Improving Changeover Efficiency When Tightening Screws of Different Specifications with an Electric Screwdriver
In modern industrial production environments, multi-product co-line manufacturing has become the norm. For electric screwdrivers, frequently switching torque parameters for screws of varying specifications has long been a bottleneck that affects overall efficiency. Traditional screwdrivers require time-consuming manual reconfiguration every time the model changes. This not only increases operator workload but also raises the risk of human error that can compromise product quality and throughput. Danikor’s electric screwdriver overcomes these challenges through unique technical and functional design.
A key advantage of the Danikor electric screwdriver is its ability to store hundreds of Pset torque programs. When multiple products run on the same line, each screw specification can have its tightening parameters pre-defined and saved as an independent Pset program. When a changeover occurs, the operator simply selects the corresponding Pset program, instantly loading all parameters for the new screw specification. This eliminates tedious manual reconfiguration, dramatically shortens changeover time, and reduces production-preparation downtime.
Taking efficiency one step further, the Danikor electric screwdriver supports program switching via QR-code scanning. In real production, each product model or screw specification can be linked to a dedicated QR code. At changeover, the operator only needs to scan the code with the screwdriver; the tool automatically identifies the correct Pset program and switches to it. This feature streamlines the workflow, lowers the skill barrier for operators, and virtually eliminates quality issues caused by selecting the wrong program, ensuring consistent and reliable tightening results.
When a single product contains screws of different specifications, the Danikor screwdriver still excels. Users can create a tightening task that manages all screw programs for that product. Within the task, each screw is assigned its tightening parameters in the exact assembly sequence, forming a chain of Pset programs. After tightening one screw, the tool automatically advances to the next Pset program and readies itself for the following fastener. Combined with a quick-change bit mechanism, the screwdriver can automatically swap to the appropriate bit for the next screw without any manual intervention, achieving fully automated screw-driving. This boosts production speed and assembly accuracy while saving labor and time costs, delivering significant overall gains.
These capabilities have been proven in real-world applications. In electronics manufacturing, for example, a single device may use several screw sizes to secure different components. Traditional screwdrivers require frequent manual bit changes and parameter adjustments, leading to low throughput and high error rates. With the Danikor electric screwdriver, the tightening task is pre-defined; the tool automatically handles screws of all specifications—switching bits and loading parameters as required. This markedly increases throughput and reduces defect rates, giving manufacturers a clear competitive edge.
By offering Pset program storage, QR-code switching, tightening-task management, and an integrated quick-change bit mechanism, the Danikor electric screwdriver effectively solves the changeover-efficiency challenge when tightening screws of varying specifications. It provides a fast, reliable tightening solution perfectly suited to modern low-volume, high-mix production, strongly supporting productivity and quality control across the industrial landscape.
