Screw Jacks

GROB's Cost-Saving Drives: Quick Overview of our Screw Jacks

Our screw jacks offer the right solution for every application. The cubic models (MJ/BJ) feature a cube-shaped design with versatile mounting options and load capacities ranging from 2.5 kN to 500 kN. The classic screw jacks (MC) are designed for high loads up to 2,000 kN and are available in 14 sizes. For particularly dynamic and demanding applications, the high-performance screw jacks (HMC) provide higher speeds and lift loads from 5 kN to 1,000 kN. Our high-speed screw jacks (KH) utilize efficient bevel gear transmissions, enabling fast lifting movements with high efficiency.

  • done
    Flexibility: Customizable for individual requirements
  • done
    Load Capacity: High load capacities up to 2,000 kN
  • done
    Fast lifting movements with high efficiency
Types of Screw Jacks - GROB Drive Technology GmbH

Are you facing these challenges too?

  1. Limited installation space: The available space for integrating the screw jack is very restricted.
  2. Connection variety: Various attachments and construction elements need to be connected to the screw jack.
  3. Modularity: The screw jack must be adaptable to different machines or systems.
  1. High speeds: Requirements for rapid lifting movements in production processes.
  2. Precision: Necessity for precise and consistent movements at high speed.
  3. Energy efficiency: The screw jack should operate with high efficiency to save energy and reduce costs.
  1. Heavy loads: The screw jack must be able to move and support extremely high weights.
  2. Continuous operation: The screw jack must function reliably in continuous use.
  3. Durability: A long lifespan with minimal maintenance is required.

How to overcome these challenges:

Cubic 3D shape - view in AR - icon

Drive product with numerous mounting options

Our cubic screw jacks (MJ/BJ) feature a cube-shaped design that allows for versatile mounting options on all sides. This enables engineers to easily attach components even in tight spaces. With load capacities ranging from 2.5 kN to 500 kN and numerous customization options, the screw jacks are flexible and adaptable to various environments.

Speed icon

Acceleration with bevel gear transmissions

Our high-speed screw jacks are ideal for fast and efficient movements. With bevel gear transmissions, they achieve approximately 75% efficiency with ball screw spindles and about 40% with trapezoidal screw spindles. They provide rapid lifting movements and are available in three sizes with ratios of 1:1, 2:1, and 3:1, making them perfect for time-critical and dynamic processes.

Weight icon

Use of robust and durable screw jacks

The high-performance screw jacks (HMC) are designed for high load requirements up to 1,000 kN and offer reliability and durability. Available in 9 sizes, they are suitable for a wide range of applications requiring high load capacity.

All Screw jacks at a glance

Find out what you can achieve with these drives
Cubic Screw Jack with engine - GROB Drive Technology GmbH

Cubic Screw Jack

Our cubic screw jacks enable precise lifting and positioning movements for a wide range of applications. Thanks to their cubic design, they offer versatile mounting options that allow flexible integration into various machines and systems. Visit the product page down below.

View product →
Classic Screw Jack - GROB Drive Technology GmbH

Classic Screw Jack

Thanks to the integrated housing base plate, it can be easily mounted from above, ensuring a simple and stable installation. Ideal for precise and repeatable motion requirements. Discover how our classic screw jacks can enhance your productivity—visit our product page now!

View product →
High-Performance Screw Jack - GROB Drive Technology GmbH

High-performance Screw Jack

Our high-performance screw jacks offer the perfect combination of speed and load capacity. This makes them ideal for applications that require both high speeds and heavy loads, delivering maximum performance with reliable operation. Learn more on our product page!

View product →
High-Speed Screw Jack - GROB Drive Technology GmbH

High-speed Screw Jack

Designed for speed and precision, the high-speed screw jack enables rapid and smooth movement, making it ideal for dynamic and time-critical applications. With its high efficiency, this type of screw jack can also be used in 24/7 operations. Visit the product page to learn how you can gain a competitive edge.

View product →

With these advantages...

...you can get the most out of your application. Get an overview of the strengths of GROB's screw jacks.

security

High safety

In the event of a power outage, the screw jack cannot reset itself, thereby protecting both the machine and the operator.

savings

Saving costs

Screw jacks have up to 70% lower energy consumption compared to pneumatic and hydraulic systems.

heart_check

High service life

For example, an HMC gearbox can achieve a long lifespan through a longer screw thread in the worm gear and the use of wear-resistant copper alloys.

speed

Short cycle time

The high-speed screw jack (KH) easily achieves lifting speeds of over 300 mm/s due to its bevel gear transmission.

rocket_launch

High efficiency

The high efficiency of the gearbox in a high-speed screw jack reduces heat generation, allowing for continuous operation in 24/7 shifts.

deployed_code_update

Easy installation

Screw jacks are delivered as a complete system and can be directly integrated at the installation site.

How customers rate us

Excellent

5.0 of 8 reviews

In comparison

Other Screw Jacks

Longer delivery times

Custom solutions not available from quantity 1

Screw Jacks by GROB

Customizable individual solutions

2-3 week delivery time for standard versions

Support with your dimensioning

You can find us here

GROB Antriebstechnik GmbH

Eberhard-Layher-Straße 5-7

74889 Sinsheim-Steinsfurt


Opening hours:

Monday - Thursday: 7 am - 4 pm

Friday: 7 am - 3 pm

Saturday - Sunday: closed

FAQs

A spindle lifting drive is a combination of a spindle (screw) and a nut (worm gear or traveling nut) that converts rotational motion into linear motion through a worm gear drive.

How screw jacks work and where they are used - GROB GmbH chevron_right

Basic Version: The spindle itself performs the axial movement.

Traveling Nut Version: The spindle remains stationary in space but rotates. The nut then moves up and down on the spindle.

  1. Cubic & Classic: primarily external differences. A matter of personal preference regarding which one is preferred. Performance data is nearly identical.
  2. HMC: Standard up to 3000 rpm input speed, with oil filling and cooling fins - explicitly higher dynamic load capacity.
  3. KH: explicitly high dynamic capability, but load capacity decreases to a maximum of 90 kN.
  1. Standard gearboxes with standard trapezoidal threads achieve efficiencies between 25-35%.
  2. Increasing the pitch makes the thread slip more easily, thus increasing efficiency.
  3. The combination with a ball screw can also achieve an efficiency of up to 50%.
  4. Best combination: bevel gear lifting drives with ball screws, which achieve over 80%.

Yes, the use of stainless steel materials is a common practice for environments with aggressive media.

For continuous monitoring, rotary encoders can be mounted on the motor or the worm shaft.

If only the end positions are relevant, limit switches can be used to query the desired end positions.

In hydraulic cylinders, we also often use potentiometers, which then return a certain resistance value that can be read out by the controller.

The confusion sometimes arises because in both cases, there's an additional element at the back of the spindle.

  1. The spindle travel limiter is merely a ring on the thread that prevents the spindle from falling out.
  2. The rotation prevention additionally prevents the spindle from twisting.

Customer side: The customer bears the load, preventing it from twisting. If the spindle is then attached to the load, it also cannot twist.

Gear side (product itself has a prevention rotation): We either use a groove running completely through the spindle with a corresponding key as a counterpart. Alternatively, a square block can be screwed onto the back of the spindle, and the protective tube is designed as a square tube.

The specification '20% duty cycle per hour' is always associated with a certain power consumption at the gear unit. Therefore, if the permissible power value is not exceeded, less heat is generated, and the gear unit requires less time to cool down. This allows achieving more than 20% duty cycle.

Yes, screw jacks can be manufactured entirely in stainless steel and equipped with food-grade grease approved according to H1 standards.

The housing is made of aluminum die-casting or gray cast iron, the spindle, protective tube, and worm shaft are made of steel, while the worm wheel or traveling nut are made of a bronze alloy. Additionally, there are many variants.

Yes, with motor adaptors, motors or geared motors can be flexibly attached. You decide whether you want to provide the motor yourself or if GROB takes care of it.

Yes. A lifting gear unit can be operated with any rotary drive, whether electric, mechanical, or manual.

When under compression, typically buckling is the limiting factor. Under tension, it's either the availability of raw material (rods commonly available up to 6m) or the critical bending speed (in the case of the traveling nut version). For larger strokes, the spindle can also be made in multiple parts.

In applications with high safety requirements, two independently acting holding mechanisms may be required. This could be dynamic self-locking + motor brake or, alternatively, an independently switchable dual brake on the three-phase motor.

Yes. Common voltage types are 24 VDC / 230 VAC / 400 VAC. Additional voltages in both direct and alternating current ranges are available upon request.

A three-phase motor rotates depending on the mains frequency. The higher the frequency, the faster the motor rotates. Rated speeds at 50 Hz are as follows: for 2-pole motors, 3000 rpm; for 4-pole, 1500 rpm; for 6-pole, 1000 rpm; for 8-pole, 750 rpm.

Lubricating grease of NLGI grade 1 or 2, suitable for heavily loaded sliding and rolling bearings. Compatibility with the existing lubricant must be ensured. It's crucial whether the grease is mineral or synthetic-based.

It depends on the operating cycle and conditions. Typically, every 500 double strokes.

The lubricant quantity depends on the size and type of the gear unit. You can find specific data in our general catalog. Here's an example for our cubic screw jacks: General Catalog 2023 (grob-antriebstechnik.de)

0 - 6000 mm in the standard range. Lengths over 6 m are also possible for special applications, but then with a multi-part spindle. Gradations can be made in the millimeter range.

Grease lubrication in the gearbox: up to 1500 rpm; >1500 rpm to 3000 rpm flow grease or oil lubrication.

You can install mechanical, magnetic, or inductive limit switch solutions. Preparation for custom sensors is also possible. Please note that it's not possible to implement end position detection on traveling nut version screw jacks.

For detailed information, refer to the beginning of each screw jack chapter in our catalog. Here's an example for cubic screw jacks: General Catalog 2023 (grob-antriebstechnik.de)

For grease-lubricated screw jacks, the mounting position can be freely chosen. For oil-lubricated screw jacks, the orientation of the ventilation must be considered.

The manufacturer's rated load capacity should not be exceeded. However, screw jacks typically have safety factors ranging from 1.5 to 2.5 times the rated load.

Temporarily possible, however, this results in a significantly reduced lifespan.

Yes, for screw jacks with ball or roller screw mechanisms, a lifespan can be calculated. However, for trapezoidal screw mechanisms, lifespan calculation is not possible. More information on the calculations can be found here.

The required power depends on the load and lifting speed. A 30% reserve to the required power is recommended for the drive. The screw jack should be operated within the maximum specified parameters, which depend on the version and size. You can find exemplary power limits for cubic screw jacks here: General Catalog 2023 (grob-antriebstechnik.de)

The safety margin can be increased or reduced. If reduced, it's important to ensure that block drive is always prevented during operation of the system.

A block drive describes the execution of the lift against a fixed stop. In this process, the lifting element is 'blocked' by the fixed counterpart.

The driving element, usually a three-phase motor, doesn't stop automatically but needs a signal for shutdown. This signal can be generated through limit switches, encoders, potentiometers, or other displacement-monitoring components.

Mechanical drives are very sensitive to movement against fixed stops. Depending on the force of the motor, a block drive typically results in damage to the spindle-nut system.

Ball screw spindles make sense when:

  1. The power consumption is too high in combination with trapezoidal screw spindles
  2. A higher lifting speed is desired
  3. A higher precision is desired

The axial play of a trapezoidal screw spindle typically ranges from 0.1 to 0.3 mm. When the axial play reaches 1/4 of the trapezoidal profile, replacement of the trapezoidal screw nut is recommended.

Although lateral forces significantly reduce the lifespan of screw jacks, there are certain limits within which lateral forces can be absorbed. You can find relevant information here: General Catalog 2023 (grob-antriebstechnik.de)

Screw Drives: Trapezoidal Screw vs. Ball Screw - GROB GmbH chevron_right

The standing spindle creates relative motion through the rotating worm wheel, while the rotating spindle generates relative motion for the traveling nut. The advantages and disadvantages depend on the space constraints of your lifting system.

Yes, each size (regardless of the screw jack type) offers 2x reduction stages (-> Normal and Slow). The exception is bevel gear screw jacks. Here, gear ratios of 1:1, 2:1, and 3:1 are possible.

Spindle extension defines a dimension that provides a certain extra length compared to the standard when in the retracted state. For example: You only need an effective stroke of 100mm, but there's a distance of 400mm to cover between the start of the stroke and the gearbox. Then we extend the spindle by 400mm, so when fully extended, you reach a total of 500mm.

For the spindle end, the standard range offers options including threaded end, articulated head, ball joint head, flange plate, bearing flange plate, and pin. You can find corresponding dimensions in the General Catalog 2023 (grob-antriebstechnik.de)

Yes, appropriate protection can be achieved through painting or the use of stainless materials.

Yes, the functions of 'lifting' and 'moving' can be performed by any mechanical lifting element.

This version uses an additional tube to protect the spindle, which sits on the traveling nut. The piston tube version thus describes a lifting cylinder that has been modified based on a screw jack.

The following points necessitate an oil version: Use in explosive atmospheres with gas. A mandatory ATEX questionnaire is required. Input speed at the worm shaft ranging from 1500 rpm to 3000 rpm.

In standard operation, the SFM runs load-free with the main nut. If the main nut fails, the SFM takes over the load. A stroke can then be performed to shut down the system. Additionally, the SFM is also used as a reference nut for wear measurement.

The spindle can be protected by folding bellows or spiral protective sleeves.

It prevents rotation of the spindle. If a translational spindle were to rotate, linear motion would no longer be possible.

  1. Electronic bridge: If each lifting element of the system is driven by a motor, electronic synchronization can be achieved through encoders.
  2. Mechanical linkage: More cost-effective and fail-safe are cardan shafts and bevel gearboxes, which can connect all lifting elements of a system together.

A travel limiter (AS) prevents the spindle from accidentally falling out in the basic version. It is not intended as a mechanical end stop.

Yes, screw jacks and MINI cylinders can be used within certain limits for ATEX zones as well.

In the case of the traveling nut version, only the nut connection dimensions change. In the basic version with the ball screw spindle, it may occur that the bearing cover is raised to accommodate the ball screw nut in the gearbox.

Yes, threaded spindles can also be equipped in stainless steel.

Question not included?

Submit your inquiry now!

Do you need help selecting a screw jack? Or do you have questions about a specific screw jack? Submit a request! We're happy to assist you free of charge and with no obligation.

Give us a call:

Or send us an email:

Philipp Schmalzhaf - Sales Manager - GROB Antriebstechnik GmbH

Your expert for screw jacks, Philipp Schmalzhaf