Draught-Proof Enclosure for Reliable Lamp Testing

In the research, development, and quality inspection of lamp products, accurately simulating the real usage environment is crucial to ensure the reliable performance of lamps. The draught-proof enclosure, a professional device meticulously crafted according to international standard, is becoming an indispensable and reliable tool for many luminaire manufacturers and testing institutions.

1. Ingenious Structural Design

The draught-proof enclosure designs strictly follows the requirements of Appendix D of IEC60598-1 (GB7000.1). Every detail reflects the persistent pursuit of accurate testing. It has a rectangular structure, with a double-layer shell design on the top and at least three sides, and a solid base. The double-layer shell uses perforated metal material, with a cleverly maintained gap of about 150mm between the two layers. The regularly distributed aperture is between 1mm and 2mm, and the area of these small holes accounts for about 40% of the total area of each layer of the shell, forming a unique ventilation structure. It can effectively avoid air convection, and precisely control the interference of ambient air flow on the test. The inner surface is specially coated with a matte paint to reduce light reflection, creating a more stable and accurate environmental condition for lamp testing.

In terms of overall dimensions, it has three basic internal dimensions, each at least 900mm, large enough to accommodate various common lamps for testing. At the same time, to ensure the accuracy of the test, there is at least a 200mm gap between the inner surface of the draught-free enclosure and any part of the largest lamp, avoiding the influence on test results due to limited space. There is also a thoughtfully set gap of at least 300mm above the top of the draught-proof enclosure and around the punched sides, fully protecting the test environment from external interference.

2. Diverse Application Scenarios

2.1 Luminaire Research, Development, and Quality Inspection

During the lamp research and development stage, engineers need to accurately understand the performance of lamps under different environmental conditions. The draught-enclosure enclosure can simulate the air flow environment in nearly real usage scenarios, effectively avoiding the influence of air convection, air temperature changes, and the thermal radiation from the light source itself on the lamps. Whether it's ordinary household lighting lamps or industrial lamps and outdoor landscape lamps used in special places, they can all undergo strict temperature rise tests inside this draught-enclosure enclosure. Through testing in the draught-proof enclosure, researchers can accurately obtain the temperature rise data of lamps under normal and abnormal working conditions, thus optimizing the heat dissipation design of lamps and improving their stability and service life.

For the quality control departments of lamp manufacturing enterprises and professional third-party testing institutions, the draught-proof enclosure is a key device to ensure that lighting products meet international standards. When conducting temperature rise tests on lighting products, the standard environment provided by the draught-proof enclosure can ensure the accuracy and consistency of test results, providing a reliable basis for product quality. Only luminaire that have been strictly tested by the draught-proof enclosure can win the trust of consumers in the market and smoothly enter major domestic and international markets.

2.2 Academic Research and Industry Standard Formulation

In academic research in the lighting field, the draught-proof enclosure provides researchers with a standardized and controllable experimental environment. Researchers can use the draught-free enclosure to study key performance indicators such as the heat dissipation characteristics and energy conversion efficiency of different types of lamps, providing theoretical support for the innovative development of lighting technology. At the same time, in the process of formulating industry standards, the wide application of the draught-proof enclosure also makes the test data widely representative and comparable, helping to promote the standardized development of the entire lighting industry.

3.Remarkable Advantages Brought by Excellent Performance

3.1 Accurate Testing with Reliable Data

With its unique structural design, the draught-proof enclosure effectively eliminates the interference of external environmental factors on lamp testing, ensuring that the data obtained during the test truly reflects the performance of the lamps. The stable test environment makes each test result highly repeatable and reliable, providing a solid data foundation for lamp research and development, quality inspection, and academic research. Whether it's a slight temperature change or the performance of lamps under special working conditions, it can be accurately captured through the test inside the draught-proof enclosure.

3.2 Convenient Operation with Humanized Design

In actual use, the draught-proof enclosure fully considers the convenience of user operation. Its overall design is humanized, and the disassembly and installation processes are very simple, greatly saving the time and energy of testers. The heavy steel structure framework at the top is not only stable and durable, but also can bear a certain weight of samples, meeting different testing needs. Considering the connection between the testing instruments (like black test corner, temperature recorder), samples, and power cords, the draught-proof enclosure has inlet holes on multiple sides, making it convenient for power strips to pass through, making the wiring of the entire test site neater and more orderly. Avoiding potential safety hazards and operational inconveniences caused by messy wiring.

3.3 Excellent Quality and Long-lasting Durability

The draught-proof enclosure made by   PEGO is strictly controlled in terms of material selection and manufacturing process. The shell adopts a double-layer design of cold-rolled metal punched and then sprayed with matte black paint, about 1MM thick, which not only ensures good ventilation performance but also has excellent rust and corrosion resistance. The advanced spraying process makes the draught-proof enclosure look beautiful and durable. The mesh panel is punched from high-quality steel plates by a high CNC punching machine, accurately ensuring the aperture and spacing of the mesh holes. After welding, it is fully assembled, then disassembled for spraying and painting, ensuring the stability and reliability of the overall structure of the draught-proof enclosure. Each layer has a single-door design, and the staggered door gaps effectively prevent the influence of air leakage through the gaps on the ventilation rate.

If you are troubled by the accuracy and stability of the lamp testing environment, and if you are eager to obtain reliable test data to promote the upgrading and innovation of lamp products, then the IEC60598-1 draught-proof enclosure is undoubtedly your best choice. It will escort your lamp testing work with its excellent performance, convenient operation, and reliable quality. Contact PEGO now to learn more about the draught-proof enclosure and start your accurate lamp testing journey.