Solder paste is often used in a screen-printing processes and the paste is deposited over a stainless steel or polyester mask to create the desired pattern on a printed circuit board. In commercial devices, the paste may be dispensed pneumatically, by “pin transfer” where a grid of critically-located pins dipped in solder paste is touched to the board, or by a jet printing process where the paste is sprayed on the substrate through nozzles.
It’s a delicate operation which has to function in tight quarters and with considerably accuracy.
But the projects which appeal to him most are those that lie “far off the beaten path.”
Jansen says he and his father learned about 3D printing, and that led them to construct a pair of printers of their own design.
As result of that experience, he’s now built a prototype solder paste extruder which uses a standard syringe after spending lots of time manually dispensing the paste with varying results.
“I’ve been using the inexpensive solder paste stencils from places like OSH Stencils to really speed up the pasting process, as well as make it more repeatable and reliable,” Jansen says. “But as much as I refine my technique, I’m still not great at stenciling paste on larger boards that have lots of fine pitched components, on the order of 0.4mm to 0.5mm spacing. I find that after stenciling I’ll spend a good deal of time moving the paste around with fine tweezers to help prevent bridging (although often there are still bridges), and so I usually end up manually soldering fine pitch TQFP parts, which is very time consuming.”
Jansen says a couple of common approaches to building open paste extruders were using a lead screw to press on the plunger, or using a belt attached to a vast system of gears which slowly press down on a syringe plunger.
“The prototype that I put together is more of a sketch in hardware to help me appreciate the issues of paste extrusion, and help hammer out a design,” Jansen says. “Instead of using a plunger, I’ve used a very long lead screw that acts as the plunger, and has a gear atop with a captive nut to transfer force. The gear is driven by a Parallax continuous rotation servo, which I thought I’d try given that it simplifies the design by having an integrated gear box (which gives it lots of torque), and it can be directly driven by a microcontroller rather than requiring a separate stepper driver.”
He says that some aspects of the design are very effective like easy access to and the ability to quickly change the syringe.
You can see all the details of Jansen’s solder paste extruder design on his website.
What do you think of Peter Jansen’s solder paste extruder design? Would this help you in your electronics projects? Let us known in the Solder Paste Extruder forum thread on 3DPB.com.