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How to Set Up DELEM DA53T Toolings and Add Molds?
DELEM DA53T Toolings causing setup issues? A complex process can lead to delays. Learn how to set up toolings and add molds quickly and accurately.
In this guide, we walk you through the essential steps for setting up toolings and adding molds to the DELEM DA53T. Optimize your workflow with simple, clear instructions for precise bending operations. Ready to dive into the setup process? Let’s explore each step in detail to enhance your productivity and ensure accuracy.
In the world of press brakes, the ability to configure and manage molds efficiently is crucial for ensuring accurate and high-quality bending operations. The DELEM DA53T controller, widely used for its advanced features and ease of use, allows operators to add new molds seamlessly to optimize the machine’s tooling setup. This guide walks you through the process of adding new punches and dies to your DELEM DA53T, ensuring a smooth and efficient setup for your press brake.
Why Tooling Setup is Important
Tooling setup is a fundamental aspect of press brake operation. A well-configured tooling setup ensures that your machine can produce precise and consistent bends, which is essential for both the quality and efficiency of your production. By understanding how to add new molds to the DELEM DA53T controller, you can streamline your operations and adapt the machine to meet specific customer needs.
In this guide, we will cover how to add new punches (upper molds) and dies (lower molds) to the DELEM DA53T system. Follow these steps closely to avoid errors and to ensure a correct and reliable tooling setup.
Part 1: Adding New Punches (Upper Molds)
The first step in your tooling setup is to add the punches, or upper molds, to the DELEM DA53T controller. Follow the steps below to configure the punches.
- Click the Machine

Begin the process by selecting the specific machine you wish to work with on the DELEM DA53T interface. This initial step is crucial, as it ensures that the settings and configurations you apply are tailored to the capabilities and specifications of the chosen machine. Navigate through the interface using the touchscreen controls, which are designed for user-friendly operation. Once you have identified the correct machine model, confirm your selection to proceed. This careful attention to detail not only facilitates a smoother setup process but also enhances the overall efficiency and accuracy of the bending operations you will undertake.
- Add the Punches

In the control panel, navigate to the “Punches” section to initiate the process of adding a new punch. This section is specifically designed to manage the various punches available for your bending operations. Once you are in the punches section, click on the “Add the Punch” option to begin. This will guide you through the necessary steps to incorporate a new punch into the system. Afterward, click the “New” button to create a fresh punch entry. This action opens a form where you can input essential details such as dimensions, material type, and specifications, ensuring that the new punch is correctly configured for your needs.
- Enter the ID of the New Punch

Input the unique ID or name for the new punch in the designated field. This identifier is essential, as it should correspond directly to the physical punch mold you are installing on the press brake. A well-chosen ID helps maintain organization and ensures that operators can easily recognize and retrieve the correct punch during setup and operation. It is advisable to use a naming convention that reflects key characteristics of the punch, such as its size or function, to facilitate quick identification. This attention to detail not only enhances workflow efficiency but also minimizes the risk of errors during the bending process.
- Measure Punch Height

Measure the height of the new punch carefully to ensure it fits correctly in your machine. Accurate measurements are vital for achieving optimal performance and preventing any operational issues. In this example, the measured height of the punch is 120.10 mm. This precise dimension is crucial, as even minor discrepancies can affect the alignment and functionality of the punch within the press brake. After measuring, double-check the height to confirm its accuracy before proceeding with the installation. Properly fitting the punch not only enhances the quality of the bending process but also contributes to the overall safety and efficiency of the machine’s operation.
- Input Punch Height

Enter the punch height of 120.10 mm into the DELEM DA53T system to ensure that the machine accurately recognizes the specifications of the new punch. This step is crucial, as it allows the system to adjust its settings accordingly, optimizing the bending operations to accommodate the specific dimensions of the punch. Navigate to the appropriate field within the punches section of the interface and input the measurement with precision. After entering the height, verify that the data is correct to avoid any potential issues during operation. This attention to detail helps maintain the integrity of the bending process and enhances overall productivity.
- Input Slot Angle


The angle of the punch slot is a critical factor in the bending process, as it directly influences the quality and accuracy of the bends produced. For this particular step, the slot angle is set to 85 degrees. Accurately entering this value into the DELEM DA53T system is essential to ensure that the machine operates within the specified parameters. To do this, navigate to the designated field for the punch slot angle and input the value of 85 degrees. Double-check your entry to confirm its correctness, as even slight errors can lead to misalignments and affect the overall outcome of the bending operation.
- Enter Radius Value

Punches frequently feature a radius that is essential for defining the bending profile and ensuring the desired curvature in the material. This radius plays a significant role in determining the final shape of the bend, affecting both aesthetics and functionality. For this specific punch, the radius is measured at 0.5 mm. This relatively small radius allows for precise bending while minimizing the risk of material deformation. It is important to accurately document this radius in the system, as it ensures that the machine can execute the bending process correctly, producing high-quality results that meet the specified design requirements.
- Measure Punch Width

Next, proceed to measure the width of the punch, as this dimension is crucial for its compatibility with the press brake and the specific bending application. For this example, the punch width is recorded at 26.07 mm. This measurement is important because it directly affects the material’s bending capabilities and the overall performance of the punch during operations. When measuring, ensure that the width is taken accurately and consistently, using appropriate tools to avoid any discrepancies. Once you have confirmed the width, it is essential to enter this value into the system, as it will help maintain precise control over the bending process and ensure optimal results.
- Input Punch Width

Enter the width of the punch, which is 26.07 mm, into the DELEM DA53T controller to ensure that the machine recognizes this critical dimension. This step is essential for maintaining the accuracy and efficiency of the bending process. Begin by accessing the appropriate section of the controller’s interface designated for punch specifications. Carefully input the width measurement, ensuring that it is entered correctly to prevent any operational errors. After entering the value, double-check for accuracy, as even minor mistakes can lead to significant issues during bending operations. Properly documenting the punch width will help enhance the overall performance and reliability of your machine.
- Input Resistance Value

Enter the resistance value for the punch into the system, as this parameter is crucial for ensuring optimal performance during the bending process. In this case, the resistance is configured to a value of 3. This setting influences how the punch interacts with the material, affecting both the quality of the bend and the overall efficiency of the operation. To enter this value, navigate to the designated section within the DELEM DA53T controller that addresses punch parameters. Carefully input the resistance value of 3, ensuring that it is accurate to avoid any potential issues during production. Double-check your entry to confirm its correctness, as this attention to detail will help maintain the integrity and reliability of the bending process.
- Save and Finish

Once all the punch parameters have been accurately entered into the DELEM DA53T controller, it is essential to finalize the setup by clicking the “End” button. This action will save all the configurations you have input, ensuring that the machine retains the specified settings for future operations. Before clicking “End,” take a moment to review all parameters one last time, confirming that each value is correct and complete. This step is crucial, as any oversight could lead to operational inefficiencies or errors during the bending process. By saving the punch setup, you facilitate a smoother workflow and enhance the overall effectiveness of your production operations.
Part 2: Adding New Dies (Lower Molds)

After successfully configuring the punches, the next step is to add the dies, also known as lower molds, to complete the tooling setup. This stage is critical for ensuring that the bending process operates smoothly and efficiently. Begin by selecting the appropriate dies that match the specifications of the punches you have just set up. Carefully position the dies in the designated area of the machine, ensuring proper alignment for optimal performance. Pay close attention to the die dimensions and compatibility, as these factors will directly impact the quality of the bends produced. Follow these steps diligently to ensure a seamless integration of the dies into the overall tooling setup, paving the way for precise and effective bending operations.
- Click the Bottom Dies Section

Navigate to the “Bottom Dies” section of the DELEM DA53T interface to initiate the process of adding the new die. This section is specifically designated for configuring the lower molds, which play a vital role in the bending process. Once you enter this area, you will find various options and settings related to the dies. Begin by selecting the option to add a new die, which will prompt you to enter essential details such as dimensions, material type, and any specific characteristics relevant to the die. Ensure that you input this information accurately to maintain compatibility with the configured punches. Taking care to follow these steps will help streamline the tooling setup and enhance the overall efficiency of your bending operations.
- Click New

Just like with the punches, click the “New” button to create a new die entry within the DELEM DA53T interface. This action will allow you to input all necessary specifications for the new die, ensuring that it aligns perfectly with your existing tooling setup. Once you click “New,” a form will appear, prompting you to enter essential details such as the die dimensions, material properties, and any unique features that are relevant to its function. It’s important to be thorough and precise during this process to guarantee that the die performs optimally during operations. By carefully creating a new die entry, you set the stage for achieving high-quality bends and maintaining the overall efficiency of your production workflow.
- Enter the ID of the New Die

Input the unique ID or name for the new die, making sure it corresponds accurately to the physical die mold you are using. This identification is crucial for maintaining organization and ensuring that operators can easily recognize and select the correct die during production. A well-chosen ID or name should reflect the die’s specifications or intended use, facilitating quick reference in the future. Take the time to double-check the entered information for accuracy, as any discrepancies could lead to confusion and potential errors in the bending process. By ensuring a precise match between the digital entry and the physical mold, you contribute to the overall efficiency and reliability of your operations.
- Measure Die Dimensions

Measure the width and height of the new die with precision, as these dimensions are critical for ensuring proper alignment and functionality during the bending process. For this example, both the width and height are recorded as 85.55 mm. Using a caliper or a similar measuring tool, carefully take these measurements to guarantee accuracy. It’s important to note any slight variations, as even small discrepancies can affect the die’s performance and the quality of the bends produced. Once you have confirmed that both dimensions are indeed 85.55 mm, input this information into the DELEM DA53T interface, ensuring that it aligns with the specifications of the corresponding punch for optimal results.
- Input Die Dimensions


Enter the die’s width and height into the system, specifying both measurements as 85.55 mm. This step is essential for the accurate configuration of the die within the DELEM DA53T interface. As you input these dimensions, ensure that you double-check for any typographical errors to maintain precision. Accurate entry of the width and height is vital, as it directly affects how the die interacts with the punches during the bending process. Once the values are entered, review your inputs to confirm that they are correct. This diligence will help ensure seamless operations and contribute to the overall effectiveness of your production workflow.
- Input Radius Value

Just like with the punches, the radius of the die must also be entered into the system to ensure precise functionality during the bending process. For this particular die, the radius is measured at 0.5 mm. Accurately recording this measurement is crucial, as the radius affects the curvature of the bends produced and can influence the overall quality of the final product. As you input the radius into the DELEM DA53T interface, take a moment to verify that the value is correct and corresponds to the physical die you are using. This attention to detail will help prevent any discrepancies that could impact production efficiency and ensure that the die functions as intended during operations.
- Input Slot Angle

The slot angle for the die is another crucial parameter that must be accurately recorded in the system. This angle plays a significant role in determining how the die interacts with the material during the bending process. For this specific die, you should enter the slot angle as 86 degrees. When inputting this information into the DELEM DA53T interface, it’s essential to ensure that the angle is precise, as even slight deviations can lead to improper bends and affect the overall quality of the finished product. After entering the 86-degree slot angle, take a moment to review your input to confirm its accuracy, helping to maintain consistent performance and efficiency in your manufacturing operations.
- Measure Slot Width

Measure the slot width of the die with care, as this dimension is vital for achieving the desired bending outcomes. In this example, the slot width is recorded as 24 mm. Utilizing a caliper or similar measuring tool, ensure that you take an accurate measurement to avoid any potential discrepancies that could impact production. The slot width directly influences how materials fit into the die and can affect the quality and precision of the bends. Once you have confirmed that the slot width is indeed 24 mm, be sure to input this measurement into the DELEM DA53T interface, ensuring that it aligns correctly with other parameters for optimal performance during operations.
- Input Slot Width

Enter the slot width into the DELEM DA53T system, accurately setting it to 24 mm. This measurement is critical for ensuring the proper interaction between the die and the material being bent. As you input this value, take special care to double-check for any errors, as even small inaccuracies can lead to significant issues in the bending process. Once you have confirmed that the slot width is correctly entered as 24 mm, review other parameters to ensure they are consistent with this measurement. This meticulous attention to detail is essential for maintaining production efficiency and achieving high-quality results in your operations.
- Choose V Bottom as Standard

Select the V bottom option for the die, as this configuration is considered the standard for most press brakes. The V bottom design is preferred due to its versatility and effectiveness in producing accurate bends across a variety of materials. This type of die facilitates uniform distribution of force, ensuring that the material is shaped correctly and consistently. When choosing this option in the DELEM DA53T interface, be mindful of its compatibility with your specific bending requirements. By opting for the V bottom configuration, you enhance the reliability of your bending operations, contributing to improved efficiency and higher quality outputs in your production processes.
- Input Resistance Value

Enter the die resistance value, ensuring it is set to 3. This parameter is essential for determining how the die will perform under pressure during the bending process. The die resistance value directly influences the material’s response to the applied force, affecting the accuracy and quality of the bends produced. When inputting this value into the DELEM DA53T system, double-check the accuracy to prevent any potential errors that could compromise the bending operation. Setting the die resistance to 3 ensures optimal interaction between the die and the material, promoting effective bending and contributing to the overall success of your manufacturing workflow. Your attention to this detail will help maintain high standards in production efficiency and product quality.
- Save and Finish

Once all die parameters have been meticulously entered, it’s time to finalize the setup by clicking “End” to save the die configuration. This step is crucial, as it ensures that all the specific settings—such as slot width, slot angle, and die resistance—are securely stored in the DELEM DA53T system. By saving the die setup, you create a reliable reference for future operations, minimizing the risk of errors in subsequent bends. Before clicking “End,” take a moment to review each parameter one last time to confirm their accuracy. Completing this process not only streamlines your workflow but also enhances the overall efficiency and quality of your production tasks.
Finalizing Your Tooling Setup
With both the punches and dies configured in the DELEM DA53T controller, your tooling setup is now complete. Ensure that you double-check all entered values to avoid errors during the bending process. A correct tooling setup is crucial for achieving high-quality bends with your press brake.
After completing the configuration, you can test the newly added molds by running a test bend, ensuring that everything functions as expected.
Conclusion
Adding new molds to the DELEM DA53T controller is a straightforward process that requires careful attention to detail. By following this step-by-step guide, you can quickly and accurately configure new punches and dies, ensuring a smooth tooling setup for your press brake. Whether you’re setting up tooling for a new project or adapting your machine for a specific task, understanding how to configure molds effectively is essential for optimizing machine performance and producing quality bends.
Incorporating a proper tooling setup into your workflow not only improves the efficiency of your press brake operations but also ensures that your team can consistently produce high-precision parts. Follow this guide the next time you need to add new molds, and you’ll be well on your way to mastering press brake tooling setup with the DELEM DA53T controller.