Climate Chamber

• Delivery Standards for Lab Companion Products

  Aug 07, 2025

  Key Considerations for Equipment Handover to Ensure Proper On-Site Operation： 1. Equipment Installation and Commissioning Our company oversees the transportation and electrical connection of the equipment, ensuring proper operation at the customer's site. All installations strictly comply with the standard acceptance criteria for environmental test chambers. We conduct regular third-party inspections to guarantee continuous adherence to industry standards. Should the customer require an inspection report upon acceptance, we can arrange for an accredited third-party agency to perform on-site testing.   2. Customer Technical Training System 2.1 Basic Operation Training The training covers equipment startup/shutdown procedures, test program configuration, and routine maintenance protocols. Depending on the user's industry (e.g., third-party testing institutions, automotive manufacturers), the training program is customized to align with specific operational scenarios.   2.2 Advanced Maintenance Training This program focuses on developing users' troubleshooting and repair capabilities, including humidity system failure diagnosis in temperature-humidity test chambers. Training includes key component replacement procedures and precautions to establish an independent maintenance competency system.                                                                         3. Technical Support Service Protocol 3.1 Emergency Response Mechanism A standardized fault response process ensures technical support is initiated within 2 hours of receiving a service request. Common faults are resolved within 48 hours (with alternative solutions negotiated for remote regions).   3.2 Remote Technical Support Equipped with a professional remote diagnostic system, real-time video communication or dedicated software access enables rapid fault identification.   4. Spare Parts Supply and Maintenance Assurance 4.1 Spare Parts Management Plan To enhance after-sales support, we establish dedicated spare parts warehouses for high-volume buyers and repeat clients, enabling rapid response to service needs. Each customer is assigned a dedicated profile to optimize resource allocation. Priority supply channels are reserved for key partners (e.g., CRCC, CETC), ensuring expedited spare parts delivery to minimize equipment downtime.   4.2 Maintenance Service Policy Free repairs are provided for non-human-induced failures during the warranty period. Post-warranty maintenance services follow a transparent pricing system, with detailed repair plans and cost estimates provided in advance. Our company maintains a professional after-sales maintenance team and is committed to continuously improving the technical expertise of our service personnel. We anticipate being able to provide on-site support for international customers in the near future.

  hot Tags : Reliable Chamber Installation Customized Chamber Environmental Test Chamber Climate Chamber environmental test chambers temperature-humidity test chambers

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• IEC 68-2-18 Test R and Guidance: Water Testing

  Apr 19, 2025

  Foreword The purpose of this test method is to provide procedures for evaluating the ability of electrical and electronic products to withstand exposure to falling drops (precipitation), impacting water (water jets), or immersion during transportation, storage, and use. The tests verify the effectiveness of covers and seals in ensuring that components and equipment continue to function properly during or after exposure to standardized water exposure conditions.   Scope  This test method includes the following procedures. Refer to Table 1 for the characteristics of each test.   Test Method Ra: Precipitation  Method Ra 1: Artificial Rainfall         This test simulates exposure to natural rainfall for electrical products placed outdoors without protection. Method Ra 2: Drip Box         This test applies to electrical products that, while sheltered, may experience condensation or leakage leading to water dripping from above.   Test Method Rb: Water Jets Method Rb 1: Heavy Rain         Simulates exposure to heavy rain or torrential downpours for products placed outdoors in tropical regions without protection. Method Rb 2: Spray         Applicable to products exposed to water from automatic fire suppression systems or wheel splash.            Method Rb 2.1: Oscillating Tube            Method Rb 2.2: Handheld Spray Nozzle Method Rb 3: Water Jet         Simulates exposure to water discharge from sluice gates or wave splash.   Test Method Rc: Immersion Evaluates the effects of partial or complete immersion during transportation or use.  Method Rc 1: Water Tank Method Rc 2: Pressurized Water Chamber   Limitations Method Ra 1 is based on natural rainfall conditions and does not account for precipitation under strong winds. This test is not a corrosion test. It does not simulate the effects of pressure changes or thermal shock.   Test Procedures General Preparation Before testing, specimens shall undergo visual, electrical, and mechanical inspections as specified in the relevant standards. Features affecting test results (e.g., surface treatments, covers, seals) must be verified. Method-Specific Procedures Ra 1 (Artificial Rainfall): Specimens are mounted on a support frame at a defined tilt angle (refer to Figure 1). Test severity (tilt angle, duration, rainfall intensity, droplet size) is selected from Table 2.  Specimens may be rotated (max. 270°) during testing. Post-test inspections check for water ingress. Ra 2 (Drip Box): Drip height (0.2–2 m), tilt angle, and duration are set per Table 3. Uniform dripping (200–300 mm/h) with 3–5 mm droplet size is maintained (Figure 4). Rb 1 (Heavy Rain): High-intensity rainfall conditions are applied per Table 4. Rb 2.1 (Oscillating Tube): Nozzle angle, flow rate, oscillation (±180°), and duration are selected from Table 5. Specimens rotate slowly to ensure full surface wetting (Figure 5). Rb 2.2 (Handheld Spray): Spray distance: 0.4 ± 0.1 m; flow rate: 10 ± 0.5 dm³/min (Figure 6). Rb 3 (Water Jet): Nozzle diameters: 6.3 mm or 12.5 mm; jet distance: 2.5 ± 0.5 m (Tables 7–8, Figure 7). Rc 1 (Water Tank): Immersion depth and duration follow Table 9. Water may include dyes (e.g., fluorescein) to detect leaks.  Rc 2 (Pressurized Chamber): Pressure and time are set per Table 10. Post-test drying is required.   Test Conditions Water Quality: Filtered, deionized water (pH 6.5–7.2; resistivity ≥500 Ω·m). Temperature: Initial water temperature within 5°C below specimen temperature (max. 35°C for immersion).   Test Setup  Ra 1/Ra 2: Nozzle arrays simulate rainfall/dripping (Figures 2–4). Fixtures must allow drainage.  Rb 2.1: Oscillating tube radius ≤1000 mm (1600 mm for large specimens). Rb 3: Jet pressure: 30 kPa (6.3 mm nozzle) or 100 kPa (12.5 mm nozzle).   Definitions Precipitation (Falling Drops): Simulated rain (droplets >0.5 mm) or drizzle (0.2–0.5 mm). Rainfall Intensity (R): Precipitation volume per hour (mm/h). Terminal Velocity (Vt): 5.3 m/s for raindrops in still air. Calculations:           Mean droplet diameter: D v≈1.71 R0.25 mm.             Median diameter: D 50 = 1.21 R 0.19mm.             Rainfall intensity: R = (V × 6)/(A × t) mm/h (where V = sample volume in cm³, A = collector area in dm², t = time in minutes).   Note: All tests require post-exposure inspections for water penetration and functional verification. Equipment specifications (e.g., nozzle types, flow rates) are critical for reproducibility.  

  hot Tags : Environmental Test Chamber Artificial Rainfall Test Environmental Test Chamber Spray Test Environmental Test Chamber Immersion Test Environmental Test Chamber Climate Chamber Environmental Test Chamber IP Code Testing

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