AQ ball type torque limiter is a mechanical protection device mainly used for mechanical overload protection, belonging to a type of safety coupling, also known as torque limiter or safety clutch. The main function of this device is to limit the torque transmitted by the transmission system through slip when the required torque exceeds the set value due to overload or mechanical failure, thereby preventing mechanical damage and expensive shutdown losses. AQ ball type torque limiter is suitable for various machinery, including but not limited to transmission devices of conveyors, office machinery, and various instruments, providing good safety protection. It is particularly suitable for ensuring that high-speed and high-precision driving devices are not damaged by overload, and has the advantage of lower price.
The characteristics of AQ ball type torque limiter include:
Seamless connection ensures transmission efficiency.
High torsional rigidity and low moment of inertia, small size, and adjustable separation torque.
There are two forms to choose from: automatic re joining and non automatic re joining, which have heat resistance (above 260 ºC).
Some types can also compensate for axial displacement, lateral displacement, and angular displacement of the shaft.
Shanghai Xinde Technology Development Co., Ltd. is a manufacturer of AQ ball type torque limiters, providing customized services including but not limited to telescopic assemblies, motor protectors, sprocket couplings, etc. The torque range, maximum speed, and weight parameters of the product can be customized according to specific needs. For example, the torque range can reach 2.9~1080Nm, the maximum speed is 4000~800rpm, and the weight is 0.63~10.06kg. These characteristics make AQ ball type torque limiters not only suitable for machine tool transmission devices, but also for high-performance assembly lines, printing machinery, packaging machinery, etc.
When choosing an AQ ball type torque limiter, factors such as its applicable range, size, and torque range should be considered to ensure that it can effectively protect mechanical equipment and avoid overload damage