The Ultimate Guide to 3DQuickPress Crack Torrent.epub Download
What is 3DQuickPress and Why You Need It
If you are a SOLIDWORKS user who works in the metal stamping industry, you may have heard of 3DQuickPress. But what exactly is it and why do you need it? In this article, we will answer these questions and more. We will also show you how to install and activate 3DQuickPress, how to use it for progressive die design, how to avoid common problems and errors with it, and how to find and download a safe and legal version of it. By the end of this article, you will have a clear understanding of what 3DQuickPress can do for you and your business.
3d Quick Press Crack Torrent.epub
3DQuickPress is a SOLIDWORKS add-on for progressive die design. It is developed by 3D QuickTools Limited, an award-winning supplier of 3D die and mold design solutions. 3DQuickPress integrates seamlessly with SOLIDWORKS and provides a complete solution for designing progressive dies. It allows you to create a 3D solid model of the part, a 3D strip layout, and a detailed die set structure in a fast and easy way. It also helps you communicate your design clearly throughout your work group using the free SOLIDWORKS eDrawings viewer. Some of the features and benefits of 3DQuickPress are: Powerful unfold for imported part: It can handle native SOLIDWORKS sheet metal parts or imported data from other CAD systems. It also provides a knowledge base for spring back and bend allowance.
User-friendly strip layout manager: It provides intuitive tools to quickly complete the strip layout by dragging and dropping commands with instant graphical feedback. It also supports multiple parts, notch punch design, split punch, mismatch undercuts, partial bend, insert/delete stations, optimization, material utilization report, and center of cutting force calculation.
Automatic punch generation: It automatically creates all punches defined in the strip design, including cutting punches, bending punches, inserts, pilots, lifters, etc.
User-defined punch creation: It allows you to create your own custom punches and inserts using sketch tools or standard components.
Standard component library: It provides a comprehensive library of standard components for progressive dies, such as screws, pins, springs, guides, bushings, etc.
Die set library: It provides a variety of die sets from different manufacturers for different types of dies, such as single station, two-plate, three-plate, four-plate, etc. You can also create your own die set using the die set wizard.
Automatic die plate holes generation: It automatically creates all the necessary holes on the die plates according to the punches and inserts positions and sizes.
Automatic bill of materials (BOM) and annotation: It automatically generates a BOM table and annotations for the die set structure, including part number, description, quantity, material, etc.
3DQuickPress eDrawings: It allows you to share your 3DQuickPress design with anyone who has the free SOLIDWORKS eDrawings viewer. You can also view the strip layout animation, measure dimensions, add comments, and print or save the file.
With 3DQuickPress, you can design progressive dies faster, easier, and more accurately than ever before. You can also reduce errors, save time and money, and improve your productivity and quality. 3DQuickPress is widely used by leading companies in the metal stamping industry, such as Ford, GM, Toyota, Honda, Samsung, LG, Foxconn, etc. If you want to join them and take your progressive die design to the next level, you need 3DQuickPress.
How to Install and Activate 3DQuickPress
Now that you know what 3DQuickPress is and why you need it, you may be wondering how to install and activate it on your computer. Don't worry, it's not complicated at all. Just follow these simple steps:
Make sure you have SOLIDWORKS installed on your computer. 3DQuickPress is compatible with SOLIDWORKS 2016 or later versions.
Go to the official website of 3D QuickTools Limited at https://www.3dquicktools.com/ and click on the "Download" button at the top right corner of the page.
Select the version of 3DQuickPress that matches your SOLIDWORKS version and click on the "Download" button again. You will need to fill out a form with your name, email address, company name, country, phone number, and how you heard about 3DQuickPress. After submitting the form, you will receive an email with a link to download the installation file.
Open the email and click on the link to download the installation file. It will be a zip file named "3DQPVx.x.x.zip", where x.x.x is the version number of 3DQuickPress.
Extract the zip file to a folder on your computer. You will see a folder named "3DQPVx.x.x", where x.x.x is the version number of 3DQuickPress.
Open the folder and double-click on the file named "setup.exe". This will launch the installation wizard of 3DQuickPress.
Follow the instructions on the screen to complete the installation process. You will need to accept the license agreement, choose a destination folder, select a language, and confirm your settings.
After the installation is finished, you will see a message saying "Installation Complete". Click on the "Finish" button to exit the installation wizard.
Launch SOLIDWORKS and go to "Tools" > "Add-Ins". You will see a checkbox for 3DQuickPress. Check it and click on "OK". This will activate 3DQuickPress as an add-on for SOLIDWORKS.
You will see a new tab for 3DQuickPress on the SOLIDWORKS command manager. Click on it and you will see a toolbar with various icons for 3DQuickPress functions. You can also access them from the menu bar under "3DQuickPress".
Congratulations! You have successfully installed and activated 3DQuickPress for SOLIDWORKS. You are now ready to use it for progressive die design. How to Use 3DQuickPress for Progressive Die Design
Now that you have installed and activated 3DQuickPress, you may be wondering how to use it for progressive die design. In this section, we will show you how to use some of the main features of 3DQuickPress to create a progressive die design from start to finish. We will use an example of a sheet metal part that needs to be stamped using a progressive die. You can follow along with your own part or use the sample part provided by 3DQuickPress.
Unfolding the Part
The first step in progressive die design is to unfold the part. This means converting the 3D solid model of the part into a 2D flat pattern that shows the shape and size of the blank. This is necessary to determine the number and position of the stations, the material utilization, and the cutting force.
To unfold the part using 3DQuickPress, you need to do the following:
Open SOLIDWORKS and create a new part file or open an existing one. If you want to use the sample part provided by 3DQuickPress, go to "File" > "Open" and browse to the folder where you installed 3DQuickPress. Then go to "Samples" > "Part" and select the file named "SamplePart.SLDPRT".
Go to the 3DQuickPress tab on the command manager and click on the icon for "Unfold". This will open the unfold dialog box.
In the unfold dialog box, you will see a list of parameters that you can adjust for unfolding the part. These include:
Material: You can select the material type and thickness from a drop-down list or enter your own values.
Spring back: You can enter the spring back angle or percentage for the material. This is the amount of elastic recovery that occurs after bending.
Bend allowance: You can enter the bend allowance or percentage for the material. This is the amount of material consumed in forming a bend.
Unfold method: You can choose between two methods for unfolding the part: K-factor or Y-factor. These are different ways of calculating the bend allowance based on empirical formulas.
Unfold direction: You can choose between two directions for unfolding the part: Up or Down. This determines which side of the part will be facing up in the flat pattern.
Unfold options: You can check or uncheck some options for unfolding the part, such as creating a configuration, creating a sketch, creating dimensions, creating a flat pattern feature, etc.
After adjusting the parameters, click on "OK" to unfold the part. You will see a preview of the flat pattern on the screen. You can also switch between the 3D model and the flat pattern by clicking on the configuration tab at the bottom left corner of the screen.
Congratulations! You have successfully unfolded the part using 3DQuickPress. You can now proceed to create the strip layout. Creating the Strip Layout
The next step in progressive die design is to create the strip layout. This means arranging the flat pattern of the part along a strip of material that will be fed into the die. This is necessary to determine the number and position of the stations, the material utilization, and the cutting force.
To create the strip layout using 3DQuickPress, you need to do the following:
Go to the 3DQuickPress tab on the command manager and click on the icon for "Strip Layout". This will open the strip layout dialog box.
In the strip layout dialog box, you will see a list of parameters that you can adjust for creating the strip layout. These include:
Strip width: You can enter the width of the strip material or use the default value based on the part size.
Strip thickness: You can enter the thickness of the strip material or use the same value as the part thickness.
Strip direction: You can choose between two directions for creating the strip layout: Horizontal or Vertical. This determines how the part will be oriented along the strip.
Strip options: You can check or uncheck some options for creating the strip layout, such as creating a configuration, creating a sketch, creating dimensions, creating a flat pattern feature, etc.
After adjusting the parameters, click on "OK" to create the strip layout. You will see a preview of the strip layout on the screen. You can also switch between the 3D model and the strip layout by clicking on the configuration tab at the bottom left corner of the screen.
To edit the strip layout, you can use the strip layout manager. This is a tool that allows you to quickly and easily modify the strip layout by dragging and dropping commands with instant graphical feedback. You can access it by clicking on the icon for "Strip Layout Manager" on the 3DQuickPress toolbar or from the menu bar under "3DQuickPress" > "Strip Layout Manager".
In the strip layout manager, you will see a list of commands that you can use to edit the strip layout. These include:
Add station: This allows you to add a new station to the strip layout by selecting a position on the strip.
Delete station: This allows you to delete an existing station from the strip layout by selecting it.
Move station: This allows you to move an existing station along the strip by dragging it.
Rotate station: This allows you to rotate an existing station by entering an angle or using a handle.
Mirror station: This allows you to mirror an existing station by selecting an axis or a line.
Copy station: This allows you to copy an existing station by selecting it and a destination position.
Paste station: This allows you to paste a copied station by selecting a destination position.
Insert/delete rows/columns: These allow you to insert or delete rows or columns of stations by selecting them.
Optimize: This allows you to optimize the strip layout by minimizing the material waste and maximizing the cutting force balance.
Report: This allows you to generate a report of the strip layout, including the material utilization, the center of cutting force, the number of stations, the strip length, etc.
Animate: This allows you to view the strip layout animation, which shows how the part will be stamped in each station.
After editing the strip layout, you can save it as a SOLIDWORKS part file or export it as a DXF or DWG file for further processing.
Congratulations! You have successfully created the strip layout using 3DQuickPress. You can now proceed to generate the punches and inserts.
Generating the Punches and Inserts
The next step in progressive die design is to generate the punches and inserts. These are the tools that will cut, bend, form, or pierce the part in each station. They are attached to the upper and lower die plates and move up and down with the press stroke.
To generate the punches and inserts using 3DQuickPress, you need to do the following:
Go to the 3DQuickPress tab on the command manager and click on the icon for "Punch". This will open the punch dialog box.
In the punch dialog box, you will see a list of parameters that you can adjust for generating the punches and inserts. These include:
Punch type: You can select the type of punch from a drop-down list, such as cutting punch, bending punch, forming punch, piercing punch, etc.
Punch shape: You can select the shape of punch from a drop-down list, such as round, square, rectangular, oval, etc. You can also create your own custom shape using sketch tools or standard components.
Punch size: You can enter the size of punch or use the default value based on the part size.
Punch clearance: You can enter the clearance between the punch and the die or use the default value based on the material thickness.
Punch position: You can enter the position of punch or use the default value based on the strip layout.
Punch options: You can check or uncheck some options for generating the punches and inserts, such as creating a configuration, creating a sketch, creating dimensions, creating a feature, etc.
After adjusting the parameters, click on "OK" to generate the punches and inserts. You will see them on the screen as solid models attached to the upper and lower die plates. You can also switch between the 3D model and the flat pattern by clicking on the configuration tab at the bottom left corner of the screen.
To edit the punches and inserts, you can use the punch table. This is a tool that allows you to quickly and easily modify the punches and inserts by editing their properties in a table. You can access it by clicking on the icon for "Punch Table" on the 3DQuickPress toolbar or from the menu bar under "3DQuickPress" > "Punch Table".
In the punch table, you will see a list of all the punches and inserts that you have generated, along with their properties, such as type, shape, size, clearance, position, etc. You can edit any of these properties by double-clicking on them and entering a new value. You can also add, delete, or copy and paste punches and inserts using the buttons at the top of the table.
After editing the punches and inserts, you can save them as SOLIDWORKS part files or export them as DXF or DWG files for further processing.
Congratulations! You have successfully generated the punches and inserts using 3DQuickPress. You can now proceed to design the die set structure.
Designing the Die Set Structure
The final step in progressive die design is to design the die set structure. This means creating a 3D assembly of all the components that make up the die set, such as die plates, guide posts, bushings, screws, springs, etc. This is necessary to ensure that the die set is functional, stable, and safe.
To design the die set structure using 3DQuickPress, you need to do the following:
Go to the 3DQuickPress tab on the command manager and click on the icon for "Die Set". This will open the die set dialog box.
In the die set dialog box, you will see a list of parameters that you can adjust for designing the die set structure. These include:
Die set type: You can select the type of die set from a drop-down list, such as single station, two-plate, three-plate, four-plate, etc.
Die set size: You can enter the size of die set or use the default value based on the strip layout size.
Die set manufacturer: You can select the manufacturer of die set from a drop-down list, such as Danly, Dayton, Misumi, etc. This will affect the standard components and dimensions of the die set.
Die set options: You can check or uncheck some options for designing the die set structure, such as creating a configuration, creating a sketch, creating dimensions, creating a feature, etc.
After adjusting the parameters, click on "OK" to design the die set structure. You will see it on the screen as a 3D assembly of all the components. You can also switch between the 3D model and the flat pattern by clicking on the configuration tab at the bottom left corner of the screen.
To edit the die set structure, you can use the standard component library and the die set library. These are tools that allow you to quickly and easily add or modify standard components and die sets from different manufacturers. You can access them by clicking on the icons for "Standard Component Library" and "Die Set Library" on the 3DQuickPress toolbar or from the menu bar under "3DQuickPress".
In the standard component library, you will see a list of categories of standard components, such as screws, pins, springs, guides, bushings, etc. You can select a category and then a subcategory to see the available components. You can also filter them by manufacturer, size, type, etc. To add a component to the die set structure, you can drag and drop it from the library to the desired position. To modify a component, you can double-click on it and edit its properties in a dialog box.
In the die set library, you will see a list of categories of die sets, such as single station, two-plate, three-plate, four-plate, etc. You can select a category and then a subcategory to see the available die sets. You can also filter them by manufacturer, size, type, etc. To add a die set to the die set structure, you can drag and drop it from the library to the desired position. To modify a die set, you can double-click on it and edit its properties in a dialog box.
After editing the die set structure, you can save it as a SOLIDWORKS assembly file or export it as a DXF or DWG file for further processing.
Congratulations! You have successfully designed the die set structure using 3DQuickPress. You have completed your progressive die design using 3DQuickPress.
How to Avoid Common Problems and Errors with 3DQuickPress
As you can see, 3DQuickPress is a powerful and user-friendly tool for progressive die design. However, like any software, it is not perfect and may encounter some problems and errors from time to time. In this section, we will show you how to avoid some of the common problems and errors with 3DQuickPress and how to troubleshoot and fix them if they occur.
Some of the common problems and errors with 3DQuickPress are:
Unfold error: This occurs when 3DQuickPress cannot unfold the part correctly due to invalid geometry or parameters. To avoid this problem, you should make sure that your part is a valid sheet metal part with no gaps, overlaps, or self-intersections. You should also check your unfold parameters and make sure they are appropriate for your material type and thickness.
Strip layout error: This occurs when 3DQuickPress cannot cre