CHARLYDENTAL CD04-S

Milling/grinding machines for dental prostheses available in versions 4 positioned axes, perfect for a simple and fast daily production of prostheses in soft materials and ceramics, with dry or lubricate tool.

  • Description
  • Technical datas
  • Fields of activity

Thanks to their very compact dimensions and to the original choice of  kinematics, they offer a maximum of flexibility for a minimum of space.

They are equipped with an open CAD/CAM system which can be used with the main scanners, CAD/CAM software and consumables used in the dental field.

 

Other highlights of this concentrate of innovation totally designed and manufactured in France  :

 

• Power reserve by 500W – 60000 rpm spindle and brush-less servo-motors

• Flexibility and accuracy of milling/grinding with angulation of the rotary axes

• 4th axis : +/- 30° 

• Accuracy by high quality kinematics, ball-screws, and rectified rails

• Simplicity of use thanks to the colour touch screen and its driving friendly software

• High performance automatic monitoring of the tools and the brother-tools changes, wearing and tools breaking detections

TECHNICAL CHARACTERISTICS

  • Brushless servo motors
  • Spindle 500 W 60,000 rpm
  • Automatic tool change (with 12 tools in the changer)
  • Precision measurement of tool length
  • Tool breakage detection
  • Tool wear detection
  • Integrated suction sensor
  • Communication port: 1 USB and 1 ETHERNET
  • Power supply: 230 VAC 50/60 Hz

DIMENSIONS

 

  CD04-S
Lenght 542
Widht 600
Height 736
Weight 90
Automatic undercut milling on charlydental 4 axes (video)

Automatic undercut milling on charlydental 4 axes (video)

Charlydental 4X (video)

Charlydental 4X (video)

4 or 5-axis machines CD04-S, CD-05-S (video)

4 or 5-axis machines CD04-S, CD-05-S (video)

Crown in Lithium Disilicate block

Crown in Lithium Disilicate block

Execution of orthondic trays

Execution of orthondic trays

Execution of rest trays

Execution of rest trays

Execution of orthodontic study models

Execution of orthodontic study models

Execution of single crown

Execution of single crown

Execution of telescope crown

Execution of telescope crown

Execution of bridge

Execution of bridge

Execution of single framework (cap) and bridge

Execution of single framework (cap) and bridge

Execution of temporary crown and bridge

Execution of temporary crown and bridge

Execution of screwed-in bar

Execution of screwed-in bar

Execution of framework (Stelitte, Squelette…)

Execution of framework (Stelitte, Squelette…)

Execution of dental model

Execution of dental model

Execution of Inlay-core

Execution of Inlay-core

Execution of inlay onlay

Execution of inlay onlay

Execution of denture

Execution of denture

Naujų medžiagų apdirbimas aviacijos ir kosmoso pramonėje: MÉCANUMÉRIC, kompetencija inovacijų labui

Naujų medžiagų apdirbimas aviacijos ir kosmoso pramonėje: MÉCANUMÉRIC, kompetencija inovacijų labui

Privalumai, iššūkiai ir mechaninio apdirbimo problemos: kompozicinės medžiagos turi didelių privalumų aeronautikos sektoriuje, tačiau kokius iššūkius reikia įveikti, norint jomis pasinaudoti?