Plant growth lamps are widely used in greenhouses, vertical farms, indoor gardening and other scenarios in modern agricultural production. Its durability design such as waterproof and heat dissipation has a significant impact on service life and performance.

1. The impact of waterproof design on service life and performance

Waterproof level and application scenarios: The waterproof level of plant growth lamps is usually expressed by IP codes, such as IP64, IP65, IP66, etc. The IP66 waterproof level of KES-GL-002 enables it to better cope with humid environments, such as hydroponics and aeroponics.

The role of waterproof design: The waterproof design can effectively prevent water vapor from invading the interior of the lamp and avoid damage caused by short circuit or component corrosion. This is especially important for plant growth lamps used in high humidity environments. For example, the waterproof design of the T8 integrated single-row waterproof plant lamp enables it to work stably in humid places such as outdoors and flower markets.

The impact of waterproof design on life: A good waterproof design can extend the service life of the lamp.

2. The impact of heat dissipation design on service life and performance

Heat dissipation methods and characteristics:Active heat dissipation: heat dissipation is driven by air flow driven by external forces such as fans. The heat dissipation efficiency is high, but there are disadvantages such as high noise, high energy consumption, and limited life.

Liquid cooling: heat is removed by circulating liquid, which is common in high-power LED lamps, but the cost is high and maintenance is complicated.

Passive heat dissipation: heat is dissipated by natural convection and thermal radiation without additional power. For example, Orison's passive heat dissipation design uses high-quality aluminum and high thermal conductivity materials, combined with a precisely designed heat sink structure, so that the surface temperature of the lamp is usually maintained at around 40°C, thereby extending the life of the lamp.

The role of heat dissipation design: For every 10°C increase in the temperature of the LED chip, its life will be reduced by 50%. Effective heat dissipation design can reduce the temperature of the LED chip, thereby extending the service life of the lamp and maintaining stable light output. At the same time, good heat dissipation can also avoid light decay and spectral shift caused by overheating, ensuring that the quality and intensity of light received by the plant meet the growth needs.

3. Durability design improves overall use value

Comprehensive durability design: In addition to waterproof and heat dissipation design, the durability of plant growth lamps is also reflected in other aspects, such as the use of high-quality materials, reasonable structural design, anti-corrosion, anti-aging and other properties.

Improve use value: Good durability design not only extends the service life of plant growth lamps, reduces replacement frequency and maintenance costs, but also ensures the stable operation of lamps in various environments. This provides growers with a reliable lighting solution, helps to improve plant growth efficiency and yield, and achieve long-term economic benefits.

In summary, the durability design of plant growth lamps such as waterproofing and heat dissipation has an important impact on their service life and performance. When choosing a plant growth lamp, the waterproof level, heat dissipation method and other durability design factors should be comprehensively considered according to the specific use environment and needs to ensure that the lamps can operate stably and efficiently and provide good lighting conditions for plant growth.