Dassault
Parkjet
4th Generation Jet Fighter Construction Guide © 2019 Craig Clarkstone. All rights reseved Rafale History Designers notes
Tthe Dassault Rafale (French pronunciation: [ʁafal], literally meaning "gust of wind", and Tthe Dassault Rafale being a delta wing has a range of really nice handling "burst of fire" in a more military sense) is a French twin-engine, canard delta wing, characteristics. An attractive yet unusually shaped plane, with the wide fuselage, multirole fighter aircraft designed and built by Dassault Aviation. ‘T’ sectioned forward fuselage and underslung side mounted air intakes. Not the simplest to replicate in flat foam sheet. Equipped with a wide range of weapons, the Rafale is intended to perform air supremacy, interdiction, aerial reconnaissance, ground support, in-depth strike, anti-ship Take it step-by-step, and it is possible to generate the lines of this remarkable strike and nuclear deterrence missions. The Rafale is referred to as an "omnirole" plane. With Optional 3D printed parts available to help generate the shape and aircraft by Dassault. increase durability, both the single and twin seat variants and both EDF and Pusher powerplant options, you can build this plane to suit your own flying style. In the late 1970s, the French Air Force and Navy were seeking to replace and consolidate their current fleets of aircraft. In order to reduce development costs and boost prospective sales, France entered into an arrangement with UK, Germany, Italy and Spain to produce an agile multi-purpose fighter, the Eurofighter Typhoon.
Subsequent disagreements over workshare and differing requirements led to France's pursuit of its own development program. Dassault built a technology demonstrator which first flew in July 1986 as part of an eight-year flight-test programme, paving the way for the go-ahead of the project. The Rafale is distinct from other European fighters of its era in that it is almost entirely built by one country, involving most of France's major defence contractors, such as Dassault, Thales and Safran.
Many of the aircraft's avionics and features, such as direct voice input, the RBE2 AA active electronically scanned array (AESA) radar and the optronique secteur frontal infra-red search and track (IRST) sensor, were domestically developed and produced for the Rafale programme.
Originally scheduled to enter service in 1996, the Rafale suffered significant delays due to post-Cold War budget cuts and changes in priorities. The aircraft is available in three main variants: Rafale C single-seat land-based version, Rafale B twin-seat land-based version, and Rafale M single-seat carrier-based version. Proud supporter of Introduced in 2001, the Rafale is being produced for both the French Air Force and for carrier-based operations in the French Navy. The Rafale has been marketed for export to several countries, and was selected for purchase by the Indian Air Force, the Egyptian Air Force, and the Qatar Air Force. www.maf-uk.org/ The Rafale has been used in combat over Afghanistan, Libya, Mali, Iraq and Syria. Several upgrades to the weapons and avionics of the Rafale are planned to be All donations given will be passed on to the charity M.A.F introduced from 2018. donation for $10 to Paypal address :- [email protected] please quote ‘Jetworks MAF donation’
Photo’s used in this manual are copyright of their respective owners. © 2019 Craig Clarkstone. All rights reserved.
Page 2 Page 1 Before you start. Adhesives > For the majority of construction : - UHU Creativ for Styrofoam (also called UHU POR) - 3M 77 Spray adhesive. >For wing spars and motor mounts : - Epoxy. (5 and 15mins cure times are the most convenient) micro-baloons can be added to reduce weight. > For servo’s / and quick grab : - Hot melt glue gun - Caution if the glue gets too hot it will melt foam - test first!
Tapes > For holding parts tightly together whilst glue sets - Low tack masking tapes > For leading edges, hinges, general strengthening - 3M Gift tape (Purple - not green one!) - I prefer lightweight plastic hinges.
Cutting parts 1. Print the plans, 2. Cut around each part using scissors - allow a border of approx (1/4”) 6mm 3. Use either 3M spray mount or a very light coat of 3M 77 to the back of the parts and stick in an economical layout on the Depron foam. 4. Using a safety rule and craft knife over a cutting mat - important! use a fresh blade
otherwise it will drag and spoil the foam. (I find the stanley knife perfect) make the straight edge cuts, then the curved parts freehand. 5. Once the parts are cut-out, keep the template stuck to the part until just before needed to help identify the parts. 6. After use, I find it helpful to keep all the used tempates in case replacement parts need making. (the glue eventually dries and they don’t stick together!)
IMPORTANT Wherever the plans call for marking guidelines onto the depron, please ensure that you do otherwise it can cause problems later on. I suggest you use a Sharpie Fineliner to transfer the lines.
Glueing parts together. 1. Ensure a really good fit - this will reduce the amount of adhesive used. The Bar Sander is a great tool for this. 2. Follow the adhesive instructions closely. 3. Use ordinary steel head pins to help keep the parts located whilst epoxy sets. 4. Use objects as weights such as paperweights to apply pressure whilst adhesive sets. 5. Use masking tape to apply pressure whilst adhesive sets. Also use masking tape to along the slots for the wing spars whilst gluing the carbon rod spars into the wings. This prevents the glue protruding and gives a nice finish.
Page 3 Page 1 Pusher only Using masking tape to prevent spillage, glue the carbon spar into the wing.
Put masking tape over the top of the joint and lay in a flat place, preferably with a weighted object such as a book to keep it flat while the glue sets.
EDF only
Page 4 Page 1 All versions Gently bend the cockpit sides (inner) Cockpit sides (inner) to match the shape of the Forward fuselage contoured sides (#1) then Cockpit sides (outer) glue the cockpit sides to them.
Use the table edge method to add the gentle bend.
Gently bend the Forward fuselage contoured sides (#1) to the cockpit All versions side assembly then glue together.
Use the table edge method to add the gentle bend.
Forward fuselage contoured sides (#1)
Page 5 Page 1 All versions FF contoured sides (#7) Adding one Forward fuselage contoured side piece at a time, build FF contoured sides (#6) up the two contoured side assemblies FF contoured sides (#5) as shown. FF contoured sides (#4) FF contoured sides (#3) FF contoured sides (#2)
All versions Glue bulkhead 1 and bulkhead 2 to Bulkhead 2 the assembly to connect the pieces together.
Bulkhead 1
Page 6 Page 1 All versions Glue the wing and the forward fuselage assembly together using the tab on bulkhead 2 in the wing slot.
Ensure the assembly is not warped by ensuring all the centrelines of the foam parts align with a straight line drawn on your workbench.
Pusher only Glue Pusher bulkhead 4 to the Pusher Bulkhead 4 assembly.
Page 7 Page 1 EDF only Trim the bulkheads to suit your particular EDF unit. This model can take between a 64mm and 70mm EDF bulkhead Rear EDF unit.
Test-fit the two EDF bulkheads.
EDF only Glue the EDF bulkheads to the EDF bulkhead Rear airframe assembly with the EDF unit dry-fitted inside. EDF bulkhead Front Position the EDF unit, then glue in place using either silicone sealant (to reduce noise) or Hot-melt glue.
Page 8 Page 1 EDF only Glue the EDF exhaust bulkhead to the assembly.
Please note that if a birfurcated 3D printed thrust tube is used, then the hole shown will be different.
EDF Exhaust bulkhead
EDF only Glue the Upper fuselage corner reinforcers together and then to the airframe - ensuring that the wing is completely flat.
Page 9 Page 1 Pusher only Glue the two pieces of the Motor mount panel together, the n glue the stick motor mount in place using hot melt glue - ensure that the stick is perfectly aligned. Pusher motor mount panel (x2)
EDF Exhaust bulkhead Hobbyking - SKU:OR004-00602 33DD PrintedPrinted PParartt (optional)
Pusher only Glue the Motor mount assembly to the main airframe. slide in place using epoxy glue (sparingly)
Page 10 Page 1 Pusher only Glue the Pusher exhaust panels on.
Pusher exhaust panel (x2)
Pusher only Glue the Upper fuselage corner reinforcers together and then to the airframe - ensuring that the wing is completely flat.
Page 11 Page 1 All versions Glue the Upper fuselage sides to the assembly.
Upper fuselage sides
All versions Pre-curve the Lower forward fuselage sides, mark a line on the Lower forward fuselage sides wing with a pencil (as indicated on the plans).
Glue the pieces along the edge of the contoured forward fuselage sides, and according to the line.
Align to the edge of the contoured forward fuselage sides
Page 12 Page 1 All versions Glue the Forward fuselage belly (upper) to the assembly.
Forward fuselage belly (upper)
All versions Glue the Forward fuselage belly (lower) to the assembly.
Forward fuselage belly (lower)
Page 13 Page 1 All versions Glue the Servo support pieces to the assembly.
Holding the drill bit with your fingers, twist and gently drill out the cable route for the canard servos using a 8- 10mm bit. Use the hole in the bulkhead as a pilot hole.
Page 14 Page 1 EDF only
RX
ESC
PARTS ‘CUT AWAY’ FOR ILLUSTRATION PURPOSES
Install all the electronics as shown. The ESC will be glued to the underside of the upper fuselage in a later stage. Solder and heatshrink all joints. Using Hot melt glue, glue the RX to the wing and the servos in place.
Page 15 Page 1 Pusher only
ESC
Install all the electronics as shown. Recess the ESC>MOTOR wires into the leading edge of the motor mount. Mount he ESC on its edge as shown using Hot melt Glue. Fix the RX and servo cables as per the EDF version (previous page). Solder and heatshrink all joints. Using Hot melt glue, glue the RX to the wing and the servos in place.
Page 16 Page 1 EDF only Cut the thrust tube from thin plastic sheet. Join the seam with nylon reinforced tape. Glue in place carefully with hot melt glue - not too hot to melt the plastic sheet.
EDF only Print the thrust tube to suit your particular EDF size. Use a soldering iron to create the hole to feed the motor wires through. Glue in place using Uhu Por.
33DD PrintedPrinted PParartt (optional)
Page 17 Page 1 EDF only Glue the Belly panel (EDF variant) to the assembly.
Pusher only Glue the Belly panel (Pusher variant) to the assembly.
Page 18 Page 1 All versions Using fine drill bits twisted in the fingers, cut a path between the identified Entry and exit positions - Fit drilled out Exit indicated by the notch and hole. prop adaptor Start with 3mm drill bits, and work up Entry to 6-7mm.
Push aluminium tube through. Glue the exterior of the tube with epoxy to hold in place. Allow the tube to protrude 1-2mm to create a shoulder for the canard bushing to sit against.
Using the same method as the wings. Glue 6mm Carbon tube to the canards. Fit a drilled out prop-saver adaptor as a bushing and slot into All versions place.
x Use a drilled-out standard size servo horn on the end of the canard shaft. Use a twin piano wire Z-bend as shown to connect the canard to the servo.
Use friction to hold in place for the moment as the canards will be removed for sanding the fuselage.
Page 19 Page 1 EDF only Glue the Fuselage top (EDF variant) to the assembly.
Pusher only Glue the Fuselage Top (Pusher variant) to the assembly.
Page 20 Page 1 All versions Choose whether you want the twin canopy or single canopy Rafale version, and choose the nosecone accordingly. Glue the Nosecone pieces together as shown.
All versions OPTIONAL : Choose whether you want the twin canopy or single canopy Rafale version, and 3D print the Nosecone accordingly. . 33DD PrintedPrinted PParartt (optional)
Page 21 Page 1 All versions First glue in place the Nosecone aligner, then glue the Nosecone to the assembly.
All versions Remove the canards and use the Sanding jigs to help create the shape of the Rafale. Use photos of the real plane to help. Please note that the nosecone sits proud at the top, do not sand this off.
Page 22 Page 1 All versions Choose either the twin or single canopy variant, then construct the Turtledeck so that it conforms to the shape of the fuselage, but allows you to remove it to sand it to shape.
Use masking tape over the fuselage and a few drops of glue to pin it to the tape. Add a layer at a time. Once assembled remove it to shape. Ensure that the pieces are correctly aligned to the centreline of the plane then Glue in place.
All versions Glue the Vertical stabiliser to the assembly using Epoxy glue to ensure a gap-filling bond.
Page 23 Page 1 All versions
33DD PrintedPrinted PParartt (optional)
All versions Glue all the pieces of the canopy together or print out a 3D Printed version.
Single seat canopy shown here
Ensure a good fit to the plane.
Page 24 Page 1 All versions
33DD PrintedPrinted PParartt (optional)
All versions Glue all the pieces of the canopy together or print out a 3D Printed version.
Twin seat canopy shown here
Ensure a good fit to the plane.
Page 25 Page 1 Build a tongue using a piece of scrap depron and 3mm liteply at the front of the canopy. 1. press magnet into depron to impress shape. 2. Dig out a recess for the magnet 3. Apply glue into recess and using a sharp knife. push magnet into it. Attach the magnets to the magnet panel
Epoxy the magnets to rear of the canopy so that the canopy is removable but holds firmly in place when mounted.
4. Whilst still wet, lay masking tape over the area. 5. When fully cured, remove tape 6. When correctly aligned, press adjoining and put adjoining magnet on top depron onto the sticking up magnet to impress shape.
IMPORTANT. Before glueing the upper magnet in, check that the magnet is the right way around! Single seat canopy Twin seat canopy 7. Repeat steps 2-4 for the upper part.
Page 26 Page 1 All versions Tape
Assemble the tail-cone jig and glue together. Wrap 3mm depron around the jig, taping together on the side of the jig. Apply uhu Por to the visible side. Stick the outer 3mm depron in place. Trim and sand flat to the flat surfaces of the jig. Trim away areas that encroach onto EDF ducting or Pusher motor and stick to the exhaust bulkhead as shown below.
Page 27 Page 1 EDF only EDF only
33DD 33DD PrintedPrinted PrintedPrinted Part Part EDF - Birfurcated Thrust tube version PParartt (optional) (optional) EDF - Sheet Thrust tube version
Pusher only Print the correct exhaust cone for your chosen power method.
33DD PrintedPrinted PParartt Pusher version (optional)
Page 28 Page 1 All versions Cut 2 pylons from balsa and glue to the edge of the wing using uhu Por.
All versions OPTIONAL : Print out two Pylons, cut a notch out of the wing for the ‘snag’ protector and glue to the wing.
The holes on the side of the pylons are for attaching missiles to. 33DD PrintedPrinted PParartt (optional)
Page 29 Page 1 All versions BEFORE you start, sand the inside edge of the fuselage (inside the air intake to be a smooth airflow)
Construct the air intakes using the 3mm liteply template. Glue together all parts (including a corner reinforcer) and sand to the shape of the plywood.
All versions OPTIONAL :
BEFORE you start, sand the inside edge of the fuselage (inside the air intake to be a smooth airflow)
Print out a mirrored pair of intakes and glue to the assembly.
33DD PrintedPrinted PParartt (optional)
Page 30 Page 1 All versions Glue either the plywood or 3d printed Refuilling probe as shown here with Epoxy.
All versions Stick the two 3mm depron antenna parts onto the vertical stabiliser.
33DD PrintedPrinted PParartt (optional)
Page 31 Page 1 Congratulatoins your model is now complete! Either fly it as it is or finish it in a paint scheme of your choice!
Page 32 Page 1 Use Google images to help complete the final shaping of your plane. Use lightweight filler to help with the concave radii on the fuselage. There are lots of paint schemes to choose from - simply look on google images!!
Page 33 Page 1