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Cox Models

Cox Models, Inc. is an American company known for manufacturing miniature glow fuel internal combustion engines and related accessories for radio-controlled (RC) vehicles, particularly in the model aviation hobby. Founded in 1945 by machinist Leroy M. "Roy" Cox in Placentia, California, the company initially produced wooden pop guns and toys before shifting to metal products in the late 1940s, including tether cars and small displacement engines that powered control-line and free-flight model aircraft.^[1] The company's engines, ranging from .010 to .35 cubic inches, became iconic in the hobby industry, with innovations like the reed-valve mechanism in the 1940s and the rotary-valve Tee Dee series in the 1960s enabling reliable performance in small models. Cox expanded into RC products, slot cars, and non-engine toys during the postwar boom, achieving multimillion-dollar status by the 1970s. Following several ownership changes—including sales to Leisure Dynamics in 1969, Aeromodel Engineering in 1983, Estes Industries in 1996, and Hobbico in 2010—the classic engine line continues production under Cox International in Canada, while the brand's RC aircraft and accessories are distributed by Horizon Hobby as of 2025.^[2]

Company Background

Founding and Early Development

Leroy M. Cox, often known as Roy Cox, established L.M. Cox Manufacturing Co., Inc. in 1945 in Placentia, California, operating initially from his garage amid the transition from World War II wartime restrictions.^[1] The company's early efforts focused on producing wooden pop guns due to persistent metal shortages at the war's end, reflecting the resource constraints of the era.^[1] By 1945, as surplus materials became available, Cox shifted to metal-based toys, including tethered race cars, capitalizing on the post-war economic recovery and the growing demand for affordable recreational products.^[1] This pivot was facilitated by the influx of inexpensive aluminum and other metals from military surplus, which lowered production costs and enabled mass manufacturing for the hobby market.^[3] In 1946, a factory fire briefly disrupted operations, but Cox quickly rebuilt in a Quonset hut structure, demonstrating resilience during the company's formative years.^[1] The firm expanded into powered toys by 1948, introducing engine-equipped race cars that utilized .15-cubic-inch displacement motors sourced from Cameron Brothers, priced at $19.95 to appeal to budget-conscious families.^[1] This marked the initial foray into model propulsion, aligning with the post-WWII surge in control-line flying, a popular pastime that offered accessible, line-tethered aerobatics for returning veterans and young enthusiasts seeking hands-on engineering experiences. Control-line models gained traction as urban development limited free-flight options, fostering a boom in organized hobby clubs and competitions across the United States.^[4] Cox's breakthrough in model aviation came in October 1950 with the introduction of the Thimble Drome Space Bug, the company's first original .049-cubic-inch glow engine, sold for $6.95.^[1] This design emphasized simplicity, with a compact aluminum crankcase and reed valve intake mechanism that suited small-displacement engines for reliable performance in hobbyist hands.^[5] Its affordability and ease of use democratized model flying, targeting beginners through retail channels and trade shows like the Hobby Industry Association of America events starting in 1948.^[1] This engine powered the first in a series of ready-to-fly control-line airplane kits, starting with the TD-1 U-Control model introduced in 1953. By the mid-1950s, refinements led to the Babe Bee .049 engine in 1956, further streamlining production with a spun aluminum tank and enhanced durability, solidifying Cox's reputation for accessible, high-quality miniatures amid the era's hobby expansion.^[6]

Evolution and Key Milestones

Following the foundational years, Cox Models experienced significant expansion during the 1950s and 1960s, driven by the growing popularity of model aviation and tethered racing hobbies. In October 1950, the company introduced the Thimble Drome Space Bug, a .049 cubic inch glow engine that powered the first in a series of affordable, ready-to-fly (RTF) model airplanes, including the TD-1 U-Control model launched in 1953. This series, priced accessibly at around $19.95, broadened the hobby's appeal to beginners and contributed to annual sales exceeding $500,000 by the late 1940s, with further growth in the 1950s through additional variants like the TD-3 in 1954. By the early 1960s, Cox offered seven distinct engines and matching airplane kits, solidifying its market position. International distribution expanded in 1965 with the establishment of Cox International Ltd. in Hong Kong, facilitating global exports and production efficiencies.^[1]^[3] A pivotal milestone occurred in 1969 when founder Leroy M. Cox sold the company to Leisure Dynamics Inc., a hobby conglomerate, amid his retirement due to health issues following his wife's death; this acquisition boosted sales to approximately $25 million annually by diversifying into kites, yo-yos, and radio control products while scaling engine production. Cox died on November 7, 1981. Under new ownership, the company relocated its factory to Santa Ana, California, in 1963 and renamed to Cox Hobbies Inc. in 1976, further integrating acquisitions like the radio manufacturer Airtronics in 1976 to support radio-controlled model lines. In 1984, the entity underwent another structural change when Aeromil Engineering Company reorganized it as Cox Hobbies, Incorporated, aiming to streamline operations within the conglomerate.^[7]^[3]^[8] The 1970s marked a period of innovation, exemplified by the 1973 launch of the Black Widow .049 engine, which featured an advanced glow-plug ignition system with a larger fuel tank (8cc) and dual transfer ports for enhanced power output compared to predecessors like the Baby Bee, enabling longer flight times of up to six minutes at full throttle. This reed-valve design, building on the 1949 patent for Cox's proprietary reed valve mechanism that improved fuel intake efficiency in small-displacement engines, represented a key advancement in affordable, high-performance model propulsion. During this decade, Cox also introduced throttled variants like the QRC .049 in 1976, catering to the rising demand for radio-controlled applications.^[3]^[9] However, the 1980s brought challenges leading to decline, as Leisure Dynamics filed for bankruptcy in 1980 due to overexpansion from the waning slot car market and inventory surpluses, severely impacting Cox's operations. Bill Selzer repurchased and revived the company in 1983, renaming it Cox Products in 1993, but intensified competition from Japanese manufacturers like OS Engines, which offered more refined and throttle-equipped models, eroded market share amid shifting preferences toward electric propulsion. U.S. operations faced closures and relocations, culminating in the 1996 sale to Estes Industries, which moved production to Colorado and marked the end of independent manufacturing scale. By 2025, Estes had discontinued Cox engine production, though vintage models remain popular among collectors.^[7]^[3]

Engine Designs

Reed Valve Mechanism

The reed valve mechanism in Cox's smallest engines functions as a one-way flap valve that permits the intake of the air-fuel mixture into the crankcase while preventing backflow during compression. This system consists of a flexible reed, typically a thin metal or plastic flap, positioned over the intake port on the crankcase; as the piston descends, it creates a partial vacuum in the crankcase, causing the reed to open and draw in the mixture from the carburetor, and it closes under rising crankcase pressure during the upward piston stroke to seal the port and facilitate compression.^[10] In operation, the crankcase pressure dynamics are key: the descending piston lowers pressure below atmospheric levels, flexing the reed outward to allow intake, while the ascending piston increases pressure, forcing the reed shut to avoid mixture loss or blow-by into the exhaust during scavenging. This setup can be visualized as an intake port covered by the reed, secured by a retainer, with the carburetor venturi feeding directly into it; the reed's responsiveness to pressure differentials ensures timed induction without mechanical linkages. The basic efficiency of the two-stroke cycle in these engines is given by η = (work output / heat input), where the reed valve contributes by minimizing blow-by losses through precise sealing, enhancing volumetric efficiency in displacements from .010 to .049 cubic inches compared to ported intakes.^[5]^[10] Cox first employed the reed valve in production engines with the introduction of the Babe Bee .049 in 1956, marking a simplification of earlier tandem-reed designs for cost-effective manufacturing. Early reeds were crafted from copper-beryllium alloy for durability and flexibility, evolving in the 1980s to clear plastic materials like Mylar for improved heat resistance and reduced warping. Advantages of this mechanism include its mechanical simplicity with no moving parts beyond the flap itself, low production costs suitable for mass-market .049 and smaller engines, and bidirectional rotation capability due to symmetric timing. However, disadvantages encompass reed fatigue and potential cracking after prolonged use, often necessitating replacement every 10-20 hours of operation depending on fuel quality and running conditions. Unlike rotary valves preferred for larger displacements, the reed system excels in micro engines by prioritizing compactness and ease of starting.^[3]^[9]^[10]

Rotary Valve Mechanism

The rotary valve mechanism in Cox's mid-sized engines features a disc-shaped or cylindrical valve integrated into the crankshaft assembly, which rotates synchronously with the crankshaft to precisely time the intake and exhaust processes in these two-stroke glow engines. This design replaces the simpler reed valve system used in smaller displacement models, providing a more controlled pathway for the fuel-air mixture into the crankcase. The valve typically consists of a slotted disc or drum that aligns with an intake port in the engine's main bearing housing, allowing for adjustable timing during manufacturing to optimize performance across different operating conditions.^[3] In operation, the rotary valve aligns to open the intake port near bottom dead center (BDC) of the piston stroke, facilitating the transfer of the pressurized fuel-air mixture from the carburetor through the crankcase to the combustion chamber via bypass ports. The port timing is engineered for durations typically ranging from 120 to 150 degrees, with the valve opening approximately 30-50 degrees before BDC and closing 30-45 degrees after BDC, depending on the specific engine variant; this configuration ensures efficient scavenging and charging while minimizing backflow. As the crankshaft rotates, the valve's slot progressively uncovers and covers the port, synchronizing intake with the piston's pumping action to maintain consistent volumetric efficiency at high RPMs.^[11]^[12] The performance advantages of the rotary valve stem from its ability to deliver precise timing and a larger, unobstructed flow path compared to reed valves, resulting in improved torque and power output, particularly at mid-to-high RPM ranges. Engine power can be expressed using the formula for indicated power in a two-stroke engine:

P = \frac{V_d \times N \times p_m}{60 \times k}

where P is power in kilowatts, V_d is displacement volume in cubic meters, N is engine speed in RPM, p_m is mean effective pressure in pascals, and k is a constant accounting for the number of power strokes per revolution (typically 1 for two-strokes, adjusted for units). This precise control enhances mean effective pressure by reducing intake restrictions, enabling up to 20% higher torque in optimized setups relative to equivalent reed-valve designs.^[13]^[11] Construction of the rotary valve employs hardened steel for the rotor to withstand high rotational speeds and frictional wear, a material choice common in Cox engines from .049 to .21 cubic inch displacements. Early implementations faced challenges with rotor wear due to direct metal-to-metal contact in the bearing housing, but by the mid-1960s, designs incorporated dedicated lubrication channels in the crankshaft and bearing to channel castor oil from the fuel mixture, extending service life and maintaining sealing integrity.^[14] Cox introduced the rotary valve mechanism in the late 1950s with the RR-1 .049 engine, a rear-rotary variant resembling the Golden Bee but featuring drum-style induction for enhanced power in control-line models. This evolved into the front-rotary disc design of the Tee Dee .051 series by the early 1960s, standardizing the technology for competitive applications and marking a shift toward higher-performance timing in mid-sized engines.^[3]

Innovations and Variants

In the 1960s, Cox introduced loop-scavenged two-stroke designs in their model engines, employing Schnuerle porting with two transfer ports and an exhaust port to enhance gas flow and scavenging efficiency beyond earlier cross-flow configurations, as seen in the .15 Special launched in 1966.^[11] These variants often incorporated reed or rotary valve mechanisms to support the improved scavenging, allowing for smoother operation under racing loads. The reed-valve .15 Super Bee, launched in 1965 specifically for pylon racing applications, featured lightweight pistons and compatibility with variable-pitch propellers but used cross-flow porting.^[15] Early in the 1950s, third-party developers created diesel conversions for Cox glow engines, such as the Davis Diesel Developments kit, which added a contra-piston head and adjusted compression for diesel fuel use in free-flight models seeking longer run times without glow plug batteries.^[3] By the 1970s, hobbyists and aftermarket suppliers popularized glow-to-spark ignition conversions for Cox engines, enabling electric starting via simple capacitor discharge circuits that provided high-voltage sparks from a battery pack, reducing manual flipping needs for larger RC models.^[16] Cox secured several patents advancing engine accessories, including U.S. Patent 3,132,716 (1964) for a compact muffler design that directed exhaust flow to minimize noise while preserving power output.^[17] However, these specialized innovations often resulted in higher production costs, limiting many variants to short runs targeted at competitive racers rather than broad hobbyist markets.^[18]

Product Lines

Control Line and Free-Flight Engines

Cox engines optimized for control line flying primarily featured .049 to .051 cubic inch displacements, with the Tee Dee .049 serving as a flagship model introduced in 1961 that dominated tethered competitions due to its reliability and power output.^[3] These engines typically delivered thrust ratings between 0.5 and 1 pound, depending on propeller selection and tuning, enabling agile maneuvers in circular flight paths constrained by control lines up to 60 feet long.^[19] Optimal performance required a fuel mix containing approximately 30% nitromethane, balanced with methanol and 20-25% castor or synthetic oil to ensure lubrication under high-revolution operation exceeding 15,000 RPM.^[20]^[21] For free-flight applications, Cox developed lightweight engines in the .010 to .020 cubic inch range, exemplified by the Tee Dee .010 introduced in 1961, which powered small, untethered models capable of duration flights lasting up to 5 minutes in calm conditions when paired with efficient airfoils and rubber-assisted launches.^[3]^[22] These engines emphasized minimal weight—often under 1 ounce— to maximize glide ratios post-power, with the .010 variant achieving up to 27,000 RPM on a 3x1.25-inch propeller for rapid altitude gains in duration events.^[3] The same fuel mix of 30% nitro was standard, though leaner blends were sometimes used to extend runtime in free-flight scenarios.^[20] Key design features tailored these engines to their flight modes; control line variants like the Tee Dee .049 incorporated a rear rotary intake valve, which improved weight balance by positioning the carburetor aft, aiding center-of-gravity stability during high-speed loops and turns.^[23] In contrast, free-flight models benefited from vibration damping achieved through soft rubber mounts that isolated engine oscillations from the airframe, preventing structural fatigue and promoting smoother glides after fuel depletion.^[24] Many of these engines employed reed or rotary valve mechanisms for intake timing, with the rotary design offering precise fuel metering under varying loads.^[22] These engines gained prominence in Academy of Model Aeronautics (AMA) competitions from the 1950s through the 1970s, powering classes like 1/2A control line stunt and free-flight endurance where pilots achieved consistent wins with tuned setups.^[3] For the .049 control line models, recommended propeller sizes ranged from 6x3 to 6x4 inches to balance thrust and RPM, often yielding static runs around 18,000 revolutions per minute for competitive edge in speed and precision events.^[25] These engines reflected their widespread adoption among hobbyists and underscored Cox's dominance in small-displacement model propulsion.^[26]

Radio-Controlled and Larger Models

Cox engines designed for radio-controlled (RC) aircraft emphasized reliability, throttle control, and compatibility with servo mechanisms to enable precise power management during flight. The RC lineup primarily spanned displacements from .10 to .21 cubic inches, catering to lightweight to mid-size models. A notable example is the Tee Dee .15, introduced in 1961, which featured reverse-flow scavenging with a shaft-type rotary valve induction system, weighing 4.1 ounces and delivering smooth operation suitable for RC applications.^[27] This engine supported idle speeds of approximately 2000-3000 RPM when paired with RC throttles, allowing hobbyists to maintain stable low-speed maneuvers.^[28] For larger models, Cox developed engines in the .35 to .60 cubic inch range, targeted at scale aircraft weighing 5-10 pounds that required greater power for realistic flight envelopes. The 1968 .35 Concept prototype exemplified this category, with a displacement of 0.364 cubic inches (5.961 cm³), a bore of 20.2 mm, and a stroke of 18.6 mm.^[29] Equipped with Schnürle porting, front rotary valve intake, and an RC-specific carburetor, it featured two ball bearings for durability and timings of 145° exhaust, 125° transfer, and 178° inlet, enabling efficient power delivery for heavier airframes.^[29] Although prototyped, such designs influenced subsequent production variants for scale RC flying. Key features in Cox RC and larger engines included integrated muffler systems introduced in the 1970s. These mufflers reduced operational noise levels—estimated at around 90 dB for .049-class engines at 15 feet—without excessively compromising power, making them viable for community flying fields.^[30] Performance metrics for these engines highlighted their efficiency; for instance, .21-class models achieved maximum RPMs of 12,000-15,000 on standard fuels, with fuel consumption rates around 0.5 oz/min at full throttle, supporting flight durations of 10-15 minutes depending on model size. The growing popularity of RC modeling in the 1970s and 1980s significantly boosted Cox's sales, with RC-specific engines comprising a major share of production by 1980 as hobbyists shifted from control-line to untethered flight.^[31] Original production of Cox engines ceased in 2006, but reproductions continue to be available through Cox International as of 2025.^[32]

Non-Engine Toys and Accessories

Cox Models expanded its product offerings beyond engines to include a range of plastic toys and accessories designed for hobbyists and children, emphasizing ready-to-use designs that promoted accessibility in model play. The Thimble Drome series, introduced in 1947 with unpowered tether racecars and evolving to include plastic airplanes by 1953, featured injection-molded components for durability and ease of handling, targeted at users aged 8 and older. These toys often integrated small engines in hybrid configurations for powered operation, such as the TD-1 airplane, a fully assembled U-control model with an 18-inch plastic fuselage and 24.5-inch wingspan weighing 10 ounces.^[1]^[6] The Thimble Drome lineup encompassed over a dozen models across airplanes, cars, and boats, including the TD-1 (circa 1953), TD-3 (circa 1960), P-40 Warhawk (1959–1960), Prop Rod (circa 1957), and Corvette (circa 1965), with variations in scale and theme to appeal to different interests. Assembly was minimal, typically involving fewer than 10 parts for any required setup, such as attaching control lines or wheels, supported by included instructions. Flight or run times for powered variants generally lasted 1–2 minutes per fuel load, depending on tank size and operation.^[33]^[1]^[34] Supporting accessories were sold in bundles to complement these toys, including control line reels like the Skylon, filler hoses, finger guards, and starter springs with cams for easy activation. Fuel tanks in capacities from 0.25 ounces (7 cc) to 1 ounce were commonly bundled, providing compact storage for hybrid toy operation. Prop balancers and line clips were also available to ensure precise setup and safety during play. In the 1960s, Cox innovated with electric-powered slot car mini vehicles, such as 1/24-scale models with molded plastic bodies, offering a non-combustion alternative for indoor racing tracks.^[35]^[1] These non-engine products contributed significantly to Cox's early success, with Thimble Drome racecars alone generating over $500,000 in sales by 1948, distributed primarily through hobby shops and mail-order catalogs to reach a broad audience of enthusiasts. The durable, injection-molded construction enhanced their popularity, allowing safe, repeated use by young users while fostering interest in modeling hobbies.^[6]^[1]

Cultural and Industry Impact

Influence on Model Aviation Hobby

Cox Models significantly democratized access to model aviation during the post-World War II era by introducing affordable .049 cubic inch engines, such as the Space Bug in 1952, priced between approximately $4 and $6, which enabled young hobbyists and beginners to participate without substantial financial barriers.^[3]^[31] This affordability aligned with the broader growth in model aviation enthusiasm during the 1950s, as ready-to-fly control line kits powered by these engines became popular entry points for children and teens, fostering widespread adoption of the hobby.^[1] The company's emphasis on mass-produced, reliable small-displacement engines helped expand participation, particularly in control line flying, where models measured just 2-3 feet in span.^[31] The .049 engine size, epitomized by Cox's reed valve designs like the Babe Bee introduced in 1956, emerged as the universal standard for 1/2A control line competitions, influencing Academy of Model Aeronautics (AMA) event rules and categories that emphasized lightweight, high-performance models.^[3] This standardization promoted consistency in hobbyist builds and races, with Cox engines powering a majority of entries in junior and novice classes due to their ease of use and availability.^[31] Community engagement was further bolstered through initiatives like the 1957 takeover of the Disneyland flying circle for public demonstrations and training sessions, which introduced thousands to safe flying practices and sparked interest in organized events.^[1] Cox-powered models achieved notable success at AMA Nationals, including multiple victories in the early 1960s with the Tee Dee .049, which contributed to earlier record-holding successes before being surpassed by competitors like the Holland Hornet, securing seven of nine AMA 1/2A records by mid-1961.^[3] In an educational capacity, Cox Models contributed to skill-building among youth by supplying engines to industrial arts programs in schools and producing instructional materials, such as the 1961 promotional film Wally Wins His Wings, which taught basic mechanics, engine operation, and rudimentary aerodynamics through hands-on model assembly and flight.^[1] These resources cultivated generations of tinkerers and aviation enthusiasts, many of whom pursued engineering careers, underscoring the hobby's role in STEM inspiration.^[31] Globally, Cox expanded its reach in the 1960s by exporting engines and kits to Europe and Asia, becoming the first American toy manufacturer to exhibit at the Nuremberg International Toy Fair and eventually distributing to nearly 50 countries, adapting products to international markets to sustain hobby growth worldwide.^[1]

Collectibility and Modern Relevance

Vintage Cox .010 engines, such as the Tee Dee models, are highly collectible among model aviation enthusiasts, with new-in-box examples from the mid-20th century fetching $100 to $300 at auctions in the 2020s.^[36] Early engines from the company's founding era in the late 1940s, including prototypes like the initial .045 Sure Start, remain particularly rare due to limited production runs and the passage of time. Post-2006, after the original Cox production ceased, modern reproductions of the .049 Babe Bee engine have emerged through companies like Cox International, offering high compatibility with vintage parts for restoration projects, though some aftermarket reeds exhibit variability in durability compared to originals.^[37] These reproductions, often incorporating updated materials like mylar reeds, allow approximately 90% interchangeability with classic designs while addressing common wear issues in reed valve mechanisms.^[38] Cox engines continue to see active use in vintage radio-control (RC) events organized by groups like the Society of Antique Modelers (SAM), where .049 models power 1/2A Texaco competitions focused on fuel efficiency and historical accuracy.^[3] Restoration efforts are common, with enthusiasts recommending reed valve replacement using mylar or beryllium copper alternatives to restore performance, as detailed in community guides.^[39] Online forums such as RC Groups and the Cox Engine Forum facilitate sharing of tweaks, like velocity stack modifications to reduce fuel spitting.^[40] The legacy of Cox Models is preserved in institutions like the National Model Aviation Museum, which holds a collection of engines and related artifacts dating back to the company's early years.^[31] Market trends on platforms like eBay show sustained interest, with hundreds of Cox engine listings and sales annually in the 2020s, driven by nostalgia and the hobby's enduring appeal among collectors and flyers.^[41]

References

[1]
Methods to Analyze Time-to-Event Data: The Cox Regression Analysis
Nov 30, 2021 · The Cox model is a regression technique for performing survival analyses in epidemiological and clinical research.
[2]
Regression Models and Life‐Tables - 1972 - Wiley Online Library
The analysis of censored failure times is considered. It is assumed that on each individual are available values of one or more explanatory variables.
[3]
[PDF] Survival Analysis II Cox Proportional Hazards Models | UC Davis ...
The Cox proportional hazard model provides the following benefits: • Adjusts for multiple risk factors simultaneously. • Allows quantitative (continuous) risk ...
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[PDF] The AMA History Project Presents: - Biography of LEROY M. COX
Cox, 75, passed away a few weeks ago. [circa December 1981]. Roy Cox started Cox Manufacturing during the end of World War II. Roy, an inventive type of.
[5]
Half-A (1/2A) History in America - AdriansModelAeroEngines.com
The Babe Bee . 049 of 1956 was the first of Cox's long-running Bee series. It had a shorter and stronger crankshaft along with a turned aluminium fuel tank/ ...
[6]
[PDF] Louis Matustik - Academy of Model Aeronautics
After the war ended, Control Line flying really became popular. The Boy Scouts would put on shows in the St. Louis arena, and on several occasions we flew U- ...Missing: post- | Show results with:post-
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Early Engines - MH-AeroTools
This was the first engine design completely developed by Leroy Cox and his partner Mark Mier. ... The spun tank was the first step towards the Babe Bee type ...
[8]
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Feb 5, 2009 · Growing up, Leroy Cox developed an early interest in mechanical devices while working around his father's bicycle shop in Placentia, CA.
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1945: L.M. Cox Manufacturing Co. Inc. is formed in the USA by Leroy M. Cox. - 1947: L. M. Cox Manufacturing Co. Inc. relocated to Poinsettia Avenue, ...Missing: founding Roy Placentia
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1945 - Roy Cox founded company as based in Placentia, California;. 1963 - factory moved to Santa Ana, California;. 1969 - company sold to Leisure Dynamics ...Missing: history Larry
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Power was between the Babe Bee and the Black Widow and its tank provided fuel for 6 minutes of running at full throttle. Another variant of this engine has a ...
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Used for some years by American outboard motorboat engine manufacturers, the reed-valve consists, essentially, of a simple spring flap over the crankcase.
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Sep 23, 2012 · Brake Mean Effective Pressure (BMEP) 2-Stroke BMEP = (HP x 6500)/(L x RPM). L = Displacement in Liters i.e., 80 cc = .08 Liters. 1 ci. = 16.39 ...
[16]
[PDF] Untitled - RC Groups
displacement limit and rotary-valve timing was altered to give earlier opening. New Cylinder Porting. This Mk. I version of the Cox Special remained in.
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Most engine designs use three techniques get fuel/air mix engines combustion chamber parts pumping action engine split intake bypass exhaust systems.
[18]
Product Engines - MH-AeroTools
This Super Bee engine was used in the Curtiss P-40 Warhawk and came with a cylinder having 2 transfer ports. It still used the classical cast metal back plate ...
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Jan 9, 2015 · Some of these were even built better due to having true ABC construction. I'm not 100 % certain on this, but I believe this was in and ...
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Mar 25, 2009 · The COX 049 Sure Start's thrust is variable, with one test showing 9.76 oz with a 5.7x3 prop, and another 13.12 oz with a 6x2 prop. It can ...Question .049 engine comparisonHelp! RPM of cox 049 compared to electricMore results from www.rcgroups.comMissing: rating | Show results with:rating
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Dec 20, 2004 · An excellent fuel for the 1/2-A and smaller Cox engines would be 22%-25% castor and 30% nitro with the rest methanol.
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The following table shows manufacturing dates of some models. I have collected the information from catalogues and instructions as well as older modeling ...
[30]
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Engine Review Type: Reverse-flow scavenged two-cycle with shaft type rotary valve induction. Weight: 4.1 oz. Displacement . 1495 cu.
[31]
1/2A Model Flying - | Model Aviation
Several companies continue to sell Cox engine parts, both original equipment and custom. Engines sales are brisk on the used market. New-in-the-box engines can ...
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Concept II .35 R/C (6.0 cm³). Prototyped in 1968 (#2500). A prototype of the front intake, Schnürle ported .35 Concept II R/C engine. This engine is similar ...
[33]
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Brian Cox, upon reading last month's piece on the ETW Atom Minor Mk3 on glow ignition, took the time to send in this shot of his unmodified example happily ...
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In the beginning, there were huge, heavy engines, better suited to powering model boats than model airplanes. In 1896, Samuel Langley flew a large model ...
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Some Models - MH-AeroTools
A model from the «Buck Rogers» series of Cox models developed during the Leisure Dynamics ownership of Cox. It was made very simple from one single piece plus ...
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Apr 20, 2014 · The P-40 'Flying Tiger' ran its course from January 1959 until September 1960. However, the initial issue version of the model was in production for less than ...
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1/4 oz Fuel Tank for Cox Engines (Wedge)
Features: 7cc (1/4 oz) capacity. 3-Line operation. Length: 42mm (1.7"). Width: 19 (0.76"). Height: 13mm (0.5"). Weight: 8gr (0.3oz). Brand new Current ...Missing: Models | Show results with:Models
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They were in production for more than 60 years between 1945 and 2006. The business is named for founder Leroy M. Cox. He started L.M. Cox Manufacturing Co. Inc, ...
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Cox .049 Engine "Babe Bee II"
Features: 5cc (1/6oz) fuel tank, Drive-plate colour may vary, Screen-less nylon backplate, Brand new. Current Production item. Application: Models requiring . ...
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$$2.49 In stock $0.80 deliveryWelcome to EX Model Engines - Your Cox Engine Specialist! ; Description. Features: OEM-Style Material. New Aftermarket Items. Designed For: Cox .049 Babe Bee ...Missing: patent 1949
[43]
Help! Cox 0.049 Engine Restoration - Cox PT19 CL Trainer
Mar 17, 2024 · Put a small amount of fuel into the exhaust ports on the cylinder to prime the engine. Make sure that the glow head glows bright orange or ...Missing: events | Show results with:events
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Idea cox engine mod virtualy free - RC Groups
Jan 16, 2010 · Some engines come with a longer intake stack or velocity stack which helps in reducing the spitting that is going on. A fancier term for it is ...
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COX Hobby RC Gas/Nitro Engines for sale | eBay
4.6 3K · Free deliveryGreat deals on COX Hobby RC Gas/Nitro Engines. Expand your options of fun home activities with the largest online selection at eBay.com.