Finding the house a littler colder this winter, call in and discuss our new fabric range with “Cell in Cell” structure.
Cell-in-cell honeycomb blinds are designed to be more heat efficient compared to standard honeycomb blinds due to their enhanced insulation properties. The cell-in-cell structure creates additional air pockets within the honeycomb cells, which further improves their insulating capabilities. Here’s how they contribute to increased heat efficiency:
- Multiple Air Layers: The cell-in-cell design means there are more layers of air trapped within the blinds. Air is a poor conductor of heat, so these layers create a barrier that reduces heat transfer between the interior and exterior of the room.
- Thermal Resistance: The additional air pockets increase the blinds’ R-value, which is a measure of thermal resistance. Higher R-values indicate better insulation and greater resistance to heat flow, helping to maintain a more stable indoor temperature.
- Energy Savings: By reducing heat loss during cold weather and heat gain during hot weather, cell-in-cell honeycomb blinds can contribute to energy savings by reducing the need for heating and cooling. This can lead to lower energy bills over time.
- Comfort: Improved insulation means a more comfortable indoor environment year-round, as the blinds help to regulate temperature fluctuations and create a more consistent temperature throughout the room.
- Environmental Impact: Using energy-efficient window treatments like cell-in-cell honeycomb blinds can also contribute to reducing overall energy consumption and environmental impact.
Overall, while specific heat efficiency gains can vary depending on factors like the material used and the overall window treatment setup, cell-in-cell honeycomb blinds are generally considered more heat efficient than standard honeycomb blinds due to their enhanced insulation properties provided by the additional air pockets within the cells.