GRIPPERS
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What a Gripper is
Gripper are devices which provides temporary contact with objects to
be grasped. Generally speaking, it’s an active link between the
handling equipment and the workpiece. It is often used the generic
term “end effector”. Grippers are the end of the kinematic ad
dynamic chain of an industrial robot and realize interaction with
the work environment.
Grippers are not only used in industrial
robots: they are a universal component in automation and their
functions depend on specific applications.
The easiest way to
describe gripper clamping force is to think about a human hand: just
like the hand, the gripper enables gripping, tightening, handling
and releasing of a workpiece.
What a Gripper is used for
Grippers are an essential component of automation systems, allowing them to interact with their environment by picking up and moving objects of various shapes, sizes, and weights.
Kind of Grippers
In order to satisfy all the request from the automation market it
has been designed great variety of grippers. The main feature to
distinguish grippers is the clamping force and the mechanical
principle that exerts the force itself.
Clamping grippers are
organised in several categories:
- parallel gripper
-
toggle gripper
- angular gripper
- needle gripper
-
membrane expansion
How to choose your Gripper
1. Object Characteristics: Analyze the size, shape, weight,
and material of the objects to be handled. Different grippers are
designed to accommodate various object types, so choose one that can
effectively grasp the objects in your application.
2. Gripping Method: Determine the most suitable gripping method for your application.
For example, if the objects have flat surfaces, parallel jaw
grippers may be appropriate. If the objects are irregularly shaped,
three-fingered grippers or soft grippers with adaptive fingers may
be more suitable. If you are looking to palletize bags or boxes, our
palletizing line would be appropriate.
3. Environment: Consider the operating environment, including factors such as
temperature, humidity, and presence of dust or debris. Choose
grippers that are compatible with the environmental conditions to
ensure reliable performance and longevity.
4. Speed and Precision: Evaluate the required speed and precision of object manipulation.
Some grippers are optimized for high-speed operation, while others
offer greater precision for delicate handling tasks.
5. Payload Capacity: Determine the maximum payload capacity of the gripper, which
should exceed the weight of the heaviest object to be handled.
Ensure that the gripper can safely lift and manipulate objects
within the specified weight range.
6. Integration:
Consider the ease of integration with the robot you are using.
Choose grippers that are compatible with the bolt pattern on the
wrist of the robot to streamline installation and operation. If
direct mounting is not an option, our expert engineers can design an
adaptor plate to fit any application need.
7. Customization Options: Assess whether the gripper offers customization options to tailor
its functionality to specific application requirements. Some
grippers may allow for adjustable finger positions, interchangeable
fingers, or additional sensors for object detection and feedback.