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My usual focus is on CNC, and since my company focuses most of its energy on designing and building guitars we've teamed up with another local company that makes pickups and amplifiers. Rather than undercut a business partner we've elected to make a very high end CNC winder for them exclusively, and with a requested price cap of $2k it's going to be amazing. Pictures will definitely be posted... But there are no plans to offer such a winder to the public in the foreseeable future. These guys will be making all of the standard pickups for our guitars unless another brand is requested specifically, and even then we will most likely encourage them to try ours first and supply replacements if they aren't satisfied. On to the purpose of this post:
Without naming names, when I look at manual pickup winders that are available through big suppliers such as Stew-Mac I find shockingly high prices even for the most basic models. Obviously, to make a profit some mark-up is to be expected. I've been discussing the possibility of making some really nice manually fed pickup winders with my business partner, and we feel confident that there is room for profit while offering a superior product. There shouldn't be articles all over the web about motors failing on a winder that costs $350 and features a basic LCD counter and no foot pedal speed control. Here's what I'm considering for the feature set:
*9"x9" T-slot extruded aluminum base 1" thick. It's sturdy, easy to assemble, allows for easy future expansion, and it can be conveniently fastened down to a surface/bench with carriage bolts that slide right into the slots.
*Bi-polar stepper motor coupled directly to the drive shaft. Not only are steppers easy to control and capable of rotating both clockwise and counterclockwise, they are also very reliable and allow the end users to more readily upgrade to computer control in the future should they so desire. Maximum speeds would likely be in the 1500 RPM range, and a direct geared coupling may be considered if advantageous
*Either an OLED or backlit high contrast monochrome LCD display. This would handle important information such as a turn counter, RPM, direction of rotation, and possibly more. It will most likely be a 16x2 display, which means two lines of 16 characters.
*Arduino to handle control of the motor and output data to the display. All code would be maintained as open source, thus allowing for modifications and future upgrades such as implementing a stepper motor for control of traversing or tension.
*Foot pedal speed control plus start/stop. This would most likely be made from a wah/volume pedal shell because, although we could make our own from scratch, I would rather over-build. Alternatives are being considered such as a handheld controller with a stick not unlike those found on a modern video game console controller. The handheld concept would lend itself nicely to anyone who upgrades the system so that speed as well as traversing could be controlled manually... essentially a hands-off hand-wound pickup.
*Electronics enclosure. I haven't shopped enough or considered fabrication thoroughly enough to say exactly what would be used. The requirements are functionality/durability, ease of access for maintenance (software upgrades, modifications, and repair... in case someone drives a truck over it and you need to remove what's left of the truck to prevent malfunctions), and pleasant appearance. Leading candidates include die cast aluminum, deep drawn aluminum, and custom made fiberglass.
*Linear rail with stops. I have a few ideas to make setting the stops a bit more intuitive that other winders I've seen. Nothing fancy, probably just some nicely polished stainless steel
*Fan/ventilation system to keep everything from the arduino to the motor nice and cool. Thermal failure is just bad product design.
If you have any ideas or special requests for features this is the time to bring them up. Target price for complete units is between $250 and $350 plus shipping. 100% made in the US with top quality components and probably a limited lifetime warranty (non-transferable, but perhaps guaranteeing all original components to be free of defects.) I don't want people to be afraid to modify it to suit their needs, and at the same time want them to feel confident that it is a top-notch machine that we stand behind 100%.
One last thing: before anyone brings up the low cost CNC winder I discussed a few months ago keep in mind what I described was a completely different animal. It was all about minimalism and basic functionality. The general concept was to provide the structure, stepper motors, motion systems, and plugs that would connect everything to the external power supply and controller. If someone wanted to use such a CNC winder, did not have an appropriate power supply, stepper controller boards, computer, and/or software: They would need to spend hundreds of dollars to have it up and running. It could still be accomplished for between $500 and $1000 rather easily. The machine I have proposed here will be comprised of the highest quality components available, elegant in its simplicity, and ready to plug in an use right out of the box.
I look forward to your responses, and hope that this design will see the light of day. Given sufficient interest we plan to initiate a kickstarter campaign to lower the cost by increasing production volume of the initial run... So early adopters will have a chance to save a few bucks. A couple of prototypes might be loaned around for some prominent members of this forum to evaluate and post their impressions. That way people can feel more confident in the quality of the product and the design can be refined if necessary before the first production units ship.
Without naming names, when I look at manual pickup winders that are available through big suppliers such as Stew-Mac I find shockingly high prices even for the most basic models. Obviously, to make a profit some mark-up is to be expected. I've been discussing the possibility of making some really nice manually fed pickup winders with my business partner, and we feel confident that there is room for profit while offering a superior product. There shouldn't be articles all over the web about motors failing on a winder that costs $350 and features a basic LCD counter and no foot pedal speed control. Here's what I'm considering for the feature set:
*9"x9" T-slot extruded aluminum base 1" thick. It's sturdy, easy to assemble, allows for easy future expansion, and it can be conveniently fastened down to a surface/bench with carriage bolts that slide right into the slots.
*Bi-polar stepper motor coupled directly to the drive shaft. Not only are steppers easy to control and capable of rotating both clockwise and counterclockwise, they are also very reliable and allow the end users to more readily upgrade to computer control in the future should they so desire. Maximum speeds would likely be in the 1500 RPM range, and a direct geared coupling may be considered if advantageous
*Either an OLED or backlit high contrast monochrome LCD display. This would handle important information such as a turn counter, RPM, direction of rotation, and possibly more. It will most likely be a 16x2 display, which means two lines of 16 characters.
*Arduino to handle control of the motor and output data to the display. All code would be maintained as open source, thus allowing for modifications and future upgrades such as implementing a stepper motor for control of traversing or tension.
*Foot pedal speed control plus start/stop. This would most likely be made from a wah/volume pedal shell because, although we could make our own from scratch, I would rather over-build. Alternatives are being considered such as a handheld controller with a stick not unlike those found on a modern video game console controller. The handheld concept would lend itself nicely to anyone who upgrades the system so that speed as well as traversing could be controlled manually... essentially a hands-off hand-wound pickup.
*Electronics enclosure. I haven't shopped enough or considered fabrication thoroughly enough to say exactly what would be used. The requirements are functionality/durability, ease of access for maintenance (software upgrades, modifications, and repair... in case someone drives a truck over it and you need to remove what's left of the truck to prevent malfunctions), and pleasant appearance. Leading candidates include die cast aluminum, deep drawn aluminum, and custom made fiberglass.
*Linear rail with stops. I have a few ideas to make setting the stops a bit more intuitive that other winders I've seen. Nothing fancy, probably just some nicely polished stainless steel
*Fan/ventilation system to keep everything from the arduino to the motor nice and cool. Thermal failure is just bad product design.
If you have any ideas or special requests for features this is the time to bring them up. Target price for complete units is between $250 and $350 plus shipping. 100% made in the US with top quality components and probably a limited lifetime warranty (non-transferable, but perhaps guaranteeing all original components to be free of defects.) I don't want people to be afraid to modify it to suit their needs, and at the same time want them to feel confident that it is a top-notch machine that we stand behind 100%.
One last thing: before anyone brings up the low cost CNC winder I discussed a few months ago keep in mind what I described was a completely different animal. It was all about minimalism and basic functionality. The general concept was to provide the structure, stepper motors, motion systems, and plugs that would connect everything to the external power supply and controller. If someone wanted to use such a CNC winder, did not have an appropriate power supply, stepper controller boards, computer, and/or software: They would need to spend hundreds of dollars to have it up and running. It could still be accomplished for between $500 and $1000 rather easily. The machine I have proposed here will be comprised of the highest quality components available, elegant in its simplicity, and ready to plug in an use right out of the box.
I look forward to your responses, and hope that this design will see the light of day. Given sufficient interest we plan to initiate a kickstarter campaign to lower the cost by increasing production volume of the initial run... So early adopters will have a chance to save a few bucks. A couple of prototypes might be loaned around for some prominent members of this forum to evaluate and post their impressions. That way people can feel more confident in the quality of the product and the design can be refined if necessary before the first production units ship.
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