Latest revision as of 10:46, 15 August 2011

This is an exhaustive list of Nevermore's various subsystems.

Rigging

Standing Rigging

Rig Dimensions:

• I: 47.00' (Height of the foretriangle, measured from the highest point of the sail attachment to the sheer line at the point abeam the mast. The point of sheer line is the intersection of the hull and deck)
• J: 16.00' (Horizontal distance from forestay attachment point to front surface of mast)
• P: 41.50' (Maximum hoist of mainsail, measured from lower edge of the upper mast band to the upper edge of the lower mast or upper surface of fixed boom)
• E: 12.00' (Maximum foot length of the mainsail, measured from the after edge of the mast to the inner edge of the band on the boom; Nevermore doesn't have a band, so we say to measure from mast to mainsail clew.
• Est. Forestay Len.: 49.65'

reference: sailboatdata.com

Sails

Catalog of all sails as of 05jun10

• Mainsail 1 (boat)
• Mainsail 2 (missing)
• Genoa ~160%, all-white (boat)
• Genoa 124%, blue-trimmed (boat)
• Working jib (100%?) (missing)
• Storm jib (48%) (pavilion)
• Trysail (pavilion)
• Spinnaker (asymmetric) (boat)

Mainsail

• Dedicated main halyard winch on starboard on mast
• Jiffy (slab) reefing hooks on gooseneck, and dedicated reefing line winch on boom
• 2 jiffy reefing cringles in leech; jiffy lines share the winch on boom with outhaul
• Dutchman flaking system (Type A) model 40-3A [see Owner's Manual (PDF) or Systems Man reference]
  • uses 400-lb test monofilament line
  • 2-in dia circular disk fairleads on the sail and 1 2.5-in fairlead for the upper portion of the forward control line
  • halyard is 1/4" black line with cleat on port side of mast; NOTE: recommend that one crew lifts end of boom and another crew at mast tightens the halyard, rather than counting on the halyard to lift the boom
• Traveller
• Boomvang / preventer
  • as vang, block attaches to fitting at base of mast
  • as preventer in light air, block attaches to spinnaker toerail snatchblock attachment
  • for preventer in heavy air, use a dedicated line from end of boom to toerail amidhips toerail, or to bow cleat

Fore Sails

• Large genoa: ~ 160%, all-white
• Smaller genoa: 124% (LP = 9'10"), blue UV protection along the leech
• Working Jib: 100% (boltrope was too large on this sail. It was taken to the sailmaker in 2009 to get a new lufftape. Has not been seen since).
• Foresail furler:
  • Assembly & Ops manual File:Furlex 200S Furler.pdf, also see [Docs-aboard List]
  • Operation:
    • keep a little tension on furling line as sail is deployed, to minimize line overwraps in furler drum
    • keep a little tension on jibsheets while furling, to make a tight roll of sail on the forestay
      • tension on furling line is considerable for first few turns of drum. however, do not apply too much tension if furler sticks and never use winch handle to furl the jib
• jib halyard winch: dedicated, port side of mast;
  • Operation:
    • The Owner's Instructions page 6 directs that there be at least 2 turns of WIRE halyard, preferably 4, around the winch with foresails fully hoisted; and never should genoa halyard tension be taken on the rope halyard tail
    • it follows from the above that we should not consider the deep grooving of the winch drum as being anomalous
    • it also follows that the wire-to-rope splice will be wrapped on the drum
      (which ThomS was taught is NOT desired on most boats for integrity of the splice)
• Storm jib
• Trysail
• Whisker pole: none

Spinnaker

• Asymmetric (white with black perched raven)
• Pole (telescoping aluminum) (at pavilion)
  • fitting for topping lift, but not for downhaul
  • two mast rings. each off centerline of mast maybe 30-deg to port and to stbd
  • note that we have no reason to think pole was ever used with asymmetric

Deck Hardware

Winches

See Sys_Descript_WINCHES for more comments on maintaining the winches.

Port Cabin Vent

Starboard Cabin Vent

Keel-Centerboard

Nevermore's Keel/Centerboard

The keel provides weight for righting moment, and also accommodates the slot for the centerboard. The centerboard is attached to the keel by a single hinge pin at the forward end of the centerboard slot. The centerboard pennant pulls the centerboard up (as opposed to pulling the centerboard down).

TODO: find weights of keel and centerboard.

Maintenance

See Owner's Instructions pages 4, 5, 5A for rigging and adjusting the centerboard pennant and tag line, and pages 14, 15, 15A for replacing the pennant.

Operation Hints:

• Do not let the pennant run free! I.e., don't let the centerboard drop!
• The instructions show how to place the block on the pennant so that the tag line will allow full upward position of the CB, and also allow full extension of the CB when the tag line is freed.
• Simplistic guidelines for deploying the centerboard:
  • deploy down when beating
  • pull up when running
  • deploy down at mooring
  • keeping the centerboard down while backing improves steering control

Ship's Machinery

Power Train

Engine

Identifying info from tag on engine:

• model: Westerbeke 50
• horsepower: 41 HP at 3200 RPM (Note that our policy is 2000 RPM)
• serial #: 18P/830A/0247B911
• spec : 18360 2.1
• date : November 1979 manufacture decoded from "0247B911" of serial number
  (block #0247 per Svc Bul #132, or of engine per #242; date from "B911" )

REFERENCES:

• Our catalog of engine hardcover and web-based documents, including entries defining
  • Tech Manual (ENG_TM), and references to subsidiary tech info on this wiki and on the web
  • Westerbeke's Parts List (ENG_PL)
  • a link to the Parts List put on the web by an independent parts supplier
  • Westerbeke contemporary [sales brochure] (1979) (publication LP-1M 10/79)
• Westerbeke Engine electrical system diagrams of 12-V DC circuitry,
  from Technical Manual, Pub #23156, Ed. one June 1978, which we received with Nevermore
  • Engine schematic dgm page Q2
  • Engine wiring dgm page Q3

'Misc observations' (useful in troubleshooting):

Engine instrument panel gauges (05Sep07):

Water Temp gauge

* goes off left (cool) end with sender disconnected (good)

* sender shows 360 ohm @ 100 deg, 25 ohm @ 230 deg

Oil Pressure gauge

* goes off left (0 psi) end with sender disconnected (good)

(but note: Calder p.288 says most O.P. gauges go to high reading)

* sender shows 460 ohm @ 0 psi, 44 ohm @ 50 psi, 0 ohm @ 80 psi

See Tech Letter #72 page V.4 of Engine Tech Manual

"Gauges -vs- Senders non-Interchangeability"

engine mfgr has used 4 different gauge mfgrs for WT & OP, and each

requires sender by same mfgr; diagrams are given for configs of

connections for each manufacturer of gauge.

TODO: define here which make of gauges we have (so tested above),

and (a) mention it in the 2 sets of resistance readings above,

and (b) annotate Engine Manual

Transmission

* Appears to be a "Short Profile Sailing Gear" transmission, HBW Model 10

(page S.41 of Engine Manual, by comparing it to descriptions of

about 5 different kinds of transmissions described therein,

then getting the 5, 10 or 20 size from title in |Parts List)

* Type of transmission fluid: ATF type A, or Dexron II (per Engine Manual; Dexron III o.k. (per Hansen Marine)

* fluid quantity (for Model 10): 0.6 litre

Drive Shaft, Coupler, Stuffing Box

Propeller

Prop, Cutlass, Zincs

Prop

The prop on Nevermore is fixed, 2-bladed, diameter approx 15-1/2 inch tip-to-tip.

Note: the original standard prop was 16-inch fixed two blades [per www.practical-sailor.com Apr 2009 p.14]

TODO:

• look for a prop model number, and/or look for an info folder aboard
• look for a cutlass bearing model number or other info aboard
• can we measure pitch?
• mark shaft inside the boat for vertical position of blades

Note that aboard is a datasheet for a VARIABLE prop. We think it is for a 2-bladed prop too. A brochure says "Martec low drag propeller." And a 1985 (I think) application for a racing handicap listed Nevermore as having a variable prop. we assume this IMS handicap application was associated with the 1985 Bermuda race.

Steering & Binnacle

Wheel, Drive & Quadrant Mechanism, Rudder-Post

Per Owner's manual page 8, the Tartan-37 is equipped with an Edson Radial Drive pedestal steering system.

The "Information on maintenance ... included elsewhere in this manual" can't be found [ThomS Feb08].

The "quadrant" is properly a "wheel" at the rudderhead [per Calder]; let's call it the "quadrant" unless talking to e.g. boatyard folk who know the difference; might have to say "rudderhead wheel" do distinguish it from the [steering] "wheel".

TODO: Enter model numbers herein, and see if any ref material is on web.

Emergency Tiller

See Owner's manual page 8, STEERING

The tiller handle, a straight aluminum tube, is stored in the stern lazarette for immediate use.

A bent tube, also a part of the emergency tiller, is left slid over the rudder post to accommodate the tiller handle.

The emergency tiller doesn't allow as much rudder angle as the wheel, and force on the tiller can be considerable.

Emergency steering may be easier, or at least less awkward, with the wheel removed.

The rudder can jam if something falls into the steering quadrant. In this case, neither the wheel nor the tiller will function.

Autopilot

According to the Autopilot manual page 8, a basic autopilot system consists of:

• Control Unit (AP11)
  • located on port cockpit combing in driver's seat
• Junction Unit (J3000X)
  • located on fuel tank bulkhead behind nav station seat
• Drive Unit (no model # page 8, RPU80/RPU180 per diagram page 9)
  • located to port of steering quadrant in stern lazaret, attaches to underside of quadrant
• Fluxgate Compass (RFC35) (Serial No.: 13134E02)
  • located behind port settee, just forward of nav station.
  • front of compass is facing stern so it needs offset correction of 180 degrees during system setup.
• Rudder actuator (is this "Reversible pump RPU80 or 160" listed in the manual?
  • location: port quarter, attached to rudder quadrant
• Rudder Feedback Unit (RF300)
  • location: aft of steering quadrant, a little stbd of centerline; attaches to top of quadrant
• Course Detector Interface (CD135) (didn't see one; is this optional?)
• Rate Compass (RFC35R) (didn't see one; is this optional?)
• power feed from ship's 12V subsystem
  • switch #2 observed on vertical set of Nav station switches (we did not trace this circuit to the system (Fall '07))