Double walled diesel gasoline cube tank with pump

Structural features

Double-wall design: This double-wall structure has important safety and environmental significance. The outer wall can provide additional protection for the inner wall to prevent the inner tank containing diesel or gasoline from being damaged by external physical impact, corrosion, etc. For example, if an accidental collision occurs or there are factors in the surrounding environment of the tank that may corrode the tank, the outer wall can act as a buffer or barrier. Moreover, once the inner tank leaks, the space between the double walls can accommodate the leaked fuel, preventing the fuel from leaking into the surrounding environment, reducing fire hazards and pollution to soil, water sources, etc.

Cubic shape: The design of the cubic tank makes the tank more regular in space utilization. Compared with irregularly shaped tanks, cubic tanks are easier to place and fix, and are easier to plan in the layout of the storage area. For example, in the underground oil storage area of ​​a gas station or some industrial oil storage warehouses, multiple cubic tanks can be neatly arranged to effectively utilize limited space. At the same time, the cubic shape also has certain advantages in manufacturing technology, it is relatively easy to achieve standardized production, and the structural stability of the tank is also relatively good, and it can withstand the pressure of the internal fuel.

Function of the pump

Fuel delivery function: The equipped pump is one of the key components of the entire tank system. It is used to extract diesel or gasoline from the tank and deliver it to where it is needed. For example, at a gas station, the pump can deliver diesel or gasoline to the gas pump and then refuel the vehicle; in some industrial scenarios, the pump can deliver fuel to fuel-consuming equipment such as generator sets.

Flow control and safety protection: Modern tank pumps of this type usually have flow control functions, which can adjust the fuel delivery speed according to actual needs. At the same time, there are also safety protection mechanisms, such as preventing empty pumping (stopping work when the fuel level in the tank is too low), avoiding damage to the pump due to oil-free operation, and preventing overload, overpressure, etc., to ensure the safety and reliability of the entire fuel delivery process.