It is easy to make paper skateboard or finger board which is played by fingers. Why you doing this you must be attention so that it would be better toy. Supplies: Paper pencil any type of gum grass sticks scissors ear buds bead or toy tyres or any other Paints (optional). How to Make a Fingerboard (my Style) Step 1: Stuff You Need. Step 2: Cut the Veneers. Step 3: Glue Them!. Any wood glue is speednicedating.com need it to go hard once it speednicedating.com,apply them thinly and firmly on every Step 4: Mold It.. Step 5: Before Finish. Step 6: File It. Start with the metal speednicedating.com
Skateboarding might be a fair weather sport, but with a small scale fingerboard can be active inside all day long. Though these boards are scale, they are 8x the fun! This easy project would be great to use in the classroom with students in 4th grade onward as a fun challenge that explores STEM concepts including engineering, math, 3D design, and manufacturing.
The design can be modified to create more intricate shapes and used to explore new ways to design an already established object. From a STEM perspective, how to succeed in business without really trying torrent can learn about design tolerance using a 3D printer, and examine what thresholds work best for allowing parts to fit together snugly and to allow rotation.
This design uses Tinkercad to create a fingerboard that is printed as one piece, without any supports. The wheels are press fit onto the axles and stay locked in place, but still rotate. Here is my fingerboard model, you're welcome to remix this however you like:. Once placed the shape can be clicked and values can be input for the dimensions of the deck, in our case we're making the deck on it's side so we'll use 60mm x 2mm length and depth of deck.
The actual dimensions aren't important, since we can resize or scale the board later what is the statutory redundancy pay suit our needs. This will be the inclined kick of the deck. We'll resize this by clicking on it and reducing the depth to 2mm to match the deck we placed earlier. The shape can be rotated by clicking on the piece and locating the semicircle arrows near the selected shape.
There are 3 different arrows corresponding to how to replace a diverter valve in a moen faucet axis on which it can rotate. Since our board is being built sideways we want to rotate around the Z axis, which will b located on the bottom of the shape on the workplane.
Click and hold on the semicircular arrows and move your mouse to rotate the piece around that axis. You can also input an exact rotation in degrees by using the text box to put in an angle.
To line up the two shapes you can drag either of them towards the other, but to get really precise we can use the align tool from the top navigation bar. Select both shapes and then click the align icon. There will be an overlay that appears on the workplane with handles at the ends and middle of each work plane. We want both pieces to be aligned along their bottoms, so use the handle closest to you shown in red above to move both pieces to be bottom aligned.
After they are aligned along the bottom, click anywhere to stop how long to cook penne rigate pasta align. Select the rounded roof and drag towards the rectangle while holding shiftwhich will constrain the movement along one axis. We could repeat the same steps to create the kick for the other end of the board, but I think making a copy is easier.
Arrows will appear on the workplane indicating which direction the selected object will be flipped. As shown in red above, flip along the axis to create a mirror of the kick. This mirror shape can now be moved to the other side of the board. You may input the measurement I used The trucks are the most technical part of this build, but by breaking it down into smaller parts it's easily manageable. Start by dragging a cylinder from the library to the workplane. There is a modifier menu that pops up for some shapes that allows changes to the parameters of the selected object.
The cylinder is one of those shapes. The menu for this shape has sliders that can be moved to refine the shape parameters. We want to move the sides slider all the way up to maximum, this will give the cylinder smooth sides. Change the diameter of the cylinder to 5mmx5mm. Next, find the torus from the library and drag that onto the workplane.
Using the same menu, the torus can be modified to have more sides which will make the shape smooth. Change the diameter of the torus to 7mmx7mm. The cylinder shape will be the axle that the wheels ride on, and the torus will be the edge that keeps the wheel on the axle. Now, drag a box hole from the library onto the workplane. We'll use this hole shape to create relief openings in the axle that will allow the wheel to slip on and stay in place.
Select all 4 shapes 2 boxes in X configuration, torus, and cylinder and align them in the center by using the middle handles on the workplane. With all the shapes aligned and centered, make a duplicate of the torus, then move the duplicate upwards, this will be the channel the wheels will ride inside. I show 6mm here, but this can be any size to match your wheel width. Select everything and group to create the axle. This is one side of an axle for our skateboard. Next, we'll duplicate this to create the corresponding axle on the other side.
Select the grouped axle and duplicatethen mirror the copy and move upwards. The relief cuts should be facing outwards. Before joining the two axles into one we can start the truck design.
Find the roof shape in the library and dag it onto the workplane. Rotate and resize the roof shape into a flat triangle prism shape, about 4mm thick. Grab a cylinder from the library and drag it to the workplane, smooth out the sides using the slider, then resize the diameter to 4mmx4mm.
The cylinder and the tip of the triangle prism we aligned and then moved so the tip what happens when you shave almost poking out the cylinder shown below. The cylinder and triangle prism can be align ed with the two wheel axles.
Select the axles, cylinder, and triangle prism and group to create the truck assembly. Move the truck assembly so the wide end of the triangle prism is inside the deck, then duplicate the truck and move the copy using shift to constrain the axis of motion to the other end of the deck.
The construction of the board is nearly complete! If you're unhappy with any elements of the design so far you can select the shape you want to modify and ungroup.
Then, once changes are made, group again. There's a few ways to make 3D printed wheels, but I like using the tube shape. Dragging a tube onto the workplane brings up the modify menu where you can change the interior and how to add subtitles to imovie diameters of the tube shape to suit your design. An alternative to this approach would be using a cylinder with a smaller hole cylinder inside it to create the wheel shape.
Either works here. With everything grouped together, select all and export using the icon in the top right. For 3D printing export as. The reasons the board was deigned sideways is so that it can be printed without using any support structure. Support is used in areas of overhang when 3D printing, which allows areas that are suspended above the print bed with nothing underneath it something to rest on when printing starts.
Printing without support material is preferred as there is no cleanup after the print is done. This design prints without any supports, but you may need to tweak your printed settings to dial in this print. The tolerance between the axle diameter and the interior how to put in an ink cartridge of the wheel is enough to allow the wheels to spin freely, and the relief cuts on the end of the axles allow the wheels to be pushed on and then spring back into shape to hold the wheels on.
Question 1 year ago. Question 1 year ago on Step 3. First, I think this is a fun project. I've been working through the steps with some high school students. The trucks and wheels are quite tricky to model. Printing at the scale that the steps suggest, the axles how to make a finger skateboard from any pressure from installing the wheels. I double-checked the source tinkercad model only to discover that not only is the whole model bigger, but the trucks and axles are 1 constructed quite differently 2 taken from another skateboard model all together ungrouping the pieces reveals this.
Fine, that is all fine. But the initial build will be a headache if you are using these steps provided. Word of warning to other teachers out there. PS: At least my students have a new problem to tackle in analyzing the revised trucks and axles we found. Reply 1 year ago. There is definitely design challenges translating from computer to physical model.
If successfully printed these skateboard models, but did require some tuning on my printer. I see much more value in your last sentence where you students are solving real world how to make a finger skateboard based on a design inconsistency.
Thanks for trying this out! Well, taking away the sharp scissors and pointy things first was probably a good idea. Stop eating those crayons and put down the glue! Love it! Such a fun Tinkercad project! I'm heading into a 5th-grade class next week to see some design projects they are working on for their Genius Hour and I can't wait to show them this.
Introduction: Easy Fingerboard. By mikeasaurus say hello - michaelsaurus. More by the author:. About: Build.
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Introduction: How to Make a Fingerboard (my Style)
Select all 4 shapes (2 boxes in X configuration, torus, and cylinder) and align them in the center by using the middle handles on the workplane. With all the shapes aligned and centered, make a duplicate of the torus, then move the duplicate upwards, this .
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Learn more Fingerboards also called tech decks are a fun toy and novelty, but can get pretty expensive. You may not be able to find the perfect fingerboard for your taste. Save some money and get creative by making your own custom fingerboard out of paper. Log in Social login does not work in incognito and private browsers. Please log in with your username or email to continue. No account yet? Create an account. Edit this Article.
Download Article Explore this Article parts. Tips and Warnings. Things You'll Need. Related Articles. Part 1 of Gather your materials. Most of these can be found in any arts and crafts or hardware store  X Research source. Make your initial fingerboard template. You can do this by tracing the outline of a band-aid on index cards or other thick paper.
Using a pencil can help if you have an unsteady hand as you want the tracing to be as close to the original shape of the band-aid as possible. Cut out the initial tracing. Use a pair of scissors to cut along the penciled outline you have made. This first cutout will serve as a template.
Continue tracing. Draw six more band-aid shaped pieces using your template. Making six layers will ensure that your fingerboard is sturdy and durable. Cut out the rest of your tracings. Try to make the pieces as uniform as possible. Part 2 of Paste glue on each paper cutout. Use a glue stick or brush and spread the glue evenly on one side of each cutout.
Glue the cutouts together. Layer them together carefully, making sure they align as much as possible and use your fingers to apply pressure and smooth out any uneven spots or air pockets. Shape your fingerboard. The easiest and most reliable way to do this is by using two fingerboards as a mold. Otherwise, you can shape it using your hands. If you already have two fingerboards, you can sandwich your fingerboards between them and apply pressure for ten minutes.
Alternatively, you can tie a rubber band tightly around the three stacked fingerboards and leave it to set.
If you do not have any fingerboards, turn up the ends of your paper fingerboard using your hands to create the skateboard-like shape desired. Continue applying pressure with your fingers to make sure the ends stay curved up as the glue sets. Wait for the glue to set. Allow your fingerboard to dry for at least twenty minutes or until it feels stiff. Punch holes into the fingerboard. You will use these holes to thread through the screws to attach the trucks onto your fingerboard.
Use a nail, thumbtack, or other pointed object to punch four holes in two rows on either end of the fingerboard, totaling eight holes. Begin by aligning the trucks with each other on the bottom end of your fingerboard and marking where the four screw holes are located on each truck with a pen.
Then punch through the markings with your sharp object of choice. Part 3 of Apply griptape. You can buy griptape or make your own by cutting a small strip of sandpaper. Griptape is the friction tape on top of the deck that allows you to control and do neat tricks with your fingerboard. You can estimate what size sandpaper to cut out by comparing it to your board.
Customize your board. Get creative with colored markers, spray paint, or tape to make your fingerboard truly one of a kind. Attach the screws and trucks. This final step will make your fingerboard fully functional.
Because these parts are very small, it is best to invest in some tech deck tools, which are easily found online or in skate shops and toy stores  X Research source. Using a tech deck screwdriver or your fingers, push the screws into the holes through the top of the fingerboard. Repeat the process until you have eight screws in your board, then flip your fingerboard over and place the trucks on top of the screws.
Keeping the trucks placed over the screws, flip the fingerboard on its side and continue tightening the screws until the trucks are firmly attached. Include your email address to get a message when this question is answered. Use lots of glue to ensure the fingerboard is sturdy. If glue starts to seep out, wait until it dries and then sandpaper off the excess. Helpful 0 Not Helpful 0. Submit a Tip All tip submissions are carefully reviewed before being published. Related wikiHows How to.