The development of production technology for hot water high-pressure cleaners.

　　Hot water high-pressure cleaner uses a high-power electric heating boiler, which can provide continuous hot water supply and fully meet the professional needs of customers. It is suitable for places such as manufacturing plants, hospitals, pharmaceutical companies, kitchens, and food processing enterprises where no exhaust gas discharge is allowed. The hot water high-pressure cleaning machine is also called a high-temperature and high-pressure cleaning machine. Currently, it is mainly imported from Italy and Germany, with stable quality, beautiful appearance, small size, and convenient mobility. It is mainly used for cleaning oil stains on petroleum equipment, mining machinery equipment, and engineering machinery equipment.

　　When choosing, you need to consider whether to use cold water or hot water. The cold water high-pressure cleaning machine can work with normal temperature water. The hot water type sprays the water after heating it in the boiler. Choosing the brand of high-pressure cleaning machine is also important. Generally, it is divided into imported and domestic brands. Imported high-pressure cleaning machines are more expensive, and their performance may be better than that of domestic machines. Domestic machines are cheaper, and their maintenance costs are not very high. Both domestic and imported machines have their advantages. Imported quality is not always better, and specific performance should be considered when making choices. When choosing, we should also pay attention to spray nozzles of high-pressure cleaner, which are generally divided into fan-shaped water columns and low-pressure nozzles. Fan-shaped nozzles can increase cleaning efficiency, and low-pressure nozzles can spray low-pressure water flow.

　　Hot water high-pressure cleaning machine is mainly used in hospitals, food processing plants, and other non-polluting enterprises. The high water temperature pressure of hot water cleaning machine are mainly used for cleaning oil stains on casting company equipment and are suitable for enterprises with natural gas sources to save costs.

　　Hot water high-pressure cleaners can be divided into electric heating hot water cleaners, diesel heating hot water cleaners, and natural gas heating hot water cleaners based on their heating methods. According to their driving methods, they can be classified into electric-driven high-pressure cleaners, diesel-driven high-pressure cleaners, and gasoline-driven high-pressure cleaners. Electric-driven high-pressure cleaners are mainly used in factory workshops and places with power sources. Diesel-driven and gasoline-driven high-pressure cleaners are mainly used in construction sites without power sources, such as mines, railways, and oil fields.

　　There are several classification methods for high-pressure cleaners on the market, among which one classification method is based on cold water, hot water, and steam. Cold water cleaners are more commonly used, with simpler structures and relatively lower prices.

　　Types of cleaners include trichloroethylene machines, gas phase machines, hydraulic cleaners, cold water high-pressure cleaners, hot water high-pressure cleaners, electric-driven cleaners, gasoline-driven cleaners, electric heating high-pressure cleaners, diesel heating high-pressure cleaners, ultra-high pressure mobile cleaners, industrial stainless steel high-pressure cleaners, explosion-proof high-pressure cleaners, hydraulic cleaners, and ultrasonic cleaners.

　　Hot water high-pressure cleaners have more complex structures, higher prices, and more extensive applications. They have special advantages in removing oil stains because hot water can more easily dissolve and clean oil stains. In terms of heating methods, there are electric heating models and diesel boiler heating models, each with its own characteristics.

　　Compared to cold water high-pressure cleaners, hot water high-pressure cleaners have an additional heating device (combustion chamber or electric heating), which generally results in higher prices than their cold water counterparts. Moreover, the heating process requires additional energy consumption, resulting in higher operating costs.