IEC 61009-1 Mechanical Shock Testing Machines For MCB Impact Resistance Testing

IEC 61009-1 Mechanical Shock Testing Machines For MCB Impact Resistance Testing

Product Information:

The test equipment conforms to the standard requirements of IEC 61009-1:2012, IEC60898-1:2015, etc.

It is used for circuit breaker product testing to verify the impact resistance of exposed parts of circuit breakers that may be subjected to mechanical shocks during normal use.

Test principle: Lift the mounting plate with the circuit breaker through the motor control cam, and instantly drop freely to the metal stop plate equipped with the coil spring with an elastic coefficient of 25N/mm. Reciprocate 50 times in this way, and the sample switches the other three 90-degree directions through the turntable and repeats the test 50 times.

Features: 1. PLC control, touch screen operation, servo motor drive, precise control.

2. The drop height is determined by the eccentric distance of the cam, without deviation.

3. Adopt Yiheda customized elastic coefficient helical spring.

4. The turntable can be rotated 4-90°, which really simulates the impact resistance test of the circuit breaker in all directions.

Features:

A mechanical shock tester, also known as a shock test machine or shock testing equipment, is a specialized apparatus used to subject products, components, or materials to controlled mechanical shocks or impacts. The purpose of this testing is to evaluate the ability of the test specimen to withstand and resist sudden, high-intensity forces that may occur during transportation, handling, or operational conditions. Here are the key features and functions typically associated with a mechanical shock tester:

Drop or Impact Platform: The mechanical shock tester includes a drop or impact platform where the test specimen is placed for testing. The platform is designed to provide a controlled and repeatable means of delivering mechanical shocks or impacts to the specimen.

Shock Generation Mechanism: The tester incorporates a mechanism to generate shocks or impacts. This mechanism can vary depending on the specific design of the tester and may include methods such as pneumatic systems, spring-loaded mechanisms, or electromagnetic actuators. It allows for precise control over the intensity and duration of the shock or impact.

Acceleration Measurement: The tester is equipped with sensors or accelerometers to measure the acceleration or g-forces experienced by the test specimen during the shock event. These measurements provide quantitative data on the impact severity and allow for the comparison of different test specimens or test conditions.

Shock Pulse Control: Mechanical shock testers often offer control over the shape and duration of the shock pulse. This control allows for the simulation of specific shock profiles or waveforms that mimic real-world scenarios or industry standards. It ensures that the testing accurately represents the expected shock events that the specimen may encounter.

Test Specimen Fixturing: The shock tester incorporates fixtures or mounting mechanisms to securely hold the test specimen in place during testing. These fixtures ensure that the specimen is properly positioned and oriented to receive the desired shock or impact forces.

Safety Features: Safety measures are implemented in mechanical shock testers to protect both the operators and the equipment. These features may include safety enclosures, interlocks, emergency stop buttons, and damping systems to mitigate the effects of the shock waves.

Compliance with Standards: Mechanical shock testers are designed to comply with industry standards and testing protocols, such as those specified by ASTM (American Society for Testing and Materials) or IEC (International Electrotechnical Commission). Compliance ensures that the testing process and results are consistent and comparable across different testing laboratories.

Mechanical shock testers are widely used in various industries, including electronics, automotive, aerospace, and packaging. They help manufacturers assess the durability and reliability of their products under impact conditions, identify weak points or potential failures, and improve product design and packaging to ensure safe transportation and operation.

Technical Parameters:

Sinuo is an innovation manufacturing company, specializing in the research and development and sales of laboratory construction and testing equipment for electrical appliances (covering the construction of energy efficiency and performance laboratories, as well as supplementary waterproof testing laboratories, materials flame-retardant laboratories, basic general testing equipment, etc.), Sinuo aims to provide clients with complete laboratory construction, system integration, R&D, rectification and after-sales service, and strive to be the leader of one-stop service for laboratory construction in the field of electrical appliance testing.

Sinuo products are composed of all kinds of testing equipments as per standards of IEC/ BS/ EN/VDE/UL/ ISO..., such as household appliances testing equipment, energy efficient testing laboratories and comprehensive performance test system for household appliances, battery testing equipment, automotive testing equipment, luminaries testing equipment,IP code testing equipment, environmental test chamber, flammability test chambers, EMC testing equipment and etc.

Sinuo employees include a highly trained staff of engineers for sales and service, that are committed to offer satisfactory products and prompt service to all home and abroad customers.

Sinuo cooperate with many research institutions and schools to enable our techincal capacities. Sinuo has two own factories, one is in Guangzhou, the other is in Dongguan, and authorized agents and representative offices in Korea, South Africa, Egypt,Pakistan and Philippines.

Sinuo combines all the R/D and production advantages, contributes to provide perfect, high-end and systematic electrical appliance testing laboratory solutions, products and services for corporate customers, universities and third-party laboratories. Our clients include Bureau Veritas, CSA, Intertek, TUV Rehiland, TUV SUD, SGS, etc.