Application Scenarios
Achieve performance above the industry average
Market Position and Customer Satisfaction
As a Sino-Japanese joint venture with more than 30 years of deep expertise in the electronic components industry, Dongguan Jianyixiang Electronics Co., Ltd. leverages its proprietary R&D capabilities, fully automated production lines, and stringent quality-control systems to seamlessly integrate its three core product categories—motors, microswitches, and power outlets—into every application scenario across the robotics industry. The company provides stable, efficient, and highly precise core components for a wide range of robotic platforms, including industrial robots, collaborative robots, and service robots, thereby driving high-quality development of the robotics sector and underscoring the technological prowess and product value of a globally recognized supplier.
The company’s independently developed and manufactured range of motors, with their core advantages of high power density, precise control, low energy consumption, and exceptional durability, serve as the primary power source for robots to execute a wide variety of motions. These motors are tailored to meet the diverse requirements of different robot types, spanning all application scenarios—from industrial robotic arms to service robots—and perfectly align with the critical industry demand for robotic power systems that are “compact yet powerful, precise yet stable.” In the industrial robotics sector, the company’s servo motors, as key actuators, are extensively deployed across all joints of six-axis robotic arms and SCARA robots. Through closed-loop control, they enable highly accurate positioning, speed regulation, and torque control; when paired with high-precision encoders, they can swiftly respond to commands and precisely perform complex operations such as material handling, precision assembly, welding, and painting. Their strong overload capacity and wide speed-regulation range allow them to effortlessly handle load shocks during robot startup, shutdown, and operation, thereby ensuring efficient and precise industrial production while significantly elevating the level of production automation and product quality. For desktop-level and educational industrial robots, the company’s stepper motors leverage the advantage of open-loop control: they achieve precise positioning without the need for costly encoders and maintain a stable holding torque when stationary, making them well-suited for light-load pick-and-place tasks and auxiliary-axis control applications—striking an optimal balance between cost-effectiveness and performance.
The company’s independently developed and manufactured range of motors, with their compact size, stable speed, low noise, and high energy efficiency, serve not only as the “power heart” of robots but also as the core power source for hair dryers. These motors are tailored to meet the diverse needs of both household and salon-grade hair dryers, covering the full spectrum from entry-level to premium models and perfectly satisfying the industry’s key requirements for hair dryer power systems: small footprint, strong airflow, and low noise.
In the home hair dryer market, the company’s compact brushless DC motors have become the mainstream choice thanks to their high efficiency, energy savings, and long service life. These motors enable precise speed control and multi-speed airflow settings, allowing users to dry hair quickly while minimizing heat-induced damage. Their low-noise design further reduces operational sound, making them ideal for everyday household use. For portable hair dryers, the company’s miniature motors optimize both size and weight; while maintaining robust airflow, they significantly reduce the overall dimensions of the device, making it easy to carry on the go. Additionally, their low-power consumption makes them well-suited for rechargeable models, extending battery life and enhancing portability.
In the electric screw-driving machine sector, the motor serves as the core drive component, directly determining the machine’s tightening accuracy, efficiency, and stability. The company has specifically developed dedicated motors that perfectly meet the needs of various types of electric screw-driving machines: in industrial-grade fully automatic screw-driving systems, the company’s servo motors, with their high-precision closed-loop control, enable precise adjustment of both rotational speed and torque, ensuring uniform screw-driving speed and accurate positioning, thereby preventing damage to workpieces caused by over-tightening or loosening due to under-tightening. These motors are well-suited for mass assembly applications in industries such as electronics, home appliances, and automotive components, significantly boosting production efficiency. For manual and semi-automatic screw-driving machines, the company’s compact DC motors feature a small footprint, excellent hand-held ergonomics, stable speed, and adjustable torque, making operation lightweight and convenient—ideal for small-batch, multi-scenario screw-fastening requirements. Moreover, their low-noise design and long service life help reduce wear and tear as well as maintenance costs. In addition, based on the specific requirements of electric screw-driving machine manufacturers, the motors can be customized in terms of speed range, torque parameters, and mounting dimensions, accommodating diverse applications such as fully automated locking and handheld tightening, thus meeting stringent demands for high-precision, high-efficiency fastening.
In the field of electric screwdrivers, microswitches serve a dual purpose: precise control and safety protection. In fully automated screwdriving machines, microswitches are used for screw-position detection and workpiece-locating detection; when a screw reaches its preset position or the workpiece is properly seated, the switch promptly sends a feedback signal to the control system, triggering machine shutdown or the next operational step to ensure fastening accuracy and prevent missed or incorrect fastenings. In manual screwdrivers, the microswitch is integrated into the trigger mechanism, enabling convenient “press-to-start, release-to-stop” operation with highly sensitive actuation and rapid response; it also features overload-protection tripping, automatically shutting down the tool when the applied torque exceeds the preset threshold to prevent damage to the screw or workpiece. Furthermore, our microswitches are highly wear-resistant and shock-proof, designed to withstand the high-frequency operation typical of industrial environments. Their dust- and oil-resistant design ensures reliable performance even in the complex operating conditions of electric screwdrivers, thereby minimizing failure rates and ensuring long-term stable operation.
33 years of manufacturing experience in the industry
Dedicated to production, research, and development
Company Address: Room 101, 4th Floor, Chashan Smart Valley Industrial Park, No. 30 Weixing Road, Weijian Industrial Park, Chashan Town, Dongguan City, Guangdong Province
Fax: +86-769-8640-2083
