| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
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GEDORE Tools, Inc. |
UNIVERSAL PULLER 2-ARM PATTERN 1 |
0 |
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GEDORE Tools, Inc. |
SPINDLE 22 MM G 1/2" 210 MM WITH |
0 |
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GEDORE Tools, Inc. |
SPINDLE 22 MM G 1/2" 350 MM |
0 |
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GEDORE Tools, Inc. |
TUBULAR BOX SPANNER 13X17 MM |
0 |
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GEDORE Tools, Inc. |
SPINDLE 17 MM M14X1.5 155 MM |
0 |
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GEDORE Tools, Inc. |
UNIVERSAL PULLER 2-ARM PATTERN 2 |
0 |
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GEDORE Tools, Inc. |
PRECISION MECHANICS IN 1/3 ES TO |
0 |
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GEDORE Tools, Inc. |
PULLER 3-ARM PATTERN 450X420 MM |
0 |
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GEDORE Tools, Inc. |
ROUND FILE 6" 150X6 MM |
0 |
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GEDORE Tools, Inc. |
FEELER GAUGE SET FAN PATTERN |
0 |
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GEDORE Tools, Inc. |
ELECTRICIANS' CHISEL 200X10X7 MM |
0 |
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GEDORE Tools, Inc. |
HYDRAULIC CYLINDER 150 MM |
0 |
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GEDORE Tools, Inc. |
PULLER WITH CLAMPING YOKE 90X100 |
0 |
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GEDORE Tools, Inc. |
DISMANTLING AND ASSEMBLY FORK 45 |
0 |
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GEDORE Tools, Inc. |
SEPARATOR PULLER 140-440 MM |
0 |
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GEDORE Tools, Inc. |
QUICK-RELEASE PULLER 3-ARM PATTE |
0 |
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GEDORE Tools, Inc. |
UNIVERSAL PULLER 2-ARM PATTERN 2 |
0 |
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GEDORE Tools, Inc. |
ROUND FILE 10" 250X10 MM |
0 |
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GEDORE Tools, Inc. |
FAN PULLER 2-ARM PATTERN 150X200 |
0 |
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GEDORE Tools, Inc. |
CROWFOOT SPANNER 19 MM |
0 |
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Specialized tools refer to purpose-built equipment designed to perform specific tasks with high precision and efficiency. These tools integrate advanced engineering principles, material science, and digital technologies to address complex requirements across industries. Their importance in modern technology lies in enabling automation, improving product quality, reducing human error, and accelerating innovation cycles in sectors ranging from healthcare to aerospace.
| Type | Functional Features | Application Examples |
|---|---|---|
| Industrial Tools | High-precision machining, automated operation | CNC lathes, robotic arms |
| Medical Tools | Sterilization compatibility, micro-scale accuracy | Surgical robots, diagnostic scanners |
| Electronic Tools | Digital signal processing, high-frequency measurement | Oscilloscopes, multimeters |
| Construction Tools | Hydraulic/pneumatic power, durability | Demolition breakers, concrete pumps |
Typical specialized tools consist of:
- Power System: Electric/hydraulic/pneumatic actuators (e.g., brushless motors)
- Control System: Microprocessor-based controllers with real-time feedback
- Execution Unit: Task-specific end-effectors (e.g., surgical scalpels, milling cutters)
- Sensors: Position, force, and temperature sensors for closed-loop control
- Material: Aerospace-grade aluminum or stainless steel for durability
| Parameter | Description | Importance |
|---|---|---|
| Precision | Tolerance range (e.g., 0.001mm) | Directly affects product quality |
| Power Output | Operating wattage or torque | Determines processing capability |
| Operating Temperature | Functional range (-20 C to 120 C) | Environmental adaptability |
| Compatibility | Integration with standard systems | System interoperability |
| Durability | Maintenance intervals (e.g., 10,000 hours) | Operational cost reduction |
| Manufacturer | Representative Product | Key Innovation |
|---|---|---|
| FANUC | ROBOT M-20iD/25 | High-speed industrial robotic arm |
| Medtronic | StealthStation S8 | Augmented reality surgical navigation |
| Keysight Technologies | Infiniium MXR-Series | 8GHz bandwidth oscilloscope |
| Caterpillar | CB534D Compactor | Smart vibration control system |
Key considerations include:
1. Task requirements (precision vs. throughput)
2. System compatibility (interfaces, software protocols)
3. Environmental conditions (temperature, humidity)
4. Total cost of ownership (initial investment vs. maintenance)
5. Regulatory compliance (e.g., ISO 13482 for medical tools)
Emerging trends include:
- Integration of AI for predictive maintenance
- Development of modular tools for multi-functionality
- Adoption of Industry 4.0 communication protocols (e.g., OPC UA)
- Increased use of composite materials for weight reduction
- Growth of collaborative tools for human-machine interaction