DESIGN

Double Sphere Joints are used exactly as their single sphere counterparts. However, its unique shape and longer length allows greater compression, elongation, lateral and angular movement. This minimizes water hammer, increases noise suppression and dampens hydraulic surge and shock in any system.

The construction combines elastic properties of rubber with nylon cord fabric reinforcement and is integrated with steel Floating Flanges to provide a flexible pipe joint. The Sealing surfaces provide a fluid and gas tight seal.

IDEAL PUMP CONNECTOR

Most widely used world over to protect pumps. It provides the greatest pressure, temperature and movement. Its resiliency helps control pulsation shocks and noise transmission.

ADVANTAGES

  • WIDE FLOWING ARCH – Virtually eliminates sediment build up
  • FLOATING FLANGE – eases Installation
  • COMPENSATES FOR AXIAL, LATERAL TORSIONAL AND , ANGULAR MOVEMENTS – Due to thermal changes & misalignment
  • ISOLATES VIBRATIONS DAMPENS , NOISE AND PRESSURE SURGES
  • SUITABLE FOR SUCTION AND DISCHARGE

APPLICATIONS

For use in Plumbing, & Air systems in:

  • RESIDENTIAL HOUSES
  • COMMERCIAL BUILDINGS
  • INDUSTRIAL PLANTS
  • SEWAGE TREATMENT PLANTS
  • CHEMICAL PLANTS
  • POWER PLANTS
  • MARINE SYSTEMS

Description

Double Arch Rubber Expansion Bellows are an assembly which are used primarily in piping applications to compensate for thermal expansion and contraction, reduce noise and vibration produced by the rotating element as well as relieve pipe stress during operation.

Our Double Arch Rubber Expansion Bellows is designed to withstand temperature up to 70°c and pressure up to 40 bar. It also helps to absorb thermal expansion. These bellows are used in heating, ventilating systems, vehicles exhaust connectors, nuclear fusion etc.

Some of the features are as follows:

  • Eliminates stresses of expansion & contraction
  • Compensates for misalignment – axial, lateral, angular & torsional
  • Absorbs vibration & shock
  • Eliminates line noise
  • Prevents pipe bucking & fracture

For More Details: CLICK HERE