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Couplings

Others

All

Rigid
Flexible
Elastomer
Clamping ring
Product Type
Diameter
Coupling configurator beta
Netto 38,24 kr
?
Brutto 38,24 kr
Shafts clutch rigid Mot D20L35, 8 / 8mm
Netto 38,11 kr
?
Brutto 38,11 kr
Shafts clutch rigid Mot D20L35, 6.35 / 8mm
Netto 43,83 kr
?
Brutto 43,83 kr
Shafts clutch flexible Mot D20L25, 5 / 6mm
Netto 35,04 kr
?
Brutto 35,04 kr
Backlash-free elostomer clutch D25L30, 8 / 10
Netto 71,69 kr
?
Brutto 71,69 kr
Light Shafts clutch rigid Mot D14L25, 6 / 8mm
Netto 17,21 kr
?
Brutto 17,21 kr
Backlash-free elostomer clutch D20L30, 6.35 / 8
Netto 75,54 kr
?
Brutto 75,54 kr
Light Shafts clutch rigid Mot D14L25, 5 / 6
Netto 17,21 kr
?
Brutto 17,21 kr
Shafts clutch rigid Mot D20L35, 8 / 10mm
Netto 41,83 kr
?
Brutto 41,83 kr
Shafts clutch rigid Mot D20L35, 5 / 8mm
Netto 43,71 kr
?
Brutto 43,71 kr
Shafts clutch flexible Mot D20L25, 5 / 10mm
Netto 35,04 kr
?
Brutto 35,04 kr
Shafts clutch flexible Mot D20L25, 5 / 8mm
Netto 35,04 kr
?
Brutto 35,04 kr
Backlash-free elostomer clutch JM25C D25L30, 8 / 8
Netto 71,69 kr
?
Brutto 71,69 kr
Light Shafts clutch rigid Mot D14L25, 5 / 8mm
Netto 17,21 kr
?
Brutto 17,21 kr
Shafts clutch flexible Mot D20L25, 8 / 8mm
Netto 39,44 kr
?
Brutto 39,44 kr
Shafts clutch rigid Mot D20L35, 5 / 6.35mm
Netto 43,83 kr
?
Brutto 43,83 kr
Shafts clutch rigid Mot D25L35, 8 / 12mm
Netto 45,65 kr
?
Brutto 45,65 kr
Light Shafts clutch rigid Mot D14L25, 5 / 6.35mm
Netto 17,21 kr
?
Brutto 17,21 kr
Shafts clutch flexible Mot D20L25, 6.35 / 8mm
Netto 35,04 kr
?
Brutto 35,04 kr
Shafts clutch flexible Mot D25L30, 6.35 / 12mm
Netto 43,76 kr
?
Brutto 43,76 kr
Backlash-free elostomer clutch JM25C D25L34, 6.35 / 8
Netto 123,11 kr
?
Brutto 123,11 kr
Backlash-free elostomer clutch JM25C D25L34, 6.35 / 10
Netto 120,58 kr
?
Brutto 120,58 kr
Shafts clutch rigid Mot D25L35, 10 / 10mm
Netto 45,65 kr
?
Brutto 45,65 kr
Backlash-free elostomer clutch JM25C D25L34, 6.35 / 12
Netto 120,58 kr
?
Brutto 120,58 kr
Shafts clutch flexible Mot D20L25 6,35/6,35mm
Netto 35,04 kr
?
Brutto 35,04 kr
Shafts clutch rigid Mot D20L35, 5 / 5mm
Netto 43,83 kr
?
Brutto 43,83 kr
Backlash-free elostomer clutch JM25C D25L34, 6.35 / 6.35
Netto 123,11 kr
?
Brutto 123,11 kr
Shafts clutch RB flexible D30L35 6,35/14mm
Netto 96,59 kr
?
Brutto 96,59 kr
Shafts clutch rigid Mot D25L35, 12 / 12mm
Netto 47,57 kr
?
Brutto 47,57 kr
Shafts clutch flexible Mot D25L30, 8 / 12mm
Netto 43,76 kr
?
Brutto 43,76 kr
Shafts clutch flexible Mot D20L25, 8 / 10mm
Netto 39,44 kr
?
Brutto 39,44 kr
Shafts clutch flexible Mot D20L25, 6.35 / 10mm
Netto 39,44 kr
?
Brutto 39,44 kr
Backlash-free elostomer clutch D20L30, 6.35 / 10
Netto 95,53 kr
?
Brutto 95,53 kr
Shafts clutch flexible Mot D20L25, 5 / 5mm
Netto 35,04 kr
?
Brutto 35,04 kr
Shafts clutch RB flexible D30L35 8/14mm
Netto 96,59 kr
?
Brutto 96,59 kr
Shafts clutch rigid Mot D20L35, 6.35 / 10mm
Netto 56,37 kr
?
Brutto 56,37 kr
Backlash-free elostomer clutch D20L30, 5 / 5
Netto 73,61 kr
?
Brutto 73,61 kr
Shaft collar Aluminium for flat-milled shafts ⌀10mm, D25L32
Netto 53,29 kr
?
Brutto 53,29 kr
Shaft collar Aluminium for flat-milled shafts ⌀8mm, D25L32
Netto 53,29 kr
?
Brutto 53,29 kr
Clamping ring for flattened shafts, d=25mm steel
Type: Bright steel
Netto 92,16 kr
?
Brutto 92,16 kr
Shaft collars for sheet fixation d=25mm steel
Type: Bright steel
Netto 71,68 kr
?
Brutto 71,68 kr

Couplings are essential components in power transmission systems, allowing rigid or flexible shaft connections according to application requirements. In this category, we offer a wide variety of rigid, flexible and elastomer couplings for different diameters and technical needs.

Types of Available Couplings

  • Rigid Couplings: Designed for a solid connection without play between shafts, ideal for applications where precision and stability are key.
  • Flexible Couplings: Allow a certain degree of flexibility, which helps absorb misalignments or vibrations between connected shafts.
  • Elastomer Couplings: Provide a connection without play but with some elasticity, making them ideal for systems that require shock or vibration absorption.
  • Clamping Rings: Used to securely fasten shafts, especially in applications requiring extra clamping or quick adjustment.

Coupling Specifications

  • Rigid coupling Mot D20L35, 8 / 8mm: Perfect for applications requiring a firm connection between 8 mm diameter shafts.
  • Flexible coupling Mot D20L25, 6.35 / 8mm: Designed to absorb slight misalignments in movement systems between shafts of different diameters.
  • Zero-backlash elastomer coupling D25L30, 8 / 10: Ideal for systems requiring precise control without sacrificing system flexibility.
  • Aluminum shaft collar ⌀10mm D25L32: Used for clamping on 10mm shafts, especially in precision applications.

Related Products

  • Rigid coupling Mot D20L35, 6.35 / 8mm: Suitable for systems requiring stability between shafts of different diameters.
  • Zero-backlash elastomer coupling D25L30, 6.35 / 10: An excellent option for applications requiring high precision and vibration absorption.
  • Clamping Ring for Flattened Shafts D=25mm: Efficient solution for fixation in high-demand applications.

Frequently Asked Questions (FAQ)

  • 1. What is the difference between a rigid and a flexible coupling?
    The rigid coupling provides a firm connection without the possibility of absorbing vibrations or misalignments, while the flexible one allows slight flexibility that helps compensate for misalignments or vibrations.
  • 2. What type of coupling should I choose for systems with constant vibration?
    Zero-backlash elastomer couplings are ideal for these cases, as they absorb vibrations while maintaining a precise connection.
  • 3. How do I know what coupling diameter I need?
    The coupling diameter should match the diameter of the shafts you want to connect. Make sure to correctly measure the shaft diameter before selecting the appropriate coupling.

Flexible couplings are ideal for applications where it is necessary to absorb vibrations, misalignments, and movements between shafts. These couplings offer flexibility without compromising power transmission, allowing for smooth and efficient operation.

Available Flexible Couplings

  • Flexible coupling shafts Mot D20L25, 5 / 6mm: Flexible coupling suitable for shafts with 5 and 6 mm diameter, ideal for systems with slight misalignments.
  • Flexible coupling shafts Mot D20L25, 8 / 10mm: Provides flexibility and resistance, allowing small misalignments between shafts.
  • Flexible coupling shafts Mot D25L30, 6.35 / 12mm: Excellent option for absorbing movements in more robust systems.
  • Flexible coupling shafts RB D30L35, 6.35 / 14mm: Robust design for applications requiring greater flexibility and load capacity.
  • Flexible coupling shafts Mot D20L25, 5 / 5mm: Coupling designed for systems that require flexibility without losing precision.

Advantages of Flexible Couplings

  • Vibration absorption: They allow reducing vibrations in the system, providing smoother operation and extending the useful life of components.
  • Misalignment compensation: They are ideal for systems with angular or axial misalignments, helping to prevent shaft wear.
  • Durability: They are designed to withstand demanding applications without compromising power transmission.

Common Applications

  • Power transmission systems in industrial machinery.
  • Equipment that requires compensating for slight misalignments between shafts.
  • Applications where it is necessary to reduce vibrations to improve system precision and efficiency.

Frequently Asked Questions (FAQ)

  • 1. When should I choose a flexible coupling over a rigid one?
    Flexible couplings are ideal for applications where vibrations need to be absorbed or misalignments compensated. If the shafts are not perfectly aligned or if the system generates vibrations, flexible couplings are the best option.
  • 2. How does flexibility affect power transmission?
    Flexibility allows the coupling to absorb vibrations and movements without significantly affecting power transmission, improving the overall performance of the system.
  • 3. How do I select the appropriate size of flexible coupling?
    You should choose a coupling whose diameter matches the shafts you want to connect, and that has the capacity to handle the expected misalignments or movements in your system.

Rigid couplings are ideal for systems where a solid and play-free connection between shafts is required. These couplings offer high precision and stability in industrial applications where alignment is crucial.

Available Rigid Couplings

  • Rigid coupling shaft Mot D20L35, 8 / 8mm: Precise connection for 8 mm diameter shafts, suitable for applications requiring high stability.
  • Light rigid coupling shaft D14L25, 6 / 8mm: Ideal for systems requiring a compact and lightweight solution, compatible with 6 and 8 mm shafts.
  • Rigid coupling shaft Mot D20L35, 5 / 8mm: Robust design for applications where a solid connection between shafts of different diameters is needed.
  • Rigid coupling shaft Mot D20L35, 6.35 / 8mm: Excellent option for industrial systems requiring precision and resistance.
  • Rigid coupling shaft Mot D25L35, 8 / 12mm: Offers a robust and play-free connection, suitable for applications requiring high resistance.
  • Rigid coupling shaft Mot D25L35, 10 / 10mm: Solid solution for 10 mm shafts, ensuring a firm connection.

Advantages of Rigid Couplings

  • Precision: They provide a play-free connection, ideal for applications requiring high precision.
  • Stability: They offer a strong and stable connection between shafts, without absorption of vibrations or misalignments.
  • Resistance: Rigid couplings are designed for demanding applications where a solid and durable connection is needed.

Common Applications

  • Precision machines.
  • Power transmission in industrial systems.
  • Applications where any type of play or misalignment must be avoided.

Frequently Asked Questions (FAQ)

  • 1. In what situations should I use a rigid coupling?
    Rigid couplings are ideal for high-precision systems where no movement between connected shafts is allowed. They are used in precision machines, power transmission systems, and industrial applications.
  • 2. What advantages do they have over flexible couplings?
    They offer a firmer and more stable connection, without allowing any type of misalignment or vibration absorption, making them more suitable for applications requiring high precision.
  • 3. How do I select the right diameter for my rigid coupling?
    The coupling diameter should match the diameter of the shafts you want to connect. Make sure to measure correctly before selecting the appropriate coupling.

Elastomer couplings are ideal components for absorbing vibrations and misalignments in mechanical applications. These couplings are known for their ability to dampen loads and provide backlash-free operation, ensuring precise power transmission in systems with rotary movements.

Available Elastomer Couplings

  • Backlash-free elastomer coupling D20L30, 6.35 / 8mm: Designed to provide backlash-free performance, ideal for applications requiring precision in transmission.
  • Backlash-free elastomer coupling JM25C D25L34, 6.35 / 10mm: A robust option to compensate for small misalignments in transmission systems.
  • Backlash-free elastomer coupling D20L30, 5 / 5mm: Offers excellent vibration control, ideal for precision machinery.
  • Backlash-free elastomer coupling JM25C D25L34, 6.35 / 6.35mm: Versatile coupling that ensures backlash-free power transmission.
  • Backlash-free elastomer coupling D25L30, 8 / 10mm: Perfect for applications with higher flexibility requirements.

Key Features

  • Backlash-free: The elastomer provides backlash-free transmission, ensuring high precision in rotational applications.
  • Vibration absorption: Considerably reduces vibrations in systems, allowing smoother operation and longer component life.
  • Durability: The elastomer has a high damping capacity and wear resistance, making it ideal for high-demand applications.

Common Applications

  • Transmission systems in precision machinery.
  • Equipment that requires eliminating backlash in transmission to improve efficiency.
  • Machines with slight angular misalignments or where vibrations are generated during operation.

Frequently Asked Questions (FAQ)

  • 1. What advantages do elastomer couplings offer compared to rigid ones?
    Elastomer couplings are ideal when vibrations and movements need to be absorbed, while rigid couplings are more appropriate for perfect alignments where there is no need for flexibility.
  • 2. What factors should I consider when choosing an elastomer coupling?
    It is important to take into account the shaft size, system load, and the amount of vibrations or misalignments expected.
  • 3. What is the difference between an elastomer coupling and a flexible one?
    Elastomer couplings offer better damping and vibration absorption capacity, while flexible ones are more suitable for compensating minor misalignments without absorbing as much energy.

Clamping rings are essential components in power transmission systems, designed to secure shafts and other elements in place, providing reliable fixation in applications that require precision and stability.

Available Clamping Rings

  • Aluminum shaft collar for flat milled ⌀10mm shafts, D25L32: Ideal for applications where robust clamping is required without compromising weight.
  • Aluminum shaft collar for flat milled ⌀8mm shafts, D25L32: Provides reliable and durable clamping on small diameter shafts.
  • Clamping Ring for Flattened Shafts, D=25mm Steel: Manufactured in polished steel, offers high resistance for demanding applications.
  • Clamping ring for sheet fixation, d=25mm steel: Versatile solution for securing shafts in industrial applications.

Key Features

  • High resistance: Steel clamping rings provide firm and durable clamping in high-demand environments.
  • Lightweight design: Aluminum collars are ideal for applications where weight is a key factor.
  • Easy installation: Clamping rings are designed to be mounted quickly and easily on shafts of different diameters.

Common Applications

  • Power transmission systems in industrial machinery.
  • Equipment requiring precise fixation on rotating shafts.
  • Applications where reducing weight without compromising clamping is important.

Frequently Asked Questions (FAQ)

  • 1. When should I use an aluminium collar instead of a steel one?
    The aluminium collar is suitable for applications where weight is a critical factor, while steel provides greater resistance in high-demand applications.
  • 2. How do I select the right clamping ring for my application?
    You should consider the shaft diameter, the ring material, and the working conditions such as load and the environment in which it will be used.