Pilgrim’s
progress is crawling towards the installation of the primary DC electrical
wiring. The primary wiring components
are:
- Battery Bank(s)
- Large gauge, high amperage wires connecting primary components
- Shunts to allow for the installation of battery monitors
- Switches for directing or cycling on/off the flow of power through primary wiring & components
- Bus Bars to make multiple wire connections in which all the wires are on a common circuit.
- Terminal blocks to make multiple wire connections in which the wires are on separate circuits.
- Terminal posts for making connections in which the wire(s) are on separate circuits.
- Fuses to protect the wiring and components from excessive amperage.
We purchased
a BlueSea 600A Power Bar to serve as the primary distribution
point for the DC positive wiring. The
wiring leading from the positive bus will be fused at the battery box. A few of the other wire runs will need to be
fused proximal to the bus bar.
 |
| Simple Diagram of Pilgrim's Primary 12V DC+ Distribution Bus |
We are installing ANL Fuses for Pilgrim’s primary wiring
system. Rather than purchase individual
ANL fuse holders for each circuit requiring a fuse “downstream” of the positive
bus, we are fabricating our own ANL Fuse Block.
 |
| Materials used to create DIY fuse block clockwise from top: Starboard, BlueSea Bus, ANL fuses, 5/16" Stainless Steel Fasteners. |
Our fuse
block will utilize a ¼” thick Starboard™ base to mount the BlueSea Bus adjacent
to a DIY terminal block. The gap between
the bus and the terminal block will be set up to accommodate ANL Fuses. ConFUSED yet?
Hang in there pictures are worth a thousand words.
Our DIY
terminal block will consist of ¾” Starboard™ with 5/16” countersink machine
screws as studs.
 |
| Laying out the spacing for the 5/16" countersunk holes. |
The holes in
the ¾” Starboard™ are positioned to match the alignment of the BlueSea bus bar. The holes are drilled and countersunk to fit
the 5/16” machine screws.
 |
| Inserting the 5/16" machine screws in the starboard block. |
The screws
are inserted from the underside of the block with the threaded portion of the
screw exposed on the topside. A washer
followed by two nuts jammed against one another secure the screws to the
Starboard™ block.
Inserting a
couple ANL Fuses between the new block and the prefab bus ensured proper
positioning when we mounting the two pieces on the base.
 |
| Completed fuse block sans the wires and one fuse. |
The bus and
the terminal block are held in position by #10 counter sink machine screws
capped with lock nuts. The base extends
¾” beyond the assembly on each side.
This excess base will provides area for mounting screws.
When
installed in Pilgrim the fuse block will have large gauge wires and/or an ANL
fuse attached to each post.
 |
| Mock up of wiring attached to fuse block (still missing one fuse. |
The image
above is a mock-up of the future installation aboard Pilgrim. From the top down…
- The upper wire feeds power from the engine alternator when the engine is running.
- The second wire (currently missing an ANL fuse) runs to a BlueSea Systems Automatic Charging Relay (ACR). The ACR charges the starter battery when voltage in the circuit is between a preset range. The ACR also isolates the house bank during engine starting.
- The third wire feeds power to our battery & bilge pump management panel. Here is a link to our previous post: Installing the New Battery & Bilge Pump Management Panel – June 28, 2015
- The lower wire (labeled “B”) runs to the house bank of batteries. This wire run is fused proximal to the battery bank.
See our Re-wiring Pilgrim for additional images and other
projects associated with replacing Pilgrim's electrical system.
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