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3または4層高速フラットバッグTシャツバッグマシンを作る - KDCシリーズ
カテゴリー : プラスチック袋製袋機
●機種:KD3C-326S●速度(サイクル/分) 140●幅(mm):360×6ライン●長さ(mm):最大。 650
INSERT INJECTION MOLD
カテゴリー : 射出成形用金型
INSERT MOLDING TECHNOLOGY: When a metal, plastic or ceramic part needs to be embedded in plastic to improve product structure it is called Insert Molding. It is a widely used process and one that YOMURA TECHNOLOGIES specializes in. With Insert Molding, a part is placed in a mold cavity then a selected plastic material is injected directly over it resulting is a single part with the insert(s) encapsulated by the material. This process normally uses engineering plastics for improved wear resistance, tensile strength and weight reduction. Insert Molding can be a highly efficient alternative to the assembly of discrete parts using soldering, connectors, fasteners, or adhesives. It also expands plastic capabilities and can reduce final product cost by limiting the amount of costly metal needed to create a part. And importantly, because we can use conventional single shot injection machines for Insert Molding, tooling costs are lower than with a multi-shot processing. Benefits: Reduced assembly and labor costs Because insert molding joins numerous components with thermoplastic, assembly and labor costs are greatly minimized. For example, a single stamping can be overmolded, then perforated to create multiple circuit paths. Reduced size and weight By eliminating fasteners and connectors, and by combining the physical strength of resin and metal inserts, insert molding yields smaller and lighter components. Increased reliability With every part tightly secured in thermoplastic, an insert molded component prevents part loosening, misalignment, improper terminations, and other problems. The thermoplastic resin also provides improved resistance to shock and vibration. Increased design flexibility Designers appreciate the virtually unlimited configurations that insert molding allows. For example, in creating a 3D circuit board, overmolding permits circuitry to move freely through the part, from inside to outside, up walls, down in holes-and the plastic ties it all together. Materials: Engineering plastic or Thermo Plastic Rubber (TPR) inserted with metal frame die casting, plated copper pin, sockets, wire frames, etc. Applications: TPR + Metal Frame(3C Mechanical Parts) ABS + Al. Die Cast (Sports/ Medical) Eng. Plastic + Patting Pin/Eng. Plastic + Wireframe (Connector) Eng. Plastic + Copper Pin/Contact (Precision Electronic Component)
UTS 650-1100
カテゴリー : 産業用ロボット
Document management system installed for effective management of arm tooling Free encoding functions / 3D display showing parameters for the programmed stacking motion User-friendly encoding Built-in PLC software (LADDER diagram) An easy-to-use teach pendant
スリッターナイフ
カテゴリー : カッティング・スリッティング部品
Secondary Packaging - Cartoning - CSC-50
カテゴリー : カートニングマシン
The cartoning equipment applies the vertical semi-automatic production operation. The equipment is suitable for more types with medium capacity products
多層自動送り切断機VAC-310
カテゴリー : 発泡機
ダブルアクスル同期加圧機構:ダブル出力アクスルで加圧を行い、強力で安定した加圧能力を発揮します。自動送り機構:サーボ制御により、素材の幅や長さに応じた設定を行います。アライメントモールドシステム:材料を所定の位置に固定した後、同時切断プロセスを実行します。パラメータ保存システム:パラメータ管理を容易にするために、プロダクションフィギュアのモジュールベースのメモリを実行します。カッティングプレートターンテーブル機構:カット後のプレート使用率が95%以上になるようにオフセット長さを設定します。高効率ブースト回路:従来の回路に比べて消費電力を30%以上削減します。
Conductive & Anti-Static Plastic Compounds
カテゴリー : ポリプロピレン
This category includes permanently conductive and anti-static plastic pellets, formulated for use in trays, carriers, and components in ESD-sensitive environments. Surface resistivity ranges from 10³ to 10¹¹ Ohm/sq depending on the grade (permanent or dissipative). Glass fiber-reinforced conductive options are also available for applications requiring enhanced strength and durability.
