a. Non-abrasion design for on off, which resolves the problem of mutual abrasion fully affecting sealing performance of sealing surface in the traditional valves.
b. Uploading construction, with which the valves on pipelines could be checked online and repaired directly. Thus the engine’s stopping could be minimized creatively to reduce the production cost.
c. Single-seat design, which resolves those problems affecting safety caused by abnormal temperature-rise of the medium in the lumen of the valve.
d. Low tensional moment design, with which the stem with structure designed specially could open or shut down with a merely small hand-wheel valve.
e. Wedge-type sealing construction. Traditionally, the valve would be sealed through the mechanical force provided by the stem to wedge-press the ball onto the valve seat. With this design, the sealing performance of the valve would never be influenced by the fluctuation of the pressure difference in pipeline. And the performance would be maintained reliably under all the operating models.
f. Self-purging construction of sealing surface. The fluid inside the pipeline would pass through evenly by 360° room, and along the sealing face on the globe body when the body leaves the seat shiningly. This design not only resolves the problem of scouring on

parts on the valve seat by high-speed fluid but also washing away the piled-up matters on the surface to realize self-purging.

Orbital ball valve operating principles

a. Rotate the hand-wheel clock- wisely while the valve stays at full-open state. After the stem begins to move downwards
and brings along the globe body to rotate under the

concerted running of valve stem nuts and block bearing.
 b. Continuously rotate the hand-wheel, and then the cam-slot track with fine helical-curve would interact mutually with the guide finger
embedded inside the track to drive ceaselessly the globe

body rotate clock wisely with the stem.
 c. When the valve is about to shut-down, the stem would bring along the globe body to rotate for 90° rod;
under the condition that the two parts bears no abrasion completely

against the sealing surface of the seat.
 d. Continue to rotate the hand-wheel, and then the again-descended stem would press the globe body mechanically
to make it contact with the seat closely. Thus the sealing

effect would be realized.
 

h. Continuously rotate the hand-wheel, as long as the stem rises to
the limit position, at this time, the ball

has also reversed along with the handle

for 90° stem, and the valve has stayed

already at the full-open position.
 g. When the valve is about to open, t
he cam-slot track with fine helical-curve would interact mutually with

the guide finger embedded inside the

track to drive ceaselessly the globe body

 rotate counter clock-wisely under the conditions

that the mentioned parts bears no

abrasion completely against the sealing

surface of the seat.
 f. Continuously rotate the hand-wheel, hereafter the stem would
bring along the globe body leave t

he seat w shiningly hile going-up.
 e. Rotate the hand-wheel counter-clock-wisely while the valve stays at the full-close position. Therefore the handle
would go up and drive the globe body

to rotate under the concerted work by

the stem nuts of the valve and the block

bearing.