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7.4: Advanced and Mechanical Mates

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    Advanced mates allow you more control and more specified constraints for constraining parts to other parts. The main ones here are Width and Limit mates. There is also symmetric, linear coupler, profile center, and path mates here. They work very similarly to standard mates; they are just more options and more selected entities to use them.

    WIDTH

    A Width Mate is used to center parts within other parts using planar faces. If you think about it, width does the same thing concentric does, but for prismatic parts as opposed to cylindrical parts.

    To use width, you select the two faces that a part will be centered between, and then the two faces you will use as the centering reference on the part you want to center. Use width when default planes and coincident wouldn’t be appropriate (most of the time we center parts in relation to the default planes, so we can just use them as opposed to width).

    The image displays two segments focusing on a mechanical component. On the left, a 3D model of a ball valve is shown in SOLIDWORKS. The valve has a metal finish and consists of two flanged ends connected by a cylindrical body and a protruding handle at the top. The handle appears to control the flow within the valve. On the right side of the image, there is a close-up view of a section of the ball valve, highlighting where the handle connects to the valve. Different parts are color-coded with blue, yellow, and purple overlays to indicate specific areas of interest, such as the width and tab references. The interface features a menu to the right, with options and tools for manipulating the valve model. A tab titled Mates is selected. It has sections titled Mate Selections, Standard Mates (collapsed), and Advaned Mates (expanded). In this section is listed Profile center, Symmetric, Width (above Constraint: where Centered is selected), Path Mate, Linear/Linear Coupler, and a text box including the text 0.825 in.
    Figure \(\PageIndex{1}\): Width Mate Used to Center Handle Broach on Pipe Valve Key

    LIMIT DISTANCE AND ANGLE

    Limit distance and angle mates work just as the standard distance and angle, except you can put in a range rather than a single value. This is great for making assemblies dynamic: dynamic hydraulic cylinders, valves, or actuators. You specify your minimum and maximum distance/angle, and the faces that distance/angle will be between.

    The image shows a 3D model of a water control valve within SOLIDWORKS. The valve features a cylindrical body with two circular flanges on either side, each having four evenly spaced holes. A yellow rectangular component sits atop the valve, surrounded by metallic parts secured with bolts. A transparent, curved handle extends from the top of the valve, indicating the direction of operation. Blue contour lines overlay the valve, possibly showing path or flow lines. On the left panel of the interface, titled "LimitAngle3," options related to advanced mates are visible. This includes profile center, symmetric, width, path mate, and linear/linear coupler. There are also angular position settings, such as “90.00deg,” “Flip dimension,” “180.00deg,” and another “90.00deg,” enclosed in a red box.
    Figure \(\PageIndex{2}\): Limit Angle Mate Being Used on Handle to Limit Rotation to a 90 Degree Turn

    MECHANICAL MATES

    Mechanical mates are also available for more specific mechanical relationships between parts, such as screw/thread mate (a part turns as it is translated along another part), gear mate (as one part turns at one speed, another part turns at a different speed), rack and pinion, cam, slot, hinge, and universal joints. We won’t get into these here, but you can look them up in more detail from SolidWorks Help as well as from MySolidWorks Training on Mechanical Mates.

    Exercise \(\PageIndex{1}\): Advanced and Mechanical Mates

    In this exercise, you will be given the opportunity to explore advanced and mechanical mates through the MySolidWorks portal. Below are two training lessons that you can follow along with to explore the two mate categories.

    This page titled 7.4: Advanced and Mechanical Mates is shared under a CC BY-NC 4.0 license and was authored, remixed, and/or curated by Melvin Hortman via source content that was edited to the style and standards of the LibreTexts platform.