Product Advantages:
Design compact, minimalOneMillimeters less, moreOneMMs then more。
Versatile installation options, simplifying the structure of rotational movement, making your design more compact.
This product can withstand high axial and radial loads.
Rotation Angle90"To360"Optional, catering to your diverse needs.
The balancing valve can act as a protective measure against excessive reverse load, preventing mechanical damage.
The product is meticulously crafted with zero internal leakage.
Balanced valves allow products to stop at a specific point in their travel.Please provide the Chinese content that needs to be translated into American English.Maintain a fixed position and torque.
The helical oscillating cylinder is currently a product with a high torque output per unit volume.
A swing hydraulic cylinder is a tightly assembled component that utilizes hydraulics to generate a high torque in a minimal space. It employs a compound helical gear structure, enabling the entire swing hydraulic cylinder to produce greater torque within a smaller space. Despite the high power, they can still be easily controlled. Swing hydraulic cylinders have been successfully applied in almost all fields that require limited rotational movement and high torque.
A helical oscillating cylinder is a structure that, through the relative motion of the helical pair, converts linear motion into rotational motion, featuring a single...Spiral and double helix types.
For example, with the double helix structure:
Assuming the shellStationary. As hydraulic oil passes throughP2The mouth is applied to the piston sleeve ③, the piston sleeve③It will move axially to the right. Because of the meshing between the spiral gears and the piston sleeve.③With shaft②Simultaneous rotation. shaft②The rotation will be clockwise as indicated by the arrow in the diagram. Please note the axis.②No axial movement, piston sleeve③Rotating and axially moving. Housing①Mounted with the gear ring, no relative motion.
Assuming the housingStationary. As hydraulic oil passes throughP1The mouthpiece exerts pressure on the piston sleeve ③.③It will move axially to the left. Because the spiral bevel gears mesh with the piston sleeve.③With shaft②Simultaneously rotating. shaft②The rotation will be counterclockwise as indicated by the arrow in the diagram. Please note the axis.②No axial movement, piston sleeve③Rotating and axially moving. Housing①Fixed with the tooth ring, no relative motion.
For detailed product specifications and technical requirements, please contact our company for confirmation!
