Hydraulic universal testing machine
Application
Hydraulic Compression Testing Machine
1 Host
The main engine adopts the lower cylinder type main engine, the stretching space is located above the main engine, and the compression and bending test space is located between the lower beam and the workbench of the main engine.
2 Drive System
The lifting of the middle beam adopts the motor driven by the sprocket to rotate the lead screw, adjust the space position of the middle beam, and realize the adjustment of the stretching and compression space.
3. Electrical measurement and control system:
(1) Servo control oil source core components are imported original components, stable performance.
(2) With overload, overcurrent, overvoltage, displacement up and down limits and emergency stop and other protection functions.
(3) The built-in controller based on PCI technology ensures that the testing machine can realize the closed-loop control of test force, sample deformation and beam displacement and other parameters, and can realize the constant velocity test force, constant velocity displacement, constant velocity strain, constant velocity load cycle, constant velocity deformation cycle and other tests. Smooth switching between various control modes.
(4) At the end of the test, you can manually or automatically return to the initial position of the test at high speed.
(5) With a network transmission interface, data transmission, storage, printing records and network transmission printing, can be connected with the enterprise internal LAN or Internet network.
Technical Parameter
Hydraulic Testing Machine
Model |
KS-WL500 |
Maximum test force (KN) | 500/1000/2000 (customizable) |
Relative error of test force indication value | ≤ ±1% of the indicated value |
Test force measurement range | 2%~100% of the maximum test force |
Constant velocity stress control range (N/mm2·S-1) | 2~60 |
Constant velocity strain control range | 0.00025/s~0.0025/s |
Constant displacement control range (mm/min) | 0.5~50 |
Clamping mode | hydraulic tightening |
Clamp thickness range of round specimen (mm) | Φ15~Φ70 |
Clamp thickness range of flat specimen (mm) | 0~60 |
Maximum tensile test space ( mm) | 800 |
Maximum compression test space (mm) | 750 |
Control cabinet dimensions (mm) | 1100×620×850 |
Mainframe machine dimensions (mm) | 1200×800×2800 |
Motor power (KW) | 2.3 |
Main machine weight (KG) | 4000 |
Maximum piston stroke (mm) | 200 |
Piston maximum moving speed (mm/min) | About 65 |
Test space adjustment speed (mm/min) | About 150 |