About Us
Rich Technology And Stable Quality Advantages.

Zhejiang Nicety Electric Machinery Co., LTD. (NEM), founded in 1993, currently NEM members are Hangzhou Sunlife Electric high-tech enterprise R & D center, Zhejiang Jiaxing Nicety production base and Longquan Nicety High-tech Enterprise company headquarters.

China automotive axial fans manufacturers, professional wholesale OEM axial fans factory and American, European brand automotive axial fans

. For 30 years, NEM has been committed to the development and production of "lower noise, lower energy consumption, higher efficiency, higher quality" motor, axial flow fan, and centrifugal fan series products. NEM products are widely used in automotive, construction machinery, railways, ships, energy storage, and other mobile products. I sincerely hope you can join us.
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Zhejiang Nicety Electric Machinery Co., Ltd.
Zhejiang Nicety Electric Machinery Co., Ltd.
31YEAR

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Zhejiang Nicety Electric Machinery Co., Ltd. Zhejiang Nicety Electric Machinery Co., Ltd.
Our Advantages
Why Choose Us
  • Zhejiang Nicety Electric Machinery Co., Ltd.
    Quality Management

    The company has established a complete, effective quality management system, implemented the ISO/TS16949 international quality light system standard.

  • Zhejiang Nicety Electric Machinery Co., Ltd.
    Export Experience

    Products are mainly exported to North America, Europe, Middle East, Southeast Asia, South America and other countries and regions.

Our Products
Product Category
  • Unlike traditional fans that rely on brushes and commutators to operate, brushless fans use electronic circuits to control their rotation. This eliminates the need for physical brushes, resulting in a more efficient and reliable cooling solution. By utilizing magnets and sensors, brushless fans can dynamically adjust speed and airflow to optimize performance while minimizing energy consumption. Brushless fans are commonly used in a variety of applications that require cooling or air circulation, such as computers, electronics, and industrial equipment. Their energy efficiency, longevity, quiet operation, precise control, and compact design make them  to traditional fans in a variety of applications. Whether in computers, industrial environments or automotive cooling systems, brushless fans deliver unparalleled performance and reliability. Employing this innovative cooling solution increases efficiency, reduces energy consumption and creates a more comfortable environment.

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  • An evaporative fan, also known as an evaporative air conditioner or wet cooler, is a device used to reduce ambient temperature. They cool the surrounding air by evaporating moisture, providing an energy-efficient and environmentally friendly air conditioning solution, especially suitable for dry and hot climate conditions. Evaporative fans use the evaporation principle of water to cool the air. During the evaporation process, a fan blows hot air through a water medium (usually wet filter paper or fluffy humidified fiber), so that the heat in the air is used to evaporate water, thereby cooling the air. This process lowers the temperature of the air while increasing its humidity. Evaporative fans typically consume less electrical energy than traditional refrigeration systems because they do not require compressed refrigerant. Additionally, evaporative fans do not emit harmful chemicals, making them environmentally friendly.

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  • A blower is a fan that uses a special voltage supply to drive the blower's rotor to create airflow. It usually consists of an electromagnet stator and a permanent magnet rotor. The coils on the stator generate a magnetic field through electric current, while the permanent magnets on the rotor are acted upon by a fixed magnetic field. When current passes through the stator coil, the force generated by the magnetic field rotates the rotor, thereby driving the equipment to operate. The blower motor is precisely designed and machined to ensure its efficiency and reliability. It usually has low noise, high efficiency, long life and stable performance. Blower motors are widely used in various fields, such as electronic equipment cooling, automobile ventilation, industrial production, etc.

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  • A brushed motor is a common type of DC motor with a relatively simple structure that uses brushes and brushes to transmit current to a rotating part to produce mechanical motion. A brushed motor consists of a rotating part called the rotor and a stationary part called the stator. The rotor usually includes permanent magnets, while the stator includes coils. Brushes and brushes are attached to the stator and they are in contact with the electronic slip rings of the rotating part so that current can enter the rotating part. The brushes are a conductive material, usually made of carbon or carbide, that are tightly attached to the stator along with the brushes (also called brush holders). The brushes pass current to the rotating part by contacting the collector ring (usually on the rotating part), thereby creating a magnetic field interaction and inducing rotational motion.

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  • Brushed electronic fan, in which the motor adopts brushed DC motor technology. The motor of this kind of fan includes brushes and brushes that are in contact with the rotating part of the motor, called the rotor, to transfer current to the rotating part, which creates rotation. Brushed motors can easily change direction because the polarity of the current can be reversed, allowing the fan to rotate forward or reverse. The speed of the brushed motor can be precisely controlled by adjusting the current intensity, which allows the speed of the fan to be adjusted within a certain range.

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News Center
Latest News
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  • 05

    2024.09

    DC Blower, as a key cooling and ventilation equipment, is undergoing a profound change in energy efficiency and environmental protection. With the rapid development of material science, motor technology, intelligent control and thermal management technology, DC Blower has made remarkable progress in improving energy efficiency, reducing energy consumption and promoting environmental protection. Energy efficiency improvement: the driving force of technological innovationApplication of high-efficiency motor technologyThe heart of the DC Blower lies in its highly efficient DC motor. In recent years, with the application of new materials such as rare earth permanent magnet materials and amorphous alloys, as well as the continuous optimization of motor control algorithms, the energy efficiency of DC motors has been significantly improved. These high-efficiency motors not only maintain high torque output at low speeds, but also achieve high-efficiency operation over a wide speed range, thereby effectively reducing energy consumption. In addition, the introduction of intelligent speed regulation system allows DC Blower to automatically adjust the speed according to actual load conditions, avoiding energy waste and further improving energy efficiency. Innovation in thermal management technologyIn the design of DC Blower, thermal management is a crucial link. With the introduction of advanced thermal management technologies such as heat pipe technology and liquid cooling systems, DC Blower's heat dissipation efficiency has been greatly improved. These technologies can not only effectively reduce the operating temperature of motors and electronic components, extend the service life of equipment, but also maintain stable performance output in high-temperature environments and reduce the increase in energy consumption caused by overheating. Contribution to environmental protection: practitioner of green developmentLow noise design and environmentally friendly materialsThe increasing awareness of environmental protection has prompted DC Blower to pay more attention to noise control and material selection in design. By optimizing the shape of the fan blades, using low-noise bearings and improving the air duct design, the noise generated by DC Blower during operation is greatly reduced, providing users with a more comfortable environment. At the same time, in the manufacturing process, DC Blower increasingly uses environmentally friendly materials such as recyclable materials and low VOC (volatile organic compounds) materials, reducing its impact on the environment. Oil-free design and pollution reductionTraditional fans often cause oil mist pollution due to the use of lubricating oil, but modern DC Blower generally adopts an oil-free design. This design not only avoids environmental pollution by oil mist, but also simplifies the maintenance process and reduces maintenance costs. In addition, some advanced DC Blower are equipped with air purification systems, which can further reduce harmful substances in emissions and contribute to environmental protection. Looking to the future: continuous innovation and green developmentAs the world's emphasis on energy efficiency and environmental protection continues to increase, the DC Blower industry is ushering in new development opportunities. In the future, DC Blower will continue to innovate and make breakthroughs in the following aspects: Integration of intelligence and the Internet of Things: By introducing Internet of Things technology, DC Blower’s remote monitoring, intelligent dispatching and fault warning functions are realized to further improve energy efficiency and reliability.Application of new materials and new processes: Continuously explore and apply new materials and new processes to improve the performance and environmental protection of DC Blower.Formulation and promotion of green standards: Actively participate in the formulation and promotion of international and domestic green standards to promote the development of the entire industry in a greener and more sustainable direction. As a model of energy efficiency and environmental protection, DC Blower is playing an important role in various fields with its excellent performance and environmental protection characteristics. With the continuous advancement of technology and the deepening of environmental protection concepts, we have reason to believe that DC Blower will continue to lead the trend in future development and contribute to the realization of sustainable development goals.

  • 29

    2024.08

    In the automotive industry, Automotive DC Centrifugal Fans are key thermal management components that are essential to ensure the normal operation of the vehicle's internal electronic components and the comfort of the cockpit. These fans have become an indispensable part of modern automotive design with their efficient heat dissipation capabilities and low power consumption. Power Consumption and Efficiency: Key ConsiderationsPower consumption and efficiency are two key indicators to measure the performance of Automotive DC Centrifugal Fans. Power consumption refers to the electrical energy consumed by the fan during operation, while efficiency reflects the fan's ability to convert electrical energy into effective airflow. When selecting and replacing fans, it is important to find a balance between low power consumption and high efficiency. Low Power Consumption: As cars pursue fuel economy and battery life, reducing the power consumption of various vehicle components has become an important goal. As a continuously working component, the power consumption of Automotive DC Centrifugal Fans directly affects the overall energy consumption of the vehicle. Therefore, when selecting fans, low-power products with advanced motor technology and optimized design should be given priority. High efficiency: High efficiency means that the fan can generate more airflow or higher static pressure with less electrical energy, thereby dissipating heat more effectively. This is of great significance for improving the performance of the vehicle's thermal management system, extending the service life of electronic components, and improving the comfort of the cockpit. In order to achieve high efficiency, the fan's blade design, motor control algorithm, and air duct optimization all need to be finely adjusted and optimized. How to choose and replace a suitable automotive DC centrifugal fan 1. Clarify the needs:It is necessary to clarify the specific needs of the vehicle for the fan, including airflow, static pressure, size, weight, and working environment. These needs will directly affect the selection and use of the fan. 2. Compare products:There are many brands and models of automotive DC centrifugal fans available on the market. When comparing products, focus on factors such as power consumption, efficiency, noise level, reliability, and price. By comparing the performance parameters and user reviews of different products, you can preliminarily screen out fan models that meet your needs. 3. Consider compatibility:When choosing a fan, you also need to consider its compatibility with the vehicle's existing systems. This includes electrical interfaces, installation locations, air duct layout, and other aspects. Ensure that the selected fan can be smoothly connected to the vehicle system and work properly. 4. Installation and debugging:When replacing the fan, follow the guidelines and recommendations of the car manufacturer. First, disconnect the power supply and remove the old fan; then, install the new fan and connect the electrical interface; finally, perform necessary debugging and testing to ensure that the fan works properly and meets the requirements. 5. Maintenance and care:Automotive DC Centrifugal Fans may be affected by dust, dirt and other pollutants during use, which may reduce performance. Therefore, regular cleaning and maintenance of the fan is the key to maintaining its efficient operation. At the same time, you should also pay attention to checking the wear of the fan and replacing damaged parts in time. As an important part of the automotive thermal management system, the performance of Automotive DC Centrifugal Fans directly affects the overall performance and driving experience of the vehicle. When selecting and replacing the fan, the relationship between power consumption and efficiency should be comprehensively considered, and the selection should be based on the specific needs of the vehicle. Through reasonable selection and correct operation and maintenance, it can be ensured that the automotive DC centrifugal fan always maintains efficient operation and provides reliable thermal management support for the vehicle.

  • 25

    2024.08

    Choosing the right Automotive DC Centrifugal Fan to meet the cooling needs of different models is a process that involves comprehensive consideration of multiple technical factors and actual application scenarios. 1. Clarify cooling needsThe specific cooling needs of the vehicle need to be clarified. This includes understanding the layout of the vehicle's power system, the location of the heat source, the expected heat generation, and the required cooling efficiency. For example, the battery pack, motor, and controller of an electric vehicle are all important heat sources, while the engine and transmission of a traditional fuel vehicle also require effective cooling. 2. Evaluate air volume and static pressure requirementsAir volume (CFM/m³/h) and static pressure (Pa/inH2O) are the two most important parameters when selecting an Automotive DC Centrifugal Fan. Air volume determines the total amount of heat that the Automotive DC Centrifugal Fan can remove, while static pressure reflects the fan's ability to overcome system resistance (such as radiator, air duct, etc.). It is critical to select a fan with appropriate air volume and static pressure based on the design requirements of the vehicle's cooling system. 3. Consider efficiency and energy consumptionThe efficiency of the Automotive DC Centrifugal Fan directly affects its energy consumption level. An efficient fan can provide sufficient heat dissipation capacity at a lower power, thereby reducing the energy consumption and operating costs of the vehicle. Therefore, when choosing an Automotive DC Centrifugal Fan, priority should be given to products with a high energy efficiency ratio. 4. Noise controlNoise is an important factor affecting driving comfort. When choosing an Automotive DC Centrifugal Fan, the noise level during operation must be considered. Low-noise fans not only enhance the driving experience, but also meet the pursuit of quiet performance in modern cars. By choosing fans with advanced noise reduction technologies (such as blade optimization design, motor noise reduction treatment, etc.), noise can be effectively reduced. 5. Durability and reliabilityThe Automotive DC Centrifugal Fan needs to operate under complex and changeable working conditions for a long time, so its durability and reliability are crucial. Selecting fan products with high-quality materials, precision manufacturing processes and strict quality control processes can ensure its stable operation and long service life in harsh environments. 6. Compatibility and ease of installationThe cooling system structure and spatial layout of different models vary, so the adaptability and ease of installation of the Automotive DC Centrifugal Fan are also factors that need to be considered when choosing. Ensuring that the size, interface and installation method of the fan meet the design requirements of the vehicle's cooling system can simplify the installation process and reduce subsequent maintenance costs. 7. Comprehensive consideration of cost-effectivenessFinally, when choosing an Automotive DC Centrifugal Fan, you also need to consider cost-effectiveness. This includes the purchase cost, operating cost (such as energy consumption), maintenance cost and possible added value (such as improving vehicle performance and enhancing brand image). By comparing and analyzing fan products of different brands and models, choose the most cost-effective solution. Selecting the right Automotive DC Centrifugal Fan to meet the cooling needs of different models requires comprehensive consideration of cooling needs, air volume and static pressure, efficiency and energy consumption, noise control, durability and reliability, adaptability and ease of installation, and cost-effectiveness. Only by comprehensively evaluating and weighing these factors can you make the choice that best meets the actual needs of the vehicle.

  • 15

    2024.08

    In the modern industrial field, centrifugal fans are important fluid conveying equipment, and their energy efficiency levels directly affect the production efficiency and operating costs of enterprises. Therefore, how to improve the energy efficiency of centrifugal fans through aerodynamic design optimization has become a topic of widespread concern inside and outside the industry. 1. Innovation in impeller designThe impeller is the core component of the centrifugal fan, and its design directly affects the performance of the fan. Traditional impeller designs often focus on meeting basic functional requirements while ignoring optimization of energy efficiency. Modern impeller design pays more attention to the improvement of aerodynamic performance. By using advanced calculation methods and design software, the impeller's hub ratio, number of blades, blade inclination angle and other parameters are finely adjusted. These adjustments are designed to reduce flow separation and vortex losses on the blade surface and improve the efficiency of gas flow, thereby achieving significant improvements in energy efficiency. 2. Refined design of blade shapeBlade shape is one of the key factors that determine the performance of centrifugal fans. Traditional blade shape design is often based on empirical formulas or analog designs, which makes it difficult to achieve the best aerodynamic effect. Modern blade design relies on advanced CAD/CAM technology and CFD simulation technology to conduct refined design of blade profile, thickness, twist and other parameters. By optimizing the blade shape, the flow resistance of the fluid on the blade surface can be reduced, and the stability and uniformity of the air flow can be improved, thereby reducing energy consumption and improving energy efficiency. 3. Strategies for improving flow channelsThe flow channel is the main channel for gas flow inside the centrifugal fan. Whether its design is reasonable or not directly affects the energy efficiency of the fan. Traditional flow channel designs often have problems such as poor airflow and high resistance, resulting in low fan energy efficiency. In order to improve this problem, modern flow channel design adopts a variety of optimization strategies, such as increasing the air inlet area, optimizing the air inlet shape, reducing bends and diameter changes, etc. These measures are designed to reduce the resistance and loss of air flow in the flow channel, increase the flow speed and efficiency of air flow, and thereby improve the overall energy efficiency of the fan. 4. Application of CFD technologyCFD technology is an important tool in the aerodynamic design of modern centrifugal fans. Through CFD simulation, the air flow inside the fan can be visually observed, the flow characteristics of the fluid on the blade surface and flow channel can be analyzed, and potential flow bottlenecks and loss sources can be identified. Based on CFD simulation results, designers can carry out targeted optimization of components such as impellers, blades and flow channels to improve the aerodynamic performance of the fan. In addition, CFD technology can also be used to predict the performance parameters of wind turbines, such as air volume, wind pressure and efficiency, etc., providing strong support for the design and selection of wind turbines. The optimization of aerodynamic design to improve the energy efficiency of centrifugal fans is a complex process involving many aspects. Through innovations in impeller design, refined blade shape design, flow channel improvement strategies, and the application of CFD technology, the aerodynamic performance of centrifugal fans can be significantly improved, energy consumption reduced, and energy efficiency improved. In the future, with the continuous advancement of science and technology and the continuous innovation of design concepts, the aerodynamic design optimization of centrifugal fans will develop in a more refined and intelligent direction. We have reason to believe that in the near future, centrifugal fans will become more efficient, energy-saving, and environmentally friendly fluid conveying equipment, making greater contributions to industrial production and the sustainable development of human society.