What is oil pressure?

Hydraulic Pressure refers to the pressure exerted by a liquid (usually oil) in a closed system. Oil pressure is the core concept in hydraulic systems, which use the properties of liquids to transmit force and control movement.

The basic principle of oil pressure is based on Pascal’s Law: In a closed liquid system, the pressure exerted on the liquid will be transmitted evenly to all parts of the system, regardless of the shape of the liquid or the size of the container. are equal.

Hydraulic systems have many advantages, including high power density, precise control, transmitting large forces and withstanding high pressures.

The design and operation of hydraulic systems require consideration of factors such as pressure, flow, control and safety. Maintaining and checking hydraulic system pressure are important steps to ensure proper system operation and safety.

What is hydraulics?

Hydraulics is a field of science and technology that uses liquids (usually oil) to transmit force and control movement. Hydraulic systems utilize the properties of liquids to transmit force, control motion, and perform work tasks.

Hydraulic systems usually consist of liquid media, pipes, pistons, cylinders, pumps, valves and control components. A liquid medium (usually hydraulic oil) is pumped into the system, creating a certain pressure. This pressure is transmitted through pipes to an actuator (such as a hydraulic cylinder), thereby generating force to push a piston or perform other movements.

The basic principle of the hydraulic system is based on Pascal’s Law: In a closed liquid system, the pressure exerted on the liquid will be transmitted evenly to all parts of the system, regardless of the shape of the liquid or the size of the container, the pressure will be the same. are equal.

Hydraulic systems have many advantages, including high power density, precise control, transmitting large forces, withstanding high pressure and adapting to complex working environments. They are widely used in many fields such as industrial machinery, construction equipment, automobile manufacturing, aerospace, etc.

Hydraulics also involves the design, operation and maintenance of hydraulic systems. The design of a hydraulic system needs to consider factors such as pressure, flow, power requirements, control requirements and safety. Operating a hydraulic system requires familiarity with the functions and controls of hydraulic components. Regular maintenance of your hydraulic system ensures proper operation and extends its service life.

What is pneumatic?

Pneumatics is a field of science and technology that uses gas (usually compressed air) to transmit force and control movement. Pneumatic systems utilize the properties of gases to achieve force transmission, motion control and perform work tasks.

Pneumatic systems usually consist of compressed air sources, pipelines, pneumatic actuators (such as cylinders), pneumatic valves and control components. Compressed air is generated from a compressed air source and delivered to the pneumatic actuator through pipes. Pneumatic actuators (such as cylinders) convert compressed air into linear or rotary motion according to the control signal of the pneumatic system, thereby achieving power transmission and performing work tasks.

The basic principle of pneumatic system is based on the compressibility and easy force-bearing characteristics of gas. When compressed air is applied to a pneumatic actuator, the gas compresses and expands, producing corresponding force and movement.

Pneumatic systems have some advantages, including simplicity, economy, quick response, easy control, and adaptability to harsh environments. They are widely used in many industrial applications such as automated production lines, machine operations, assembly and packaging, etc.

Pneumatic technology also involves the design, operation and maintenance of pneumatic systems. Designing a pneumatic system requires consideration of factors such as gas pressure, flow rate, selection and arrangement of pneumatic components, and control methods. Operating pneumatic systems requires familiarity with the functions and controls of pneumatic components. Regular maintenance of your pneumatic system ensures its proper operation and extends its service life.

What are the connections between rubber seals in hydraulics, oil pressure, and pneumatics?

Rubber seals play an important role in hydraulic, oil pressure and pneumatic systems to achieve sealing effects and prevent leakage.

Hydraulic systems: In hydraulic systems, rubber seals are often used to prevent leakage of hydraulic oil between components such as connections, pipes, valves, and pistons. They can withstand high pressure and temperature and maintain sealing performance for a long time. Common hydraulic rubber seals include O-rings, U-shaped seals, piston seals, etc.

Hydraulic system: Hydraulic system usually refers to a system that uses oil as a transmission medium, such as lubrication systems and hydraulic systems in some mechanical equipment. Rubber seals are also used in hydraulic systems to prevent oil leakage and seal gaps between components. They are oil and chemical resistant and can operate under high pressure and temperature.

Pneumatic system: Rubber seals also play a role in sealing and preventing leakage in pneumatic systems. Pneumatic systems use compressed air as the transmission medium, and rubber seals are used to prevent gas leakage and seal gaps in the connection parts. Pneumatic systems generally have lower pressures than hydraulic and oil pressure systems, so the design and material selection of rubber seals may be slightly different.

In general, rubber seals play a key role in hydraulic, oil pressure and pneumatic systems, ensuring the normal operation of the system and preventing leakage and loss.