Difference between revisions of "Turnigy Tek Sumo"

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* Use servo cable extensions to reach the servos from the equipment bay
* Use servo cable extensions to reach the servos from the equipment bay
* Calculate the motor and propeller size for the desired air speed, flight time and efficiency, use [http://www.ecalc.ch/motorcalc_e.htm eCalc]  
* Calculate the motor and propeller size for the desired air speed, flight time and efficiency, use [http://www.ecalc.ch/motorcalc_e.htm eCalc]  
* Insert glass fiber rods into the leading wing edge for dent resistance on crashes, use superglue and glass reinforced tape to cover the groove
* Add fiber glass reinforced tape on the leading wing edge for dent resistance on crashes
* Make incisions to remove the floor in the equipment bays, make it even thinner and use PU glue+tape to re-attach the floor on the opposite side
* Make incisions to remove the floor in the equipment bays, make it even thinner and use PU glue+tape to re-attach the floor on the opposite side
* Put the equipments on the top side using the tip above to move the floors
* Put the equipments on the top side using the tip above to move the floors

Revision as of 16:35, 11 February 2012

The Tek Sumo is a flying wing with an impressive range of flying characteristics.

Similar models

Specifications

  • Released: Fall 2011
  • Type: Powered medium sized flying wing
  • Airframe: Rough EPP (Expanded Polypropylene) foam
  • Wingspan 900 mm - 920 mm (measured)
  • Wing area: 0.252 m^2 / 252 mm^2 / 390.6 in^2
  • Length: 575 mm - 570 mm (measured)
    • Root chord: 290 mm (excl. elevons) - 345 mm (incl. elevons)
    • Tip chord: 205 mm (excl. elevons) - 270 mm (incl. elevons)
    • Sweep: 315 mm (front to tip difference)
  • Center of gravity: 200-212 mm (instructions), range 190-212 mm, from leading edge/tip - aim for 212 mm [3]
  • Stock weight: 230 grams (wings, winglets, motor mount, servo mount, push rods, linkage, carbon fiber rods, front padding)
  • Payload capacity: 100-250 grams (at least, CoG and power setup dependant)
  • Reinforcement: Black carbon fiber spars, two 2x530 mm wing spars, three 2x160 mm cross spars, two 3x320 mm elevon spars
  • Recommended flying area: 250x250 meters [4]
  • Product page: HobbyKing Tek Sumo

Manual

Stock kit

  • 1x Tek Sumo 2 wing halves
    • 2x Pre-glued carbon fiber rods 2 mm on wings top and bottom
    • 2x Pre-glued carbon fiber rods 3 mm on elevons bottom
  • 2x Winglets
  • 1x Front EPP padding block
  • 2x Push rods 1 x 200 mm
  • 2x Glassfiber control arm 21 mm
  • 2x Linkage stopper 1.5 x 6 mm
  • 4x Equipment bay plastic bands 250 mm
  • 3x Carbon fiber rods 2 x 160 mm
  • 1x Plywood motor mount 38 x 38 mm backplate 23 x 23 mm pattern
  • 2x Plywood servo mount 23 x 12 mm
  • 1x Plywood velcro battery mount 71.5 x 25 mm
  • 1x Fiberglass reinforced tape 15 mm
  • 1x Instruction manual 4 pages

My setup

This is the current setup as of 2012-02-08:

  • Motor: RCTimer BC2826-10 1400 Kv outrunner motor
    • Motor: RCTimer BC2826-6 2200 Kv outrunner motor
  • Propeller: APC 7x4E propeller with 5.0 mm collet adaptor for 3.17 mm shaft
    • Propeller: APC 8x4E propeller with 5.0 mm collet adaptor for 3.17 mm shaft
    • Propeller: APC 6x4E propeller with 5.0 mm collet adaptor for 3.17 mm shaft
  • ESC: RCTimer 30A Brushless Programmable ESC with T-type Deans and bullet connectors
  • Servos: HexTronik HXT900 Blue 9 gram digital servos
  • Receiver: Corona CR8D 2.4 GHz V2 DSSS 8 channel receiver
  • Transmitter: Spektrum DX7 DSM 7 channel radio with Corona CT8Z 2.4 GHz V2 DSSS transmitter
  • Battery: Moxie 2200 mAh 3SP1 11.1V Lithium-ion Polymer battery

Tips and tricks

  • To glue the wing halves together and motor mount, use PU (Polyurethane) glue, e.g. Gorilla Glue, activate with water and keep pressed together using tape
  • For attaching the winglets use hot glue in the main contact surfaces and silicone glue (GOOP) around the bead [5] [6]
  • Add optional extra 2 mm x 340 mm carbon fiber rods to the underside near the center of gravity point and also to the wings as spars for strength, use thick super glue and kicker
  • Use servo cable extensions to reach the servos from the equipment bay
  • Calculate the motor and propeller size for the desired air speed, flight time and efficiency, use eCalc
  • Add fiber glass reinforced tape on the leading wing edge for dent resistance on crashes
  • Make incisions to remove the floor in the equipment bays, make it even thinner and use PU glue+tape to re-attach the floor on the opposite side
  • Put the equipments on the top side using the tip above to move the floors
  • Relocate the servo holes to be perpendicular to the forward motion direction of the wing, position the servos horizontal (not vertical), double-sided adhesive pad+tape or hot glue, less drag [7]
  • Use glass fiber reinforced tape to cover servo wire trails
  • Cut a hallow 2 mm carbon fiber tube to fit over the push rod to minimize flexing
  • On the tip of the elevons, cut off the corner to avoid the obstruction with the winglet
  • Detach the elevons using a razor blade and reattach using strong 3M Mailing and Storage tape for optimal frictionless motion
  • Reinforce the front tip of the wing by inserting two 3 mm x 110 mm carbon fiber rods into the foam from each side, pre-fit and use PU glue
  • Scorpion, Hacker, Cobra are all reported to be very good motors if you want better quality [8]
  • Fine tune the CoG (center of gravity) using the battery and motor as weights
  • Pick a suitable motor+battery combination, simple rule: motor weight / 0.025 = battery capacity+-100 mAh, battery capcity * 0.025 = motor weight+-5g
  • Center of gravity point is 190 to 212 mm from the front of the nose, depending on battery and total weight, aim for 212 mm [9]
  • To ease the sensitivity of the elevons, try 40% elevator expo and 80% aileron expo

Motor alternatives

Scorpion, Hacker, Cobra offer quality motors, but the priority here is low cost.

  • HK2824-1300 HobbyKing 2824 1300Kv Brushless Outrunner 52g [10]
  • L2205-1350 Turnigy L2205-1350 1350Kv Brushless Motor 30g, pair with 1300 mAh [11]
  • RCTimer BC2826-10 1400KV Outrunner Brushless Motor, 50g [12]
  • D2822/14 Brushless Outrunner 1450kv 38g, pair with 1500 mAh [13] [14]
  • Tower Pro 2409-12t 1600kv 63g, heavy [15] [16]
  • RCTimer A2208-12 1800KV Outrunner Brushless Motor 38g, pair with 1800 mAh [17]
  • RCTimer BC2826-6 2200KV Outrunner Brushless Motor 50g, pair with 2200 mAh [18] [19]
  • Turnigy NTM Prop Drive Series 35-30A 1400kv Brushless Outrunner [20]
  • Turnigy 2836 Brushless EDF Motor 3200kv 72g [21]

Setups

Optimal power train around 200-300W [22].

Guides

Common setups

  • Docile/easy: Motor 1350 Kv D28xL19mm 40g, APC 7x4, 3S 1000mAh 83g [24]
  • Cruising/easy: Motor 1450 Kv D28xL22mm 38g, APC 8x6, 3S 2200 mAh 170g [25]
  • Cruising/FPV: Motor 1800 Kv D28xL22mm 38g, APC 7x4, 3S 1800 mAh 153g, 15-20 min flight [26]
  • Cruising/FPV: Motor 1400 Kv D28xL26mm) 50g, APC 8x4, 3S 1500 mAh 138g, 15-20 min flight [27]
  • Performance/long: Motor 1600 Kv D31xL31mm 63g, APC 7x6/8x4, 3S 2200 mAh 138g [28]
  • Performance/speed: Motor 2200 Kv D28xL26mm 50g, APC 6x4, 3S 1500 mAh 138g, 10 min flight [29]
  • Ultra/long: Motor 1400 Kv D35xL32mm 88g, APC 8x8, 2x 3S 2200 mAh 340g, 18-25 min flight [30]
  • Ultra/fast: Motor 3200 Kv D28xL38m) 72g, APC 7x6, 3S 2200 mAh 170g [31]

Propellers

Common propeller sizes:

  • 6x4, 7x3, 7x5, 7x6, 8x4, 8x8

Flying weight

  • 350 grams - setup 2208 1370 Kv, 20A ESC, 3S 1200 mAh, 6x5 [32]
  • 489 grams - setup 2818 1350 Kv, 18A ESC, 3S 1800 mAh, 7x4 [33]

Build guides

Tools

References