IK Testing Equipment Manufacturer
BONAD provides IK testing equipment for mechanical impact resistance testing of electrical enclosures, household appliances, lighting products, switches, sockets, control boxes and electronic product housings. Our solutions include spring impact hammers, pendulum impact hammer testers, vertical hammer impact testers and calibration equipment.
Impact Testing Solutions
Complete IK Impact Test Equipment for Laboratory and Production Testing
IK testing equipment is used to evaluate the mechanical strength and impact resistance of product enclosures and components. By applying a specified impact energy to the test sample, manufacturers and laboratories can verify whether the product maintains its safety performance and protective function after impact.
Spring Impact Test
Suitable for low-energy impact tests on appliances, switches, sockets, lamps, handles, knobs and small electronic enclosures.
Pendulum Impact Test
Designed for mechanical strength testing where a pendulum impact method is required for electrical accessories and similar products.
Vertical Hammer Test
Suitable for higher-energy free-fall impact testing of electrical enclosures, large samples and protective housings.
Recommended Products for IEC 60068-2-75 Impact Testing
Choose from adjustable spring impact hammers, fixed-energy spring hammers, pendulum impact hammer test equipment, vertical hammer impact testers and spring impact hammer calibration equipment.
IEC60068-2-75 0.14J–1J Adjustable Universal Energy Spring Impact Hammer
Adjustable universal energy spring impact hammer for low-energy IK impact testing and mechanical strength verification.
IEC60068-2-75 0.14J to 1.0J Spring Operated Impact Hammer
Spring operated impact hammer for fixed-energy mechanical impact testing of electrical and electronic product enclosures.
IEC60068-2-75 Pendulum Impact Hammer Test Equipment
Pendulum impact hammer test equipment for mechanical strength testing of electrical accessories and similar products.
IEC60068-2-75 IK Vertical Hammer Impact Tester
Vertical free-fall hammer impact tester for higher-energy IK impact resistance testing of electrical enclosures and larger samples.
IEC60068-2-75 Spring Impact Hammer Calibration Equipment
Calibration equipment for checking and verifying spring impact hammer output energy. Suitable for laboratories and manufacturers that need accurate and consistent impact test results.
IK Rating and Impact Energy Reference
IK ratings indicate the degree of protection provided by enclosures against external mechanical impacts. The table below helps users match the required impact energy with suitable IK testing equipment.
| IK Rating | Impact Energy | Recommended Equipment |
|---|---|---|
| IK01 | 0.14J | Spring Impact Hammer |
| IK02 | 0.20J | Spring Impact Hammer |
| IK03 | 0.35J | Spring Impact Hammer |
| IK04 | 0.50J | Spring Impact Hammer |
| IK05 | 0.70J | Spring Impact Hammer |
| IK06 | 1J | Adjustable Spring Impact Hammer |
| IK07 | 2J | Spring Impact Hammer / Pendulum Impact Hammer / Vertical Hammer Tester |
| IK08 | 5J | Vertical Hammer Impact Tester |
| IK09 | 10J | Vertical Hammer Impact Tester |
| IK10 | 20J | Vertical Hammer Impact Tester |
| Extended / Custom | 50J | Vertical Hammer Impact Tester for customized high-energy impact testing |
Note: Standard IK ratings are commonly listed up to IK10. Higher impact energy such as 50J can be configured for customized or extended high-energy impact testing requirements.
Engineering Features for Repeatable IK Impact Testing
For testing laboratories and quality control teams, repeatability, impact energy stability and sample protection are critical when selecting IK testing equipment. BONAD impact test systems are designed to support stable, repeatable and controlled mechanical impact testing.
Anti-Rebound Capture Structure
BONAD vertical hammer and pendulum impact testers can be equipped with pneumatic or electromagnetic capture structures to help prevent secondary rebound impact after the first strike. This helps reduce repeated sample damage and test result distortion.
Low-Friction Guide Design
The vertical guide tube, guide rail and release structure are designed to reduce friction during impact movement, helping the actual released energy remain close to the theoretical impact energy required by the test level.
Stable Release and Calibration Support
Manual, pneumatic or electromagnetic release options can be selected according to the test method. Spring impact hammer calibration equipment is also available to help laboratories maintain consistent test conditions.
Compare IK Testing Equipment Types
Different IK impact testing methods require different equipment types. The table below helps you select the right solution according to impact method, energy range and sample application.
| Equipment Type | Typical Application | Energy Range | Recommended Use |
|---|---|---|---|
| Adjustable Spring Impact Hammer | Low-energy IK testing for appliances, lighting products, switches and housings | 0.14J–1J | IK01–IK06 testing |
| Spring Operated Impact Hammer | Fixed-energy mechanical impact testing | 0.14J–2J | Repeatable standard energy testing |
| Pendulum Impact Hammer Tester | Plugs, sockets, switches, covers, lamps and wall-mounted boxes | 0.14J–2J | Pendulum impact method |
| IK Vertical Hammer Impact Tester | Electrical enclosures, larger samples and higher-energy impact testing | 1J–50J | Vertical free-fall impact testing |
| Spring Hammer Calibration Equipment | Spring impact hammer calibration and verification | 0J–2J | Laboratory calibration support |
How to Choose the Right IK Testing Equipment
The right IK impact testing solution depends on the required impact energy, test method, product structure, sample size and laboratory workflow.
Choose a spring impact hammer for low-energy IK tests
Recommended for IK01 to IK06 testing, household appliances, lighting products, switches, knobs, handles and small electrical enclosures.
Choose a pendulum impact tester for pendulum impact methods
Suitable for plugs, sockets, switches, covers, wall-mounted boxes, lamps and electrical accessories.
Choose a vertical hammer tester for higher impact energy
Recommended for larger electrical enclosures, protective housings and free-fall impact testing.
Choose calibration equipment for spring hammer verification
Regular calibration helps maintain accurate and consistent impact energy output during testing.
Industry Standards and Application Areas
IK impact testing is commonly required in electrical safety, enclosure protection, lighting, appliance and outdoor equipment testing. The following standards and application areas are frequently considered by laboratories and manufacturers.
| Industry | Common Standard Reference | Typical Test Samples |
|---|---|---|
| General Electrical Enclosures | IEC 62262 / IEC 60068-2-75 | Control boxes, distribution boxes, outdoor enclosures and protective covers |
| Lighting | IEC 60598-1 | LED luminaires, outdoor lamps, lamp covers and street lighting housings |
| Household Appliances | IEC 60335-1 | Appliance housings, handles, covers, knobs, panels and protective parts |
| Automotive and EV Components | IEC 62262 / IEC 60068-2-75 for IK impact testing; ISO 20653 for automotive IP protection testing | Charging pile enclosures, EV battery pack housings, automotive electronic boxes and outdoor connectors |
Custom IK Testing Equipment for Non-Standard Samples
Many laboratories and manufacturers need to test large, heavy or irregularly shaped samples. BONAD can provide customized IK impact testing configurations according to sample size, impact position, fixture requirements and laboratory layout.
Large Sample Test Frames
Vertical hammer and pendulum impact testers can be customized with higher, wider or reinforced frames for large electrical cabinets, outdoor control boxes, charging pile enclosures and other oversized samples.
Special Fixtures for Irregular Surfaces
Custom fixtures can be designed for curved, inclined or irregular surfaces, such as lamp covers, automotive bumpers, EV battery pack housings and non-flat enclosure structures.
Impact Position and Height Adjustment
Test frames, sample platforms and impact positioning systems can be configured to support different test heights, impact angles and sample mounting requirements.
Typical Products Tested with IK Impact Test Equipment
BONAD IK testing equipment can be used in product development, quality inspection, third-party testing and compliance verification.
IK Impact Testing Solutions from a Test Equipment Manufacturer
BONAD provides safety testing equipment and laboratory test instruments for manufacturers, laboratories and inspection institutions. We support standard and customized IK impact testing solutions according to your product type, sample size, impact energy and test method.
Multiple Test Methods
Spring impact hammer, pendulum impact hammer and vertical hammer impact testing solutions are available.
Standard and Custom Models
Equipment can be selected or customized according to impact energy, sample structure and laboratory layout.
Technical Selection Support
BONAD can help you choose suitable IK testing equipment based on your product, test standard and application.
IK Testing Equipment FAQ
What is IK testing equipment used for?
IK testing equipment is used to test the mechanical impact resistance of product enclosures and components. It helps verify whether a product can withstand specified external mechanical impacts.
What standards are related to IK impact testing?
IK impact testing is commonly related to IEC 62262 and IEC 60068-2-75. IEC 62262 defines IK impact protection ratings, while IEC 60068-2-75 describes hammer test methods for mechanical impact testing.
Which equipment is suitable for IK01 to IK06 testing?
For IK01 to IK06 testing, an adjustable universal energy spring impact hammer is usually suitable because it can provide impact energy from 0.14J to 1J.
What equipment is suitable for IK08 to IK10 testing?
For IK08 to IK10 impact energy levels, a vertical hammer impact tester is usually recommended because it is suitable for higher-energy free-fall impact testing.
How does an anti-rebound structure help IK impact testing?
An anti-rebound capture structure helps prevent secondary impact after the first strike, reducing repeated sample damage and improving the consistency of impact test results.
Can BONAD customize IK testing equipment for large samples?
Yes. BONAD can customize higher, wider or reinforced test frames for large electrical cabinets, outdoor control boxes, charging pile enclosures and other oversized samples.
Can BONAD provide fixtures for irregular sample surfaces?
Yes. Custom fixtures can be designed for curved, inclined or irregular surfaces, such as lamp covers, automotive bumpers, EV battery pack housings and non-flat enclosure structures.
What is the difference between a spring impact hammer and a vertical hammer impact tester?
A spring impact hammer is commonly used for lower impact energies and portable testing. A vertical hammer impact tester uses a free-fall impact method and is more suitable for higher impact energies and larger test samples.
When should I use pendulum impact hammer test equipment?
Pendulum impact hammer test equipment is suitable when the test method requires a pendulum structure or when the sample type is more suitable for pendulum impact, such as plugs, sockets, switches, covers, lamps and wall-mounted boxes.
Why is spring impact hammer calibration important?
Calibration helps verify whether the output energy of the spring impact hammer is accurate. Regular calibration is important for laboratories and manufacturers that need consistent and reliable impact test results.
Need Help Choosing IK Testing Equipment?
Tell us your test standard, impact energy, sample size and product application. BONAD will recommend a suitable IK impact testing solution for your laboratory or production line.
