Type VO...VP thread Oval gear flowmeter with threaded connection Stainless steel housing and PEEK measuring element 0. 03...100l/min Measuring accuracy ±0.5%.

Oval wheel flow meter with threaded connection

Stainless steel housing with PEEK measuring element – Type VO…VP thread

• High measurement accuracy and excellent repeatability

• Low pressure loss thanks to optimized measuring principle

• Suitable for industrial fluids, chemical media, mineral oils, and fuels

• Insensitive to vibrations, pressure fluctuations, and changes in viscosity

Description

The VO…VP series oval wheel flow meters with threaded connections are designed for the precise measurement of the volume and volume flow of liquids. Their robust design and high measurement stability make them particularly suitable for applications in industrial and process plants.

Typical areas of application include, for example:

• Monitoring of lubricants and oils

• Dosing and measuring systems in technical plants

• Applications in the food and beverage industry

• Measurement of fuels or chemical liquids

These flow meters operate according to the displacement principle, whereby the actual volume of liquid transported is measured directly. This allows very accurate and reproducible measurement results to be achieved.

Advantages of the oval wheel flow meter

• Direct volumetric measurement using the displacement principle

• No special entry or exit routes required

• Robust construction for long service life and high operational reliability

• Very good long-term stability of measurement results

• High measurement precision and repeatability

• Easy installation thanks to threaded connection

Measuring principle

Oval wheel meters belong to the group of displacement flow meters. Defined partial volumes are transported and recorded in separate measuring chambers.

The measuring element consists of two precisely manufactured oval wheels that mesh with each other. These are driven by the flow of the medium and roll synchronously on top of each other. With each complete revolution of the oval wheel pair, a precisely determined volume of liquid is transported.

The number of rotations is therefore directly proportional to the amount of fluid that has flowed through. An integrated sensor detects the rotational movement of the oval wheels and converts it into a corresponding measurement signal.