KISS Hot End

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KISS Hot End

Release status: Experimental

KISS hot end assembled top view.JPG
Description
A simple hot end that can be made without access to machine tools
License
GPL
Author
Contributors
Based-on
Categories
CAD Models
External Link

For those unfamiliar with the acronym KISS it stands for "Keep It Simple Sir" (or words to that effect). This hot end is an attempt to design a hot end that performs well and is still quick and easy to fabricate.

Key aspects of the hot end are:

  • Minimal part count
  • Can be fabricated without the need for a lathe or milling machine.
  • If you do use a lathe then you don't need to use advanced techniques like 4-jaw chucks and turning external threads.
  • Eliminate joints that can leak plastic
  • Easy to clean out blockages.
  • Easy to dis-assemble to swap for a different sized orifice.

The basic concept uses an off the shelf brass M8x30mm hex head bolt to form the extruder barrel and nozzle. This brass bolt is threaded through a simple aluminium block that carries a heater cartridge and a thermistor. A PEEK insulator prevents too much heat from being transferred to the extruder body.

All the parts of a KISS hot end except the PFA tube
Assembled Bottom View
Assembled Top View

Fabricated Components

Brass Bolt

The M8x30 brass bolt is modified by drilling down the center towards the head at 3.2mm or 2mm depending on the filament size you intend to use.
Drill to within about 0.5mm of the bolt head. This can be done in a drill press. You could probably even do it with a hand held drill if you were careful.
The head of the bolt is then shaped to a cone shape, leaving a flat of about 1mm diameter. This can be done by gripping the bolt in a drill and spinning it while removing material with an angle grinder, bench grinder or a belt sander. You could also use a lathe if you have access to one. Finish it off with a bit of wet and dry sand paper to give it a nice appearance.
The last step is to drill the orifice. Drill a 0.35mm to 0.5mm hole as you prefer in the center of the flat area on the tip of the bolt. This can be done in a drill press with care. Carbide PCB drills are easier to use than HSS jobber drills. They have a 1/8" diameter body. The jobber drills are usually too small for a standard drill chuck to grip. Use the highest speed your drill press is capable of and take lots of small pecks at the hole until it breaks through.

Aluminium Block

The aluminium block is easier to make. You need a block about 20 x 20 x 12 mm or 3/4" x 3/4" x 1/2". The easiest way to get this is to buy 20 x 12 mm or 3/4" x 1/2" solid bar and cut a short length from that. 20 mm or 3/4" square bar could also be used.
Clean it up and square it with a file then mark out the three holes as per the drawing. Positioning is not critical.
Tap an M8 thread into the largest hole. Take care to get the thread started square to the hole. It is best to use a taper tap for this.
If you have a 6mm reamer available then drill the 6mm hole under size and use the reamer to finish it.

PEEK Insulator

The last part is the plastic insulator. Drill and tap as per the drawing. For the M8 thread you should start the thread using a taper tap to ensure it is square and then use a plug tap to finish the thread to the required depth.
Use a hacksaw and a file to cut the triangular shape on the bottom end and to cut the groove mount near the top.

Other Components

Heater Cartridge

The heater cartridge used for the prototype is 6mm diameter and 20mm long and produces 25W at 12V. You can also buy 6 x 23 mm 40 W cartridges through e-bay. You should increase the size of the aluminium block to 22 mm if you use the longer heater cartridge.
If you want to use a wire wound resistor for the heater you can. Just adjust the 6mm hole size to suit your resistor.
When mounting the heater cartridge the prototype did not require any heat sink paste or glue. With a close fitting hole and a heater cartridge there is plenty of heat transfer. If you are using a wire wound resistor then some fire cement or exhaust gasket cement would be a good idea. Also worth considering is Loctite 5920 CopperMaxx. This is a hi-temp silicone sealant that withstands 316°C and contains copper particles.

Teflon or PFA tubing

The short length of Teflon or PFA tubing is important it has a low coefficient of friction and ensures the filament can't swell up and jamb if it softens before it enters the barrel.
The prototype used PFA tubing. PFA has much the same properties as Teflon but is transparent and not quite as soft.

Insulation

The heater block will benefit from being insulated, particularly if you have cooling fans directed at it. The prototype was wrapped with 2 layers of red silicone foam rubber sheet, held in place with a strip of Kapton tape.
The glass fibre sheet that has been used on other designs of hot end would also be good. With a 25W heater the hot end maintained 200°C with about 60% on time. The heat up time was only a few minutes. If a fan was blowing on the hot end then the heat up time was too long.

Assembly

  1. Screw the brass bolt into the aluminium block
  2. Do it up nice and tight
  3. Insert the PFA tube into the PEEK insulator
  4. Insert the heater cartridge into the aluminium block
  5. Screw the insulator onto the end of the brass bolt
  6. insert the thermistor bead into the aluminium block
  7. Wrap a strip of Kapton tape around the PEEK insulator and the wires to hold the thermistor and heater in place.

Drawings

Drawings of all components:File:KISS Hot End.PDF

Variations

Bowden Hot End

If you want a bowden type hot end then make a tapped hole at the top end of the PEEK insulator. M5, 1/8"BSPT or NPT thread depending on your choice of pneumatic fitting.
For 3mm filament the bowden tube should be 3mm ID/5mm OD. IMI Norgren manufacture fittings for 5mm tube that work. They require a 1/8 BSPT thread. Norgren P/N101250518.
For 1.75mm filament the bowden tube should be 2mm ID/4mm OD. Norgren P/N 101250418 is 4mm to 1/8BSPT push fit.