Difference between revisions of "Wild TA-10 Innards"

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(Created page with "Wild TA-10; Innards. = Overview of units = To simplify documentation, it's often handy to separate things in terms of functionality as much as possible and document these ac...")
 
(Control Unit)
 
(15 intermediate revisions by the same user not shown)
Line 9: Line 9:
 
== Mechanical ==
 
== Mechanical ==
 
=== Base unit ===
 
=== Base unit ===
 +
 +
Big and bulky and heavy; made of a brown-ish green plastic. Opens on two sides by partly undoing screws located there and pulling side-panels away. One side houses the PSU unit, the other side provides access to the control-unit, housed in a 19" frame with backplane for eurocards (?)
 +
 +
On the top , the Piston/Hinge unit supports the table on one side. The hinges on the other side provide routing for power and driving/sensing cabling.
 +
 +
Todo: find ways of easily separating base-unit and table for transport purposes.
 +
 
=== Table unit ===
 
=== Table unit ===
 +
 +
Table-unit can be tilted almost upright by use of piston/hinge unit, as well as made to be perfectly horizontal.
 +
 +
The table-unit has a control for turning on and dimming included TL-lighting housed inside.
 +
 +
The table-unit seems to have a perspex cutting/working surface on it and provides room to a number of buttons on the left side to operate functions of the machine.
 +
 +
A half-circular 'well' on the left side provides room for material to draw on or cut-through, as well as a pen/tool holder.
 +
 +
The control-pendulum can be hung from the side of the table by use of a supplied magnetic strip.
 +
 +
The table has an portal-arm that runs over the entire height of the table and can move horizontally. This arm is home to the Y-arm cutting head.
 +
 
=== Arm unit ===
 
=== Arm unit ===
 +
 +
The arm unit has a cable routed through it, half-folded inside and sheathed in grey plastic mesh. It provides signals for the cutting-head unit.
 +
 
=== Cutting Head ===
 
=== Cutting Head ===
 +
 +
The cutting head is the 'business-end' of the device. It is home to 3 PCB's internally, a DB9 to provide signals to the tool-attachments as well as switches and connectors to control it. Take note that the 'handle' on the unit is not quite solid and cannot stand much force.
 +
 
=== Piston/hinge unit ===
 
=== Piston/hinge unit ===
 +
 +
Nobody's really taken this apart yet, and we've got good reason to assume that this is a non-trivial thing to even attempt. More to the point, we've received warnings about leaving the spring-assembly intact as re-assembly could be problematic.
 +
 +
It should be noted that the Piston does not seem to have any wires routed through it and is a purely mechanical construction.
  
 
== Electronics ==
 
== Electronics ==
 
=== Power Supply ===
 
=== Power Supply ===
 
=== Control Unit ===
 
=== Control Unit ===
 +
 +
An aluminium 19" frame that's host to a number of (euro?) cards, hooked together with cables as well as a common backplane that routes power and a number of common signals.
 +
 
==== CPU board ====
 
==== CPU board ====
 
==== I/O board ====
 
==== I/O board ====
 
==== Servo amplifiers ====
 
==== Servo amplifiers ====
 +
 
=== Table unit ===
 
=== Table unit ===
 
==== Wire-routing ====
 
==== Wire-routing ====
Line 26: Line 60:
 
=== Cutting-head unit ===
 
=== Cutting-head unit ===
 
==== Cutting-head base-unit ====
 
==== Cutting-head base-unit ====
 +
The Y-arm has an actuator that moves along it in vertical direction. We shall refer to this as the 'base' unit.
 +
 +
This base-unit has mounting-holes for an 'cutting head option-unit' that attaches to it and is driven by signals carried over a female DB9. Among the signals available are a permanent voltage, 'light' voltage, two 'pen down' signals.
 +
 +
The base-unit has a number of switches and connectors on the top. 'Quality' is currently of unknown usefulness. 'Lighting' turns on the light-signal on the aforementioned DB9 (and is meant to provide light onto the work-surface, underneath the cutting-head option-unit). The complex-looking connector (2x7-pins) is employed to hook up the tangential cutting-attachment; most likely functioning as a stepper-motor with positional feedback for absolute-angle driving.
 +
 +
There is a small white connector available, seemingly shielded and possibly used for some kind of sensing application. Current use unknown.
 +
 +
The PCB (PCB-H1) close to the switches is responsible for hooking them up, as well as driving/reading the signals on the DB9 connector. The place that the HF-signal is hooked up to is not quite clear. The PCB has two identifiable IC's on it; a 7404 hex-invertor and an LM339 quad voltage-comperators. The PCB carries the designator '339 170d'
 +
 +
A wide rainbow-ribbon cable runs to a PCB on the right side (PCB-H2); mounted next to a servo-motor that's also hooked up to this PCB. A total of 6 wires run to the servo's backside, containing a small PCB (PCB-H3) with two trim-pots on it.
 +
 +
The PCB-H2 also has a connector for the incoming signals from the control-unit, as well as power for all of the functions of the cutting-head. This cable-tree is ensheathed in a grey protective mesh.
 +
 +
PCB-H2 also contains a number of IC's. Sadly, photographic documentation has too little detail to make out part-numbers.
 +
<gallery>
 +
File:Wild TA10-head1.jpg|DB 9 connector for cutting head option unit
 +
File:Wild TA10-head2.jpg|Top of cutting head, overview of PCB-H1 and cables
 +
File:Wild TA10-head3.jpg|Top of cutting head, detail of switches and PCB-H1. PCB-H3 on far right. Edge of PCB-H2 visible on left of PCB-H3.
 +
File:Wild TA10-head4.jpg|Detail of back of servo-motor, PCB-H3
 +
File:Wild TA10-head5.jpg|Detail of PCB-H3, showing rainbow-ribbon and servo-motor connections
 +
</gallery>
 +
 
==== Cutting-head option-unit ====
 
==== Cutting-head option-unit ====

Latest revision as of 15:47, 29 October 2013

Wild TA-10; Innards.

Overview of units

To simplify documentation, it's often handy to separate things in terms of functionality as much as possible and document these accordingly. In an effort to make a handy/useful overview; an effort to identify seperate functions is proposed here.

Units/functions

Mechanical

Base unit

Big and bulky and heavy; made of a brown-ish green plastic. Opens on two sides by partly undoing screws located there and pulling side-panels away. One side houses the PSU unit, the other side provides access to the control-unit, housed in a 19" frame with backplane for eurocards (?)

On the top , the Piston/Hinge unit supports the table on one side. The hinges on the other side provide routing for power and driving/sensing cabling.

Todo: find ways of easily separating base-unit and table for transport purposes.

Table unit

Table-unit can be tilted almost upright by use of piston/hinge unit, as well as made to be perfectly horizontal.

The table-unit has a control for turning on and dimming included TL-lighting housed inside.

The table-unit seems to have a perspex cutting/working surface on it and provides room to a number of buttons on the left side to operate functions of the machine.

A half-circular 'well' on the left side provides room for material to draw on or cut-through, as well as a pen/tool holder.

The control-pendulum can be hung from the side of the table by use of a supplied magnetic strip.

The table has an portal-arm that runs over the entire height of the table and can move horizontally. This arm is home to the Y-arm cutting head.

Arm unit

The arm unit has a cable routed through it, half-folded inside and sheathed in grey plastic mesh. It provides signals for the cutting-head unit.

Cutting Head

The cutting head is the 'business-end' of the device. It is home to 3 PCB's internally, a DB9 to provide signals to the tool-attachments as well as switches and connectors to control it. Take note that the 'handle' on the unit is not quite solid and cannot stand much force.

Piston/hinge unit

Nobody's really taken this apart yet, and we've got good reason to assume that this is a non-trivial thing to even attempt. More to the point, we've received warnings about leaving the spring-assembly intact as re-assembly could be problematic.

It should be noted that the Piston does not seem to have any wires routed through it and is a purely mechanical construction.

Electronics

Power Supply

Control Unit

An aluminium 19" frame that's host to a number of (euro?) cards, hooked together with cables as well as a common backplane that routes power and a number of common signals.

CPU board

I/O board

Servo amplifiers

Table unit

Wire-routing

Lighting system

Cutting-head unit

Cutting-head base-unit

The Y-arm has an actuator that moves along it in vertical direction. We shall refer to this as the 'base' unit.

This base-unit has mounting-holes for an 'cutting head option-unit' that attaches to it and is driven by signals carried over a female DB9. Among the signals available are a permanent voltage, 'light' voltage, two 'pen down' signals.

The base-unit has a number of switches and connectors on the top. 'Quality' is currently of unknown usefulness. 'Lighting' turns on the light-signal on the aforementioned DB9 (and is meant to provide light onto the work-surface, underneath the cutting-head option-unit). The complex-looking connector (2x7-pins) is employed to hook up the tangential cutting-attachment; most likely functioning as a stepper-motor with positional feedback for absolute-angle driving.

There is a small white connector available, seemingly shielded and possibly used for some kind of sensing application. Current use unknown.

The PCB (PCB-H1) close to the switches is responsible for hooking them up, as well as driving/reading the signals on the DB9 connector. The place that the HF-signal is hooked up to is not quite clear. The PCB has two identifiable IC's on it; a 7404 hex-invertor and an LM339 quad voltage-comperators. The PCB carries the designator '339 170d'

A wide rainbow-ribbon cable runs to a PCB on the right side (PCB-H2); mounted next to a servo-motor that's also hooked up to this PCB. A total of 6 wires run to the servo's backside, containing a small PCB (PCB-H3) with two trim-pots on it.

The PCB-H2 also has a connector for the incoming signals from the control-unit, as well as power for all of the functions of the cutting-head. This cable-tree is ensheathed in a grey protective mesh.

PCB-H2 also contains a number of IC's. Sadly, photographic documentation has too little detail to make out part-numbers.

Cutting-head option-unit