Difference between revisions of "Disassembling a Roomba 560"

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Image:Roomba_26.JPG | Removing the flat black mask covering the structure of the control panel.
 
Image:Roomba_26.JPG | Removing the flat black mask covering the structure of the control panel.
 
Image:Roomba_27.JPG | This is the structure of the control panel. It is held in place by four (non-captive) screws.
 
Image:Roomba_27.JPG | This is the structure of the control panel. It is held in place by four (non-captive) screws.
Image:Roomba_28.JPG | And finally... this is the upper side of the robot after the control panel has been fully removed. Note the clear plastic foil on the right of the robot: it is placed between panel and PCB, and is easily lost as it's transparent...
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Image:Roomba_28.JPG | And finally... this is the upper side of the robot after the control panel has been fully removed. Note the clear plastic sheet on the right of the robot: it is placed between panel and PCB, and is easily lost as it's transparent...
 
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The Roomba 560 includes two circuit boards: a main PCB and a small, secondary one. The second one is only used to add two pushbuttons to the control panel of the robot, while the first PCB -mostly populated by SMD components- houses all the circuitry of the robot. Data processing, control and power driving of the robot are all done by this board.
 
The Roomba 560 includes two circuit boards: a main PCB and a small, secondary one. The second one is only used to add two pushbuttons to the control panel of the robot, while the first PCB -mostly populated by SMD components- houses all the circuitry of the robot. Data processing, control and power driving of the robot are all done by this board.
 
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Image:Roomba_22.JPG |  
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Image:Roomba_29.JPG | The main PCB is affixed to the robot's hull by small screws. Unscrewing these leaves the PCB loose but still attached to the sensors through a set of cables. As shown in the picture, beneath the PCB is a metal screen covered by a transparent sheet (be careful not to lose it, and be sure to have replaced it before powering up the robot!). The three black, rectangular protrusions on the underside of the board are the connectors used to power the wheel motors and the brush motor. The side brush motor is powered through the two spring contacts visible on the side of the board, while the central black area houses the metal plates which connect to the battery pack.
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Image:Roomba_30.JPG | A closer view of the cables connecting the main PCB to the sensors. The black rectangular protrusion below the PCB is the housing of the front-looking emitter/receiver couple, directly soldered on the PCB (all the other couples are composed, instead, of discrete components housed in a curved plastic element (mounted on the front part of the robot) and connected to the PCB by cables).
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Image:Roomba_31.JPG | A front view of the Roomba, with the PCB partially lifted from its place.
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Image:Roomba_32.JPG | Another front view, from a slightly different viewpoint.
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Image:Roomba_33.JPG | By gently pulling, the plastic element supporting the discrete IR emitters and receivers used by the robot as obstacle detectors can be removed. It is visible on the left of the picture, still connected to the PCB. The latter has been extracted from its housing in the upper shell of the robot; on the right is visible the clear plastic sheet that insulates the lower side of the PCB from the metal shield.
 
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Revision as of 10:43, 11 March 2010

The Roomba by Irobot is a vacuuming robot; but it is also one of the (still) few examples of mass-market robotic products. Its low cost, the easy availability of spare parts and the wide diffusion make the Roomba an interesting starting point for "hacking".

This page is dedicated to the disassembly of a Roomba 560. Its purpose is to provide AIRLab users (or anyone else) wanting to hack a Roomba with a guide to the process, so that they can plan their work easily. Other Roomba 500-series models should be similar to the one featured in this page.

Please note that the robot we have taken apart was well-used, so you will see a fair bit of dust and dirt on the parts... all for the sake of realism. (Just joking: simply, that was a broken robot we could spare in case the process proved to be fatal :-) )

If you click on any of the images below, you will be taken to its own AIRWiki page, where you will be able to download the file. However, the files are NOT high-resolution (480x320 pixels: on this page they are shown at full resolution). You can download the high-resolution originals of the images (and some additional image not shown by this AIRWiki page) from here. Note that the originals are 3888x2592 pixels, and each of them weighs in at 3-5MB.

Before the dissection

Here you can see the Roomba 560 before any disassembling occurred.

Removing the bottom cover

To get to the electromechanical elements of the robot, you have to remove the bottom cover (as we will see later, electronics is accessed from the top instead).

The brush housing

This element is more complex than it is immediately apparent.

The active wheels

Roomba is propelled by two actuated wheels, in a classical differential drive configuration. By modulating the rotating speeds of each the wheels independently from the other, different trajectories are obtained.

The front sensors

Most of the sensors of the Roomba are located on the front of the robot. Such sensors are:

  • bumpers to detect collisions;
  • two sets of infrared emitters/receivers: front-looking to detect the presence of obstacles, and downward-looking to detect the presence of the floor (so the robot is able to avoid falling down the stairs);
  • an omnidirectional infrared sensor to detect the presence of active Roomba accessories such as "virtual walls" and recharge stations.

Removing the top shell

The upper part of the robot is a sort of tray, where the main circuit board (and a small auxiliary board as well) is enclosed. It is separated by the (dusty) bottom part of the robot's hull, except where cutouts are required to allow for the connections between the board and the electromechanical components. A metal shield is located on the bottom of the "tray", presumably to shield the data-processing parts of the circuit from interference from the motors below.

The control board

The Roomba 560 includes two circuit boards: a main PCB and a small, secondary one. The second one is only used to add two pushbuttons to the control panel of the robot, while the first PCB -mostly populated by SMD components- houses all the circuitry of the robot. Data processing, control and power driving of the robot are all done by this board.