Definición: Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos. Enfriador láser en miniatura is a compact industrial water chiller specifically designed for fiber lasers, láseres ultravioleta, and semiconductor laser systems. Its primary function is to provide high-stability temperature control, preventing laser power degradation, deriva de longitud de onda, and reduced service life caused by overheating. It is widely used in laser processing, medical laser equipment, and laboratory instruments.
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Core Functions & Industry Problems Solved
- ✅ Solves high heat-density dissipation issues in laser systems.
- ✅ Prevents laser power and wavelength instability caused by temperature fluctuations.
- ✅ Extends laser source lifespan by reducing thermal stress.
- ✅ Replaces bulky and inefficient cooling methods with a compact, energy-saving solution.
- ✅ Meets the ultra-high precision temperature control demands of modern laser equipment.
Principio de funcionamiento (Step-by-Step)
- Paso 1: Cooling water absorbs heat from the laser device and transfers it to the refrigerant through the evaporator.
- Paso 2: The refrigerant vapor is compressed by the compressor into a high-pressure, gas de alta temperatura.
- Paso 3: The hot refrigerant releases heat to the surrounding air or external water system through the condenser and condenses into liquid.
- Paso 4: El refrigerante líquido pasa a través de la válvula de expansión., reducing pressure and returning to the evaporator to complete the cycle. Sensors and controllers maintain closed-loop temperature control.
Key Technical Specifications
| Parámetro | Typical Range / Categoría |
|---|---|
| Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos. | 300 W – 3000 Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos. |
| Precisión del control de temperatura | ±0.1°C – ±0.5°C |
| Compatible Laser Power | 50 W – 3000 Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos. (depending on load) |
| Fuente de alimentación | 110 V / 220 V Optional |
| Operating Temperature Range | 5°C – 35°C (outlet water) |
| Método de enfriamiento | Air-cooled / Small water-cooled |
| Sistema de control | Microprocessor / PLC / Touchscreen |
| Operating Mode | 24/7 Continuous Operation |
Aplicaciones típicas
- Fiber laser marking machines
- UV laser cutting and drilling systems
- Semiconductor laser welding and testing platforms
- Medical and aesthetic laser equipment
- Laboratory laser instruments
- Compact 3D laser printing systems
Technical Comparison: Miniature Laser Chiller vs Traditional Cooling Methods
| Categoría | Enfriador láser en miniatura | Traditional Fan Cooling |
|---|---|---|
| Precisión del control de temperatura | ±0,1 °C | ±3–5°C |
| Laser Stability | Alto | Medio |
| High-Power Laser Support | Sí | No |
| Continuous Operation | 24/7 Estable | Overheating Risk |
| Laser Lifespan | Significantly Extended | Shortened by Heat |
| Maintenance Cost | Bajo (Long-Term) | Alto |
Selection Guidelines
- Cooling Capacity Matching: Select the cooling capacity based on actual laser heat load with 20–30% safety margin.
- Temperature Accuracy Requirement: Wavelength-sensitive lasers require ≤±0.2°C precision.
- Tasa de flujo & Interface: Confirm required flow rate (l/min) and pipe size.
- Ambient Environment: Ensure sufficient ventilation for air-cooled models.
- Protection Functions: Choose models with low-water, overload, and high-temperature protection.
- Customization Needs: Voltage, dimensions, control protocol, and connectors can be customized.
Preguntas frecuentes (Preguntas más frecuentes)
Q1: What types of lasers are suitable for a Miniature Laser Chiller?
Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos.: Láser de fibra, láseres ultravioleta, láseres semiconductores, and some CO₂ lasers depending on cooling requirements.
Q2: What temperature stability can be achieved?
Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos.: High-end models achieve ±0.1°C, standard models ±0.2°C–±0.5°C.
Q3: Can it operate continuously 24 hours a day?
Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos.: Sí. Industrial-grade units are designed for 24/7 non-stop operation.
Q4: How do you maintain a Miniature Laser Chiller?
Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos.: Regularly check coolant quality, clean the condenser, replace filters, and perform annual inspections.
Q5: Is customization available?
Y han lanzado con éxito modelos de compresores en miniatura que se pueden utilizar en una variedad de campos.: Sí. Voltage, tamaño, interfaces, and control communication can be customized.
Conclusión
The Miniature Laser Chiller is an essential cooling solution for precision laser systems. Compared with traditional air cooling or large chillers, it offers superior temperature stability, estructura compacta, continuous operation, and lower long-term maintenance costs. It is particularly suitable for laser processing, medical laser equipment, and laboratory-grade laser instruments.
