Long Stroke Gripper(Parallel long stroke gripper ) from Tallman Robotics Limited by Model type TM-CGBD has large stroke clamping claw with large clamping force. The advantage is that the motor rotation speed and torque can be accurately controlled by the servo module, and the motor rotation speed can be accurately controlled by the servo module;It is a new revolutionary product to realize high-precision linear motion series.
long stroke gripper has Large opening and closing stroke, high clamping force, built-in type of controller, suitable for installation on the arm. The special flange accessories for wiring are hidden in the controller, which can be directly carried and used with the machine arm. The clamping claw + controller is integrated with the design, plug and play, saving time and convenience.
The setting of clamping force / speed is simple. Two groups of simple rotary opening and closing on the clamping jaw can be used to set the clamping force and speed.
Long Stroke Gripper(Parallel long stroke gripper ) is also a Large stroke micro servo gripper with optional built-in controller
Detailed Technical Parameters of Long Stroke Gripper from Tallman Robotics Limited:
|Items||Long Stroke Gripper TM-CGBD Technical Parameters|
|Maximum clamping Force (n)||
|Rated voltage (V)||
|Rated current (a)||
0 ~ 40 ℃, below 85% RH (without condensation)
|Degree of protection||
Long Stroke Gripper from Tallman Robotics Limited has the following special features:
1. Closed circuit stepping motor
2. Maximum opening and closing stroke 90mm
3. Maximum holding force 120N
4. Input power supply DC24V
5. Multipoint position and holding force control, The 127 point stop position can be set, and the force of the clamping claw to grasp the work object can be set arbitrarily in 1% between 30% – 100% of the maximum clamping force.
6.Dimension measurement control and workpiece clamping confirmation
Using the position detection function, the minimum size measurement control of 0.01mm can be achieved.And use the hold signal output to confirm whether the workpiece is clamped or dropped during clamping, without adding an external sensor to confirm.
7. Speed / acceleration control
The speed and acceleration of long stroke gripper can be set arbitrarily within the range of 100mm / s.The speed will change by 1mm / s for every 1% set on average.Multi section speed can also be set.
8. Communication mode is open, more flexible in control
The clamping speed and clamping force of this long stroke gripper can be directly controlled by communication signal (RS485).
So that the upper controller can drive the electric clamping claw more flexibly.
How the Long Stroke Gripper is Making Manufacturing Safer and More Efficient
One of the most important pieces of equipment in any manufacturing facility is the gripper. The gripper is responsible for holding and manipulating materials during the manufacturing process. There are many different types of grippers, each with its own advantages and disadvantages.
One of the newest and most innovative grippers on the market is the gripper. The long stroke gripper is designed for applications where larger objects need to be handled. It is also safer and more efficient than other grippers on the market.
In this article, we will take a closer look at the long-stroke gripper and how it is changing the manufacturing industry. We will also explore the benefits of this new technology and how it can be used to improve safety and efficiency in your manufacturing facility.
What is the long stroke Gripper?
The gripper is designed to handle larger objects in precision manufacturing. It is a type of robotic end-effector that can be used to produce repeatable and precise results. The long stroke gripper is designed with a longer stroke length than other grippers, which allows it to grip larger objects. The long stroke gripper also has an improved gripping force, which makes it more suitable for handling heavier objects. The long stroke gripper is made up of several different parts. These include a servo-motor, a clamp, motor drivers, sensors, and other components. The servo-motors provide the gripper with the power and precision it needs to pick up and manipulate large objects. The clamp is used to secure the object to the gripper and the motor drivers provide the gripper with the necessary programming instructions. The sensors on the gripper allow it to identify the size and shape of the object it is handling. How Does the Gripper Work? The long stroke gripper has a simple and straightforward operation. It begins by powering up the servo-motors and motor drivers. The motor drivers will then receive the programming instructions from the programming software. The sensors on the gripper will then be activated and used to identify the size and shape of the object that needs to be picked up. Once the object has been identified, the clamp will be activated and the object will be securely held in place. The servo-motors will then move the gripper arm in a precise and repeatable manner. This allows the gripper to pick up and manipulate objects with precision.
The benefits of the long stroke gripper
The gripper offers a number of different benefits that make it an ideal choice for precision manufacturing. One of the biggest benefits is the increased gripping force. The improved gripping force allows the long stroke gripper to handle heavier and larger objects with ease. This means that the long-stroke gripper can be used to pick up and manipulate objects that would otherwise be too large or heavy for other types of grippers. Another benefit to the long stroke gripper is its improved stroke length. The longer-stroke length allows the gripper to pick up objects from farther away and keep them in place for longer. This means that the objects can be picked up in a more precise and efficient manner, resulting in less wasted material and more efficient manufacturing.
How the Gripper is Changing Manufacturing
The long stroke gripper is revolutionizing precision manufacturing. This new technology allows manufacturers to easily and quickly pick up and manipulate objects with a high degree of accuracy. This increased accuracy leads to improved product quality and reduced waste. The improved accuracy also reduces the amount of time it takes to manufacture a product, resulting in improved efficiency and lower production costs. Additionally, the improved safety of the long stroke gripper is reducing the risk of human injury. Automating the picking up and manipulating process eliminates the potential for human error and reduces the risk of injury. This means that fewer workers need to be employed in dangerous and labor-intensive environments.
The gripper is revolutionizing precision manufacturing. This new technology offers a number of benefits that make it an ideal choice for handling larger objects. The improved gripping force, longer-stroke length, and increased safety make the long stroke gripper the perfect choice for any manufacturing facility. The long stroke gripper is making manufacturing safer and more efficient and is sure to be a game-changer in the industry for years to come.