The IK spring impact hammer is a tool used to test the protection level of electrical equipment enclosures. According to the International Electrotechnical Commission (IEC) standards, the IK level system is classified based on the degree of impact the equipment can withstand. This article will analyze in detail the IK level impact test standard for the IK spring impact hammer.

I. Definition of IK Level

IK level refers to the degree of impact the equipment enclosure can withstand during testing. There are a total of 11 levels from 0 to 10, with higher numbers indicating higher impact resistance of the equipment.

II. IK Level Testing

The IK level testing of the IK spring impact hammer consists of two parts: impact test and rating. The impact test evaluates the ability of the equipment enclosure to withstand impact by using the IK spring impact hammer. The rating assigns the equipment to the appropriate IK level based on the results of the impact test.

III. Impact Test

The IK level impact test is conducted in a laboratory by using the IK spring impact hammer to impact the equipment enclosure. The impact hammer consists of a hammer head and a spring. The spring is used to control the impact force of the hammer head to ensure consistency ofthe test.

In the impact test, the equipment enclosure is placed on a specific holder to ensure its stability. The impact hammer impacts the equipment at different speeds and angles. The process and parameters of the impact test are determined according to the IK level standard specification.

IV. Rating

After completing the impact test, the equipment enclosure is assigned to the appropriate IK level based on its performance.

There are 11 IK levels from 0 to 10, each with different requirements for impact energy. Level 0 indicates that the equipment does not have any impact protection capability, while level 10 indicates that the equipment has the highest level of impact protection capability.

The rating process involves analyzing the enclosure and comparing the test results. The performance of the enclosure typically includes changes in appearance, fractures, displacement of protrusions, etc. Comparing the test results requires comparing the impact energy in the impact test with the specified impact energy in the IK level standard.

If the equipment enclosure does not show any damage or deformation during the impact test, and the impact energy meets the requirements of a specific level, then the equipment can be rated at that level.

V. Significance of IK Level

The IK level determines the level of protection of the equipment enclosure and can help users choose the appropriate equipment for theirneeds. Different application scenarios and environments have different requirements for equipment protection, and the IK level can help users understand the impact resistance performance of the equipment.

For example, when installing equipment outdoors, a higher IK level may be required to resist strong winds, rain, and other adverse weather conditions. In indoor environments, a lower IK level may already be sufficient to protect the equipment from normal impacts and collisions.

The IK level also serves as a symbol of equipment quality, as a higher IK level generally indicates better material and manufacturing quality of the equipment.

The IK level impact test standard for the IK spring impact hammer is an important standard for testing the protection level of electrical equipment enclosures. Through the impact test and rating, the impact resistance performance of the equipment can be determined and assigned to the appropriate IK level. The significance of the IK level lies in helping users choose the right equipment for their needs and providing a symbol of equipment quality. Whether indoors or outdoors, understanding the IK level of the equipment can ensure that it has sufficient protection in specific environments and prolong its service life.

IK01-06 Spring Impact Hammer is used to simulate the mechanical impact that the tested product may encounter in normal use, so as to check the ability of the tested product shell to withstand mechanical impact. It is suitable for mechanical strength test of enclosures, operating levers, handles, knobs, indicator lights, signal lights and lamp shades of accessories such as household and similar lighting fixtures, household appliances, and electronic products to ensure that the tested products can withstand possible reckless operations. and other accidents, so that the tested product can operate normally and safely and reliably.

Lisun Instruments Limited was found by LISUN GROUP in 2003. LISUN quality system has been strictly certified by ISO9001:2015. As a CIE Membership, LISUN products are designed based on CIE, IEC and other international or national standards. All products passed CE certificate and authenticated by the third party lab.

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