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Water - Cooled Plate Accessory Flow Divider Fitting Shunt Liquid Cooling Plate
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: | dollars |
| وقت التسليم: | غير محدود |
| شروط الدفع: | / تي تي، بايبال، ويسترن يونيون، موني جرام |
| القدرة على العرض: | 50000000 قطعة شهريا |
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معلومات تفصيلية |
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| مادة: | CU1020 | مقاس: | 250 × 150 × 15 ملم |
|---|---|---|---|
| وزن: | 2.5 كجم | تكنولوجيا: | التصنيع باستخدام الحاسب الآلي |
| ميزة: | قدرة تبريد جيدة وعدم وجود تسرب افتراضي | المعالجة السطحية: | النفط تطهيرها وتنظيفها والتخميل |
| قوة التوصيل الحراري: | 1300W | ||
| إبراز: | water-cooled liquid cooling plate,flow divider fitting shunt,liquid cooling plate accessory,flow divider fitting shunt,liquid cooling plate accessory |
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منتوج وصف
Model: OMWH12-H-6-IR-A
Version: V1.0
Date: 2026-XX-XX
Application Scenarios: Electronic liquid cooling systems, high-power industrial power supplies, charging pile BMS, industrial control current sensing
1. Product Overview
This product is a customized Kelvin lead-type power shunt resistor. It adopts an integrated welding structure of high-conductivity copper alloy resistive element and electrolytic copper bracket.
It features low resistance, high current carrying capacity, and high-precision sampling, specially designed for industrial current sensing at hundreds of amperes, suitable for harsh high-temperature and high-vibration working conditions.
- Welding: Bracket and copper alloy resistive element welded on non‑sheared surfaces; no gaps, cold joints or false welds. Pickling before welding, passivation after welding.
- Appearance: Flat, smooth and uniform surface; no burrs, burns, slag, contamination or cracks.
- Encapsulation: Welded areas covered with transparent heat‑shrink tube, tight and wrinkle‑free. Leads firmly fixed, color coding clear.
6. Test & Acceptance Criteria
- Factory Test: 100% inspection of resistance (200μΩ±3%), appearance and lead continuity; Factory Test Report issued.
- Sampling Test: Per GB/T 2828.1-2012, sampling for withstand voltage, insulation and tensile strength, AQL=0.65.
- Acceptance Documents: Factory test report, material certificate, RoHS/REACH compliance (upon request).
7. Packaging & Transportation
- Packaging: Individually packed in anti‑static bags, 50/100 pcs per box. Outer box labeled with model, quantity, date and batch number.
- Transportation: Moisture‑proof and anti‑vibration packaging, avoid impact. Comply with RoHS and REACH for international logistics.
Core Functions
- Flow Distribution / Collection: Distribute coolant from the main line evenly to multiple cold plates; collect heated fluid from each branch and return it to the cooling source / CDU after heat exchange.
- Pressure & Resistance Management: Control pressure drop in each branch to prevent local overheating caused by uneven flow.
- Simplified Piping & Maintenance: Reduce the number of connectors; with quick connectors, single cold plates can be rapidly installed or removed for maintenance.
- Monitoring & Regulation (High‑end Models): Integrated flow meters, temperature / pressure sensors, and even valves for fine‑tuning flow in each branch.
Common Types & Structures
By Application
- Manifold (Supply Side): 1 inlet, N outlets.
- Collector (Return Side): N inlets, 1 outlet; usually used in pairs.
By Flow Division Method
- Y‑type / Tee Manifold: 1 inlet, 2 outlets; suitable for small systems with two cold plates.
- Bar / Row Manifold: 1 inlet, multiple outlets (e.g., 1‑to‑4, 1‑to‑6); commonly used in data centers / mining rigs.
- Annular Manifold: For closed‑loop liquid cooling circuits.
By Adjustability
- Fixed Type: No valves, low cost; flow determined by orifice / channel design.
- Adjustable Type: Each branch equipped with needle / ball valves; flow adjustable manually or electrically.
Material & Interface
- Materials: Mainly aluminum alloy / stainless steel / copper.
Aluminum alloy: lightweight, moderate cost.Stainless steel: high pressure resistance, good corrosion resistance.Copper: excellent thermal conductivity but high cost.Must be compatible with system coolant to prevent corrosion.
- Interfaces:
PC water cooling: commonly G1/4" thread.Industrial / data center: flanges, compression fittings, quick connectors (e.g., DME, ISO 8434).
- Sealing: Must use O‑rings / gaskets to prevent leakage; recommended materials: Nitrile Rubber (NBR) or Fluororubber (FKM).
Key Selection Parameters
- Number of Branches & Flow Demand: Ensure sufficient flow for each cold plate to meet cooling requirements and avoid excessive pressure drop.
- Working Pressure / Temperature: Industrial cold plates typically operate at 0.3–1 MPa, 30–50°C.
- Flow Resistance & Uniformity: Flow channel design determines flow deviation; high‑end systems require inter‑branch flow deviation < 5%.
- Interface Size & Compatibility: Match inner diameter of tubing and connector type.
- Installation Space: Length and height of bar manifolds must fit cabinet / equipment layout.
Application Scenarios
- Personal PC / Workstation: Y‑type manifold for CPU + GPU dual cold plates.
- Data Center AI Servers: Rack‑mount bar manifolds, 1‑to‑8/16 for multi‑GPU cold plates.
- Miner Clusters: Multi‑branch manifolds cooling multiple hash boards simultaneously.
- New Energy Vehicle Battery Packs: Centralized supply and return for liquid cooling plates.
Installation & Notes
- Separate supply and return lines to avoid thermal short‑circuit.
- Tighten connectors evenly; torque wrench recommended.
- Fully vent air during initial system filling.
- Regularly inspect seal aging to prevent leakage.
- Install manifold in an easily accessible and observable location.
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