Manufacture technology of arc lighter

At present, lighters in the market (also often referred to as cigarette lighters in this field) are classified into the following types in the form of ignition: gas lighters, kerosene lighters, electric heater lighters, and arc lighters. The arc lighter generally includes a casing, an arc ignition assembly, and an arc ignition switch used to control the arc ignition assembly to perform the ignition action. The arc ignition assembly includes a power supply, a high-voltage generating device, and an arc generating head. The device is connected to a power supply, the arc generating head includes at least one set of discharge electrode groups, and each group of discharge electrode groups includes two discharge electrodes that cooperate with each other for discharge. The discharge electrodes are electrically connected to the output end of the high-voltage generating device, and the arc ignition switch outputs The ignition switch signal is used for the on-off connection of the power supply to the power supply line of the discharge electrode group. The manufacturing technology of arc lighters is to use the principle of high voltage discharge to generate arcs for ignition. The traditional casing is provided with an ignition port corresponding to the arc generating head and is provided with a flip cover that closes the ignition port and can be opened. Since the arc ignition switch is also arranged outside the casing, in daily life, the arc ignition switch is often used. Due to the wrong ignition, the flame generated by the arc heats the flip cover, which on the one hand accelerates the consumption of electricity, and on the other hand, the flip cover is heated to easily cause damage to the fingers.

How arc lighters work

The working principle of the arc lighter is to connect a piece of the piezoelectric material block (crystal structure) to one end of a thin wire. This wire forms a gap with the metal material at the outlet of the lighter. Turn on sync. When the impact block hits the other end of the piezoelectric material block with certain impact energy or force, the internal molecules of the piezoelectric material will vibrate strongly, and the vibration energy will be transmitted to the wire. Since the ratio of the cross-sectional area of the wire to the cross-sectional area of the piezoelectric material block is very large, the vibration of the molecules in the wire has a great tendency to strengthen.

When the strong vibration of the terminal molecules of the wire hits the air molecules at the gap, the air molecules also generate strong vibrations. The trajectory of the vibration of air molecules is what we see as electric sparks (arc light). These electric sparks (arc lights) are actually the trajectories of the air molecules vibrating when the wire molecules vibrate strongly and transmit energy to the metal material at the outlet of the lighter, indicating that the air molecules at the gap vibrate very strongly. According to the theory of vibration, strong vibration means that the temperature of the material is very high. When the temperature exceeds the ignition point of the liquefied gas in the lighter, the gas running out will be ignited to form a flame, and the flame is the image of the violently vibrating gas molecules. This is how arc lighters work, and the same is true for other electronic lighters.

Electric candle lighter with rechargeable battery ruby red

FUKKUDA is a manufacturer specializing in the production of arc lighters, if you have any needs, please contact us!