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Vacuum Cups
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8025969
suction cup VAS-8-M5-S-PUR-B Suction cup height compensator: 0,9 mm, Nominal size: 2 mm, suction cup diameter: 8 mm, suction cup volume: 0,095 cm3, Effective suction diameter: 7,1 mm
Festo
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8073816
suction cup OGVM-30-S-N-G14F Suction cup height compensator: 3 mm, Min. workpiece radius: 35 mm, Nominal size: 4 mm, suction cup diameter: 30 mm, suction cup volume: 1,8 cm3
Festo
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8073831
suction cup OGVM-45-G-N-G14F Suction cup height compensator: 7,8 mm, Min. workpiece radius: 25 mm, Nominal size: 4 mm, suction cup diameter: 45 mm, suction cup volume: 9,4 cm3
Festo
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8073864
suction cup OGVM-40X90-GV-N-G14F Suction cup height compensator: 6 mm, Min. workpiece radius: 35 mm, Nominal size: 6 mm, suction cup size: 40x90 mm, suction cup volume: 15,8 cm3
Festo
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8073863
suction cup OGVM-30X80-GV-N-G14F Suction cup height compensator: 6 mm, Min. workpiece radius: 20 mm, Nominal size: 6 mm, suction cup size: 30x80 mm, suction cup volume: 10 cm3
Festo
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8073848
suction cup OGVM-30-G-N-G14F Suction cup height compensator: 5 mm, Min. workpiece radius: 17,5 mm, Nominal size: 3 mm, suction cup diameter: 30 mm, suction cup volume: 2,6 cm3
Festo
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1396090
suction cup VAS-30-1/8-PUR-B Sealing ring is not included in the scope of delivery. Suction cup height compensator: 1,9 mm, Nominal size: 3 mm, suction cup diameter: 30 mm, suction cup volume: 1,29 cm3, Effective suction diameter: 24,8 mm
Festo
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1385610
suction cup VAS-10-M5-SI-B Suction cup height compensator: 1,1 mm, Nominal size: 2 mm, suction cup diameter: 10 mm, suction cup volume: 0,12 cm3, Position of connection: on top
Festo
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1378427
suction cup VASB-75-1/4-SI-B Sealing ring is not included in the scope of delivery. Suction cup height compensator: 15,5 mm, Nominal size: 4 mm, suction cup diameter: 75 mm, suction cup volume: 65,5 cm3, Position of connection: on top
Festo
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190982
vacuum suction cup ESV-20-SF Wearing part, easily replaceable suction cup diameter: 20 mm, suction cup volume: 0,318 cm3, Position of connection: on top, Assembly position: Any, Suction cup shape: round flat
Festo
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189337
suction cup ESS-15-EF easily interchangeable, Min. workpiece radius: 20 mm, Nominal size: 2 mm, suction cup diameter: 15 mm, suction cup volume: 0,35 cm3, Position of connection: on top
Festo
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191016
vacuum suction cup ESV-200-SU Wearing part, easily replaceable Min. workpiece radius: 680 mm, suction cup diameter: 200 mm, suction cup volume: 245,454 cm3, Position of connection: on top, Assembly position: Any
Festo
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189303
suction cup ESS-30-SNA easily interchangeable, Min. workpiece radius: 110 mm, Nominal size: 3 mm, suction cup diameter: 30 mm, suction cup volume: 0,867 cm3, Position of connection: on top
Festo
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189328
suction cup ESS-150-SS easily interchangeable, Min. workpiece radius: 480 mm, Nominal size: 10 mm, suction cup diameter: 150 mm, suction cup volume: 173,826 cm3, Position of connection: on top
Festo
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189277
suction cup ESS-6-SF Wearing part, easily replaceable Min. workpiece radius: 15 mm, Nominal size: 2 mm, suction cup diameter: 6 mm, suction cup volume: 0,015 cm3, Ejector pulse suitability: <: 4 bar
Festo
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189310
suction cup ESS-50-SU easily interchangeable, Min. workpiece radius: 330 mm, Nominal size: 3 mm, suction cup diameter: 50 mm, suction cup volume: 2,387 cm3, Position of connection: on top
Festo
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189376
suction cup ESS-10-BS easily interchangeable, Suction cup height compensator: 4 mm, Min. workpiece radius: 20 mm, Nominal size: 2 mm, suction cup diameter: 10 mm, suction cup volume: 0,38 cm3
Festo
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189341
suction cup ESS-20-EF easily interchangeable, Min. workpiece radius: 30 mm, Nominal size: 3 mm, suction cup diameter: 20 mm, suction cup volume: 0,84 cm3, Position of connection: on top
Festo
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189357
suction cup ESS-60-EF easily interchangeable, Min. workpiece radius: 120 mm, Nominal size: 6 mm, suction cup diameter: 60 mm, suction cup volume: 19,77 cm3, Position of connection: on top
Festo
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189348
suction cup ESS-40-ES easily interchangeable, Min. workpiece radius: 80 mm, Nominal size: 3 mm, suction cup diameter: 40 mm, suction cup volume: 4,04 cm3, Position of connection: on top
Festo
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Vacuum Cups
General Guide & Overview
In the world of manufacturing automation, vacuum cups play a crucial role in enhancing efficiency and reliability. These innovative devices utilize pneumatic vacuum generators to create a powerful suction force for gripping and lifting objects. Unlike traditional suction cups, vacuum cups offer enhanced productivity and accuracy, making them indispensable in a wide range of industries.
When it comes to selecting the right vacuum cup, several factors come into play. The material characteristics, surface types, and contour of the objects being handled all influence the choice of vacuum cup. Additionally, the shape of the cup – whether round, oval, or bell-shaped – is tailored to the specific application and desired gripping capabilities.
Cup hardness is another critical consideration in vacuum cup selection. Measured on the Shore A hardness scale, cup hardness determines the cup's suitability for different materials and surfaces. The mounting type of the vacuum cup should also align with the automation system being used, ensuring seamless integration and optimal performance.
With vacuum cups automating countless processes worldwide, it's essential to have a comprehensive understanding of their capabilities and features.
Types of Industrial Suction Cups
When it comes to industrial applications, there are several types of vacuum suction cups that serve different purposes. These suction cups play a crucial role in ensuring efficient and reliable automated processes, increasing productivity and accuracy.
One type of suction cup widely used in industrial settings is the flat vacuum suction cup. These cups are specifically designed to handle flat or slightly curved nonporous surfaces, such as glass and sheet metal. Their flat shape allows for optimal contact with the surface, ensuring a secure grip.
If you are dealing with thin and elongated surfaces or long pieces, oval vacuum suction cups are the go-to choice. These cups provide maximum holding force and can effectively grip objects with minimal surface area.
For uneven or rough surfaces and flexible workpieces, bellows suction cups are the ideal solution. Their unique design allows them to adapt to irregular surfaces, maintaining a reliable grip even on challenging materials.
It's worth noting that these suction cups can be further enhanced with additional features like lip features and supporting ribs. These elements can improve the performance of suction cups and make them even more suitable for specific applications.
How to Choose a Suction Cup
When it comes to selecting the right suction cup, there are a few key factors that you should consider: size, fitting, and material. By paying attention to these aspects, you can ensure that the suction cup meets the specific needs of your application.
Firstly, the size of the suction cup is crucial. It should be determined based on the weight of the object you are planning to lift and the expected vacuum levels. Choosing the correct size ensures that the suction cup has enough strength to securely hold the object without any issues.
An equally important consideration is the fitting of the suction cup. It is essential to ensure that the fitting size is compatible with your vacuum system and the size of the vacuum lines. This compatibility ensures optimal performance and efficient operation of the suction cup in your automated processes.
Lastly, the material of the suction cup plays a significant role in its functionality. Different materials, such as silicone, nitrile rubber, polyurethane, and vinyl, offer unique properties that can enhance performance in specific applications. Consider factors such as oil and chemical resistance, high-temperature capabilities, and flexibility when selecting the material for your suction cup.
FAQ
What is the difference between vacuum cups and suction cups?
Vacuum cups use pneumatic vacuum generators to create a vacuum, whereas suction cups rely on external sources of vacuum.
How do material characteristics and surface types influence the selection of vacuum cups?
Material characteristics and surface types determine the ideal shape, hardness, and additional features of the vacuum cup for optimal grip and lifting performance.
What is the significance of cup hardness in vacuum cup selection?
Cup hardness, measured on the Shore A hardness scale, determines the suitability of a vacuum cup for different materials and surfaces.
How does the shape of the vacuum cup affect its functionality?
The shape of the vacuum cup, whether it's round, oval, or bell-shaped, is determined by the specific application and the type of objects being handled.
What are the different types of vacuum suction cups available for industrial applications?
The different types include flat vacuum suction cups, oval vacuum suction cups, and bellows suction cups, each designed for specific surface types and workpiece characteristics.
What factors should be considered when choosing a suction cup?
Factors like size, fitting compatibility with the vacuum system, and material properties should be considered when selecting a suction cup.
How does the size of a suction cup affect its functionality?
The size of a suction cup is determined based on the weight of the object being lifted and the expected vacuum levels required for a secure grip.
How important is the fitting size of a suction cup?
The fitting size of a suction cup should be compatible with the size of the vacuum lines and the vacuum system being used for efficient and reliable operation.
What are the different materials used for suction cups, and why is material selection important?
Suction cups can be made from materials such as silicone, nitrile rubber, polyurethane, and vinyl, each offering different properties like oil resistance, chemical resistance, high-temperature capabilities, and flexibility. Material selection ensures compatibility with the application requirements.