4inch Slim Gimbal Led Downlight
Rhein Lighting has developed a line of 4 inch slim gimbal Led Downlight with a junction box. 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.
Kitchen Downlights,Smart Recessed Lighting,Lithonia Wf4,Philips Hue Recessed Lighting Rhein Lighting Technology Co.,Ltd. , https://www.rheinlighting.com
1. Enhancing the design of the conveyor belt drop hoppers is one of the most effective ways to prevent early damage to the conveyor belt. By improving the structure of each drop hopper, the capacity for passing foreign objects can be increased by up to 2.5 times. This reduces the likelihood of long or large foreign objects becoming lodged between the hopper wall and the conveyor belt during operation, thus minimizing the risk of tearing. Additionally, the guide skirts installed at the drop hoppers are designed to gradually increase the gap between the skirt and the belt as it moves, preventing coal or stone blocks from getting stuck between the belt and the skirt, which in turn eliminates potential damage to the conveyor belt. For hoppers with a large drop height, internal buffer baffles are added to prevent materials from directly impacting the belt, further reducing wear and tear.
2. Installing a scraping device on the return drum helps eliminate material buildup that can cause the belt to stick to the drum. This not only prevents partial damage caused by roller adhesion but also improves the overall performance and longevity of the conveyor belt.
3. Improvements in the transition areas of the conveyor head, tail, and intermediate transfer points play a crucial role in extending the belt's service life. The length and design of these transitions significantly affect how the belt operates. A well-designed transition minimizes rubber surface wear, ensures the belt remains flat without folding or bulging, and prevents material leakage at the discharge point. Proper transition design is essential for maintaining the integrity and efficiency of the conveyor system.
4. It has been found that the belt pulleys at the concave transitions of the conveyor are insufficient in terms of lateral strength, especially for steel cord conveyor belts. When starting, the pressure exerted by the belt pulley causes uneven stress on the belt, leading to tearing or deformation. To address this issue, all such pulleys have been replaced with pressure rollers, effectively eliminating the problem and ensuring safer and more reliable operation.
5. Reducing the weight of the arm frame on large conveyors has proven beneficial. In some cases, the initial service life of the conveyor belt was very short due to an over-designed, heavy arm frame, which led to excessive tension and premature cracking or aging of the belt. By optimizing the weight while still meeting the required tension for conveying materials, the belt’s lifespan has been significantly extended.
6. Adjusting the flow direction of the material is another key factor in improving the conveyor belt's longevity. Ensuring that the material flows in the same direction as the conveyor belt reduces friction and wear, ultimately increasing the belt's service life and operational efficiency.