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优异的长期稳定性,灵活多样,易定制,提供全方位技术支持和解决方案。
The camera three-rotation rod is an accessory used for photography or video cameras to achieve three-dimensional rotation of the camera.
The camera three-rotation rod is an accessory used for photography or video cameras to achieve three-dimensional rotation of the camera. It is usually composed of three rotating rods, namely, pitch rotating rod, roll rotating rod and azimuth rotating rod. The pitch rotation bar is one of the most basic rotation bars in the camera's three rotation bars. It allows the camera to rotate in the vertical direction, thereby changing the shooting angle of the camera. By adjusting the pitch rotation bar, the photographer can tilt the camera up or down to capture photos at different angles and perspectives. This is useful for shooting scenes such as landscapes, buildings or people.
09
2023/08
Smart bracelet as a new smart wearable device
As a new smart wearable device, smart bracelet has attracted more and more attention and love in the market in recent years. It not only has the functions of traditional bracelets, such as step counting, heart rate measurement, etc., but also integrates more intelligent features, such as notification reminders, sleep monitoring, etc., so that people can manage their health and life more conveniently.
SMC outer stator core is a new type of motor stator core material
SMC outer stator core is a new type of motor stator core material, which is composed of epoxy resin and glass fiber. It has excellent insulation performance and high strength, which can effectively reduce the volume and weight of the motor. The SMC outer stator core has good heat resistance and corrosion resistance, and can maintain stable performance in harsh working environments. In addition, its manufacturing cost is relatively low and its production efficiency is high. The SMC outer stator core also has excellent magnetic permeability and low magnetic loss, which can improve the efficiency and power density of the motor. Therefore, the SMC outer stator core is widely used in various motors and transformers, especially for occasions with high requirements on volume and weight, such as electric vehicles, wind turbines, etc. In short, the SMC outer stator core has excellent performance and economy, and it is one of the important directions of future motor development.
Disc motor is a common type of motor, due to its compact structure, small size and high power density.
Disc motor is a common type of motor, which is widely used in various fields due to its compact structure, small size and high power density. The SMC stator core is an important part of the disc motor, which plays the role of support and magnetic conductivity. The full name of SMC material is Sheet Molding Compound, which is a glass fiber reinforced thermosetting resin composite material. SMC materials have excellent insulation properties, mechanical strength and corrosion resistance, so they are widely used in insulation and structural components of electrical equipment. An SMC stator core typically consists of SMC material and a core. The SMC material is molded by a mold to form the outer shape and internal structure of the stator, with high dimensional accuracy and surface finish. The iron core is made of cold-rolled silicon steel sheet, which has low hysteresis loss and iron loss. The advantages of SMC stator core mainly include the following aspects:
The magnetic ring of electric tools is an important magnetic component used in electric tools.
Power tool magnetic ring is an important magnetic component used in power tools. It is usually made of ferrite magnetic material, which has high magnetic induction intensity and magnetic permeability, which can effectively concentrate the magnetic field on a specific part of the tool and improve the performance and efficiency of the power tool. First of all, the main function of the magnetic ring of the power tool is to generate and maintain a strong magnetic field. Power tools usually require a constant magnetic field to drive the motor. The magnetic ring can form a stable magnetic field inside by the characteristics of its magnetic material. This magnetic field can effectively generate the torque and speed required by the power tool to make it work properly.
Magnetic wheel magnet is a device that uses magnetic field to generate force
A magnetic wheel magnet is a device that uses a magnetic field to generate force. It consists of a ring-shaped magnet with a hollow central shaft inside. The magnetic wheel magnet is usually composed of a plurality of magnets, so that the magnetic force is enhanced. The working principle of the magnetic wheel magnet is based on the attraction and repulsion of magnetic force. When two magnets are close, if their magnetic poles are the same, they will repel each other and produce a thrust; if their magnetic poles are opposite, they will attract each other and produce a pulling force. Due to the characteristics of the magnetic force, the magnetic wheel magnet can use this attraction and repulsion force to generate a rotational motion.
An inductor magnet is a device used to induce electromagnetic fields
An inductor magnet is a device used to induce an electromagnetic field. It usually consists of one or more metal coils and magnetic material. Inductor magnets are commonly used in various fields, such as electronic equipment, sensors, measuring instruments, motors, etc. The principle of the inductor magnet is based on Faraday's law of electromagnetic induction. According to this law, when a magnetic flux passes through a closed line, an induced current is generated in the line. The inductor magnet uses this principle to induce a current or voltage signal by changing the magnetic flux in the coil. The structure of the inductor magnet usually includes a core and a coil. The iron core is usually made of a magnetic material, such as iron, steel, etc. The coil is made of a conductive material, such as copper wire. When a current is passed through the coil, a magnetic field is generated in the coil, and a strong magnetic field is generated through the iron core. The magnetic field strength of the inductor magnet depends on the magnitude of the current in the coil and the magnetic permeability of the core. In general, the greater the current, the stronger the magnetic field. The greater the permeability, the higher the magnetic field strength.