• Radiator-Integrated Liquid Cooling Plate Integrated Heat Dissipation Fins
Radiator-Integrated Liquid Cooling Plate Integrated Heat Dissipation Fins

Radiator-Integrated Liquid Cooling Plate Integrated Heat Dissipation Fins

تفاصيل المنتج:

مكان المنشأ: دونغقوان، قوانغدونغ، الصين
اسم العلامة التجارية: Uchi
إصدار الشهادات: SMC
رقم الموديل: تقليل الحرارة

شروط الدفع والشحن:

الحد الأدنى لكمية: 100 قطعة
الأسعار: 1300-1500 dollars
وقت التسليم: غير محدود
شروط الدفع: / تي تي، بايبال، ويسترن يونيون، موني جرام
القدرة على العرض: 50000000 قطعة شهريا
افضل سعر اتصل

معلومات تفصيلية
مادة غرفة التبريد: الألومنيوم الانتهاء من السطح: الانتهاء من مطحنة أو أنودة
مادة: النحاس / الألومنيوم حياة المعجبين: 100000 ساعة
عملية عميقة: التصنيع باستخدام الحاسب الآلي إجراء السلطة: 2000 واط
تسامح: ±1% عملية اضافية: التصنيع باستخدام الحاسب الآلي
دقة: ±0.002 ~ ±0.005 ملم الضغط الأقصى: 5 بار
نطاق درجة حرارة التشغيل: -40 درجة مئوية إلى 120 درجة مئوية نسيج المادة: 6061
إبراز:

Radiator-integrated liquid cooling plate,Liquid cooling plate with heat dissipation fins,High-performance liquid cooling radiator plate

,

Liquid cooling plate with heat dissipation fins

,

High-performance liquid cooling radiator plate

منتوج وصف

Radiator-Integrated Liquid Cooling Plate

 
In simple terms: Radiator-Integrated Liquid Cooling Plate = Liquid cooling plate + integrated heat dissipation fins
 
It attaches to heat-generating devices on one side and features dense fins on the other. Heat is transferred to the fin area via coolant circulation, forming a compact, all-in-one liquid cooling solution.
 

I. Structural Features

 

Bonding Surface (Cold Plate Side)

 
Flat surface that directly attaches to IGBTs, power modules, batteries, motors and other heat-generating components.
 

Fin Heat Dissipation Side (Radiator Side)

 
Internal flow channels extend into the dense fin region, forming a structure similar to a radiator.
 
As coolant flows through, heat is carried to the fins and dissipated via air cooling or natural convection.
 

Fully Integrated Structure

 
Mostly manufactured as one piece through skiving, die-casting or brazing,
 
eliminating the complex assembly of separate radiators and water tubes.
 

II. Working Principle

 
  1. Heat from components → conducts to the liquid cooling plate base
  2. Coolant flows through internal channels and absorbs heat
  3. Heated coolant flows into the finned radiator section
  4. Fins release heat into the environment via fans or natural airflow
  5. Cooled coolant circulates back to repeat the process
 
It is a hybrid solution combining liquid cooling heat transfer and air cooling final dissipation.
 

III. Core Advantages

 
  • Compact structure & high integration
     
    All-in-one design saves space, reduces connectors and leakage points.
     
  • Simple installation
     
    Directly mounted to components; only an external pump and reservoir are needed, no extra radiator required.
     
  • Uniform heat dissipation
     
    Excellent temperature uniformity on the base plate, avoiding local hotspots.
     
  • High reliability
     
    Brazed or skived structure provides strong vibration resistance, ideal for automotive and industrial control applications.
     
 

IV. Common Manufacturing Processes

 
  • Skived Radiator-Integrated Liquid Cooling Plate
     
    Fins and flow channels machined from a single aluminum block, offering high strength and continuous thermal conductivity.
     
  • Vacuum Brazed Type
     
    Base plate and fins joined by brazing, with denser fins and larger heat dissipation area.
     
  • Integral Die-Casting Type
     
    Suitable for mass production and low cost, widely used in passenger vehicle thermal management.
     
 

V. Typical Applications

 
  • New energy vehicles: integrated cooling for motors, ECU, OBC, DC-DC converters
  • Energy storage converters (PCS), photovoltaic inverters
  • Industrial servo drives, high-power power supplies
  • Laser equipment, welding machines, high-frequency power supplies
  • Construction machinery, commercial vehicle controller cooling
 

VI. Difference from Standard Liquid Cooling Plates

 
  • Standard liquid cooling plate: only absorbs and transfers heat; does not dissipate heat directly to the environment.
  • Radiator-integrated liquid cooling plate: absorbs heat, circulates internally, and dissipates heat via its own fins, forming a complete compact cooling system.

بطاقة:

لوح تبريد سائل 2000 واط

لوح تبريد بالماء 700 واط

لوح تبريد بالماء 2000 واط

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