Team:Cambridge-JIC/Technology

From 2014.igem.org

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<p>As shown in figure , the MGF consists of a cuboidal chamber, which is divided into four subchambers. Each of the subchambers has an identical fan and lighting unit, all of which are controlled with an arduino microcontroller.  </p>
<p>As shown in figure , the MGF consists of a cuboidal chamber, which is divided into four subchambers. Each of the subchambers has an identical fan and lighting unit, all of which are controlled with an arduino microcontroller.  </p>
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<h3>CAD Files</h3>
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<h3>CAD/CAM</h3>
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<p> The hardware for the MGF was designed in VCarve Pro. This file [LINK TO FILE] contains all of the design files as well as their associated G-code outputs. The G-code was generated for a machine which takes z=0 as the surface of the work material, not the bed. using a 3mm cutter and </p>
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<p> The hardware for the MGF was designed in VCarve Pro to be cut out of 9mm MDF and 3mm acrylic using a CNC router. This file [LINK TO FILE] contains all of the design files as well as their associated G-code outputs. The G-code was generated for a machine which takes z=0 as the surface of the work material, not the machine bed. All files assume the use of a 3mm cutter, except where the use of a 6mm cutter is indicated.</p>
<h3>Software</h3>
<h3>Software</h3>
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<p>Materials required; one complete set of MDF parts, one complete set of acrylic parts, one arduino microcontroller, one project box approx 100mm cubed, four 40mm square 10mm thick 5V DC fan units, twenty Adafruit flora Neopixels, one stripboard, one 5V regulator, one 9V power supply, one reel of equipment wire, one box of panel pins, one bottle of wood glue, one bottle of acrylic cement, spray paint (optional).</p>
<p>Materials required; one complete set of MDF parts, one complete set of acrylic parts, one arduino microcontroller, one project box approx 100mm cubed, four 40mm square 10mm thick 5V DC fan units, twenty Adafruit flora Neopixels, one stripboard, one 5V regulator, one 9V power supply, one reel of equipment wire, one box of panel pins, one bottle of wood glue, one bottle of acrylic cement, spray paint (optional).</p>
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<p>Begin by assembling the outer walls of the chamber onto the chamber base. First, drill holes of the same diameter as your panel pins, pitched at around 50mm around the three sides of the base that correspond to the three closed edges, and on the back edge of the two side panels. Then assemble the joint using glue and secure by knocking a pin into each pre-drilled hole. Clamp and wait until the glue has cured.  </p>
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<p>Begin by assembling the outer walls of the chamber onto the chamber base. First, drill holes of the same diameter as your panel pins, pitched at around 50mm around three sides of the base and on the back edge of the two side panels. Then assemble the joint using glue and secure by knocking a pin into each pre-drilled hole. Clamp and wait around four hours until the glue has cured.  </p>
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<p> Now assemble the inner walls of the chamber as a sandwich with the outer walls. It is important to check the inner walls for a good fit before gluing, as some small adjustments may be necessary. If the interior panels are found to be slightly oversize, they can be reduced to fit using a belt sander. Once glue has been applied, clamp the joint until the glue has cured. </p>
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<p> Now assemble the inner walls of the chamber as a sandwich with the outer walls. It is important to check the inner walls for a good fit before gluing, as some small adjustments may be necessary. If the interior panels are found to be slightly oversize, they can be reduced to fit using a belt sander. Once glue has been applied, clamp the joint until the glue has cured. This will take longer than the first joints due to the large area being glued, so wait around six hours for the glue to cure.</p>
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<p>The assembly can now be painted, and the dividers installed. Depending on the tolerances of the MDF parts, the dividers may require some force to be installed, which can be applied with a wooden mallet without much danger to the acrylic. </p>
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<p>The assembly can now be painted, and the dividers installed. Depending on the tolerances of the MDF parts, the dividers may require some force to be installed, which can be applied with a wooden mallet without danger to the acrylic. </p>
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<p> </p>
</section>
</section>
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<h3>Problem Statement</h3>
<h3>Problem Statement</h3>
<p>lorem ipsum </p>
<p>lorem ipsum </p>
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<p>The problem statement for the pipette counter was therefore given as follows;</p>
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<p>The problem statement for the mini growth facility was therefore given as follows;</p>
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<p>The task is to construct a device capable of acting as an aide memoir to an operator involved in serial pipetting operations. The device should be minimally invasive and run with little or no additional input from the operator.</p>
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<p>The task is to construct a .</p>
</section>
</section>

Revision as of 11:44, 1 October 2014

Cambridge iGEM 2014





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Marchantia Growth Facility

Problem Statement

Whilst growth chambers for the cultivation of plants are widely available in a variety of configurations, from the simple cold frame to advanced climate control devices, they are generally unsuitable for growing small lower plants such as marchantia in a synthetic biology setting. The reason for this is two-fold; firstly, commercially produced growth chambers are usually designed to grow higher plants such as wheat and are typically very large pieces of equipment. Furthermore, growth chambers with the ability to perform active climate control are costly and have a much greater feature set than is required for the controlled cultivation of marchantia. Secondly, current low-cost solutions for plant growth devices are generally of the greenhouse type, and are thus incapable of maintaining any active climate control.

In light of this, the problem statement for the Marchantia Growth Facility (MGF) was given as follows;

The task is to create a low cost device capable of cultivating marchantia by controlling the light conditions and air flow to the plants. In addition, the device must act to prevent the growth of foreign organisms on the marchantia plates, which could contaminate the specimens and hamper plant growth.

Hardware

As shown in figure , the MGF consists of a cuboidal chamber, which is divided into four subchambers. Each of the subchambers has an identical fan and lighting unit, all of which are controlled with an arduino microcontroller.

CAD/CAM

The hardware for the MGF was designed in VCarve Pro to be cut out of 9mm MDF and 3mm acrylic using a CNC router. This file [LINK TO FILE] contains all of the design files as well as their associated G-code outputs. The G-code was generated for a machine which takes z=0 as the surface of the work material, not the machine bed. All files assume the use of a 3mm cutter, except where the use of a 6mm cutter is indicated.

Software

Description of the incubator software goes here

Assembly Instructions

Materials required; one complete set of MDF parts, one complete set of acrylic parts, one arduino microcontroller, one project box approx 100mm cubed, four 40mm square 10mm thick 5V DC fan units, twenty Adafruit flora Neopixels, one stripboard, one 5V regulator, one 9V power supply, one reel of equipment wire, one box of panel pins, one bottle of wood glue, one bottle of acrylic cement, spray paint (optional).

Begin by assembling the outer walls of the chamber onto the chamber base. First, drill holes of the same diameter as your panel pins, pitched at around 50mm around three sides of the base and on the back edge of the two side panels. Then assemble the joint using glue and secure by knocking a pin into each pre-drilled hole. Clamp and wait around four hours until the glue has cured.

Now assemble the inner walls of the chamber as a sandwich with the outer walls. It is important to check the inner walls for a good fit before gluing, as some small adjustments may be necessary. If the interior panels are found to be slightly oversize, they can be reduced to fit using a belt sander. Once glue has been applied, clamp the joint until the glue has cured. This will take longer than the first joints due to the large area being glued, so wait around six hours for the glue to cure.

The assembly can now be painted, and the dividers installed. Depending on the tolerances of the MDF parts, the dividers may require some force to be installed, which can be applied with a wooden mallet without danger to the acrylic.

Mini Growth Facility

Problem Statement

lorem ipsum

The problem statement for the mini growth facility was therefore given as follows;

The task is to construct a .

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