Led Gimbal Recessed Downlight Dimmable
Rhein Lighting has developed a line of led gimbal recessed downlight dimmable. This led gimbal recessed light is IC rated, which is permitted to be in contact with insulations in ceilings.
The 4-inch led gimbal down light use the new generation of LED chips with higher lumen ouput and lower power. 750LM consumes 9 Watts, which equals to 75W incandescent lamp, saving you up to 88% in energy costs.
The ultra-thin gimbal smart downlight is only 0.47 inches and requires as small as 2 inches ceiling spaces, fits various ceilings, and around joists. 5%-100% smooth dimming meets kinds of needs in applications such as kitchen, living room, bedroom, bathroom and common areas in your home or office.
Rhein Lighting is a professional manuafacturer of slim Led Downlight , LED panel down light, Led Panel Light, Led Strip Light and Led Grow Light etc.
Led Dimmable Downlights,Dimmable Ceiling Spotlights,Led Downlights Flickering No Dimmer,Utilitech Led Recessed Retrofit Downlight Rhein Lighting Technology Co.,Ltd. , https://www.rheinlighting.com
1. Enhancing the design of the conveyor belt drop hopper is one of the most effective strategies to prevent early damage to the conveyor belt. By improving the structure of each drop hopper, the capacity for passing foreign objects is increased by 2.5 times. This helps reduce the likelihood of long or large foreign objects getting caught between the funnel walls and the conveyor belt during operation, thereby minimizing the risk of tearing. Additionally, the guide skirt at the hopper is designed to gradually increase the gap along the direction of the belt movement, which prevents coal or stone blocks from becoming trapped between the belt and the skirt. This eliminates a common cause of conveyor belt damage. For hoppers with a large drop height, internal buffer baffles are installed to prevent direct impact of materials on the belt, further protecting it from wear and tear.
2. Installing a scraping device at the return drum is essential to address material buildup that can occur in this area. The presence of sticky material can lead to roller sticking, which may cause localized damage to the conveyor belt. By adding a scraper, the accumulation of material is effectively removed, reducing the risk of belt damage and ensuring smooth operation.
3. Improvements in the transition areas of the conveyor belt—such as at the head, tail, and intermediate transfer points—are crucial for extending the belt’s service life. The length and type of transition significantly affect how the belt bends and moves. A well-designed transition minimizes rubber surface wear, prevents the belt from folding or bulging, and ensures no material leaks from the discharge point. Proper transitions help maintain the integrity of the belt over time.
4. It has been found that the pulley at the concave section of the conveyor belt was insufficient in terms of lateral strength. The steel cord conveyor belt lacked adequate resistance to lateral forces, and when starting, the pressure from the pulley caused uneven stress, leading to tearing or deformation of the belt. To solve this issue, all such pulleys were replaced with pressure rollers, which completely eliminate the problem and improve the belt’s durability.
5. Reducing the weight of the arm frame on the conveyor belt system is essential for extending its service life. In some cases, the initial design of the stacker arm frame was too heavy, causing excessive tension on the belt and leading to premature cracking and aging. By optimizing the weight while still meeting the necessary tension requirements, the belt’s longevity is significantly improved.
6. Adjusting the flow direction of the material is another critical factor in prolonging the life of the conveyor belt. When the material flows in the same direction as the belt movement, it reduces unnecessary friction and wear. This simple adjustment can greatly enhance the efficiency and lifespan of the belt conveyor system.