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shunlongwei · 3 years

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Sharp Https://www.slw-ele.com; Email: [email protected]

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https://en.wikipedia.org/wiki/Sharp_Corporation Sharp founder Tokuji Hayakawa coined this phrase to embody the management concept at Sharp. In 1912, he invented the snap belt buckle and three years later brought the Ever-Sharp mechanical pencil to the market. Since then, Sharp has been on the cutting edge of technology, consistently innovating new appliances, industrial equipment and office solutions, and changing the lives of people around the world.

In 1962, Sharp expanded outside of Japan and established Sharp Electronics Corporation in the United States—the company's first overseas sales base—and in 1979 it set up the Sharp Manufacturing Company of America to create a manufacturing base in the U.S.

Sharp didn't limit itself to sales and manufacturing in the U.S. In 1995, Sharp opened Sharp Laboratories of America, its U.S.-based research and development laboratory designed to take advantage of American ingenuity and research.

As the array of products offered by Sharp grew, Sharp Electronics Corporation expanded to include a new sales office in Los Angeles, California, in 1996. In this same year, Sharp made its presence known on the Internet, with the creation of www.sharp.co.jp and www.sharp-world.com.

As a manufacturer, Sharp contributes to society by being the first to make unique products that meet the new needs of each decade. Successive generations of Sharp leaders have, in their own way, pursued this concept by making products that contribute to society, in the process creating a corporation known and trusted around the globe.

From the first solar-powered calculator to the largest commercially available LCD monitor, from copiers to solar cells, from air purifiers to steam ovens, and from microelectronics to microwave ovens, Sharp covers all of the needs of the contemporary lifestyle.

Sharp aims to realize its business philosophy throughout all its activities. Possessing a "gene of creativity" since its foundation, Sharp will continue to offer one-of-a-kind products and new lifestyles as a corporation trusted around the world.

IMPORTANT MILESTONES IN SHARP HISTORY

1912 TO 1914

Company’s Founder, Tokuji Hayakawa, invents a snap belt buckle requiring no fastening holes.

Tokuji Hayakawa invents and patents an adjustable flow faucet.

1915 TO 1919

Tokuji Hayakawa invents, manufactures and sells the Ever-Sharp Mechanical Pencil, one of the most innovative and popular writing instruments of its time.

1920 TO 1924

Committed to modernization, Tokuji Hayakawa is among the first to introduce assembly line manufacturing to Japan.

1925 TO 1930

Company, then known as Hayakawa Metal Works, begins mass production of the first crystal radio made in Japan.

1931 TO 1936

An originally designed intermittent belt conveyor system is completed in 1936. A first in Japan, this system achieves an unprecedented level of quality and efficiency. The system's mass production capability makes it possible to build a single radio in just 56 seconds.

1937 TO 1944

World War II drives demand for Sharp radio sets.

1945 TO 1952

Korean War brings a boom in procurements by the US forces, boosting the Company's fortunes which had declined in the difficult period immediately following World War II.

The Company successfully introduces a “Super Radio Set” in response to newly expanded radio broadcasting in Japan.

1953 TO 1954

The Sharp model TV3-14T became Japan's first commercially produced television.

In 1953, television sets produced by Tokuji Hayakawa's company account for 60% of Japan’s industry total.

Company builds a new leading-edge mass production facility for televisions. It is equipped with the latest conveyor system and integrates operations from wiring and assembly to packaging and warehousing.

1955 TO 1958

Home appliance boom starts in Japan. Company completes new home appliances plant featuring the largest automatic plating facility in Asia as well as cutting-edge plastic molding equipment.

The Company continues to diversify its products by introducing an air cooler using cold water from underground ("The higher the room temperature, the higher the cooling efficiency", it is claimed) and a kitchen roaster using a heater installed inside the top cover to prevent smoking. Both are original products inspired by traditional Japanese sensibilities, and are well-received by consumers throughout the country. Other unique and ground-breaking products include electric fans with plastic blades, and a refrigerator with an ultra-compact bipolar compressor which increases storage space.

1960 TO 1961

Company begins mass production of color televisions.

The Company begins research on computers, semiconductors, ultra-short wave technology and microwave ovens. All are future product categories in which the Company excels.

Central Research Laboratories established to support new product development. Full-scale research immediately begins on technologies relating to electronic calculators, solar cells, electronic medical equipment, optical semiconductors, computers and others.

1962

In 1962, the Company's establishes its first overseas sales subsidiary -- Sharp Electronics Corporation (SEC) -- in New York City.

In 1961, Sharp becomes the first company in Japan to develop a microwave oven and leads the industry with mass production of the new device in 1962.

1963

Based upon pioneering solar power research started in 1959, the Company successfully mass-produces its first solar cells in 1963.

1964 TO 1966

The Company delivers a breakthrough product -- the world's first all Transistor-Diode electronic calculator.

Company invents the first microwave oven with a turntable. The feature promotes convenient even heating of food.

Research into downsizing calculators by replacing transistors with ics (integrated circuits) results in creation of the world's first electronic calculator incorporating ICs.

1967 TO 1968

Continuing its international expansion, the Company establishes sales subsidiaries in West Germany and the United Kingdom.

1969 TO 1970

Cooperative agreement with Rockwell Corporation of the United States leads to production of extra large-scale integrated (ELSI) chips that form the core of Sharp's popular cutting-edge Microcompet calculator.

The Company changes its name from Hayakawa Electric Industry Co., Ltd. to Sharp Corporation. The new name reflects the Company’s broad vision and competencies.

1971 TO 1972

Sharp produces the first 4-bit microprocessor in Japan. It is incorporated in a new point-of-sale terminal produced for Coca-Cola Co., Ltd.

Sharp enters what is then called the photocopier business.

1973 TO 1975

Sharp succeeds in introducing a calculator with the world's first practical LCD unit.

Sharp adopts “Sincerity and Creativity” as its corporate creed.

Sharp Corporation establishes Sharp Electronics of Canada Ltd.

Sharp produces its 10 millionth electronic calculator.

1976 TO 1978

Sharp develops a TV employing an EL panel that is a mere 3 cm thick. This thin TV attracts a great deal of attention at electronics shows.

The Company introduces the world's first card-sized, sensor-touch electronic calculator.

Sharp sells the world's first "Picture-in-Picture" TV sets.

Sharp enters the controller market in earnest with a "sequence controller."

1979

Sharp establishes Sharp Manufacturing Company of America (SMCA) in Memphis, Tennessee. This is the company's first overseas manufacturing facility in the industrialized world. Production of color TVs and microwave ovens gets under way the same year.

Sharp begins to produce VCRs in Japan as part of an integrated audio-visual lineup of products. The Company includes an arsenal of innovative features in its new products, such as a proprietary APSS (automatic program search system) and front-loading configuration.

1980 TO 1984

Sharp completes conversion to a full-range electronic office equipment manufacturer and distributor by having products in the categories of computers, word processors, copiers and facsimiles.

Tokuji Hayakawa, Sharp's founder and the chief architect of its success, passes away at the age of 86 on June 24, 1980.

Sharp completes a plant in Shinjo (Katsuragi), Nara Prefecture, devoted entirely to manufacturing solar power-related products such as solar heat collectors, water heaters, heat regeneration chambers, and solar cells for use in outer space, and to conducting research into energy utilization technology.

Sharp develops a long-life laser diode.

Faced with brisk demand, in-house production of electronic components such as LSIs, LCDs, EL devices and laser Diodes grows steadily.

Sharp becomes the first company in the world to successfully mass-produce thin film EL panels. These devices are ideal for displays in office equipment and measuring instruments. Because of their thinness, reliability and low power consumption, they are chosen for use in the US Space Shuttle.

1985

An industry first, Sharp establishes a Creative Lifestyle Focus Center to discover consumers’ true preferences in order to guide development of demand-generating “new-lifestyle” products.

1986

Sharp launches the Liquid Crystal Display Group and establishes Liquid Crystal Display Laboratories within the Corporate Research and Development Group.

1987

The name Sharp becomes inextricably linked with LCD. The Company creates a TFT LCD module containing 92,160 pixels, the most in the industry, and incorporates it into an LCD color TV.

After a two-year development, Sharp debuts its electronic organizer (known as the Wizard in the US). The new organizers give users a calendar, memo pad, phone book, scheduler and calculator, all in a single unit. Also, users can add to the built-in functions by inserting IC cards for specific applications.

1988 TO 1989

Sharp pledges to become a full-range electronics company with optoelectronics as its core technology. Optoelectronics, which fuses light and electronics, surpasses conventional optical data transmission technologies. Its major advantages are data compression, excellent reliability and high transfer rates.

Sharp made an early start with optoelectronics research. Spinoffs have included LCDs, solar cells, laser diodes, EL devices, CCDs (charge-coupled devices) and LEDs. Today the company is number one in the world market for optoelectronics, which is the key to growth in fast expanding areas such as audio-visual and data communications.

One Sharp success in the optoelectronics field at this time is the development of the world's first 14-inch color TFT LCD. A mere 2.7 cm thick, it boasts a sharp, bright picture.

Sharp takes a lead in the field of LCD-based products by developing a 100-inch large-screen LCD video projector consisting of three 3-inch color TFT LCD panels and unveiling a high-definition television (HDTV) LCD projector.

1990

Sharp's stylish UX-1, the world's thinnest facsimile, expands its home product market.

Sharp reveals a convection microwave oven incorporating fuzzy logic control.

1991

Sharp introduces the world's first wall-mount LCD TV, incorporating the industry's largest 8.6-inch TFT LCD with 437,760 pixels.

The Company continues to reinforce its leadership position in the LCD field by completing a new LCD plant in Japan and a facility for mass-producing LCD panels in the US.

Ahead of the popularity curve, Sharp polishes its credentials as an ecologically responsible corporate citizen by addressing global environmental problems as a priority, and establishing product quality and reliability, and ecological responsibility as key corporate themes. The definition of product quality is expanded to include all aspects from design to after-sales service.

A new quality control system takes into account the environmental implications of product quality. Efforts are made to reduce industrial waste, and use of chlorofluorocarbons.

1992

Sharp completes a new facility for manufacturing the most advanced VLSI chips.

Sharp releases a 16:9 widescreen, ultra-high-resolution HDTV with 1,125 scanning lines, more than twice as many as on conventional TVs.

Sharp introduces an electronic organizer with pen-based operation.

Sharp unveils the LCD ViewCam, ushering in a new era in video cameras.

1993

The LCD ViewCam grows into a flagship product that shows the world that "LCD is Sharp" and contributes to boosting the company image.

The Zaurus creates whole new markets and joins the ViewCam as one of Sharp's flagship products. The Zaurus is a PDA that incorporates new features such as facsimile transmission, PC linking, handwriting recognition, and multimedia.

1994

Sharp makes waves by introducing a reflective-type TFT color LCD that can be viewed clearly in natural or normal room light. Compared to conventional transmissive-type LCD, which required a backlight, this new display uses just one-thirtieth the power and boasts a wide viewing angle. The reflective TFT LCD becomes popular as a display for mobile devices.

Sharp announces development of a 21-inch TFT color LCD, the world's largest. This is 1.5 times larger than the 17-inch model Sharp introduced in 1992, showing the world Sharp's high standard of LCD technology. Sharp finally breaks the 20-inch barrier with this wall-mounted TV.

1995

Sharp announces the establishment of Sharp Laboratories of America, Inc. (SLA) in Camas, Washington, to give Sharp a global tripolar research network linking Japan, the US, and the UK. SLA is founded so that America's superb researchers could use rapidly advancing multimedia technology to create original products for Sharp.

Sharp creates a buzz with the announcement of a 28-inch LCD using next-generation LCD technology.

Sharp introduces the Mebius notebook PC, a culmination of the company’s expertise in several technologies: LCD, high-density and downsizing technologies fostered in PDAs and word processors, and user-friendly interfaces.

1996

Sharp creates Japanese and English websites to provide company information and new product news to the public.

Japan's leading economic daily chooses Sharp as the second best domestic company for fiscal 1995, out of a total of 1,054 companies. Using a multivariate company evaluation system, the newspaper rates Sharp highly for the development of key devices and original products with unique features such as the company's LCDs, its continuous effort of releasing demand-creating products, and increased sales and profitability for four continuous years.

A color version of the popular Zaurus PDA is released. The product wins numerous awards in the US and Japan.

1997

Sharp launches the Environmental Protection Group and promotes a 3G1R strategy company-wide. (The three Gs stand for Green products, Green factories, Green mind, and the one R stands for Recycling business.) Sharp aims to become the No.1 environmentally responsible company from product planning, factory operation, and work processing to employee actions.

1998

Using new CG-Silicon (continuous grain silicon) technology developed through a joint venture, Sharp makes a splash with its prototype ultra high-definition 60-inch rear projector that uses three 2.6-inch CG-Silicon LCD panels.

Sharp takes advantage of its core competencies and establishes itself as a leading brand in notebook PCs by unveiling a model equipped with an 11.3-inch high-definition LCD, the largest in its class, despite the entire unit being half the thickness and half the weight of conventional notebooks of that time. The notebook could be run for an amazingly long time (approximately 8.5 hours using the separately sold battery) and had revolutionary specifications for its era, such as a 3.2 GB hard drive.

1999

Sharp announces the world’s first 20-inch LCD TVs in February and begins sales the following month. The large 20-inch screen is the ideal size for a main TV in a home. With a thickness of only 4.95 cm, these TVs save space and use only 43% of the power consumed by conventional models.

Sharp releases the world's first Internet-capable microwave oven. This one-of-a-kind microwave oven lets users download recipes from the Internet. These recipes include automatic heating instructions, allowing even novices to cook like a pro.

Sharp announces the introduction of a 1-bit amp, which uses the world's first high-order delta-sigma modulation 1-bit Amplifier technology to reproduce sounds that are as close as possible to the original. The technology produces ultra high-fidelity sound by digitally extracting and processing audio signals at 64 times the sampling rate of standard audio CDs, while also making possible smaller and more power-efficient equipment.

2000

Having provided many world-first and industry-first copiers since entering the market in 1972 with a wet-type electrostatic copier, Sharp's total worldwide copier production reaches 10 million in 2000. Sharp becomes the second copier manufacturer to achieve this outstanding milestone.

Sharp starts production of a high-definition TFT LCD that has the ability to faithfully display objects in fine detail. Sharp's original UHA (ultra high aperture) technology enables ultra high definition that is difficult to achieve with conventional CRT monitors. The new LCD can be used in a wide range of fields, including digital broadcast-compatible LCD TVs and displays for highly intricate medical applications.

Sharp successfully developes the world's first Plasmacluster ion air purification technology -- a technology that emits positive and negative ions into the air, thus deactivating impurities.

2001

Sharp introduces the AQUOS® LCD color TV, a new standard in consumer TVs.

Sharp introduces the world's thinnest and lightest (as of May 2001) 12.1-inch notebook PC. In addition to a thickness of just 16.6 mm and a weight of just 1.31 kg thanks to an enclosure-integrated display unit, the notebook PC’s proprietary retractable keyboard, metallic casing and structure make it portable, easy to use and rugged, giving users a new generation of mobile PC.

2002

Sharp strengthens its foundation for future success by starting construction of new manufacturing facilities including the highly efficient Kameyama Plant (in Japan) as a site for the integrated production of LCD TVs—from the LCD panel to the final assembly of large-screen TVs.

Sharp announces a new plant to produce System LCDs. System LCDs make it possible to display higher resolution images and build ICs such as LCD drivers onto a single glass panel. They contribute to more compact devices with thinner profiles and lower power consumption, enabling equipment such as handsets to be thinner than ever.

Sharp enters the US solar market by establishing US business unit to focus on selling solar in the United States.

Operations begin at a new plant which manufactures compound semiconductors such as laser diodes.

2003

The shift to high-resolution LCDs for mobile devices rapidly progresses, and Sharp begins full-scale production of System LCDs, which enable an ultra-high-resolution display on a par with photogravure printing. System LCDs quickly find applications in mobile phones and PDAs.

Sharp begins solar production in US: Solar module assembly operations begin at Sharp Manufacturing Company of America in Memphis, Tennessee. The facility produces a variety of modules for commercial and residential solar installations.

Sharp develops and puts into practical use a technology to enable the repeated recycling and reuse of waste plastic as material for use in new products (air conditioners, TV sets, refrigerators, washing machines, etc.), an industry first.

Sharp develops the Mobile Advanced Super View LCD and LCD Panel Speakers for portable devices such as mobile phones, PDAs, and digital cameras. The Mobile Advanced Super View LCD represents a breakthrough in high-resolution displays, making it possible to attain crisp, clear images with super-wide viewing angles. The LCD Panel Speakers integrally formed audio circuitry on the glass substrate of a System LCD panel. Both of these technologies received high ratings as technologies to simultaneously enable high-resolution image display and high-quality audio without the need for external speaker components.

2004

Sharp’s state-of-the-art Kameyama Plant becomes fully operational. It integrates production of large-screen LCD TVs – from fabricating the LCD panel to final assembly - and is the first such facility in the world.

Sharp introduces Illuminating Solar Panels that integrate high-luminance LEDs (light-emitting diodes) with transparent, high-conversion-efficiency thin-film solar cells. In addition to using the solar cells to generate electricity during the daytime, the solar panels are transparent and allow natural light to pass through. At night these panels can provide illumination using the embedded LEDs.

Sharp introduces a Superheated Steam Oven using a technology that achieves low-calorie, low-salt cooking using superheated steam at about 300°C. The process enjoys three major features—reduced fat, lower salt, and preservation of vitamin C in foods.

2005

Sharp achieves the world’s highest solar cell production total for the sixth year in a row, and Sharp receives high ratings as a leading environmental company.

Sharp introduces 65V-Inch Digital Full-HD LCD TV, the world’s largest when unveiled. It proves that super large screens were now the domain of LCDs.

4.5 kW Sharp solar system is installed at Major League Baseball’s San Francisco Giants’ AT&T Park. The system generates 120 kW of clean electricity that is fed back into the grid serving PG&E's customers throughout northern and central California.

904 kW Sharp solar system is installed at FedEx’s hub at Oakland International Airport. The system provides about 80 percent of the facility’s peak-demand electricity needs.

2006

Sharp initiates a system to ensure a consistent supply of large-format LCD panels in the 40- and 50-inch class by adopting eighth-generation glass substrates (2,160 x 2,460 mm), a world first, and sets up a global five-base production system with the goal of producing products in the region in which they are used.

Sharp acquires the Eco Mark, the only Type I environmental labeling in Japan, administered by the Japanese Environment Association, for a photovoltaic module, an industry first.

Sharp developed and begins sample shipments of a blue-violet laser diode with 20-mW maximum power that achieves a 10,000-hour service lifetime, among the longest in the industry, with power consumption of only 168 mW, the industry’s lowest. This diode is ideal for playback of next-generation DVDs, such as Blu-ray Discs and HD-DVD.

2007

Sharp develops a 108V-inch LCD TV that it shows at the 2007 International Consumer Electronics Show in Las Vegas, Nevada. This 108V-inch LCD TV, the world’s largest at that time, uses a Black Advanced Super View full-HD panel, measuring 2,386 x 1,344 mm, that is made at Kameyama Plant No. 2 from the first-ever eighth-generation glass substrates.

Sharp continues to develop new LCD technologies such as the Mobile Advanced Super View LCD, an ideal product for One-Seg-compatible mobile phones with its 2,000:1 contrast (industry’s highest for the two-inch class at the time), one of the industry’s widest viewing angles (176°), fast response speed (8 ms); and System LCD technology with embedded optical sensors which offer input through touch-screen and scanning.

Sharp solar system is installed on Google’s headquarters in Mountain View, CA. The 1.6 MW system is the largest commercial solar installation at that time. In addition to roof-mounted arrays, the system also features a new structure that encompasses two carports under which employees can park – and if they drive a plug-in hybrid - recharge their car.

Sharp wins Stevie Award (American Business Awards) “Best Corporate Social Responsibility Program” for the SOLA in NOLA charity reconstruction project. Sharp donated and arranged for the installation of ten solar systems on homes being rebuilt in New Orleans’ Lower Ninth Ward to demonstrate the role solar power could play in the community’s rebuilding efforts.

Sharp breaks ground on a new manufacturing complex to include a LCD panel plant that will be the first facility to use tenth-generation glass substrates (2,850 x 3,050 mm), the world’s largest. A solar cell plant will have an annual production volume of 1,000 MW (one million kW) for thin-film solar cells.

2008

Sharp releases Next-Generation X Series AQUOS® LCD TVs that feature Sharp’s newly developed next-generation Mega Advanced Super View LCD. The Mega Advanced Super View LCD offers amazingly superb picture quality, an innovative thin-profile design, and outstanding environmental performance. This new LCD boasts “mega-contrast”—a TV contrast of more than 1,000,000:1 —producing deep, rich blacks, expanding the reproducible color gamut to 150% of the NTSC color space, and enabling a display that is only 2.28 cm thick at its thinnest part. For optimal sound quality, X Series models incorporate Sharp’s original 1-Bit digital amp.

Sharp and Italy’s largest power company, Enel SpA (Enel), agree to establish a joint venture to operate as an independent power producer (IPP). As such, they plan to develop a number of solar power plants with a total capacity of 189 MW by the end of 2012.

Sharp produces one millionth solar module at Memphis factory and grows production capacity at SMCA to 100 MW.

2 MW Sharp solar system is installed at Denver International Airport. Spanning seven and a half acres, the system will generate over three million kWh of clean electricity annually.

Pre：AU Optronics

Next：NEC

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excellreports-blog · 6 years

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Global Scroll Compressor Market Key Country Analysis and Regional Forecast 2018-2023

Excell Reports include new market research report “Scroll Compressor Market” to its huge collection of research reports at the global and regional level. This report presents the worldwide Scroll Compressor Market size (value, Capacity, production and consumption), splits the breakdown (data status 2013-2018 and forecast to 2023), by manufacturers, region, type and application. The global Scroll Compressor market is expected to grow at a significant CAGR during the forecast period. A stringent emission regulation is anticipated to drive the growth prospects for the market for the coming years.

The global Scroll Compressor Market was valued at USD XX million in 2017 and is expected reach USD XX million by the end of 2023, growing with healthy growth rate at a CAGR of xx% during 2018-2023.This report provides in depth study of “Global Scroll Compressor Market” using SWOT analysis Strength, Weakness, Opportunities and Threat to the organization.

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The global Scroll Compressor Market report, studies the market size, trends, ad forecasts for the period 2013 to 2023. The market is categorized on the basis of product, type, application, and end-use. The study also focuses on key regions including North America (U.S., Canada, and Mexico), South America (Brazil, Argentina etc.), Europe (Germany, U.K., France, Italy, Russia, and Spain etc.), Asia Pacific, and Middle East & Africa (Saudi Arabia, South Africa etc.), Japan, China, India.

The report also studies the global market status, competitive landscape, market share, market drivers, opportunities and challenges, growth rate, future trends, sales channels, distributors, PEST and Porter's Five Forces Analysis. The report also focuses on the consumption, production, sales price, and capacity analysis in different geographies.

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rpgresearch · 6 years

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working on fixing the air conditioning. have fans working again by hot wiring bypass of switch, but that just blows ambien air, need to get a/c compressor lead working too (hopefully that id not where the short is). in Central Point Oregon Costco parking lot for a few hours to work on a/c , carburetor, and distributor timing, before begin heading to california next. If you are in the area, drop on by and say hi! Please donate to nonprofit RPG Research http://www.rpgresearch.com/rpgresearch (at Central Point, Oregon) https://www.instagram.com/p/BoC6vq0h0Kj/?utm_source=ig_tumblr_share&igshid=13tmi9onm9o0t

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cdasystems-blog · 5 years

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Dryer Service California

We use only OEM parts and filters. CDA Systems (Dryer Service California) is a stocking distributor for SPX Flow Pneumatic Products, SPX Flow Hankison air dryers/filtration and Kobelco Oil-Free compressors and K Series Oil-Lubricated compressors.

#Dryer Service California #Oil Free Compressor California #Oil Flooded Compressor Ca

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itsworn · 6 years

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A Plethora of Upgrades Transform this 1968 Mustang GT Into a Stallion

Way back in the Paleolithic Age, before Ben Franklin invented electricity and Al Gore put it to good use inventing the Internet, people scoured their local newspaper’s classified section in search of cool cars. One such practitioner of this ancient art was New Yorker Brian Commisso, and in 1986 an ad for a certain 1968 Mustang caused his heart to flutter with abandon. “The car for sale was a 1968 Shelby,” he explains, “so I immediately grabbed my buddy and went to see it.”

Brian, who was erudite beyond his years, courtesy of HOT ROD magazine and other, similarly-infallible sources of automotive knowledge, needed all of two seconds to recognize that the very rusty Shelby on offer was genuinely very rusty but not genuinely a Shelby. “I wasn’t interested in the clone,” he recalls, “but the owner had another Mustang under a tarp that caught my eye. Further inspection revealed that it was an original S-code 390 big block with a top-loader four-speed and 9-inch rear end. It was about ten different colors, but it was an original GT, and it was all there!”

Brian Commisso has owned this 1968 S-Code GT since 1986.

Following a successful test drive Brian was able to subdue his enthusiasm sufficiently to induce the seller to sweeten the deal with a shed full of high-performance parts, including 428 Cobra Jet heads, a police interceptor crank, a 2×4 intake complete with carbs, a tri-power setup with all of its linkage, and a set of GT wheels and hub caps. After agreeing on a price, he brought his prize home and immediately began restoring it.

Though he had no formal training, Brian did learn plenty from his father, who worked as a Porsche mechanic in California during the early 60s. Growing up in car-centric Long Island also taught him plenty, including deep appreciation for fast cars and performance modifications. “One of my best car memories,” he recounts, “is from when I was about ten years old. On Friday nights, we would go out to dinner. This particular night, we were out on Sunrise Highway stopped at a light, and the two cars in front of us were revving their engines. I quickly noticed a ’68 Chevelle pairing up against a ‘67 Sting Ray. The light turned green, they went, and I was hooked. The people on the sidewalk watching the action were standing outside of a building called Baldwin-Motion.”

The mostly-stock body hides heavy modifications to engine, drive train, suspension, brakes, and interior.

Over a span of several years, Brian went through his Mustang and systematically returned it to as-new condition, with a few light upgrades added in. In 2001, he began showing the car, starting with a Shelby show at Lime Rock Park in Connecticut. “The show had original Cobras, Daytona Coupes, GT40s, and hundreds of Mustangs, but people swarmed all over my car. I won not only best-in-class but also best-in-show. My girlfriend, who later became my wife, jumped into my arms, congratulating me with the biggest kiss!”

In the ensuing years, Brian continued showing and driving his Mustang, but by 2010, the car began showing signs of wear, so he decided to go through it again. This time around, however, he made far more extensive modifications.

A TCI front and TCP rear coil-over suspension delivers superb handling and ride quality.

Brian wanted dramatically more power than the GT’s original 390 produced and found it in a 526 cubic-inch FE engine built by Dave Kogan at Kogan Motorsports in Island Park, New York. The foundation of this impressive power plant is a CNC machined 356 T6 aluminum block topped by medium riser aluminum heads. The bottom end includes a billet steel Eagle crankshaft and Eagle forged 4340 H-beam rods with ARP 2000 bolts. Domed 13:1 Mahle pistons complete the rotating assembly. A Comp Cams valve train, including a solid roller camshaft grind, roller rockers, dual springs, and 2.250-inch intake /1.750-inch exhaust valves fill the A-356 alloy heads. Originally built with a single plane intake and Holley carburetor, Brian later decided to go with an eight-stack Weber intake manifold and TWI fuel system that includes TWI throttle body, mass airflow sensor, fuel rail and injectors, and an Aeromotive A1000 pump. The whole setup is managed by a FAST XFI 2.0 controller. A March Performance FrontRunner kit drives all accessories, including a Shelby water pump, 100-amp alternator, and Vintage Air A/C compressor. Spark comes from a FAST ignition box working with an MSD coil and distributor. Waste gas is sent on its way courtesy of custom made, Jet-Hot ceramic coated, long-tube headers, 3-inch pipes, an H-pipe with side cutouts, and Borla mufflers.

The 1968 Shelby Brian Commisso went to look at was a clone, so he cut a deal to buy this car instead- a genuine S-Code 390 GT.

Joe Rutner, of South Shore Performance in Freeport, New York, dyno-tuned the engine, unleashing a potent 747-horsepower at the flywheel, and 650-horsepower to the rear wheels, which is considerably more than double the 325 horsepower the car’s original 390 engine delivered. The big mill’s twist goes through a Hurst-shifted, TREMEC TKO five-speed via a dual-disc McLeod clutch and aluminum flywheel. For safety’s sake, the clutch package resides in a Lakewood scatter shield. A custom driveshaft links the TREMEC’s output shaft to a Moser rear end, built up with 3.73:1 gears, a locker differential, and 31-spline axles.

In keeping with the plan to upgrade this Mustang’s complete performance envelope, Brian addressed its inherent suspension and steering deficiencies. The original front suspension gave way to a TCI Engineering Pro Touring IFS arrangement, which features custom, 2.5-inch drop spindles, a 1.4-inch anti-sway bar, divorced steering arms, heliarc welded cradle and control arms, rack-and-pinion steering, and QA1 coilover shocks.

The 1968-1/2 Cobra Jet hood scoop isn’t factory, but it looks right at home on this car.

In the rear, Brian chose to go with a Total Control Products g-Bar 4-link setup, which lowers the rear of the car 2.5-inches to match the front. QA1 coilovers and a 0.75-inch sway bar help keep the rear wheels planted at all times. A ten-point, welded-in roll cage ties the whole chassis together and adds considerable structural rigidity, further enhancing the car’s handling prowess.

For stopping power, Brian turned to Wilwood. Slotted and vented 12-inch rotors are squeezed by four-piston calipers in both the front and rear, courtesy of a power-assisted 1-1/8-inch bore Wilwood master cylinder.

The Wilwood disc brakes on all four corners deliver excellent stopping power.

The car sits on BR series wheels from Vintage Wheels, patterned after the pin-drive, knock-off wheels that carried GT40s to victory at Le Mans and elsewhere in the 1960s. These wheels, which are pressure cast for greater strength, measure 17×8 in front and 17×10.5 at the rear. The fronts wear Sumitomo 225/45-17 tires and the rears are shod with Mickey Thompson SS rubber measuring 275/40-17. All four corners have 4.4” backspacing and that, combined with rolled fender lips all around, keeps the tires clear of the bodywork.

Aside from the rolled fender lips and a 1968-1/2 Cobra Jet hood scoop, the only other body work done to this car was a new Dynacorn quarter panel, installed to address minor rust. The rest of the sheet metal was rust free and straight, so all it needed was normal surface preparation for paint. That, and the paint job was done by Keith at K & M Autocraft in Deer Park, New York. At Brian’s request, the car’s original Highland Green color was slightly modified with the addition of light metal flake.

BR series wheels from Vintage Wheels are patterned after the pin-drive, knock-off wheels that carried GT40s to victory at Le Mans.

Brian turned to Sunrise Auto Upholstery in Lynbrook, New York to upgrade the interior in both form and function, while still retaining an overall vintage look and feel. Leather covered Corbeau seats provide far more support than the originals, and the high backs include slots for RCI Racing shoulder straps, which are part of the car’s 3-inch wide, 4-point harness. A 15”, 9-bolt Moto-Lita steering wheel looks right at home, as does the full complement of AutoMeter Sport Comp gauges.

Since getting the car back on the road several years ago, Brian has relished every moment with it. He’s had great success showing the car, both locally and out of state, and has enjoyed every bit of its fantastic performance, with a memorable ticket or two to prove it. Whether sharing it with others on a show field, or winding up that big block Shelby and running through the gears, this car is exactly what he envisioned when he set out to build his dream Mustang.

The 526 cid Shelby FE engine delivers 747.5 horsepower to the flywheel.

A March Performance FrontRunner kit drives all engine accessories.

TCI Engineering’s Pro Touring front end kit includes custom 2.5-inch drop spindles, a 1.4-inch anti-sway bar, forged spindles with bolt-on steering arms, a hand-welded crossmember and control arms, rack-and-pinion steering, and QA1 coilover shocks.

The interior has stock overall look and feel, but is significantly upgraded with AutoMeter gauges, a Hurst shifter, leather covered Corbeau seats, RCI Racing harness, and a 15-inch Moto-Lita steering wheel.

The post A Plethora of Upgrades Transform this 1968 Mustang GT Into a Stallion appeared first on Hot Rod Network.

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pattonsca · 1 month

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ZEKS COMPRESSED AIR DRYERS

NC SERIES NON-CYCLING REFRIGERATED COMPRESSED AIR DRYERS

NC Series Non-Cycling Refrigerated Compressed Air Dryers are compact and straight forward in design and offer an excellent drying performance.

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pattonsca · 1 month

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ZEKS COMPRESSED AIR DRYERS

MPS HYDRONIX HEATLESS PURGE DRYERS

MPS Hydronix Heatless Purge Dryers are compact and remove moisture from compressed air to achieve dew points from -40°F to as low as -100°F.

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pattonsca · 1 month

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#elgi air compressor dealers #Air compressor distributor los angeles #Air compressor parts in los angeles #Air compressor distributor california #Elgi air compressor dealers in los angeles #Air compressor dealers in los angeles #Air compressor dealers in california #air compressor #dealers #elgi #usa #pattonsca

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pattonsca · 1 month

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pattonsca · 1 month

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YOUR TRUSTED COMPRESSED AIR SOLUTIONS PROVIDER IN LOS ANGELES, CALIFORNIA

At Pattons CA, we take pride in being your premier partner for all your compressed air needs in Los Angeles, CA. With years of experience in the air compressor industry, we offer a comprehensive range of top-quality air compressor products, unrivaled services, and OEM and after-market parts to ensure your operations run seamlessly and efficiently.

Based in Cerritos, California, the Pattons CA team provides compressed air solutions and services to all of Southern California. Our team members are experts in identifying cost saving opportunities for your compressed air system. So, whether you need a routine service or looking to upgrade your compressed air system, Pattons CA is here for you.

Contact Address: Pattons of California LLC 16312 Bloomfield Ave, Cerritos, CA 90703

Email : [email protected]

Call Us : 562 229 0955

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pattonsca · 2 months

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Compressed Air Dryers | Los Angeles, CA Area

Learn about the importance of compressed air dryers, the difference between desiccant and refrigerated air dryers, their applications, and why they are crucial for maintaining equipment performance and product quality.

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pattonsca · 2 months

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Air Compressor Equipment & Services in Los Angeles, California

OUR COMMITMENT

YOUR TRUSTED COMPRESSED AIR SOLUTIONS PROVIDER IN LOS ANGELES, CALIFORNIA

OUR COMPRESSED AIR PRODUCTS

Discover a diverse selection of quality air compressors, vacuum & blowers, compressed air dryers, condensate management equipment, and more! Pattons of California offers compressed air system products that are engineered to deliver unparalleled performance. Our compressed air products are designed to meet the demands of various industries such as food and beverage, aerospace, automotive, textile, and electronics.

Compressed air is vital to the operations of facilities. That is why Pattons CA partners with CAGI certified brands such as ELGi Air Compressors, Champion Air Compressors, BEKO Compressed Air Dyers to ensure our customers can purchase with confidence and have reliable and trusted compressed air solutions.

Explore our offerings of air compressors, compressed air dryers, compressed air piping, vacuum pumps, filtration, nitrogen generators and more!

Air Compressor Products

PCA has a wide range of reliable, high quality, energy-efficient & low maintenance air compressors. You can count on us for all your compressed air needs.READ MORE

Compressed Air Dryers

When it comes to keeping your compressed air system free from contamination, You'll need Air dryers. At PCA, we can recommend best dryer products that meet your unique specifications.READ MORE

Compressed Air Piping

PCA offers compressed air piping for all applications including stainless steel, aluminum and more! We can install your new pipes on-site in a fast and professional manner.READ MORE

When it comes to selecting the compressed air equipment there are many factors to consider. There are many different air compressor technologies including rotary screw, reciprocating/piston, centrifugal. Size and application of compressed air is also important to consider. Our team works closely with you to determine the right equipment for your specific needs. Reach out to the Pattons of California team to help you make the best decision for your operation. We offer complimentary system assessments to help you determine the best air compressor equipment for your business.Request Free Assessment

PROVIDING QUALITY AIR COMPRESSOR SERVICES IN LOS ANGELES, CA

At Pattons CA, we specialize in providing top-notch air compressor services in Los Angeles, CA, and the surrounding areas. With over 70 years of experience in the industry, we are dedicated to delivering prompt and cost-effective compressed air services

Pattons of California services all major brand compressors including ELGi, Atlas Copco, Ingersoll Rand, Kaeser, Gardner Denver, and Quincy compressors! We keep OEM and aftermarket parts and equipment in stock at our Cerritos, CA warehouse so we can quickly address your needs.

Don't let air compressor problems disrupt your business.Contact Pattons of California for reliable air compressor services in Los Angeles, CA. Our team is ready to assist you.

CONTACT ADDRESS

Pattons of California LLC 16312 Bloomfield Ave, Cerritos, CA 90703

[email protected]

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562 229 0955 Read More

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pattonsca · 2 months

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Zeks Refrigerated Compressed Air Dryers | Pattons CA

ZEKS COMPRESSED AIR DRYERS

HEATSINK™ CYCLING REFRIGERATED DRYERS

The ZEKS dryers are designed for reliability, efficiency and high performance. ZEKS brings in the latest technology to manufacture the Heatsink™ HSH dryers as an alternative to non-cyclic dryers.VIEW PRODUCTS

NC SERIES™ NON-CYCLING REFRIGERATED COMPRESSED AIR DRYERS

NC Series™ Non-Cycling Refrigerated Compressed Air Dryers are compact and straight forward in design and offer an excellent drying performance.VIEW PRODUCTS

MPS HYDRONIX™ HEATLESS PURGE DRYERS

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ZPB ECLIPSE™ HEATLESS PURGE DRYERS

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ZHA ECLIPSE™ HEATED PURGE DRYERS

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ZBA ECLIPSE™ BLOWER PURGE DRYERS

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HTB HI-TEMP NON-CYCLING REFRIGERATED COMPRESSED AIR DRYERS

The HTB Hi-Temp Non-Cycling Refrigerated Compressed air dryers are designed specially for the use with reciprocating compressors that discharge air above temperature 120°F.VIEW PRODUCTS

SCFX AND SS SERIES REFRIGERATED DRYERS

SCFX and SS Series Refrigerated Dryers are designed specially to use in systems that function at pressure range of above 200 psig. VIEW PRODUCTS

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itsworn · 6 years

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Budget 350-Horse 302 Part 2: Speed Parts for Power

Whether you followed along for Part 1 of this wallet-friendly small-block rebuild or not (mustang-360.com/how-to/engine/1806-budget-350-horse-302-part-1-the-machine-shop), you won’t want to miss out on Part 2. This time around it’s all about adding a healthy dose of power to a run-of-the-mill 1971 302 small-block. We’re taking what could be an average rebuild and putting a small aftermarket spin on it by tossing out the stock top end in favor of some goodies we picked up from Speedway Motors.

With a set of reasonably priced aluminum heads from Flo-Tek as the catalyst, we spec’d out a handful of other top-end parts in hopes of bumping the little 302 up near 350 horsepower. That number might not sound impressive in the days of 1,000hp Internet heroes, but if you’ll remember, small-block Fords from the early 1970s weren’t pushing too far past the 200hp mark. So if you were being pulled around by a stock 302 like we were, you know you’re going to feel an increase of 100-plus horsepower.

So what was the plan of attack, you might ask? Well, the aforementioned Flo-Tek heads were what really got us thinking. Pre-assembled (valve seats, valves, valvesprings, and retainers), these things are going for around $400 each, so at $800 for a pair of performance aluminum heads, we were off to a great start. At that point it was about picking the right assortment of supporting mods, starting with the intake manifold. This was probably the easiest decision, and since street-driven performance was the goal, an Edelbrock Performer RPM Air-Gap was a no-brainer. Time and time again we’ve seen these make solid power at the top of the powerband without sacrificing low-end torque and drivability.

Next up was camshaft selection. We wanted something that would take advantage of the higher-flowing heads and intake manifold, but again, not give up too much down low. We also wanted to keep it cheap and simple, so we stuck with a hydraulic flat tappet. What we got from Speedway Motors was a cam with an intake and exhaust duration of 219/233 at 0.050 and .477/.510 lift with 110-degree lobe separation. Finishing off the valvetrain, we went with a set of Speedway Motors 1.6:1 roller rocker arms with a 3/8-inch stud to match the Flo-Tek heads.

To get fuel and air into the engine, we could have gone EFI, but since the word “budget” is in the title of this story, we decided to keep it simple and affordable. Thus, we opted for a Holley 650-cfm Double Pumper. Then to dress things up, we went for set of Speedway Motors black aluminum, fully finned valve covers and matching 12-inch oval air cleaner. And no, we didn’t forget about spark; our 302 was already fitted with an aftermarket HEI all-in-one distributor that was working well, so we just cleaned it up and got a set of MSD Street Fire plug wires and fresh plugs.

The end result was not only nice to look at (yes, we’re a bit biased), but it also met our expectations in terms of performance. Keep on reading to see how we got from a bare block and a pile of parts to a 350hp mill that’s ready to go.

1. First up we get ready to check the crankshaft journal clearance by installing our Clevite main bearings in the main journals and caps. Remember, install notch to notch and press firmly into place, ensuring each end of the bearing sits flush.

2. After torquing all the main bolts to spec, we checked crankshaft main journal to bearing clearance using a dial bore gauge and micrometer. If the clearances are too tight or too loose, it’s better to find out now than just cross your fingers and pray it all goes well when you fire the engine for the first time.

3. Next we installed the two-piece rear main seal with the groove facing inward and used non-hardening aviation sealant on the back and the top edges. Whether you install it flush or offset is up to you, but some claim that leaving one side higher than the other is better at retaining oil.

4. Unless you really trust yourself, its best to have a second set of hands when dropping in the crankshaft—don’t forget to thoroughly cover all bearing surfaces in engine assembly lube. Adding some lube on the inside of the rear main seal is also a good idea so it doesn’t catch on the crank.

5. Set all the main caps in place and then torque to spec, starting from the center and working your way out.

6. This could have been done earlier or later, but next we tapped in the core plugs using non-hardening aviation sealant on the edges.

7. Then, with a dial indicator and magnetic base, we checked crankshaft endplay using a screwdriver between the main caps and counterweights to force the crank fore and aft.

8. Before installing the rings on our Wiseco Pro Tru Street forged pistons, we went old school and used a file in a vise to gap each ring. Tech tip: a ring filer tool makes life much easier.

9. With the rings gapped and installed on the pistons, we prepared the rods by sliding in and lubing up the rod bearings. Then we used ARP Ultra-Torque Fastener Assembly Lubricant on the rod bolts.

10. Using a custom-sized 4.030-inch ARP tapered piston ring compressor is the hot ticket for installing the pistons without pinching a ring.

11. We then torqued all the rod bolts to spec before covering the camshaft in cam assembly lube and sliding it in. A longer bolt of the same thread and diameter as the cam bolt can be used to leverage the camshaft in place once the going gets tough.

12. The timing set was next. The big deal here is making sure those two little dots—one on the crank gear and one on the cam gear—are lined up with each other on the inside. If you want to be absolutely sure of the cam timing, use a degree wheel to dial it in, but the “lining up the dots” method is fine in most cases, especially with name-brand camshafts.

13. Then we installed one head to check pushrod length, using red marker on the valve stem. After installing two lifters, pushrods, and rocker arms, and turning the engine over by hand a few times, the rocker tips left the marks you see here. Any farther down and the pushrods would be too long; any farther up and the pushrods would have been too short.

14. Before installing that head and turning the engine over a few times, we stuck on some clay to check piston-to-valve clearance. Using a depth gauge, we found we had miles of room between the valves and the valve reliefs in the piston.

15. Before installing the rest of the lifters, we smothered them in the same cam installation lube. Failure to do so could do some serious damage to the lifters and the camshaft during engine break-in, especially with flat tappet cams.

16. We installed the Flo-Tek aluminum heads using ARP head bolts, then with the lifters, pushrods, and roller rockers all in place, we proceeded to set the valve lash. We ran down the poly lock by hand until it barely found resistance. Then, after a half-turn more, locked it down.

17. Flipping the engine back over, we installed the stock oil pump and pickup using high-temp threadlocker on the bolts and torquing to spec.

18. We then tapped in the crank seal. Like the core plugs, a large socket of the same diameter can be used to install the crankshaft seal too.

19. Next up, the oil pan and timing cover went on and were torqued to spec.

20. Then on went the Edelbrock RPM Air-Gap intake manifold. You might have also noticed that ARP sent us a set of its stainless steel accessory bolts to hold everything together.

21. When installing the Speedway Motors valve covers, we applied non-hardening sealant on the top side of the Fel-Pro gasket so later if we want to remove the covers from the head, the gasket would only stick to the valve covers.

22. The stock balancer went on next. Like the oil pan, timing cover, pulleys, and other stock parts, we cleaned up and painted the original balancer before installing.

23. We then installed the thermostat, thermostat housing, and water pump on the front of the 302.

24. The end was near as we installed the pulleys and accessory brackets, a task that was even more simple than usual since we weren’t running A/C or power steering.

25. The final steps included installing the new Holley 650-cfm Double Pumper, the old HEI distributor, Street Fire plug wires, and the valve cover–matching Speedway Motors air cleaner.

26. As far as wallet-friendly, performance-oriented small-block Ford’s go, this thing actually turned out lookin’ pretty good, if we say so ourselves.

27. Better than just looking good, it also delivered on the performance end. After breaking it in on the dyno at Westech Performance Group in Mira Loma, California, our little 302 ended up making 348 peak horsepower at 6,000 rpm and 347 lb-ft of torque at 4,100 rpm—not technically 350 horsepower, but we’re claiming victory anyway.

The post Budget 350-Horse 302 Part 2: Speed Parts for Power appeared first on Hot Rod Network.

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