The copper’s weight of JUNON switch and socket
Process 1: Clear the electronic scale, take out the double-layer wiring copper sheet from the V-shaped terminal of the switch & socket, put it on the scale and record the weight as 0.99g, then take out the wiring copper sheet from the terminals of other brands and place it on the scale to record the weight It is 0.93g.
Result: Through on-site weighing comparison, it is found that double-layer wiring copper sheet of Lj series switch & socket is heavier than other copper sheets, and the thickness is dominant.
Through weighing experiments, we found that Lj series switch & socket are heavier than other brands in terms of overall weight and parts inside. They are genuine materials and the feel is relatively good, at least a heavy presence rather than a light and fragile.
Torque test diagram
Props: Torque screwdriver, screwdriver
Subject: Lj series white switch & socket VS Other Brand White Products
Process 1: After setting the torque of the torque screw to 16KG, select a 6 square wire and insert it into the terminal of other brand products, use the torque screw to tighten it, and after confirming the connection, disassemble the product and take out the wiring copper sheet.
Result: The test found that the single-layer wiring copper sheet was bent and deformed after a torsion force of 16KG.
Process 2: Keep the equipment configuration, insert a 6 square wire into the terminal of Lj series switch & socket, use a torque screw to tighten it, and then take out the wiring copper sheet.
Result: Finally, it was found that JUNON's wiring copper sheet did not show any abrasion and bending deformation, which proved that JUNON's double-layer folded and three-dimensionally surrounded wiring copper sheet can withstand 16KG torsion.
JUNON's double-layer wiring copper sheet of Lj series switch & socket has a unique structure, and the torsion force it bears is greater than that of ordinary single-layer copper sheets, which reduces the performance degradation of the wiring copper sheet due to bending deformation.