MULTICOR® R 450 - Feeding of Powdered Materials and Meal0 pages
MULTICOR®-R Coriolis Mass Flow Rate Measuring Devices
Continuous Mass Flow Rate Measurement Based on the Coriolis Principle
Non-Sensitive, Highly Accurate
Measuring Principle
Rapid Metered Value Recording and
High Control Quality
Compact Construction
Inexpensive, Simple Integration
Dustproof Housing
Application
Construction
®
The MULTICOR -R Coriolis mass flow
rate measuring device is a closed
measuring system for the continuous
recording of delivery volume and feed
®
rate. The MULTICOR -R measuring
devices are suitable for:
measuring throughput and consumption;
the balancing, and
batching
of moderate- to well-flowing bulk goods.
The measuring devices can also be
used as feed systems if connected to an
adjustable prefeeder (e.g. valve, roller or
screw).
The MULTICOR®-R series offers solutions for many applications:
MULTICOR®-R
Gravity-driven feeding in processes
BV-D2317GB
®
A MULTICOR -R Coriolis mass flow rate
measuring device consists of:
Dust-proof housing of coated mild
steel or of high-grade steel
Measuring wheel with guide blades
Weighing module with wireless data
transmission
Cable box
AC geared motor (three-phase current)
All components which come into contact
with the bulk materials can be supplied
in stainless steel.
The flanged inlet connections for mounting on the on-site inlet is designed with a
Jacob pipe connection, smooth pipe end
and flexible connection.
The outlet cone is equipped with a
flexible connection for attachment to the
on-site feed line.
The weighing module can withstand bulk
good temperatures of up to 60° C. For
bulk good temperatures of up to 110°C
the device can be equipped with a
cooling fan that switches on as necessary.
Function
®
MULTICOR -R measuring devices use
the Coriolis force measurement principle
to determine mass flow rate. The flow of
bulk material to be measured impinges
on a measuring wheel within the device
rotating at a constant rotational speed.
The bulk material is collected by the
blades of the measuring wheel and is
accelerated to its circumferential speed.
A moment of torque is required for
acceleration that corresponds exactly to
the feed rate. The moment of torque is
measured with a measuring module
integrated directly into the drive line and
is converted into an electrical signal. A
wireless Bluetooth module transmits the
data.
The measurement is performed independently of the mechanical characteristics of the bulk material, such as grain
spectrum, flow behavior, moistness and
temperature.
Bulk material friction on the measuring
wheel and alterations in the speed of the
bulk material flow in the measuring
device have no effect on the measuring
signal.