HET-Flying wing

Wingspan: 1820 mm

Length: 670 mm

Weight: 700 -1200 grams.

Motor: HET 15-10 15- 13 , 4w, 5W Brushless Motor

www.highendrc.com

ITEMS NEEDED FOR COMPLETION:

4 CHANNEL COMPUTER RADIO SYSTEM

SERVOS: 2 for regular operation (2-Elevons)

1x Electronic Speed Controls

1x 30 mm spinner

2x 6” Servo Extensions

1 Brushless Motors: HET 4W, 5W, 15-10 or 15-13

1 Propeller

1x Li-Po Battery

Battery Connectors and Gilt Connectors

CA and Epoxy Glues

Sanding Block and normal tools

Glue first one side of the wing joiner with 5 minute

epoxy.

Check the alignment of the wings. Lay the wing

With the bottom side up , Then glue the wings

together. With 5 or 30 minute epoxy.

Lay the wing on a cardboard tube or broomstick

With the bottom side up to let the epoxuy cure.

Sand th edges , and if necessary, trim the front and

back of the stub on th fuselage by 4-5 mm

Sand the inside of the fin Tape the edges with masking tape. An then glue the

Fin on the fuselage with 5 minute epoxy . us a clamp

To hold the fin in place. When the epoxy cures.

Servo bay hatch and triangle stock hard wood. Glue in the triangle wood stock with 5 minute epoxy.

Make sure that the servo hatch is flush with the wing surface.

Mark the crew holes with a thin pencil and

Drill appr. 1.5 mm holes for the fastening screws.

Aft he holes have been drilled put some thin CA glue in the

holes and let it dry

Mark the holes for the control horn and

Drill through with 1.5 – 2mm drill

Pull an extension servo wire through the

pre-drilled hole. Please use metal gear

servo’s. Don’t forget to set the servo horn in

its middle position with your transmitter

before you install the servo

Solder the servo wires to the extension cable

and isolate the wires with shrinktube.

If you use extension cords with male and

female ends you don’t have to do soldering.

Check the alignment of the hinges so that

they are exactly in the middle . Do this for

the elevon and the wing. Correct the pre-cut

slots if neccesary .

Than glue the hinges in the elevon and wing

with Thin CA glue

In stall the clevises and pushrods Now install the controll horn on the elevon

Set the elevon 5-6mm up.

Mark your motor mounting pattern on the

nose and cut the holes with a dremel tool

Now install your motor and speed controller

Check the alignment of the motor axle

correct if neccesary with washers between

the motor and fuselage.

Check it with the spinner installed

Glue the tray in place with 30 minute epoxy Put washers under the bolts .

MOTORS and ESCs THAT CAN BE USED

MOTOR ESC power LIPO Proppellor

4W 2 cells 40 amps 200 Watts 1500 Mah 25c 3S1P 8 x6 folding prop.

5W 2cells 40 amps 200 watts 1800Mah 25C 2200 25C 10 x6 folding prop.

15-10 3 cells 30 amps 200 watts 1800Mah 25C 10 x6 folding prop

15-13 3 cells 30 amps 200 watts 1800 Mah 25C 11 x6 folding prop

FINAL ASSEMBLY

Install the receiver in the fuse. Connect all servo leads to the receiver. Check to make sure

all controls are working. Some adjustments may be needed to obtain the proper control

surface movement.

Check the final balance of the plane.

C.G. 180-195 mm from leading edge ( 185 mm on test model)

Throws:

Set both elevons 5 mm up. This is the neutral position

Elevator up /down 8 mm ( exponential 40%) from neutral position

Aileron 10 mm down 6mm up ( exponential 40%) from neutral position

First Flight:

The flying wing can be hand launched.

You will find the flying wing to have very good stability as well as maneuverability. Loops

and rolls are easily obtained with adequate entry speeds. Remember to land level so there

won’t be damage to the plane. The flying wing will also thermal and soar very well with the

motor off.

WARNING!

Although the flying wing is a stable airplane, the airplane is capable of high

speeds and therefore can cause serious personal injury and property damage.

We strongly urge you to seek the help of an AMA approved instructor if this is

your first aircraft of this type. Please use common sense.

Fly in suitable areas for this aircraft such as an AMA approved field.

High-end Technology Holland assumes no liability for the operation or

performance of this product. It is the responsibility of the operator to use this

product in a safe and responsible manner.