Team:Grenoble-EMSE-LSU/Project/Instrumentation/Fluo

From 2013.igem.org

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<h3>The lens holder</h3>
<h3>The lens holder</h3>
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<p>To focus the beam of the fluorescence, we use a microscope objective. Therefore, we needed a part that could hold it. We created a mold where you just plug the objective into it.</p>
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<p>To focus the beam of the fluorescence, we used a microscope objective, held in place by a tailored mold.</p>
<h3>The LED lamp box</h3>
<h3>The LED lamp box</h3>
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<p>To avoid illuminating the entire box, we put the LED in a smaller one where one side is closed with only a hole that matches the size of the lamp cap. Since the illumination angle of the lamp is small, the light goes almost in one direction and only light up the filters or mirror.</p>
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<p>To avoid illuminating the entire box we inserted the LED in a smaller box with an opening that matches the size of the lamp cap. Since the illumination angle of the lamp is small, the light goes almost in one direction and only lights up the filters or the mirrors.</p>
<h3>The servomotor holder</h3>
<h3>The servomotor holder</h3>
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<p>Since the servomotor will move the filter rack, it needed to be securely attached onto the box. We designed a part with two arms that allowed you to screw the servomotor and a flat support to bold it on the box. We drilled many holes so that we can easily adjust the height of the servomotor.</br></br>
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<p>Since the servomotor will move the filter rack, it needed to be securely attached onto the box. We designed a part with two arms where you can screw the servomotor and a flat support to hold it on the box. We drilled many holes so that we can easily adjust the height of the servomotor.</br></br>
As said previously we used a 3D-printer to built these parts, but because of the complexity of the filter rack and its rail they had to be done with a another 3D-printing method. These two parts were completed through Selective Laser Sintering and all the other were made by Fused Deposition Modeling</p>
As said previously we used a 3D-printer to built these parts, but because of the complexity of the filter rack and its rail they had to be done with a another 3D-printing method. These two parts were completed through Selective Laser Sintering and all the other were made by Fused Deposition Modeling</p>

Revision as of 00:37, 5 October 2013

Grenoble-EMSE-LSU, iGEM


Grenoble-EMSE-LSU, iGEM

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