The instrumentation includes temperature sensors, two differential water pressure sensors, a mechanical level sensor (float switch) and an electronic level sensor (conductivity). It includes a variable volume process tank, a hot water tank with electric heater and indirect heating/cooling coil, a hot water pump, two non-dedicated pumps, three on/off solenoid valves and a proportioning valve. This allows the configuration to be quickly changed, offering a wide variety of different loops. The inlets and outlets of the various pumps, valves and tanks incorporate self-sealing quick release fittings.
The contains everything that is needed to perform a range of single-loop process control experiments in conjunction with a PC.
A pressure regulating valve with filter is also included to isolate the equipment from fluctuations in the water supply pressure. The flexible nature of the system also allows for a wide variety of different disturbances to be applied to the loops to allow the effectiveness of the control parameters to be compared. As all these disturbances are under software control, they can be repeated precisely during the optimisation process, thus allowing an excellent degree of fine-tuning to be implemented.
....Students are expected to build the experiments on the base panel, where distance measurement are possible due to equidistant spaces between holes on this base panel.
Anodized aluminium structure.
Front Panel in painted steel.
The holes on the base panel are accurately spaced at 25 mm centres.
Support for the elements of the modules type.
The unit permits to demonstrate the difference in the braking torque between leading and trailing shoe braking systems and the effect on the braking torque of the different combinations of leading and trailing shoes. The Drum Brake System is particularly suitable for motor vehicle teaching. With this unit we can carry out studies and experiments to investigate the relationship between actuating forces and the braking torques and for the determination of the coefficient of friction between the brake lining and the drum. To have drum torque and braking load applied by weights hangers and cord.
There are available, as optional, shoes with full lining and shoe with adjustable lining to enable the students to carry out other experiments and investigations.
In order to carry out some of the practices with unit, 2 set of weights B type are required. Two shoes with brake linings are provided.
Introduction to sand casting: student experiments with 3 different patterns (bell, anvil and anchor).
Case for the study of foundry fundamentals.
The student will practice in first place with symmetrical pieces and after this with asymmetrical ones.
Operations of ramming up of the moulding sand, melting of the metal, pouring, forming and fettling can be performed step by step.
Training set in a case, containing:
Aluminum pattern plate.
Aluminum cope and drag box, screwable.
3 different plastic patterns:
The Anvil as a split, asymmetrical pattern demonstrates the shrinkage cavitation.
The Anchor, as a split, symmetrical pattern.
The bell as a natural or an one-piece pattern.
Rammer.
Bell clapper.
Bell mountings.
Small downgate and big downgate.
Pattern-draw tool.
Shovel.
Scraper.
Thermometer.
Soucepan.
Pencil brush.
Separating agent.
Lancet.
Brush.
All three nozzles have axial static pressure tappings allowing the approach, throat and divergent section pressures to be measured. The variation of pressure ratio and mass flow may be investigated for all three nozzles.
Two convergent-divergent nozzles of with the same throat diameter but different discharge area and a single convergent nozzle having the same diameter are supplied and fit in the common test section.
The Archimedes principle states: The magnitude of the force equals the weight of the fluid that the object displaces. An alternative method of measuring the buoyancy force is to measure the amount of fluid displaced when the object is floating in the fluid tank. The level before and after immersion is monitored using the integral scale on the outside of the fluid tank. Test object shapes are solid cylinder, cube, sphere and cone are supplied as standard, there are also three identical shapes that are made from different materials, these are aluminium, brass and steel. The change in position of the counter weight gives rise to a reduced moment thus indicating the magnitude of the buoyancy force being applied to the object. Each test object is water proofed to avoid inaccuracies of results and corrosion over time. When the test objects are suspended the moment lever arm is brought to the horizontal by moving the balance hanger and monitoring the small spirit level until level. When the test object is lowered into the fluid the counterweight is adjusted to bring the moment lever arm back to the horizontal. The fluid tank can be filled with water or another medium, i.e. anti-freeze, oil etc. The samples attach to the moment lever arm using a cord and lowered into the fluid tank by lowering the cord accordingly, a scale on the lever arm allows the user to also record the amount of distance the shape has been lowered.
....Features:
Quick loading of test specimen into test chimney measuring 450 × 75mm
Digital display of oxygen percentage in atmosphere during test (no calculations needed)
Compact design
Digital readout for oxygen concentration ± 0.1%
Oxygen cell for assessing accurate oxygen levels (<0.1%)
Digital display of temperature of gas mixture entering the test chimney
Sample holders for both rigid and flexible samples supplied
Compact unit for efficient use inside a laboratory hood, with ventilation
Automatic flow control gives oxygen level adjustment by turning one single valve
Shortened gas path for rapid response
The arm transmits the forceon the test model directly to a strain gauged load cell. The load cell is connected to a readout unit with a digital display, which is powered by adesktop power supply (included). A two-component balance which measures the lift and dragforces on models mounted in Subsonic Wind Tunnel. In addition, the equipment is fully compatiblewith Versatile Data Acquisition System and can quickly and conveniently connectto the frame mounting interface unit. The balance mechanism enablestest models with a rigid support arm to be mounted and held securely inposition in the working section of the wind tunnel. When mounted in the base of the wind tunnel working section, the balancemeasures the drag force only. This is useful for a variety of investigationssuch as wind loadings on tall buildings. To measure the lift and drag forces onmodels the balance mounts on the side of the working section of the windtunnel. The drag force is measured first, and then students rotate the balancemechanism through 90 degrees and repeat the test to measure the lift force. It can also be used to measure dragforces on model vehicles enabling students to determine and comparecoefficients of drag.
....The display measures up to four forces from sensors on many of the experiments inthe Structures range. A four-way selector switch selects the displayed force. The Digital Force Display fixes to a Structures Test Frame. This keeps the experiments tidy and saves space around the work area. Includes an output tothe Automatic Data Acquisition Unit. When used with the, the Digital Force Display outputs all four force signals at the same time to the Structures Software. The display automatically adjusts its range to the force.
....This series is also capable of both static tensile, compression tests and quasi-dynamic tests including low-cycle fatigue tests. This product is applicable to tension on metal bar, plate and threaded iron, or high speed wire rod, steel strand (related accessories required), tension on high strength, high hardness metals and compression on metals or concrete.
This product series features a bottom-mounted hydraulic cylinder; electrically adjusted test space, hydraulically powered automatic grip, and adjustable four-column main frame. It is competent to fulfill the requirements of application fields such as road, bridge construction, construction materials, quality control department, science and research department, iron forging, higher education, etc. The microchip controlled Electro-hydraulic servo universal testing machines is mainly designed for tension, compression, flexure, shear on metal, and non-metal materials.
This product is born with a refined structure that enables more steady loads and precise controls. The mechanical components collaborate with the pioneered modular Test Live computer testing software to ensure the stability, precision and reliability of the whole system. It adopts the leading high-performance Controller, which is usually equipped on high-end material testing machines.
The microchip controlled electro servo hydraulic horizontal tensile testing machine is mainly designed for tensile strength tests on anchor chain, hook, porcelain insulator, wire rope, stopper, electric cable, optical cable, overhead line, steel strand, slings, plastic woven sack, rods, ropes.
Functionalities like fast forward and fast backward are available from the piston. Tests on specimen are performed on the integrated central controlling panel. This product applies a horizontal frame structure. The main frame comprises frame structural component, grip fixating components, cylinder piston set, protective shield, transducers and etc. The pre-installed safety limit unit ensures the usage safety of this product.
The hydraulic system features a quick withdraw unit to promote efficiency.
Easy to set testing methods. Administrators may configure in a specific range of settings under related standards, pre-installed with two sets of testing schemas (standard testing schema and custom testing schema).
Highly automatic testing process. Capable of general functionalities including automatically aligning with zero, smooth continuous loading and un-loading, automatic sustaining. Capable of monitoring the whole testing process, automatic testing data measuring and processing, automatic testing curve displaying, automatic saving the source data and curves of tests.
A wide range of test projects are supported by the testing software perfect support for the latest mechanics performance testing standards on rubber bearing products.
Support for management permissions for various user types (Operator, administrator and engineer).
Highly user-friendly testing process. Operators may perform testing procedures according to system suggestions. Other interactions may retrieve testing state suggestions in time.
Electromechanically adjustable test space between upper and lower compression platen. Horizontal shear components are moveable electromechanically and easy to operate.
Multi-channel coordinative digital load control system makes it more convenient to perform tests.
Testing data automatic processing, one-click data calculation, automatic testing report obtaining and printing.
Integrated with a complete set of templates for shear tests from the The testing software supports displaying various categories of testing data, and drawing real-time common-type curves including load-time, displacement-time, deformation-time, load-displacement, load-strain, stress-strain and etc., as well as partial curve zooming in/out.
Rich and detailed help documentation installed in the test software. Contents including testing descriptions, operating procedures, cautions can be viewed or printed through the help system.
Integrated with travel limit protection and full scale overload protection.
Ministry of Transport of the Peoples Republic of China. Customizations are also supported to cater for users specific requirements.
The testing software is integrated with a complete and safe data storing system. Supports tracing history testing data, automatic test report generating and printing.
Length measurement accuracy 0.2mm Special Weight Length Minus Tolerance Measuring Test Equipment With High Precision.
Features:
Specially developed measurement control system, featuring a high speed processing unit and a performance of high stability and precision.
Safety barriers are installed at two sides of the working table to ensure the safety of operators.
Integrated with non-contact laser measurement, improving the precision and reliability of measurement data.
Completely automatic measurement process. Place the component on the V-shaped bearing, press the measure button, and the measurement instrument will complete the measurement quickly. The measurement data are directly retrieved, displayed and saved by computer software.
Integrated with safety barriers, travel limit protection and full scale protection.
Intuitive display of length and weight.
Support for saving, instant retrieving and inspecting measurement data.
Use ball screw, high accuracy
High coaxial degree.
Can set the depth and load
Special differential circuit, power and peripheral interface full isolation design, anti-interference ability
Through the special differential circuit with FPGA internal pure hardware high precision digital displacement device makes test results more accurate and reliable;
FPGA, Single Chip and with 100 m data processing speed to make sure data wont be missed
Collecting and processing data at the same time, Control stability efficient
7 inch TFT industry true color touch display, graphics beautiful, operating more humanization;
Electrical design satisfy EMC safety standards
Two way and a high precision AD collection, stamping load and clamping force is more exquisite,
limit position protection, full scale overload protection function.
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Capability of mechanics testing on various metal materials. e.g. Metal tension, compression, bend, shear, etc.
Capability of mechanics testing on various nonmetal materials. e.g. Wire tension, plastic bending, cable peeling, etc.
Domestically pioneered open-testing-method settings. Engineers may set up testing projects then operators may employ the projects for testing, greatly reduced the difficulty of the operations and the requirement in the skills and trainings of the operator.
Domestically pioneered process-oriented design of testing control. Provides users with intuitive testing control procedures and a wide range of instruction types. Also supports dynamic instruction parameter assignment.
Support for displaying a single curve of a specimen or the overlay of multiple curves.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Domestically pioneered highly efficient three-level operation model of testing data processing. Supports open testing data processing, appending custom testing data items and re-inspection of processed testing data.
Domestically pioneered open-testing-method settings. Engineers may set up testing projects then operators may employ the projects for testing, greatly reduced the difficulty of the operations and the requirement in the skills and trainings of the operator.
Domestically pioneered highly efficient three-level operation model of testing data processing. Supports open testing data processing, appending custom testing data items and re-inspection of processed testing data.
Dynamic display of load, displacement, time and real-time testing curve on the screen.
Support for compression tests on various metal or non-metal materials to inspect their mechanics performances.
Domestically pioneered process-oriented design of testing control. Provides users with intuitive testing control procedures and a wide range of instruction types. Also supports dynamic instruction parameter assignment.
Closed loop control of channels such as load, displacement, etc. Smooth switching in between.
Constant loading speed test supported.
Capable of holding on maximum load or displacement.
Characteristic testing data can be marked on testing graphs.
Capable of statistical operations on testing data .
Automatic requesting for testing result data, also capable of launching an advanced analysis to inspect the data.
High quality, easy to use control software ensures consistency and enhances throughput.
Ergonomically designed, no requirement for the operator to work at elevated heights or handle excessive physical loads.
Automated specimen loading provides compliance with cycle times required by test methods, while maintaining operator safety.
Very rigid base and anvils ensures very low flexure under high test loads.
Guided mass system to ensure that the impact geometry is correct throughout the entire test.
Regulating impact energy by adjusting the lifting height and mass of the weights.
Easily interchangeable contact parts simplify maintenance and reduce cost of ownership.
Equipped with the specimen-carrying outfit, anti-falling of outfit for the specimen, centering outfit to guarantee quick, accurate and reliable tests.
Very robust construction stands up to the rigour of high energy testing to provide high reliability with a minimum of downtime.
The buffer is equipped to absorb the residual energy after breaking the specimen to protect the weight and anvil from destroying. Also install the safe outfit, such as safety net, safe pin for main tenance and hanger locking.
Responsive life-time technical support
Optional liquid low temperature chamber.
Optional automatic specimen feeding system.
Internal electric and mechanical safety devices allow for supervised operation by students. Instrumentation to measure the water, air and exhaust temperatures, and flow rates of the cooling water, air and fuel. A hand held gas analyser supplied measures flue gas O2 content and also displays combustion efficiency, excess air, and CO2 content.
A frame mounted burner training unit comprising a 450 dia x 1000m cylindrical water-cooled stainless steel chamber in which either an oil or gas burner can be fired, and the flame observed through four 100mm dia windows.
Oil or Gas Burners up to 150kW can be used in the chamber.
Features:
High speed data acquisition card ensures the fast responding of dynamic controls and the precision of data sampling.
High frequency rapid closed- loop control featuring a complete set of dynamic controlling characteristics.
Stable sampling and controlling frequencies guarantees the precision of data and controls.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Electric components comply with the requirements of the EMC safety standard.
CPU + DSP dual core controlling unit. Slot structured bus, convenient to extend, demonstrating excellent dynamic performance.
Max capacity 1000 Nm
Max thread of friction torque 800 Nm
Torque measurement range 20 Nm ~1000 Nm
Torque accuracy ±1%
Torque resolution ±500000 yard,whole resolution unchanged
Max clamp force 300 kN
Clamp force accuracy ±0.5%
Clamp force measurement range 3 kN ~300 kN
Clamp force resolution ±500000 yard,whole resolution unchanged
Torsional angle accuracy ±1%
Torsional angle measurement resolution 0.025°
Max torsion speed 15 r/min
Torsion speed accuracy ±1%
Torsion direction Positive and negative two directions
Max test length of fasteners 300mm
Power supply 2.5Kw/ AC220v/50Hz
Frame dimensions 2000mm×600mm×1200mm
Weight 860kg