Animated Icons: Tools

bannerThis post is one of a series on creating custom icons and adding impact with animation. Creating your own icons lets you match your brand/color scheme and get precisely the image you need. You can also edit and re-use your icons without special software.

Tool icons can represent software/apps, support or maintenance and sometimes act as a visual metaphor.


The hammer icon, like the other icons in this post, is created using standard PowerPoint shapes and Group/Merge operations. Here are the steps:

tools1The spool-shaped part of the hammer head is made by Subtracting two flattened Ovals from a Rectangle (see Drawing Tools/Merge Shapes). Subtracting a Rectangle from a Moon shape yields the claw part. The handle is made from a Chord shape, a Rectangle and a Rounded Rectangle. The parts are completed using the Union operation. The fill colors are selected from the template for this project; presumably, these would be consistent with the client’s branding.

Other examples of this technique are shown in my Slideshare post. This earlier blog series provides examples of cutting tools.

The layout for the hammer animation looks like this:

tools2Here are the steps:

  • To establish the pivot point for a Spin animation, add the circle as shown (temporarily red) and group it with the hammer object.
  • Duplicate the hammer/circle object and rotate it 90 degrees counterclockwise. This (shown in red outline) provides a reference for positioning the nail and block.
  • Position the block under the reference hammer head; add the nail as shown.
  • Delete the reference hammer object and set the circle to No Outline.

Here’s the animation pane:


The hammer stroke is a 90 degree counterclockwise Spin. Near the end of the stroke, a Down motion path moves the nail, followed by a rebound of the hammer (another Spin).

The duration of the nail motion is very short (0.05 seconds). Timing values less than 0.1 second cannot be set directly in the animation pane; you must use the Effect Options pane.

Generally, some experimentation with timing and other factors is needed when designing this kind of animation. Here’s my result:


Here’s how the wrench is constructed:tools4


  • Union of an Arc and an Oval with a Rounded Rectangle Subtracted forms the wrench “head.”
  • The rest of the wrench is constructed with a Rectangle and a couple of Triangles. This is Unioned with the two heads, rotated.
  • The indentation in the handle is represented by a Rounded Rectangle; this is Grouped (not Unioned) with the rest of the wrench since it is a different color.
  • The nut and bolt are a concentric Oval and Hexagon. The standard Hexagon is not symmetric; you may have to fiddle with it to get to look like a standard bolt.
  • The nut/bolt is is rotated to match the jaw of the wrench.
  • Fills are added as shown.

Here is the animation set-up:



A circle (red) is grouped with the wrench group to establish its center of rotation (just inside the upper jaw. The animation consists of a a motion path to position the wrench followed by 60 degree rotations of the wrench and the nut/bolt. Here’s what it looks like:

Wire Cutter

Here’s how (half of) the wire cutter tool is constructed:tools6

The curved piece of the handle is a Wave shape; the blade is a Pie shape.

To complete the tool, add a circle to the half to establish the pivot point; group the result. Duplicate and Rotate/Flip Horizontal the copy to form the second half. Then align the two parts and Rotate each to open the tool.  Here’s the process:tools7

The animation will cut a piece of “wire;” it’s made of two concentric filled circles, with 3d depth and rotation added:



Here’s the animation set up:tools9

Two copies of the “wire” are used; one behind the cutter blade and one in front. The cutting action uses Spin to move the two parts of the cutter. A motion path and spin are applied to the front wire object after the cut. Here’s what it looks like:

Screw Driver

I plan to suggest the twisting motion of a screwdriver by quickly alternating between two views; here’s how the two views are constructed:tools10

I’ll need a screw; here’s how it is constructed:


The Union of a series of triangles is used to Subtract from the screw to suggest threads.

Next, I grouped each view of the screwdriver with the screw:tools12

The illusion of the screwdriver twisting is created by alternating quickly between these two (superimposed) images; here’s the effect:

Here’s the animation pane; one image Appears and the other Disappears every 0.2 seconds:tools13

If you would like to build these or similar animations, use the form below to request a free copy of the PowerPoint file for this post:

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