with a special Eco-mode and Auto Duplexing to reduce power consumption and save paper. Whether you use a Windows or Mac computer, you can enjoy the full benefits of Konica Minolta’s bizhub printers.

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