Beyond the “white mist” seen on construction sites, fog cannon machines are specialized devices that atomize liquids via high-pressure systems and deliver mist particles to target areas...Read more
For a 10,000-square-meter orchard (about 15 mu), traditional spraying requires 3-4 people to work with backpack sprayers for 2-3 days. This not only incurs high labor costs and severe chemical wast...Read more
When mist cannon machines operate in complex scenarios such as mines and construction sites, they are prone to safety hazards caused by voltage fluctuations, low-temperature freezing and cracking, ...Read more
As a frequently used open-air venue, the surface temperature of a football field often exceeds 50°C in summer. This not only affects players’ performance and spectators’ viewing experie...Read more
During the stacking and transportation of coal in coal yards, flammable dust is easily generated, which can trigger explosions when encountering sparks. Traditional mist cannon machines lack explos...Read more
The push rod of a mist cannon machine determines the accuracy and stability of spray angle adjustment. Electric push rods and hydraulic push rods have significant differences in applicable scenario...Read more
During mine crushing operations, ores are repeatedly squeezed and impacted by jaw crushers and cone crushers, generating a large amount of dust with a diameter of less than 10 microns. This dust no...Read more
Amidst the bustling traffic of cities, road dust is like a hidden “pollution killer,” constantly threatening air quality and citizens’ health. Although traditional water sprinkler...Read more
Water parks in summer are popular destinations for tourists to escape the heat. However, under intense sun exposure, the surface temperature of slides, plazas and other areas often exceeds 40°C. Th...Read more
As core facilities for coal storage, large-scale coal sheds—with spaces often spanning tens of thousands of square meters and coal piles as high as over ten meters—pose significant challenges for d...Read more
