Computer Interfaced Fluid Machines

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Computer Interfaced Fluid Machines Specification

Voltage
230 V

Feature
Data Logging, Graphical Display, Real Time Monitoring

Model No
FM-310C

Temperature Range
Ambient to 80C

Accuracy
1% of Reading

Power Source
AC Electric

Frequency
50 Hz

Capacity
10 L/min

Automation Grade
Fully Automatic

Measurement Range
0.110 L/min

Core Components
Pump, Digital Flow Sensor, Reservoir Tank, Valves, Piping, Computer Interface

Equipment Materials
SS304 Stainless Steel, Borosilicate Glass, Acrylic Panels

Type
Fluid Machinery Laboratory Apparatus

Usage
Educational Laboratory, Research, Fluid Mechanics Experiments

Display Type
Digital Display with Computer Interface

Dimension (L*W*H)
1200 x 650 x 900 mm

Weight
Approx. 60 kg

Computer Interfaced Fluid Machines Trade Information

Payment Terms
Cash on Delivery (COD), Days after Acceptance (DA), Delivery Point (DP), Letter of Credit (L/C), Letter of Credit at Sight (Sight L/C), Cash Against Delivery (CAD), Telegraphic Transfer (T/T), Cash in Advance (CID), Cheque, Cash Advance (CA)

Delivery Time
2 Week

Sample Available
Yes

Sample Policy
If order is confirmed we will reimburse the sample cost

Main Export Market(s)
Western Europe, Central America, Eastern Europe, Australia, Middle East, South America, Asia, North America, Africa

Main Domestic Market
South India, North India, East India, Andhra Pradesh, Assam, Arunachal Pradesh, Bihar, Chandigarh, Delhi, Gujarat, Goa, Haryana, Jammu and Kashmir, Jharkhand, Karnataka, Kerala, Madhya Pradesh, Maharashtra, Mizoram, Meghalaya, Manipur, Punjab, Pondicherry, Rajasthan, Sikkim, Tamil Nadu, Telangana, Tripura, Nagaland, Himachal Pradesh, Andaman and Nicobar Islands, Daman and Diu, Uttarakhand, Dadra and Nagar Haveli, Lakshadweep, Uttar Pradesh, Central India, Odisha, West India, Chhattisgarh, All India

Certifications
AS ISO 9001:2008, ISO 14001:2004 and OHSAS 18001:2007 CO.

About Computer Interfaced Fluid Machines

COMPUTER INTERFACED FLUID MACHINES

Edutek are leading manufacturer and Exporter of Computer Interfaced Fluid Machines for mechanical Engineering College Students.

Interface system conditions the raw data from the sensors, digitizes the data and transfers it to the computer using the USB interface.
It also include a sophisticated three phase inverter for providing accurate motor speed control, and a second motor drive output, all under software control.
Both 32 and 64 bit computer operating systems.
Connects to FM equipment sensors via a single multi-way connector.
3-phase mains output with variable frequency for accurate motor speed control.
Sensorless vector motor drive to measure motor torque.
Automatic slip compensation to maintain constant speed.
Secondary mains output, switched under software control.
Interface driver enables linking to other software packages.

Robust Design for Laboratory Use

Constructed with SS304 stainless steel, borosilicate glass, and acrylic panels, the FM-310C is built for both durability and safety in educational and research labs. The equipment features a benchtop footprint, anti-vibration rubber feet for noise control, and operates quietly below 60 dB, ensuring minimal disruption during experiments.

Advanced Control and Data Acquisition

Experience seamless control through a touch/switch panel with clear indicators and a digital display. The included analysis suite offers data logging, graphical displays, and real-time measurements via USB or serial PC interface, enhancing experiment accuracy and enabling in-depth research analysis.

Comprehensive Safety and Practical Features

Enjoy peace of mind with integrated overload protection and an emergency stop. The FM-310C operates reliably in ambient temperatures from 10C to 40C and up to 80C fluid temperatures. The apparatus is easy to assemble, requires simple installation, and provides stable continuous or intermittent operation for versatile testing requirements.

FAQs of Computer Interfaced Fluid Machines:

Q: How do I connect the FM-310C Fluid Machinery Apparatus to my PC?

A: You can connect the FM-310C to your PC using a USB or serial port. The included data acquisition and analysis software is compatible with Windows 7, 8, and 10, allowing for straightforward integration and real-time monitoring of experiments.

Q: What test fluids can be used with this centrifugal pump apparatus?

A: The apparatus is designed for use with water and light viscosity oils, giving flexibility for a wide range of fluid mechanics experiments and performance studies in educational or research settings.

Q: When should the overload protection and emergency stop features be used?

A: Overload protection automatically safeguards the equipment against excessive loads, prolonging its lifespan. The emergency stop should be used immediately in any unsafe or unexpected situation to quickly halt the system.

Q: Where can this apparatus be installed and how easy is its setup?

A: The FM-310C is a benchtop unit and is designed for quick, straightforward installation. Its anti-vibration feet allow it to be stably mounted on laboratory benches without specialized foundations.

Q: What measurement and control features are provided for experiment monitoring?

A: The system includes a digital display, pressure range up to 5 bar, flow range from 0.110 L/min, and computer interface for real-time monitoring. Operation can be adjusted for speed, mode (continuous/intermittent), and monitored via on-screen indicators or software.

Q: How does the included software aid in experimental research and analysis?

A: The provided software suite enables comprehensive data acquisition, logging, graphical representation, and real-time display of experiment parameters, enhancing analysis and simplifying documentation for students and researchers.

Q: What are the main benefits of using the FM-310C in an educational laboratory or research environment?

A: Users benefit from precise measurement capabilities, automation, high safety standards, robust construction, and user-friendly operation, making it ideal for hands-on learning, demonstrations, and advanced fluid mechanics research.

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