Industrial grade manufacturing
Pursuing the possibilities of the MEX method
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EXF-12
Pellet-type 3D additive manufacturing machine
We use domestically produced parts to achieve industrial grade manufacturing.
Build area 1700*1300*1000mm(X*Y*Z)
Features
1/ Adoption of FUNUC controller
By adopting the company's control device, which has the highest market share and is the most trusted among machine tools, advanced control is possible.
The data format can also be Gcode.
2/Nozzle diameter 2mm to 8mm
Nozzles from φ2mm to φ8mm can be used, and high-speed modeling is possible with a maximum output of 15kg/hour.
*However, the larger the nozzle diameter, the larger the layer marks will be. Depending on the application, post-processing of the surface may be required.
3/ Chamber room for stable molding
Equipped with a hot air blower to control the temperature inside the chamber (up to 80°C) and on the build plate (up to 100°C). In addition, it is equipped with a vacuum function to temporarily fix the resin sheet used to fix the model.
4/ Recycled pellets can be used
It is possible to use general-purpose thermoplastic resin pellets as materials, rather than materials specifically for 3D printers. Of course, it is also possible to model using recycled pellet materials.
5 / Proprietary injection-molded head
The 3D print head, which uses a screw used in injection molding, is our own proprietary design made specifically for the EXF-12 mass production machine, and is equipped with temperature control and various sensors to achieve stable resin ejection and high-speed modeling.
In addition, it is designed to be upgradeable to new 3D print heads developed by our company in the future.
6/ Newly designed, highly rigid frame
The EXF-12 mass production machine has a unique design that realizes high rigidity, and has a strong frame structure that can withstand large-volume, high-speed modeling. The build plate can be individually adjusted to be flat, and is designed with high precision so that it does not need to be leveled every time. In addition, reinforcements have been added in various places so that forklifts and cranes can be used when relocating.
Specification List
項目 | スペック内容 |
|---|---|
造形方法 | MEX(熱溶解積層式) |
造形範囲 (X, Y, Z) | 1700mm × 1300mm × 1000mm |
最大射出量(kg/h) | 最大 15kg/h |
ノズル径(mm) | φ2〜φ8 |
軸ガイド | リニアガイド |
駆動方式 | ボールねじ |
繰り返し位置決め精度 | ±0.1mm |
使用樹脂 | 各種熱可塑性樹脂、各種複合材料、バイオマス等各種コンパウンド |
造形ベッド積載可能重量 | 300 kg (均等荷重) |
ベッドヒーター制御温度 | 〜100℃ |
ベッド固定方法 | 樹脂板/フィルム等を使用したバキュームフォーム方式 |
チャンバー制御温度 | 〜60℃ |
制御装置 | FANUC31i |
スライサーソフト | 専用ソフトまたは汎用スライサーソフト |
その他周辺ソフト | 専用ポストプロセッサ(Gコード変換) |
電源 | AC200V(30A×2) |
外形寸法 (W, D, H) | 3502mm × 2102mm × 2121~2930mm |
必要設置スペース (W, D, H) | 5100mm × 3600mm × 3100mm |
重量 | 2800kg |
運搬 | 10tユニックまたは10tウィング、5tフォークリフトで持ち上げ可能 |
操作パネル | Windows10で動作する独自のオペレーションソフトとタッチパネル採用でリモート操作も可能 |
オプション | 圧送機 / 材料センサー ホッパーシリンダー 追加安全機構・装置等 ノズル温度300℃を超える高温仕様 |
◆その他特殊仕様・カスタマイズなどのご相談はお問い合わせください。 |