A tube and fabric design.
Engine: Rotax 582, 64 hp
Wing span: 9.60 m
Wing area: 14.6 sq.m
MAUW: 380 kg
Empty weight: 145 kg
Fuel capacity: 44 lt
Max speed: 130 kph
Cruise speed: 120 kph
Minimum speed: 45 kph
Climb rate: 5.5 m/s
Certification: Vz
Seats: 2
Fuel consumption: 12 lt/hr
Price (1998): 35 070 FS
Kit price (1998): 19 897 FS
1998:
Bueshlstr. 114
CH 6147 Altbüron
Switzerland
UL builder
A single seat single engined high-¬wing monoplane with conventional three axis control. Wing has unswept leading and trail¬ing edges, and constant chord; cruciform tail. Pitch control by fully flying tail; yaw control by fully flying rudder; roll control by half¬span ailerons; control inputs through stick for pitch/roll and pedals for yaw. Wing braced from above by kingpost and cables, from below by cables; wing profile single¬surface. Undercarriage has three wheels in tail dragger formation; bungee suspension on all wheels. Push right go right tailwheel steer¬ing connected to yaw control. No brakes. Aluminium tube framework, with optional pod. Engine mounted below wing driving pusher propeller. Aluminium tubing is 6061T6 grade. Rigging is stainless steel cable. Wing covering is Dacron.
It is similar in layout to the Mk.I, but the control system has been changed to conventional three axis, with stick and rudder pedals.
The Skyseeker Mk.III is in effect a single seat version of the Mk.II, using the same control system and having very similar dimensions and only slightly lower empty weight. Apart from the seating arrangements, the most obvious difference is the use of 16 inch (41 cm) main wheels, as on the Mk.I, rather than the 20 inch (51 cm) type fitted to the Mk.II
This machine is supplied in kit form and the manufacturer says it takes 30h to build. Rigging time is listed as 30 min.
Floats, skis and instruments are available as on the Mk.I, while the Rotax engine can be replaced at customer’s request by a 215 cc single cylinder Cuyuna of 20hp.
Engine: Rotax 277, 28 hp at 6200 rpm
Length overall 12.0 ft, 3.66 m
Height overall 9.0ft, 2.74m
Wing span 32.0ft, 9.75m
Constant chord 5.0ft, 1.52m
Dihedral 5 deg
Sweepback 0 deg
Elevator span 9.2ft, 2.80m
Total aileron area 9.0 sq.ft, 0.84 sq.m
Rudder height 5.0 ft, 1.52 m
Total wing area 160sq.ft, 14.9sq.m
Wing aspect ratio 6.4/1
Wheel track 4.2ft, 1.27m
Main wheels diameter overall 16 inch, 41cm
Tailwheel diameter overall 3 inch, 8 cm
Optional floats, dimensions: 10.0ft long x 2.0ft wide, 3.05 x 0.61 m
Optional skis, dimensions: 4.0 ft long x 10 inch wide, 1.22 x 0.25 m
Empty weight 245 lb, 111 kg
Max take off weight 496 lb, 225 kg
Payload 251 lb, 114 kg
Max wing loading 3.101b/sq.ft, 15.1 kg/sq.m
Max power loading 17.71b/hp, 8.0kg/hp
Load factors +4.0, 2.0 design
Max level speed 55mph, 88kph
Never exceed speed 65mph, 105 kph
Max cruising speed 45 mph, 72 kph
Economic cruising speed 42 mph, 68 kph
Stalling speed 20 mph, 32 kph
Max climb rate at sea level 700 ft/min, 3.6 m/s
Min sink rate 250 ft/min at 30 mph, 1.3 m/s at 48 kph
Best glide ratio with power off 6/1
Take off distance 50ft, 15m
Landing dis¬tance 25ft, 8m
Service ceiling 10,000ft, 3050m
Range at average cruising speed 180 mile, 290 km
Side by side two seat single engined high-¬wing monoplane with conventional three axis control. Wing has unswept leading and trail¬ing edges, and constant chord; cruciform tail. Pitch control by fully flying tail; yaw control by fully flying rudder; roll control by half¬span ailerons; control inputs through stick for pitch/roll and pedals for yaw. Wing braced from above by kingpost and cables, from below by cables; wing profile single¬surface. Undercarriage has three wheels in tail dragger formation; bungee suspension on all wheels. Push right go right tailwheel steer¬ing connected to yaw control. No brakes. Aluminium tube framework, with optional pod. Engine mounted below wing driving pusher propeller. Aluminium tubing is 6061T6 grade. Rigging is stainless steel cable. Wing covering is Dacron.
The Skyseeker Mk.II is the two seater in the Skye Treck range. It is similar in layout to the Mk.I, but to fit it for its two seat role, the control system has been changed to conventional three axis, with stick and rudder pedals. A notable point is that whereas most three axis aircraft with single-¬surface wings use spoilers for roll control, the Skyseeker Mk.II uses ailerons.
Unusually for a two seater, the principal dimensions and engine specifications are virtually identical to the solo machine, the differences being largely confined to the undercarriage, where larger main wheels are used. As on the single seater, floats, skis and instruments are available as extras.
Engine: Rotax 277, 28 hp at 6200 rpm
Length overall 12.5ft, 3.81m
Height overall 9.0ft, 2.74m
Wing span 32.0ft, 9.75m
Constant chord 5.0ft, 1.52m
Dihedral 5 deg
Sweepback 0 deg
Elevator span 9.2ft, 2.80m
Total aileron area 9.0 sq.ft, 0.84 sq.m
Tailwheel diameter overall 3 inch, 8cm
Main wheels diameter overall 20 inch, 51 cm
Rudder height 5.0 ft, 1.52 m
Total wing area 160sq.ft, 14.9sq.m
Wing aspect ratio 6.4/1
Wheel track 4.2ft, 1.27m
Optional floats, dimensions: 10.0ft long x 2.0ft wide, 3.05 x 0.61 m
Optional skis, dimensions: 4.0 ft long x 10 inch wide, 1.22 x 0.25 m
Single seat single engined high wing mono¬plane with hybrid control. Wing has unswept leading and trailing edges, and constant chord; cruciform tail. Pitch control by fully flying tall; yaw control by fully flying rudder; no separate roll control; control inputs through weight shift for pitch/yaw/roll. Wing braced from above by kingpost and cables, from below by cables; wing profile single surface. Undercarriage has two wheels with tailskid; bungee suspension on main wheels. Push right go right tail steering con¬nected to yaw control. No brakes. Aluminium tube framework, without pod. Engine mounted below wing driving pusher propeller. Aluminium tubing is 6061T6 grade, anodized. Rigging is stainless steel vinyl coated cable. AN hardware.
The Skyseeker uses a taildragger undercarriage with skid.
The Skyseeker Mk.1 is a hybrid machine, with weight shift assisted by a rudder and elevator. Various engines have been fitted to the aircraft, but the usual one is a Rotax 277. However, there were also Skyseeker Mk.1s around with Cuyuna 215R engines, developing 20hp, or with single cylinder Kornet K 55 engines mated to a 48×20 inch (1.21×0.51m) propeller through a 2/1 reduction. Construction time is listed as 25 h and rigging time as 15 min. Options include floats, skis, and various instruments such as ASI, CHTG, EGTG, and compass. In addition, the factory will convert a Mk.I to Mk.III specification on request.
Engine: Rotax 277, 28 hp at 6200 rpm
Propeller diameter and pitch 48 x 34 inch, 1.22 x 0.86 m
Reduction ratio 2.1/1
Max static thrust 1801b, 82kg
Power per unit area 0.18h p/sq.ft, 1.9 hp/sq.m
Fuel capacity 4.8 US gal, 4.0 Imp gal, 18.2 litre
Empty weight 225 lb, 102 kg
Max take off weight 496 lb, 225 kg
Payload 271 lb, 123 kg
Max wing loading 3.101b/sq.ft, 15.1kg/sq.m
Max power loading 17.71b/hp, 8.0kg/hp
Load factors +4.0, 2.0 design
Length overall 12.0 ft, 3.66 m
Height overall 9.0ft, 2.74m
Wing span 32.0ft, 9.75m
Constant chord 5.0ft, 1.52m
Dihedral 5 deg
Sweepback 0 deg
Elevator span 9.2ft, 2.80m
Rudder height 5.0 ft, 1.52 m
Total wing area 160sq.ft, 14.9sq.m
Wing aspect ratio 6.4/1
Wheel track 4.2ft, 1.27m
Main wheels diameter overall 16 inch, 41cm
Optional floats, dimensions: 10.0ft long x 2.0ft wide, 3.05 x 0.61 m
Optional skis, dimensions: 4.0 ft long x 10 inch wide, 1.22 x 0.25 m
Max level speed 55 mph, 88 kph
Never exceed speed 65 mph, 105 kph
Max cruising speed 45 mph, 72 kph
Economic cruising speed 42mph, 68kph
Stalling speed 19 mph, 31 kph
Max climb rate at sea level 800 ft/min, 4.1 m/s
Min sink rate 220 ft/min at 32 mph, 1.1 m/s at 51 kph
Best glide ratio with power off: 6/1
Take off distance 50ft, 15m
Landing dis¬tance 25ft, 8m
Service ceiling 11,000ft, 3350m
Range at average cruising speed 180 mile, 290 km
Skye Treck was founded in early 1979.
1983: Skye Treck Adventure Flight Centres Inc, 105 Paramount Road, Winnipeg, Manitoba R2X2W6, Canada.
UL builder
The illustrated Viva is located at Holbrook ultralight museum.
A second version of the Biplane Scout was built by Ron Wheeler.
This Australian design was originally built by Ron Wheeler in 1972 as a powered version of his earlier Tweetie hang-glider design. First flown in May 1974, his friends asked him to build them one and by 1976 demand was so high Ron Wheeler set up Skycraft and full-scale production began in November 1976 after the issuing of the ANO 95.10. The stitching of catamaran sails is still evident in the wing of the very early models. The Scout, later dubbed Mk.1, was considerably cheaper than the other types available mainly because it is smaller and doesn’t offer quite the same performance. It is however more economical and resembles in many ways the very first microlight — the Santos Dumont Demoiselle of 1911. The single surface wire braced taildragger has three-axis control via the all flying tail “feathers and wing warping for roll control. Airframe is constructed from high tensile alloy section extruded from the company’s dies. The aircraft sits high on the main wheels, an advantage for its rough strip capabilities. An engine option was available as well as floats and a cockpit pod, and optional Rotax 377 engine. The floats were designed by Wheeler and added to his aircraft in September 1977. The aircraft with floats was first displayed at the Schofield Air Show in 1978.
A historic aircraft in Australia, being the first type to receive certification under to Ultralight classification. The first to do so is in the Powerhouse Museum in Sydney, Australia.
En route, it has gained a modified front axle and seat support (hence the Mk2 title) but otherwise it is little changed. The same 173cc Pixie Major engine is used, driving a tractor propeller, and controls are two axis, operated entirely by the stick and with no separate roll control for the single surface wing. The Scout Mk.2 was a single seat single engined high wing monoplane with two axis control. Wing has unswept leading edge, swept forward trailing edge and tapering chord; conventional tail. Pitch control by fully flying tail; yaw control by fully flying rudder; no separate roll control. Control inputs through stick for pitch/yaw. Wing braced from above by kingpost and cables, from below by cables; single surface wing. Undercarriage has three wheels in tail dragger formation; steel spring suspension on main wheels. Push right go right tailwheel steering connected to yaw control. No brakes. Aluminium tube framework, without pod. Engine mounted at wing height driving tractor propeller. Stainless steel rigging and control cables. Wing material is heavy duty Dacron.
The combination of very small fuel tank and low maximum speed means that the Scout is more of a fine weather fun machine than an aircraft for cross country flying. Never the less the Scout has won many friends in its seven years of flying, not least because of its 15 minute rigging time, and has earned its place in the history of the sport.
The Scout Mk.3/3/R was a single seat single engined high wing monoplane with conventional three axis control. Wing has unswept leading edge, swept forward trailing edge and tapering chord; conventional tail. Pitch control by fully flying tail; yaw control by fully flying rudder; roll control by wing warping; control inputs through stick for pitch/roll and pedals for yaw. Wing braced from above by kingpost and cables, from below by cables; single surface. Undercarriage has three wheels in tail dragger formation; steel spring suspension on mail wheels. Push right go right tailwheel steering connected to yaw control. No brakes. Aluminium tube framework, without pod. Engine mounted at wing height driving tractor propeller. Stainless steel rigging and control cables. Wing material is heavy duty Dacron. Introduced in 1982 to cater for pilots wanting conventional three axis controls, the Scout Mk3/3/R uses a wing-warping system for roll control. Rudder pedals control yaw and also operate the steerable tailwheel. However, the adoption of three axis control was not the only major change. The Pixie engine was discarded in favour of a 250 Robin, bringing a marked improvement in performance and giving rise to the ‘R’ in the designation title (the second ‘3’ indicates three axis). Typical output for a 250 Robin is 18 hp, but in this application 21 hp is claimed, using an exhaust system engineered specifically for this aircraft. There are also numerous detail engineering changes compared to the Mk2, plus a modified framework which gives better pilot protection.
While the wing warping system has proved effective as a wing levelling device, adverse yaw can be experienced under some circumstances and further modifications to eliminate this have been designed by one of Britain’s Scout dealers as the Flylite (East Anglia) Super Scout.
The Scout Twin Mk.4 was powered by a Rotax 377 engine and featured a fibreglass fuel tank, moulded to the fuselage and over the C of G, and a moulded fibreglass cockpit. The Mk.IV can also be fitted with floats. About 50 of these were built.
Components such as the moulded cockpit will fit the Mk.III as will the dual wire drag system. The aerolastic structure has been truck tested to air loads above 80 mph.
A further enclosed version was built.
And another version place the pilot position above the fuselage.
Variation: Mahe Pfadfinder
Scout Mk.I
Engine: Pixie Major, 14hp at 6500rpm
Propeller diameter 48 inch, 1.23 m
V belt reduction, ratio 3.0/1
Max static thrust 79 lb, 36 kg
Power per unit area 0.13 hp/sq.ft, 1.4hp/sq.m
Fuel capacity 0.6 US gal, 0.5 Imp gal, 2.5 litre
Length overall 17.1 ft, 5.20 m
Height overall 6.2ft, 1.90m
Wing span 28.8ft, 8.77 m
Chord at root 6.5ft, 1.98 m
Chord at tip 1.3ft, 0.40m
Sweepback 0 deg
Tailplane span 10.5ft, 3.2m
Rudder height 4.8 ft, 1.47 m
Total wing area 109 sq.ft, 10.1 sq.m
Total elevator area 12.5 sq.ft, 1.16 sq.m
Wing aspect ratio 17/1
Wheel track 4.5ft, 1.37m
Wheelbase 12.5ft, 3.80m
Tailwheel diameter overall 4 inch, 10cm
Main wheels diameter overall 12 inch, 31 cm
Empty weight 122 lb, 55.5 kg
Max take off weight 297 lb, 135 kg
Payload 175 lb, 79.5 kg
Max wing loading 2.72 lb/sq.ft, 13.4 kg/sq.m
Max power loading 21.21b/hp, 9.65kg/hp
Load factors; >+3.0, > 3.0 ultimate
Max level speed 47 mph, 75 kph
Never exceed speed 75 mph, 120 kph
Max cruising speed 40 mph, 65 kph
Economic cruising speed 40 mph, 65 kph
Stalling speed 20 mph, 32 kph
Max climb rate at sea level 200ft/min, 1.0m/s
Min sink rate 510 ft/min at 40 mph, 2.6 m/s at 65 kph
Best glide ratio with power off 7/1 at 40 mph 65 kph
Take off distance 230 ft, 70 m
Land¬ing distance 100ft, 30m
Service ceiling 9900ft, 3000m
Range at average cruising speed 28 mile, 45 km
Mk.III
Engine: Robin 244cc 2 stroke
Wing Span: 28 ft 6 in (8.8 m)
Wing Area: 149 sq. ft
Cruise speed: 46 mph (75 kmh)
Stall speed: 19 mph (32 kmh)
Max speed: 105 kph
Max. rate of climb: 550 fpm
Empty weight: 130 lb (58.03 kg)
Max. pilot weight: 205 lb (91 kg)
Engine: 244 cc/19 hp Fuji Robin 1-cylinder Two-stroke
Fuel capacity: 19 ltr
Prop: 122cm
Range: 55 miles
3/3/R
Engine: Robin EC25PS, 21 hp at 6500 rpm
Propeller diameter: 48 inch, 1.23 m
V belt reduction, ratio 2.2/1
Max static thrust 130 lb, 59 kg
Power per unit area 0.19 hp/sq.ft, 2.1 hp/sq.m
Fuel capacity 1.6 US gal, 1.3 Imp gal, 6.0 litre
Empty weight 130lb, 59kg
Max take off weight 310 lb, 141 kg
Payload 1180 lb, 82 kg
Max wing loading 2.84 lb/sq.ft, 14.0 kg/sq.m
Max power loading 14.8 lb/hp, 6.7 kg/hp
Load factors design; >+3.0, > 3.0 ultimate
Max level speed 53 mph, 85 kph
Never exceed speed 75 mph, 120 kph
Max cruising speed 47 mph, 75 kph
Economic cruising speed 47 mph, 75 kph
Stalling speed 20 mph, 32 kph
Max climb rate at sea level 550 ft/min, 2.8 m/s
Min sink rate 470 ft/min at 40 mph, 2.4 m/s at 65 kph
Best glide ratio with power off: 7/1 at 40 mph, 65 kph
Take off distance 130 ft, 40 m
Land¬ing distance 100ft, 30m
Service ceiling 9900ft, 3000m
Range at average cruising speed 56 mile, 90 km
Scout Twin Mk.4
Engine: Rotax 377
Empty weight: 82 kg
AUW: 180 kg
Wingspan:8.7 m
Wing loading: 7 kg/sq.m
Takeoff distance: 25-40 m
Landing roll: 24-30 m
Stall: 32 kph
ROC: 600 fpm
Max speed: 100 kph
Cruise: 75 kph
Glide ratio: 7-1
Fuel capacity: 15 lt
Fuel burn: 8 lt/hr
Ron Wheeler Aircraft (Sales) Pty Ltd
Ron Wheeler was born in Melbourne in 1921. The son of a tradesman, he was educated at a local public school and later attended Collingwood Technical College and then Melbourne Technical College where he attained certificates in engineering pattern making and engineering drawing. His education was broken by WWII and he served in the army from 1940-46.
1985: Ron Wheeler Aircraft (Sales) Pty Ltd, 152 Bellevue Pde, Carlton, NSW 2218, Australia.
All Aero 