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Located on The Radian Balcony, just steps from the campuses of University of Pennsylvania and Drexel University, City Tap House boasts one of Philadelphia's most extensive draft beer lists- 60 taps, including many rare and sought-after craft brews. Featuring outdoor seating in Philadelphia, guests can enjoy craft beer with food and friends by one of the fire pits, or stay inside to watch the big game in the main bar or dining room. City Tap House has been voted “Best Bar to Watch a Game” two years (2011/2012) in a row by Philly Beer Scene Magazine. Visitors of City Tap House will experience a rich blend of unique craft beers and elevated American pub fare, making it a highly recommended restaurant in University City. Guests are invited to stop in any time during the day to see for themselves. To experience the delicious lunch menu and daily drink specials, visit http://www.citytaphouse.com
Check out the myriad types of Blast proof doors made by this company and find the one that is most appropriate for you. Such kind of doors provides high-security facilities that can be used in houses and business. Basically these types of doors are designed to protect buildings from fire, natural calamities, disaster and nuclear explosions.
PERFOMANCE BOOST The Freescale* MPXV4115V pressure sensor is the ideal part for automotive vacuum sensing needs such as those found in the brake booster application. Prepared by Marc Osajda Automotive Sensor Marketing Motorola – Toulouse, France Advanced braking systems are becoming increasingly common in today’s automobiles. Higher level systems and technology now being used in “brake assist systems” (BAS) in several European cars, have made it possible for more efficient and intelligent braking systems. A key functional application block found in these braking systems that has advanced with this technology surge, is the vacuum brake booster function. Here are a few driving factors behind the need and use of the brake booster, which helps ensure a safer braking system. Independent Systems: In current gasoline engine cars, the engine’s intake manifold generates the vacuum for the brake booster. This system works fine with one exception. The amount of vacuum in the brake booster is unknown by the braking system. Thus the amount of amplification is also unknown. If heavy braking is needed, there is no possibility for the brake system to interact with the intake manifold if additional amplification is required. The manufacturer’s interest for having the vacuum generated by an auxiliary vacuum pump is that the brake system can manage the amount of vacuum as required, on demand. This in turns gives it the ability to perform amplification on its own, giving it complete independent from the engine’s operating condition. The auxiliary pump is also able to provide higher amounts of vacuum whenever necessary. In situations calling for heavy braking, the pressure will naturally decrease in the brake booster, also causing a decrease in the amplification during braking. With an external pump it is possible to maintain, or even increase the amplification during a heavy braking phase. Smart Safety: Wheel blocking due to high-braking force is controlled by the Anti-Lock Brake System (ABS). However, it has been observed that in many cases, drivers do not...
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.
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.
Liquid Crystal Glass: Vario Privacy smart glass is easily installed and can be used in many applications. Various configurations can be supplied including colour tinted, fire rated, double glazed, curved and shaped.
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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...
Suzuki Hayabusa Gen 2 Upper Fairing Removal. This can be used to take off the panels to get to the fuse block, Gauge Cluster, changing bulb, anything behind ... Suzuki Hayabusa Gen 2 Upper Fairing Removal. This can be used to take off the panels to get to the fuse block, Gauge Cluster, changing bulb, anything behind the upper cowl. Step 1: Remove these bolts on both sides of the bike. 4mm Hex 2nd Step Remove these plastic pin (both side) by inserting a small flat head screw driver and popping it up. Step 3: Remove this bolt located center and below the triple Tree. Step 4: this piece should easily pop out. Notice that there is another push pin hidden? Step 5: Remove this pin by pushing the center. (Both sides) Suzuki Hayabusa Gen 2 Upper Fairing Removal. This can be used to take off the panels to get to the fuse block, Gauge Cluster, changing bulb, anything behind the upper cowl. Step 1: Remove these bolts on both sides of the bike. 4mm Hex 2nd Step Remove these plastic pin (both side) by inserting a small flat head screw driver and popping it up. Step 3: Remove this bolt located center and below the triple Tree. Step 4: this piece should easily pop out. Notice that there is another push pin hidden? Step 5: Remove this pin by pushing the center. (Both sides)
NAME Address City, State, & Zip Code Phone Number Email Address OBJECTIVE To obtain a position in Fire or Trail management with the U.S. Forest Service. EDUCATION Chico State University, Chico, California Major: Biological Sciences, GPA Currently 3.0 Minor: Chicano Latino Studies Expected Graduation Date: May 2011 Reedley Community College, Reedley, California Major: Biological Sciences GPA 3.27 Graduated December 2009 Reedley High School, Reedley, California GPA 3.12 Graduated June 2007 WORK EXPERIENCE Field Labor Enterprises, Chico, California June 15, 2010 – Present Laborer, 30 hours/week - $6.75/hour • Skilled in the use of tractors, chain saws, pruning shears and shovels • Picking peaches, plums, nectarines, grapes, tomatoes, oranges • Packing fruit in boxes in an organized manner • Pruning & thinning various types of fruit trees • Rolling and boxing of raisins Supervisor: Phone #: Starbucks, Fresno, California August 23, 2008 – May 1, 2010 Barista and cashier, 30 hours/week - $6.75/hour • Memorized and prepared numerous specialty drinks while meeting corporate standards and customer special requests • Processed precise transactions for customers • Monitored the store to ensure it was fully stocked with all necessary supplies and products • Communicated effectively with co-workers and customers to provide the best customer service possible Supervisor: Phone #: Darlene Farms, Calistoga, California April 6, 2007 – July 2, 2008 Almond Orchard Manager, 35 hours/week - $7.25/hour • Maintained 800 acres of almond trees by managing irrigation, mowing and spraying herbicides • Operated various types of tractors such as caterpillars and backhoes Supervisor: Phone #: Valley View Country Club, Sonoma, California May 8, 2006 – March 7, 2007 Irrigation Manager, 15 hours/week - $5.00/hour • Supervised 15-20 irrigators throughout the 18-hole golf course • Replaced sprinkler heads, broken pipes, mowers and tractors • Monitored the electronic sprinkler system • Operated greens mowers, fairway mowers and sand trap tractors Phone #: Supervisor: VOLUNTEER EXPERIENCE (OPTIONAL) U.S. Forest Service, Sacramento, California Aug 5, 2007 – September 3, 2007 Generation Green Leadership Camp – Total 80 hours • Instructed visitors on fire prevention • Advised the public on various topics in relation to fire safety, wildlife biology, and laws and regulations within the USDA Forest Service • Supervised the children’s activity area and maintaining a professional work environment • Participated in public speaking and other career development workshops Phone #: