Home Made Bezel / Window for LCD, LED, TFT Displays.




Introduction: Home Made Bezel / Window for LCD, LED, TFT Displays.

About: I'm a High Voltage Electrical Engineer by trade, but I've been involved in computers and electronics since my teens. My experience and knowledge ranges from the world of 5V DC up to the world of 132,000V AC. …

I've been working on a project that used a 16x2 LCD display and wanted a nice finish that also allowed me to seal against water and other liquids. I also needed impact resistance, low cost and the ability to be changed easily if worn or broken.

I considered many different ideas:-

1) A full sheet of perspex on the front of my enclosure. Great finish but expensive and difficult to seal as fully transparent.

2) A small piece of perspex over a cut hole in the enclosure. Cheaper but not so nice finish, showing the full LCD through and any rough enclosure cutting.

3) Looking for access to a laser cutter to make a profiled perspex window that sits through the enclosure hole to sit flush with surface. Difficult tolerances and no depth control with a laser.

4) Asking a local workshop to make a profiled perspex window on CNC milling machines. Cost more than using a full perspex sheet.

So, eventually I tried something else and ended up with what I think is a nice professional finish that is easy to do, cheap, and results in an iPhone type black glass frame style, with a clear window exactly the right size to show the display properly. It can also be easily adapted to any other type or size of display.

Step 1: Create and Print a Template

The first step was to take the existing display and get this transferred to some kind of CAD drawing, so that a template can be made.

Since I've been getting more proficient with CADSoft Eagle, I simply used a blank BRD file with mm grid to create my drawing and print at scale on to some card.

You could use any package that allows you to create accurate drawings at a 1:1 scale. You need it to come out in print to the correct scale.

I took the original dimensions of the 16x2 LCD display I had and drew it up, including the stand-off holes. I then added an additional 5mm surround to give my bezel additional strength around the fixing holes, and also to make it look better since the holes wouldn't be right on the edge.

Print the template off and then use a sharp knife (craft knife, trimming knife, scalpel), or scissors, to cut out the outline and the inside border.

I used plain card for this, but a bit of extra time to make a plastic/acrylic template might be better if you intend to make a lot of these.

Step 2: Use Template to Mark Out on a Piece of Perspex

Next use the cut out template to mark up a piece of clear acrylic / perspex with the outside dimension and then cut this out.

A fine tip permanent pen like a Sharpie or Write-4-All works well on the acrylic. I used 1.5mm clear acrylic sheet for a glass-like finish. You could use different colour acrylic or thicker/thinner to suit your requirements.

You can cut the acrylic by hand with a hacksaw or use a machine like a jigsaw or fretsaw very carefully.

The ideal way of cutting these would be using a Laser Cutter for the perfect finish.

If you, like most of us, don't have access to a Laser Cutter, then use a file to get the edges straight and smooth afterwards.

Step 3: Mask Up the Window Area

Next we want to mask up the area that we want left transparent for the display to show through.

For the 16x2 LCD the display area is approx 15mm x 65mm. I made my window 14mm x 64mm so there is a slight overlap to the display so no edges can be seen.

To do this we simply want a piece of tape stuck to this area so that it does not get painted. I used electrical insulation tape as it cuts and peels easily and leaves no residue.

Lay a piece of tape long ways across the centre of the acrylic piece.

Lay the template back over the top, lining it up with the acrylic edges.

Use a sharp knife to score lightly along the inside edges of the window area. Pay careful attention to meeting up in the corners so that our tape has a continuous rectangular cut.

Remove the template and then peel the outer area of tape away and this will leave a nice clean cut 14mm x 64mm piece where our display will eventually show through.

Step 4: Drill the Mounting Holes

Next we need to drill the mounting holes.

These correspond exactly to the stand-off holes in the LCD PCB. This means we can use a single metal or plastic bolt to mount both our bezel and the LCD when finished.

NOTE : Always drill a pilot hole first. This means you can be more accurate with positioning, and also means you don't make a large hole in the template.

Lay the piece on top of a scrap piece of timber. I used a bit of 1/4" ply. I also put a piece of the protective film underneath to stop the acrylic picking up any dust and fibres as much as possible.

Place the template back over the piece, taking care to align with the acrylic edges.

Drill the center of the stand-off holes with as small a drill bit as you can. I used a 1mm drill bit.

Remove the template and then re-drill with the correct sized drill bit. I used a 3.5mm bit to give me a slight play to offset any error due to manual drilling.

Make sure the piece is always flat, with the timber behind, and that you drill SLOWLY. This will ensure an accurate drill with minimum of swarf, rough edges and chances of cracking.

Step 5: Spray Paint the Piece

We now want to spray paint the area that will be the bezel outer border. Choose your colour for this, although I used black and found it produced a lovely black glass type finish.

The key here is preparation and patience. The longer you take the better the finish will be.

Use some of the insulation tape doubled back on itself to act as double sided tape and mount the acrylic piece to some backing paper or card. The masking tape applied already should be FACE UP.

Mounting the piece is to make sure it doesn't get blown around by the force of the spray can, as we don't want overspray onto the other side of the acrylic.

EDIT: On making one for a 64x128 1.8" TFT display it occurred to me that we can simply mask the back side of the acrylic completely. This ensures 100% that you don't get any overspray on what will become the top face. When everything is dry just peel off the masking on the other side too.

Make sure the upper surface around the masking taped area is clean and free of grease and dirt so that a good coverage of paint is achieved.

Take the piece into a well ventilated area before spraying. Outdoors is best, or a garage with open door. The paint has quite an odour until fully dry.

Apply a generous coating of spray paint from a distance of 15-25cm minimum. DO light coats and repeat as necessary. Take care to also paint the acrylic edges if you want this, although these will appear coloured anyway.

Let the piece dry THOROUGHLY before handling.

Step 6: Remove the Masking

Once your painted piece is FULLY dry, you can then remove the masking to reveal the transparent window for your display.

Be VERY careful when picking at the edge of the tape as you don't want to scratch the painted acrylic.

Once you have an edge then slowly peel the tape away from the acrylic and you will be left with a nice sharp and clean edge between painted and non-painted area.

Now, turn the piece over, so that the paint is on the bottom.

You now have clear acrylic top face with a painted underside. The top is nice and shiny and the coloured finish cannot be marked or worn away as it will be face down on your enclosure.

I found that black paint gave a finish that looked like a black glass bezel with window.

Step 7: Finished Bezel

You can now mount the bezel to your enclosure, using the mounting holes and some 3mm bolts. The same bolts can be used to mount the LCD behind. I found 3mm x 20mm bolts are ideal. You can also use nylon ones that are used for PCB stand-offs.

If you need weather/water proofing then simply apply a thin layer of sealant under the black border outside of the stand-off hole line. When this dries in place it will form a watertight seal that can't be seen.

The finished article looks quite nice.

A better finish could be made if you have access to a Laser Cutter and/or Milling Machine, but hand made can look very good.

This same technique could be used for any size display that needs a custom bezel/window making.

I hope this helps a few people achieve a nice finish to their project.

This is the first instructable I have made so please take a moment to leave feedback on anything you think could be improved, or if this helped you in any way.

Be the First to Share


    • Make It Modular: Student Design Challenge

      Make It Modular: Student Design Challenge
    • Colors of the Rainbow Contest

      Colors of the Rainbow Contest
    • Digital Fabrication Student Design Challenge

      Digital Fabrication Student Design Challenge



    2 years ago on Step 7

    Awesome idea! I'm just starting on an Arduino based chess timer project with a small VFD display and a couple of those big "arcade" style microswitch buttons for my son and was thinking about how to make a decent looking hole / bezel for the display. Your instructable solved my problem elegantly! Thanks and thumbs up for you!

    P.S. An easy way to cut plastic sheet is to use a metal ruler / straight edge. Apply a piece of double sided tape to it. Then mark the sheet where it is to be cut and stick the ruler to the sheet, aligned with the marks. The area you WANT should be under the ruler and the "scrap" area exposed.

    Then use a new, sharp razor blade or X-acto knife and score a line into the plastic. Make at least 10 to 15 passes, half one direction and half the other. Press firmly down, but not TOO hard. While still stuck to the ruler, carefully bend the free part of the plastic sheet and bend it AWAY from the score line.

    The sheet will snap with a perfect, clean edge that needs no finishing! Gloves and safety glasses are a good idea when doing this. I've cut myself a few times when the sheet snapped and nicked the palm of my hand.

    This is similar to cutting glass. You create a stress concentration point and the sheet breaks at that point. Maybe I should make an Instructable of the technique! LOL!


    3 years ago

    Thank you for taking the time to make this instructable. It's a great idea. I like that the paint is on the underside. Very cool.


    5 years ago

    Thanks for the templates
    I printed out the one for 16x2 LCD, and it is perfect, so I can use it for mounting a Raduino to the case for one of my BITX40 projects.
    I'll be posting a link on several Facebook pages I am on.
    Wayne WA2YNE


    5 years ago

    The types of flathead countersunk hex head bolts in the attached picture are great for such projects, especially the black bolts. I've used them a lot for such panels and also for mounting black items like IEC mains input sockets. They provide a fantastic finish, you just have to be careful and precise with your countersinking. Available on eBay from various sources. I use the M3 type most often but other sizes are available. I'd avoid pan-heads of a different colour on the outside as they don't look nearly as professional as the countersunk flatheads. If you don't want to countersink then use the button head ones, they look much nicer than the pan heads.

    I've used the milled edge rebate technique in the past to produce a flush finish and it works great ... IF you can get someone to do the milling for you. I was lucky, I did. You don't NEED a CNC machine but a plain old milling machine IS required for a really good accurate finish. If you have a decent pillar drill, you can use a simple cross feed milling table to do the milling with your drill. eBay has a great one for under £50 that I'm planning on getting.

    However, you CAN achieve the effect by taking advantage of the ability of true perspex to be acetone welded invisibly and you build the total from the top piece that fits exactly into the cutout hole (very accurate cutting, filing and trimming is needed. Then before black painting the reverse, acetone weld a complete piece over the top piece like a layer cake. the second layer is larger than the first so provides the rebate step. It's tricky but can be very successful. You can then black mask the rear as before.

    Another trick is to use stand-offs behind the front panel, bolted to the front panel via countersunk holes at the front with the relevant bolts, then mount the operstional display etc to the stand-offs. The front bezel can then be applied OVER the countersunk bolts using double-sided adhesive or using a silicone bead as it should never need to come off again. I am using this process currently for a frequency meter display.

    M3 Hex Socket  Bolt Collection.png

    5 years ago

    Hats of screws, sticking out outside of the panel, spoil impression.

    Шляпки винтов, торчащее снаружи панели, портят впечатление.


    6 years ago

    Well done. Thank you for taking the time to post this.


    6 years ago

    Nice work. I'm going to try and do some of these using plastic for some "bare" LED voltmeters.


    7 years ago on Introduction

    Nice design. How did you get round the paint being peeling off when you remove the tape? I'd have thought you'd need to score exactly on the edge of the tape before you remove it!


    8 years ago on Introduction

    Good work! Can you post a picture of what it looks like when off? Thanks!


    8 years ago on Introduction

    Great idea man! Definetely gotta do one myself!


    9 years ago on Step 7

    Nice idea, I'm going to give it a try.


    9 years ago on Introduction

    Very good, Well done. This has inspired me to have a go at a couple of displays that I haven't got to finish yet.