Car

Experience high-end quality, enjoy driving pleasure, and effectively reduce the temperature inside the car

Panoramic Sky: The Hot 'Torture' Under Romanticism. The panoramic sunroof has become a selling point for many car models due to its wide view and romantic atmosphere, but it has also become a nightmare for many car owners in the summer. Some panoramic sunroofs on the market lack effective insulation and sun protection measures. Under direct sunlight in summer, the temperature inside the car rises sharply, and even if the air conditioning is turned on, it is difficult to quickly cool down. Passengers are like being in a 'steamer', with greatly reduced comfort and the possibility of health problems such as heatstroke caused by high temperatures. Despite multiple car companies promoting their sunroofs as UV resistant and heat-insulating, there are still many car owners who have reported that in hot summer weather, the temperature inside the car can reach over 50 ℃, making it difficult to sit comfortably.

Chuangleng Technology's new energy-saving and cooling solutions for automobiles, such as electric cooling car paint, car film, and electric cooling powder coating, help reduce energy consumption and temperature in automobiles to cope with the increasingly severe global high temperature problem, enhance the climate adaptability of automobiles, and demonstrate China's green science and technology innovation strength.

In response to the special needs of new energy vehicles, ChuangLeng's non electric cooling coating demonstrates precise scene adaptation capabilities: in vehicle applications, the coating can reduce the surface temperature of the vehicle after exposure to sunlight by 20-30 ℃, and the peak high temperature inside the vehicle can be delayed by 2 hours. When getting on the vehicle, there is no need to endure the "steam cage effect", and the air conditioning can quickly cool down by running at low load, reducing air conditioning energy consumption by 30% in actual tests, which directly translates into an increase in driving range; For battery packs and electronic control systems, the infrared barrier properties of coatings can reduce the surface temperature of key components by 15-20 ℃, slow down battery decay rate, improve thermal runaway safety threshold, especially in fast charging scenarios, effectively control cell temperature rise, and extend battery cycle life; For precision electronic components such as display screens and sensors in intelligent cockpits, the advantages of anti UV aging and weather resistance of coatings can reduce screen glare and component failures caused by high temperatures, ensuring driving safety. The actual test data of Citybus in Hong Kong shows that after applying the innovative cold coating, the average temperature inside the car is reduced by 4.6 ℃, and energy consumption is saved by 26%, providing an efficient cooling model for the electrification of public transportation.

For the new energy vehicle industry, the value of ChuangLeng's electric cooling coating is far more than just temperature control, but also lies in reconstructing the balance logic between "energy saving" and "experience". Driven by the dual goals of "dual carbon" and user experience upgrades, traditional automotive refrigeration systems face a dilemma between energy consumption and performance. However, innovative cooling technology achieves "three reductions and one increase" in high-temperature environments through a dual path of "passive heat dissipation+active energy saving": reducing air conditioning load, lowering battery thermal management pressure, reducing interior aging speed, and improving range reliability and driving comfort. This solution, which deeply integrates materials science and automotive engineering, not only meets the technological pursuit of "lightweight and low energy consumption" by car companies, but also precisely responds to the core demand of users for "no anxiety when driving in summer". When a new energy logistics vehicle enterprise applies coatings in cold chain transportation scenarios, not only does the freshness of goods increase by 20%, but the daily energy consumption of vehicles also decreases by 18%, truly achieving a win-win situation of economic and environmental benefits.