1. Equipped with an electric kettle boiler controller, the boiler operates with intelligence, digitization, automation, and user-friendliness. Water temperature can be set freely from 10℃ to 100℃, enabling the boiler to provide both boiling water and hot water, achieving dual functionality with a single unit.
2. Utilizing advanced ceramic electric heating tubes, encased in seamless steel pipes, effectively prevents scale interference and boasts a long service life. The heat-absorbing structure is designed through computer optimization, completely optimizing the heat exchange coefficient of the heating surface, achieving a high thermal efficiency of over 98%. Significantly reduces electrical energy loss.
3. The boiler intelligently controls water temperature; once the water is boiled, the heating automatically stops. The controller features a large-font display screen for water temperature, complemented by an external glass tube water level gauge, ensuring clear visibility of both the boiler water temperature and level.
4. Designed as an atmospheric pressure boiler, the boiler features an air vent at the top, ensuring it operates in a pressure-free state with no safety hazards. Users can independently set the on and off times based on their water usage needs, not only meeting user requirements but also promoting energy conservation and reducing consumption costs.
5. The boiler automatically refills water, stopping when it reaches full capacity, eliminating the need for constant supervision, thus saving time, effort, and labor.
6. A reliable boiler "water and electricity separation" structure prevents potential safety hazards for users and staff caused by accidental electric leakage in the heating tubes. Additionally, boiler heating components can be repaired, replaced, and maintained without the need to drain water.
7. The company employs high-precision water level sensors for real-time monitoring. These sensors use pulse intermittent detection to assess the normalcy of the water level within the boiler. The boiler automatically refills the water sequentially only when the outlet temperature reaches boiling point, ensuring a continuous supply of 100% fresh boiling water.
8. The unit is equipped with overheat protection (the burner automatically shuts off and emits an alarm when the internal water temperature exceeds a high limit), secondary overheat protection (the secondary circuit is automatically disconnected when the boiler shell temperature exceeds 105℃), dry-burn and water shortage protection (the boiler stops operating and emits an alarm when the water level is below the low limit), and electric leakage protection (the power supply is automatically disconnected upon detection of electrical leakage or short circuit in the control system).
9. Utilizing aluminum foil centrifugal glass wool multi-layer insulation and high-quality white color steel plate for the outer packaging, featuring minimal heat loss and aesthetic rust resistance.
Many users have reported that the lifespan of the heating wire in multicrystalline silicon electric heaters is short, raising questions. In response to this issue, we have compiled some relevant information that we hope will be helpful to you.
Firstly, it's crucial to understand that the design of the electric furnace wire is directly related to the lifespan of the heating wire in the electric heating tube, making the design of the furnace wire and its components particularly important.
Secondly, it is crucial to understand that the thickness of the material directly affects the lifespan of the components. As the diameter of the wire increases, there are more alloy components per unit surface area to form new oxides. Therefore, at specific temperatures, the lifespan of thicker wire-shaped components is longer than that of thinner ones. Similarly, thicker strip-shaped components also have a longer lifespan than thinner ones. Typically, for components operating at high-temperature conditions, the alloy wire diameter should not be less than 3.0mm, and the thickness of the flat strip should not be less than 2.0mm.
Pre-oxidation treatment of the heating wire in electric heating tubes before use can produce a purer oxide film on the component surface, thereby extending the service life of the component. Actual evidence shows that for the longest possible service life, re-oxidation can be performed at intervals based on usage, with excellent results.
