Screw Jacks in the Automotive Industry – Applications and Benefits

Screw Jacks in the Automotive

Screw jacks are modern devices used for various purposes and applications, making them widely accessible across various industries and environments.

Screw jacks are frequently utilized by automotive industries for various functions, including assembly, adjustment and supporting heavy loads.


Automotive assembly line operations depend on screw jacks to assist assembly operations and position products correctly. Screw jacks come in multiple forms – manual and electric motorized models with load capacities from 250-100 tons are among them.

Automakers’ top priority when selecting jacks is efficiency, weight and safety. In response, several companies offer lightweight screw jacks with load capacities up to 18kN for this reason.

Unimec’s Aleph series of self-locking screw jacks offer another solution for light duty applications, with load ratings up to 7kN without needing lubrication. Their polyaryl amide casing saves space while some components are made out of plastic instead of metal for reduced weight and increased efficiency.

Dataintelo’s recent study suggests that the global machine screw jack market will experience compound annual compound annual compound annual compound annual compound annual compound annual compound compound compound compound annual compound annual compound growth at 4.1% over its forecast period. This comprehensive overview includes details regarding drivers, restraints, and growth opportunities.


Screw Jacks in the Automotive

Screw jacks are used widely in the automotive industry for various adjustments, from raising items off the ground so workers can access its bottom surface to adjusting steering wheels or other components of cars.

Cranes can also be used to lift heavy loads, such as home foundations. You’ll typically find these machines in garages and repair facilities.

There are various kinds of screw jacks. Some use machine screws for lifting loads while others utilize ball screws – with latter design offering reduced friction between lift shaft and nut and increasing lifetime of the jack.


Screw jacks are commonly found in automotive service facilities for maintenance and repairs, as well as some spare tire kits to make tire changing more accessible.

Raiser plates can also be used to lift houses for foundation repair or replacement purposes. Raising plates have numerous applications from small garages to major car dealerships.

There are various screw jack designs, such as translating, keyed and traveling nut, that you may consider when selecting the ideal solution for your application and load capacity needs.

Travelling Nut Screw Jack has been widely used in the automotive industry for many years. These jacks are ideal for lifting heavy loads and can easily be integrated into production lines to assist with assembly, testing, and maintenance procedures. The travelling nut design allows the screw to rotate while the nut moves along its length, which provides a smooth and reliable linear motion. This feature is particularly useful when lifting vehicles or heavy machinery as it helps to distribute the load evenly across the jack’s surface. Additionally, Travelling Nut Screw Jacks are known for their durability and high load capacity, making them an essential tool in any automotive manufacturing facility.


Screw jacks can be found worldwide and have become an increasingly popular alternative to hydraulic or pneumatic systems for lifting heavy objects.

Screw jacks are frequently utilized in automotive repair shops and racing teams for efficient vehicle access. These devices can raise the bottom of a vehicle several feet in the air to give workers easy access to its underbelly.

Comparative to hydraulic systems, electric ones are far more energy-efficient and can hold a load for extended periods with reduced power usage. Furthermore, maintenance requirements and repairs can also be significantly decreased when something goes wrong with them.

Leave a Reply

Your email address will not be published. Required fields are marked *