WDW-T100 microcomputer controlled electronic universal testing machine

Product Name: WDW-T100 Microcomputer Controlled Electronic Universal Testing Machine

Listing time: January 22, 2014

Brand Name: Era

Pre sales consultation:

Product advantages:

•National Silver Award for Testing Machines

•National Enterprise Technology Center

•National Postdoctoral Mobile Station

•National anti-static automated circuit board production line

Enterprise advantages:

•Certified according to ISO-9000 standard

•National advanced testing machine manufacturing base (68000 square meters)

•High export volume of testing machines

The WDW-T100 microcomputer controlled electronic universal testing machine is a new type of precision mechanical testing equipment. The testing machine adopts a desktop structure and can be placed on a simple workbench. The host is driven by a servo motor to load and achieve the up and down movement of the crossbeam, completing mechanical performance tests such as tensile, compressive, shear, and puncture of metal and non-metal materials.

The WDW-T100 microcomputer controlled electronic universal testing machine adopts F020 and F038 controllers in terms of control, installed in the electrical control cabinet hanging on the right side of the host. Through it, the control cabinet and computer can independently control the testing operation of the host. The control cabinet adopts a LCD display screen, and the test data can be displayed in real time on the screen during the testing process.

The WDW-T100 microcomputer controlled electronic universal testing machine can be widely used for mechanical property tests such as tensile, compressive, and bending of metallic and non-metallic materials. Equipped with a wide variety of attachments, it can also be used for mechanical performance testing of profiles and components. In the field of testing materials such as ropes, belts, wires, rubber, plastics, etc. with large sample deformation and fast testing speed, they also have a very wide range of application prospects.

In addition, the host can be equipped with a protective door on the outside, which is integrated and not only has a beautiful appearance, but also is sturdy and durable; The ongoing material testing can automatically pause or stop and restart when the protective door is opened and closed.

1. Host structure:

Single sensor, single space, four column desktop structure, the whole machine operation conforms to ergonomics, and the clamping of samples is convenient and labor-saving.

2. Processing of key components:

The key components are all processed using large machining centers imported from Japan, and are equipped with seamless precision bead wire transmission, effectively ensuring the accuracy and durability of the testing machine.

3. Aluminum alloy appearance:

Adopting an integrated aluminum alloy outer cover, the surface is coated with sand surface spraying technology, making the outer cover not easily deformed and durable.

4. Host rack:

The four column structure ensures sufficient rigidity of the host, and imported reducers are used for deceleration, which have high transmission efficiency, low noise, and fast return speed. In addition, the extremely small backlash between the teeth of the imported reducers ensures zero error in the entire machine's forward and backward movements, ensuring the displacement accuracy of the entire machine.

5. Fixtures:

Easy to operate, specialized fixtures for holding reliable materials

6. F038 control cabinet:

The electrical part adopts the method of using a control cabinet, so that all electrical components are placed inside the control cabinet and hung on the right side of the host. The control cabinet is equipped with an F038 LCD controller, which is not only more beautiful, but also more convenient to operate.

7. Test force measuring device:

Adopting high stability and precision strain type force sensors (imported from the United States) to ensure that the error limit of the test force indication is within ± 0.5%, multiple sensors can be used simultaneously to achieve a wide range of test force measurement.

8. Control the transmission system:

We use imported fully digital AC servo motors to control high-precision and high response frequency AC servo motors, ensuring high efficiency, low noise, and smooth transmission of the transmission system, and ensuring that the allowable error limit of speed indication is within ± 0.2%.

9. Microcomputer control system:

The perfect application of virtual instrument technology enables the "real" display of experimental force, deformation, experimental curve, and all buttons required for human-computer interaction operations on the screen, and all operations can be completed with just one mouse.

10. Touching the Original Controller:

Touching the unique controller, it perfectly achieves the highest level of closed-loop control function for the testing machine.