Leading Manufacturers, Exporters, Wholesaler, Retailer and Trader of Digital Gas Flow Meters, Electromagnetic Flow Meters, Oval Gear Flow Meter, Turbine Flow Meters, Glass Tube Rotameters, Ultrasonic Flow Meters, Mechanical Oil Flow Meter, Spherical Flow Meter and Vortex Flow Meter from Mumbai.
The DIGITAL FLOW METER is based on the classical method viz. Soap film method. The instrument is automated by using Microcontroller which provides highly accurate measurement and direct digital read out of gas flow rate. The time required for the soap film to pass through a fixed known volume is measured. The soap film is sensed by IR sensors. When the soap film passes through first sensor, it activates the timer of Microcontroller. Timer is stopped when the film crosses the second sensor. The flow rate is then calculated by Microcontroller and instantly displayed in ml/min. Where as DFM-05 & DFM-06 are direct flow measurement based & battery operated.
Salient Features :
Direct Digital Readout
Digital Display of LED/LCD
Highly Accurate and fast readout
Useful for measuring any gas flow rate specially for G.C. & Analytical Instruments.
The electromagnetic flow meter accurately measures the flow rate of any conducting liquid or slurry that is flowing in closed pipes. It is obstruction less and hence offers no pressure drop in the process. Absence of moving parts ensures that there is no need for maintenance. The performance of the instrument is not affected by the properties of the material such as corrosiveness, viscosity, density, acidity and alkalinity. It can measure the flow of liquids, pastes and slurries in water, wastewater. Suitable for chemical, fertilizer, paper, dairy, sugar, food and beverage industries.
MYKO Electronics Turbine Flow Meters are useful for liquids & gases in general industrial application. They provide excellent performance with quality & reliability. Suitable for as hygienic application. The flowing media engages a vaned rotor causing it to rotate at an angular velocity proportional to flow rate. The pick -of coil senses the spinning motion of the rotor inside the pipe & converts it into a pulsating electrical signal. Summation of the pulsating electrical signal is directly related to the total flow. The frequency is linearly proportional to flow rate which is converted to mA signal by electronic circuitry. Flow rate Indicator/Totalizer/Transmitter and Controllers are available in Local/Remote and Panel Mounted Options.
Myko developed and produced Spherical rotor Positive displacement flow sensor specially for replace oval gear flow sensor at some application where liquid is not pure and require easy and low weight flow meter.
Spherical flow meters are positive displacement meters with a very favorable low pressure drop behavior. therefore perfectly suited for the flow measurement of very high viscosity fluids.
Due to wide measuring ranges, high accuracy and resolution helical flow meters are an excellent choice for laminating systems, painting systems, adhesive dispense systems, as well as batching systems for various fluids.
Pressure: up to 400 bar , special range up to 1500 bar
Independent of viscosity, perfect for 1 to 106 mm²/s
Low pressure drop compared with other positive displacement meters
Pulsation-free measurement, non-sensitive to pulsating flows
Resistant to corrosion by advanced materials and bearings
Polyurethane and polymer
Light and heavy fuel oil
Fat and oils with varying viscosities
Hydraulics Test rigs with varying viscosities and fluids
Water / glycol mixtures
Crude oil, furnace oil, and all viscous liquid even viscosity change with Temperature
Very good for WATER atm, water dispensing, tea/coffee/wine/juce and other food liquid measurement and dispensing
MYKO Vortex Flow Meter bases on vortex street Principal for detection and metering the Liquid, Gas and Steam. It is widely used in Petroleum, chemical, metallurgy, heat supply industry, etc.
One triangular prism vortex generator in the flow meter, regular vortex will be generated at both the sides of triangular prism, which is called Karman swirl. Suppose the vortex generation frequency is f, the average flow velocity of medium is V, d is the width of the surface of triangular prism incident flow, Then we get the computation formula.
Pure liquids and hydrocarbon with low viscosity (< 10 cP)