Hybrid Universalis Adjustable Eccentric Rotary Tattoo Gun Machine | Kea
Bruno KEA, famous French tattoo artist and builder, has just released a fine innovation handmade in his workshop.
The UNIVERSALIS, Bruno's new rotary machine, is intended to be universal. It works with RCA as well as Clip-Cord, and with Trad needles as well as Cartridges.
The CNC frame, machined to the nearest hundredth, is highly precise, compact and flawless from one to the next. The frame is embellished with noble woods (Leopard Wood, Cocobolo, Vavona burl, Zebrano, Sycamore burl, Royal Ebony, Thuja burl, Black Walnut burl) and will differ from machine to machine. You won't be able to choose your model; you'll be in for a surprise when you receive your machine (the illustration photos serve as an example). The stroke is easily adjusted using the Allen key supplied with the machine. The eccentric cam, which is centered on the machine axis, limits vibrations, so the machine shakes less than a rotary press. Stroke adjustable from 0 to 5mm
Brand: Bruno Kea
Model: Universalis
Type: Universal
Weight: 174.5 g
Connection system: Clip-Cord / RCA
Frame: CNC
Wood color: Random noble woods according to arrival: Leopard wood (Guyana), Cocobolo (Mexico), Vavona burl (USA), Zebrano (Africa), Sycamore burl (USA), Royal Ebony (Laos), Thuya burl (Morocco), Black Walnut burl (USA)
Accessory: Fabric pouch, Allen key for adjustment.
Warranty: After-sales service or warranty provided by the manufacturer.
You won't be able to choose your model, you'll be surprised when you receive your machine (the illustration photos are examples).. The stroke is easily adjusted using the Allen key supplied with the machine. The eccentric cam, which is centered on the machine axis, limits vibrations, so the machine shakes less than a rotary press. Stroke adjustable from 0 to 5mm
For cartridges For cartridges: unscrew counter-clockwise to obtain no return. The cartridge diaphragm acts as a return spring.
Bruno advises against using the Universalis with Cheyenne cartridges, notably because of the hardness of their membrane.