KRD11 Pneumatic Vertical Shock Test Machine

KRD11 is a fully automatic pneumatic shock test machine. It is vertical shock test equipment with a novel design, high degree of automation, simple operation, and convenient maintenance. It is used to measure and determine the impact resistance of products or packaging and assess the functional reliability and structural integrity of the test product in a shock environment. KRD11 series pneumatic shock test system meets the requirements of both shock and bumps test, shock testing waveform including conventional half-sine wave, post-peak sawtooth wave, trapezoid wave, to realize the shock wave and shock energy that the product is subjected to in the actual environment, thereby improving the system or optimizing the structure of the product. This equipment meets standards of IEC68-2-27, MIL-STD-202, MIL-STD-750, MIL-STD-810, MIL-STD-883, etc.

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FEATURES OF KRD11 PNEUMATIC VERTICAL SHOCK TEST MACHINE

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Pneumatic drive, simple structure and high reliability, without hydraulic leak risk.

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Pollution free, without hydraulic leak risk and keep the environment clean.

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Pneumatic drive greatly improves the shock test efficiency, maximum shock rate up to 120 times / min.

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Impact testing for small pulse lower to 0.3ms.

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Shock testing machine with high acceleration is up to 3000g.

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It can easily realize large shock pulse width and small overload test.

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With a fast shock rate comparing to motor or hydraulic driven collision-bump table, it has higher reliability and better collision-bump waveform.

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The speed and rate of shock can be easily controlled by adjusting the gas pressure.

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IPS-2000 shock control and measurement system can perform manual shock, continuous shock (bump test), single shock, and interval shock.

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Built-in brake mechanism ensures the safety of operation in any situation.

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TABLE OF KRD11 PNEUMATIC VERTICAL SHOCK TEST MACHINE

The test sample is installed on the worktable, which is guided by two high-precision sliding guides and can move up and down. The two cylinders are connected to the worktable by sliding guides. When the cylinders are inflated, the piston rod rises to drive the worktable to lift. The workbench is lifted. When it is raised to the set height, the cylinder quickly deflates, and the bottom surface of the worktable hits the waveform generator to complete a shock process.

By adjusting the rising height of the worktable, different initial shock speeds can be obtained, and thus different shock overload values can be obtained; while changing the stiffness of the waveform generator, different pulse width values can be obtained. The structure schematic diagram is shown in following figure:

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