A pallet system that allows for the sharing of jigs with one unit! Realizing three-dimensional curved shapes on the pallet from 3D CAD and three-dimensional measurement device data.
▶ What is the "3D Programmable Palette"? … [Preventing Work Damage] Using three-dimensional shape data, it is possible to set accurate curved shapes on the palette. Since shapes can be utilized without applying pressure, it becomes possible to support thin, soft materials and fragile glass products without damage. … [Palette Sharing is Possible] One unit can accommodate various shapes and materials, reducing labor hours and initial costs, and eliminating the need for storage space for dedicated palettes, contributing to space-saving in equipment. ▶ What is the "Narai Unit"? … It is a mechanism that supports, grips, and transports various types of work by aligning multiple elements using a quick clamper to the shape of the workpiece. ▶ What is the "Quick Clamper"? … It is the latest locking mechanism that allows linear movement clamping and unclamping to be done effortlessly with a "one-touch" action. It does not require power during fixation, can maintain high holding force consistently while locking, and prevents variation in the tightening degree. *This demo unit can be viewed at our company office. For more details, please contact our sales representative.
Inquire About This Product
basic information
"This is a system that enables multi-species support for pallets!" [Concern] I want to align fragile or soft material works. → "With the 3D Programmable Palette!" - No need for alignment shapes through pressing - Accurate curved shapes can be set on the pallet from 3D shape data ⇒ Example: Supports a wide range of shapes and materials such as automotive interior panels and glass products. Prevents damage to the workpieces. [Concern] I want to save on jig costs and setup change time during small-lot production of various items. → "With the 3D Programmable Palette!" - One unit can accommodate all shapes and materials of workpieces - Sharing of jigs and pallets is possible ⇒ Contributes to cost reduction of initial expenses / reduction of work hours / no need for jig production / space-saving.
Price range
Delivery Time
Applications/Examples of results
"Uses" ●【Lower Support】 ●【Upper Support】 ●【Transport】 ●【Grip】 and so on.
Detailed information
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The training element (TCN) is a product that combines the necessary component parts in advance to easily attach the training unit to the device. By using multiple training elements in parallel, it is possible to configure training units for fixed jigs and suction transport hands. The tip components and retaining rings are sold separately. Quick clamping device "Element" is used.
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The element (TCEG) is a component that allows for easy attachment of a clamp mechanism. Its compact design makes it ideal for embedded applications. It uses martensitic stainless steel with rust prevention properties. An optional TF treatment suitable for use in medical devices and food machinery is also available. The external dimensions comply with the standard specifications for linear bushes.
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By equipping the compact and lightweight "SEED Driver" onto the small and simple actuator "Picsel," it becomes easy to construct a multi-axis system that is control box-less, has fewer wiring requirements, and is compact in size. Furthermore, by connecting an external input module equipped with the protocol controller "SEED MS" to the multi-axis system, it is possible to integrally control and manage the IO functions of each actuator and 16 input/16 output points.
catalog(29)
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CAD data(59)
| Model number | overview | File |
|---|---|---|
| TCEG 08(2D) | Element (φ8, 2D) |
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| TCEG08 (3D, no axis) | Element (φ8, 3D, no axis) |
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| TCEG08 (3D, with axis) | Element (φ8, 3D, with axis) |
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| TCEG 12(2D) | Element (φ12, 2D) |
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| TCEG12 (3D, no axis) | Element (φ12, 3D, no axis) |
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| TCEG12 (3D, with axis) | Element (φ12, 3D, with axis) |
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| TCEG 16(2D) | Element (φ16, 2D) |
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| TCEG16 (3D, no axis) | Element (φ16, 3D, no axis) |
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| TCEG16 (3D, with axis) | Element (φ16, 3D, with axis) |
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| TCEG 20(2D) | Element (φ20, 2D) |
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| TCEG20 (3D, no axis) | Element (φ20, 3D, no axis) |
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| TCEG20 (3D, with axis) | Element (φ20, 3D, with axis) |
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| TCEG 25(2D) | Element (φ25, 2D) |
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| TCEG25 (3D, no axis) | Element (φ25, 3D, no axis) |
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| TCEG25 (3D, with axis) | Element (φ25, 3D, with axis) |
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| TUWP 08(2D) | Plate unit (φ8, 2D) |
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| TUWP08 (3D, no axis) | Plate unit (φ8, 3D, no axis) |
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| TUWP08 (3D, with axis) | Plate unit (φ8, 3D, with axis) |
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| TUWP 12A(2D) | Plate unit (φ12, 2D) |
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| TUWP12 (3D, no axis) | Plate unit (φ12, 3D, no axis) |
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| TUWP12 (3D, with axis) | Plate unit (φ12, 3D, with axis) |
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| TUWP 16(2D) | Plate unit (φ16, 2D) |
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| TUWP16 (3D, no axis) | Plate unit (φ16, 3D, no axis) |
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| TUWP16 (3D, with axis) | Plate unit (φ16, 3D, with axis) |
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| TUWP 20A(2D) | Plate unit (φ20, 2D) |
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| TUWP20 (3D, no axis) | Plate unit (φ20, 3D, no axis) |
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| TUWP20 (3D, with axis) | Plate unit (φ20, 3D, with axis) |
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| TUWL08(2D) | Lever unit (φ8, 2D) |
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| TUWL08(3D) | Lever unit (φ8, 3D) |
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| TUWL16(2D) | Lever unit (φ16, 2D) |
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| TUWL16(3D) | Lever unit (φ16, 3D) |
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| TUSR08(2D) | Reel Clamper (φ8, 2D) |
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| TUSR08(3D) | Reel Clamper (φ8, 3D) |
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| TUSR12(2D) | Reel Clamper (φ12, 2D) |
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| TUSR12(3D) | Reel Clamper (φ12, 3D) |
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| TUSR16(2D) | Reel Clamper (φ16, 2D) |
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| TUSR16(3D) | Reel Clamper (φ16, 3D) |
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| TUSR20(2D) | Reel Clamper (φ20, 2D) |
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| TUSR20(3D) | Reel Clamper (φ20, 3D) |
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| TUSR25(2D) | Reel Clamper (φ25, 2D) |
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| TUWI 22C | Inner unit (φ22) |
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| TUWI22C(3D) | Inner unit φ22 (3D) |
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| TUSR25(3D) | Reel Clamper (φ25, 3D) |
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| TURG30B(2D) | Reel unit (φ30, 2D) |
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| TURG30B(3D) | Reel unit (φ30, 3D) |
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| TUSA08(2D) | Air unit 1-way (one direction) φ8 (2D) |
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| TUSA08(3D) | Air unit 1 way (unidirectional) φ8 (3D) |
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| TUSA16(2D) | Air unit 1 way (one direction) φ16 (2D) |
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| TUSA16(3D) | Air unit 1-way (one direction) φ16 (3D) |
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| TUWA08(2D) | Air Unit 2-way (bidirectional) φ8 (2D) |
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| TUWA08(3D) | Air unit 2-way (bidirectional) φ8 (3D) |
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| TUWA16(2D) | Air unit 2-way (bidirectional) φ16 (2D) |
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| TUWA16(3D) | Air unit 2-way (bidirectional) φ16 (3D) |
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| ADLM08(2D) | Air Unit Adapter 2 (φ8, for Linear Bush, 2D) Compatible Units: TUSA08/TUWA08 |
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| ADLM16(2D) | Air Unit Adapter 2 (φ16, for Linear Bush, 2D) Compatible Units: TUSA16/TUWA16 |
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| ADLB08(2D) | Air Unit Adapter 1 (φ8, for LB fittings, 2D) Compatible Units: TUSA08/TUWA08 *The adapter (1) is not required when attaching FA fittings to TUSA08/TUWA08. |
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| ADLB16(2D) | Air Unit Adapter 1 (φ16, for LB/FA fittings, 2D) Compatible Units: TUSA16/TUWA16 |
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| AUW08(2D) | Custom Clamper (φ8) |
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| AUW08(3D) | Custom Clamper (φ8) |
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Company information
Since our establishment in 1987, we have provided various FA equipment tailored to our customers' needs. Now, as a member of the THK group, the world's top manufacturer of linear motion systems, we have 18 sales locations across Japan, responding quickly and accurately to our customers' requests.