Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
First drawings for a completely lasercut field camera. Built mainly from 6mm Acrylic sheet with some 3mm for the lens board and a selection of bolts. The back rotates to allow portrait/landscape shooting and will use a bag bellows.
Steve Lloyd:
Exploded parts ready to be lasercut from 6mm Acrylic. Next step is to do some testing to get the right power/speed settings for the laser to cut at 1/2/3mm depths as required.
Steve Lloyd:
Exploded parts ready to be lasercut from 6mm Acrylic. Next step is to do some testing to get the right power/speed settings for the laser to cut at 1/2/3mm depths as required.
Steve Lloyd:
Macro Rail Focus
Steve Lloyd:
Macro Rail Focus-Bottom
Steve Lloyd:
Macro Rail Focus-Close
Steve Lloyd:
Macro Rail Focus-Front
Steve Lloyd:
Macro Rail Focus-Top
Steve Lloyd:
Macro slider rail which will I'll be using as the focus mechanism for my lasercut 4x5 camera. Multiple mount points give flexibility to use lenses of different focal lengths on the same chassis.
Steve Lloyd:
Updated main body design for the motorised 4x5 standard.
Steve Lloyd:
Updated main body design for the motorised 4x5 standard.
Steve Lloyd:
First print of the rotating remote control for my motorised 4x5 standard.
Steve Lloyd:
First print of the rotating remote control for my motorised 4x5 standard.
Steve Lloyd:
Render2
Steve Lloyd:
Render1
Steve Lloyd:
Rotating Hinge 4x5
Steve Lloyd:
3D printed hinge parts complete for my Acrylic 4x5 body. The end caps will be fixed to the bed of the camera and the rear standard will be bonded into the channel in the central piece. The hinge rotates 270 degrees to allow the rear standard to fold.
Steve Lloyd:
3D printed hinge parts complete for my Acrylic 4x5 body. The end caps will be fixed to the bed of the camera and the rear standard will be bonded into the channel in the central piece. The hinge rotates 270 degrees to allow the rear standard to fold.
Steve Lloyd:
3D printed hinge parts complete for my Acrylic 4x5 body. The end caps will be fixed to the bed of the camera and the rear standard will be bonded into the channel in the central piece. The hinge rotates 270 degrees to allow the rear standard to fold.
Steve Lloyd:
Working on the folding front standard to add independent movements.
Steve Lloyd:
Working on the folding front standard to add independent movements.
Steve Lloyd:
Working on the folding front standard to add independent movements.
