<TABLE BORDER=0 ALIGN=CENTER WIDTH=85%><TR><TD><font size=-1>Quote:</font><HR></TD></TR><TR><TD><FONT SIZE=-1><BLOCKQUOTE>
On 2002-01-18 20:14, Jimmy Ray wrote:
WOW thats an old picture..... NO wing weapons pylon, no TCS pod TF30's and NASA markings must be a test/eval Jet
Beer is good, Drink up Nasty is way ahead
You want weapons? I've got weapons! :-B
Count them "6" I said SIX AIM-54's and 2 winders.... With that load a Tom can shot down 6 targets from over 100 miles away..... Talk about Fleet defense.... No wimpy hornet can do that.....
On the other side You don't Know how much work went into that picture to make that happen.... 6 stations to check.... Load those 1500 pound bad boys.... LOTTS of work.... Whew thats why we only really carry just _ can't tell you I would have to shoot you.
Jimmy Ray and Kay
73 MACH1 351 CJ
<font size=-1>[ This Message was edited by: 1NastyFordGT on 2002-01-18 20:37 ]</font>
<TABLE BORDER=0 ALIGN=CENTER WIDTH=85%><TR><TD><font size=-1>Quote:</font><HR></TD></TR><TR><TD><FONT SIZE=-1><BLOCKQUOTE>
On 2002-01-18 20:34, Jimmy Ray wrote:
Whew thats why we only really carry just _ can't tell you I would have to shoot you.
One of these days Bullittclub will see my
former ride, the SH-60B Seahawk helicopter.
Not nearly as glamorous as the Tomcat, but
it was my ride. </BLOCKQUOTE></FONT></TD></TR><TR><TD><HR></TD></TR></TABLE>
The SH-60B "Seahawk" is a single main rotor, twin-engine helicopter, manufactured by the United Technologies Corporation, Sikorsky Aircraft Division. The helicopter has a 20deg tractor-type canted tail rotor, a controllable stabilator, conventional fixed landing gear, emergency flotation, an external cargo hook, a rescue hoist, and bomb racks for carrying and launching external stores. In addition, it is equipped with a flight-rated auxiliary power unit, a sonobuoy-launch system, an anti-ice system, a fire-extinguishing system, an environmental control system, an automatic flight control system (AFCS), a single-point pressure refueling system, a helicopter in-flight refueling (HIFR) system, and the necessary avionics and instrumentation for instrument flight and mission accomplishment. The helicopter design is compatible with ships equipped with a recovery, assist, securing and traversing (RAST) system, and the main rotor blades and tail pylon can be folded for storage. In addition, the helicopter can operate on non-RAST equipped combatants and a variety of other naval ships.
The overall aircraft dimensions and clearances are:
Folded Length (rotor/tail pylon)------------------40 ft 11 in.
Rotor folded length (pylon flight position)-------53 ft 3 in.
Length overall (rotors turning)-------------------64 ft 10 in.
Fuselage length-----------------------------------50 ft 0 in.
Height--------------------------------------------17 ft 0 in.
Fuselage width-------------------------------------7 ft 9 in.
Folded width -------------------------------------10 ft 7 in.
Main rotor diameter-------------------------------53 ft 8 in.
Tail rotor diameter-------------------------------11 ft 0 in.
Ground clearance--------------------------------------11.2 in.
Turning radius------------------------------------41 ft 7 in.
Clearance for 180'--------------------------------84 ft 0 in.
The helicopter is equipped with two T700-GE-401C engines. The T700-GE-40lC is a front-drive turboshaft engine, manufactured by the General Electric Company, Aircraft Engine Group. Some of the features of the engine include an integral inlet particle separator and self-contained systems incorporating modular construction. At sea level and 59'F (15'C), the T700-GE-401C shaft horsepower ratings are:
Contingency: 2-1/2 Min. duration...............1940
Intermediate: 30 Min duration..................1800
Max Continuous: No Limit.......................1662
The following subsections describe the exterior and interior arrangements of the aircraft.
There are two data link antennas--one forward and one aft on the underside of the aircraft. The search radar antenna is also located on the underside of the aircraft. Other antennas (UHF/VHF, HF, radar altimeter, TACAN, ESM, sonobuoy receivers, doppler, ADF, IFF, and GPS) are located at various points on the helicopter (49k).
The left inboard, left outboard, and right weapon pylons accommodate BRU-14/A weapon/stores racks. Fittings for torpedo parachute release lanyards are located on the fuselage aft of each weapon pylon. Effective on BUNO 162349 and subsequent, the left and right inboard pylons have wiring and tubing provisions for auxiliary fuel tanks. All pylons have wiring provisions to accommodate the MK 50 torpedo. The left outboard weapon pylon can accommodate a missile launch assembly (MLA) which is used to mount the MK 2 MOD 7 Penguin air-to-surface missile.
The magnetic anomaly detector (MAD) towed body and reeling machine are mounted on a faired structure that extends from the forward tail-cone transition section on the right side of the aircraft. It is positioned above and aft of the right weapon pylon.
The sonobuoy launcher is located on the left side of the aircraft above the left weapon pylon. The sonobuoy launcher is loaded from ground level outside the aircraft. Sonobuoys are pneumatically launched laterally to the left of the aircraft.
The airborne RAST system main probe and external cargo hook are on the bottom fuselage centerline, just aft of the main rotor center line.
Fuel service connections, for both gravity and pressure refueling, are located on the left side of the aircraft aft of the weapon pylons. Dual-engine waterwash is manifolded from a single-point selector valve connector on the left side of the aircraft above the sensor operator's (SO) window.
The long strokes of both main and tail wheel oleos are designed to dissipate high-sink-rate landing energy. Axle and high-point tiedowns are provided at each main gear. Fuselage attachments are provided above the tail gear for connection to the RAST tail-guide winch system allowing aircraft maneuvering and straightening aboard ship (41k) and for tail pylon tiedown.
Emergency flotation bags are installed in the stub wing fairing of the main landing gear on both sides of the aircraft.
Hinged doors on each side of the ricepit provide normal access to and from that station. A sliding door on the right side of the fuselage provides access to and from the cabin. The primary emergency escape routes are:
- Instructor/passenger..........jettisonable cabin door window.
The SO console is located in the cabin, as well as provisions for a removable instructor/passenger seat, a passenger seat, and a litter.
The ATO station is located on the left side of the aircraft ricepit. It is equipped with, or offers access to, a full complement of aircraft flight controls and instruments.
The overhead console, located above the pilot and ATO stations, contains aircraft system control panels involving circuit breakers, console/instrument light controls, extemal light controls, fire-extinguisher controls, engine controls, and several miscellaneous controls. The lower console is located in the ricepit between the pilot and ATO stations. It contains the ATO avionics, AFCS, and communications controls. The lower console is accessible by either the ATO or the pilot.
The ATO's keyset is located on the lower console. The multipurpose display (MPD) is located on the instrument panel between the ATO flight instrument panel and a caution/advisory panel.
The collective on the ATO's side telescopes to allow improved ricepit ingress and egress. In addition, locations are provided in the cabin for two fire extinguishers, two first aid kits, two canteens, a relief bag container, a crash axe, a map case, and a back-up messenger kit.
The cabin is arranged with the SO station on the left. facing forward. Most of the components of the avionics system are physically located in the SO console rack, situated aft of the ATO's seat, and in the mission avionics rack (MAR), situated aft of the pilot's seat. The SO console contains the necessary controls and indicators for the SO to perform the missions of antisurface warfare (ASUW) and antisubmarine warfare (ASW).
To the right of the SO station seat is a seat which accomodates an instructor or, if desired, an additional passenger. The primary passenger seat is on the aft cabin bulkhead, located on the right side.
The hoist controls and hover-trim panel are located adjacent to the cabin door. The cargo hook hatch is located forward of the RAST probe housing.
Today's LAMPS (Light Airborne Multipurpose System) is a state-of-the-art, totally integrated ship/helicopter weapons system that is providing expanded operational capability to Fleet Commanders around the globe in numerous mission areas. Designed to operate at extended ranges, the SH-60B SEAHAWK, the Navy's most technologically advanced helicopter, performs the missions of Surface Warfare (SW), Under Sea Warfare (USW), Search and Rescue (SAR), Medical Evacuation (MEDEVAC), Vertical Replenishment (VERTREP), Naval Surface Fire Support (NSFS), and Communications Relay (COMREL). The SH-60B is designed to operate as an integral fighting unit aboard specifically configured OLIVER HAZARD PERRY (FFG 7) class Guided Missile Frigates, SPRUANCE (DDG 963) class Destroyers, KIDD (DDG 993),class Guided Missile Destroyers and TICONDEROGA (CG 47) class Guided Missile Cruisers.
The flexibility of today's LAMPS aircraft and crews to perform these missions has placed LAMPS detachments in high demand. The aviators and their maintenance crews are some of the most highly trained professionals in the Naval service today. Employing a secure datalink and equipment allowing flight operations in any weather condition, LAMPS detachments are critical elements in the data collection/weapons delivery arena. Today's LAMPS detachments possess the necessary capabilities to operate offensively in the highly dynamic surface and sub-surface environments, or defensively in the high density air warfare environment as a key part of a Carrier Battle Group, Amphibious Assault Group or Surface Action Group. Additionally, these detachments can operate independently in conjunction with surface ships configured with or without LAMPS MK III weapons systems. In any role, the SH-60B with its unique sensor suite and integrated weapon system, extends and expands the warfighting capabilities of the parent ship well beyond the horizon.
The future holds great promise. Funded enhancements for the SH-60B include the Block I upgrade, already in place in some commands, and the Block II upgrade (SH-60R), still in development. The Block I upgrade provides three major system improvements: Global Positioning System (GPS), Penguin AntiShip missile, and 99-channel sonobuoy receiver system. Other planned improvements include the Armed Helicopter Program, which includes a Forward Looking Infra Red (FLIR) sensor, Hellfire Air to Surface Missiles, and the GAU-16 50 caliber crew served weapon with LASER target designator. The Block II upgrade is a complete remanufacture and service life extension of the current H-60 aircraft. This upgraded aircraft will have greatly enhanced mission capabilities including Multi-mode radar with Inverse Synthetic Aperture Radar (ISAR) capability, Airborne Low-Frequency Sonar (ALFS), and Integrated Self Defense. Click here to view an AVI file of the Penguin missile being launched off an SH-60B
In an USW mission, the aircraft is deployed from the parent ship (28k) to classify, localize, and potentially attack when a suspected threat has been detected by the ship's towed-array sonar, hull-mounted sonar, or by other internal or external sources.
When used in an ASUW mission, the aircraft provides a mobile, elevated platform for observing, identifying, and localizing threat platfoms beyond the parent ship's radar and/or electronic support measure (ESM) horizon. When a suspected threat is detected, classification and targeting data is provided to the parent ship via the datalink for surface-to-surface weapon engagement. Penguin missile equipped aircraft may conduct independent or coordinated attack, dependent upon the threat and tactical scenario.
In the VERTREP mission, the aircraft is able to transfer material and personnel between ships, or between ship and shore.
In the SAR mission, the aircraft is designed to search for and locate a particular target/object/ship or plane and to rescue personnel using the rescue hoist.
In the MEDEVAC mission, the aircraft provides for the medical evacuation of ambulatory and litterbound patients.
In the COMREL mission, the aicraft serves as a receiver and transmitter relay station for over-the-horizon (OTH) communications between units.
Ask any Naval Aircrewman or any Flight deck Maintainer which aircraft is the most important.... Thats right the Helo and for what? SAR!!!!!.... Nothing flys from the carrier when the helos are down..... In port we're in town drinking BEER the helos are working.... Alerts every day and night while we fix wing bubba's are laying around in our racks waiting to pull pier side helo's are flying.... Thank God for PY and his H-60
Plus they look like maintenance awaiting to happen.... Bunch of rivets flying in close formation.....Hatts off ot you shipmate
I might, I'm really bad with names... I'm sorry if I don't remember. Whats he look like and where did we cross paths? I know is he a Board member of MCA? Or been involved in the 25th MCA Birthday or the 35th Annvi. The Name sounds familiar. Hell, tell him hi for me. Hows he doing?
1 - 20 of 54 Posts
This is an older thread, you may not receive a response, and could be reviving an old thread. Please consider creating a new thread.
A forum community dedicated to Mustang Bullitt owners and enthusiasts. Come join the discussion about performance, production numbers, restoration, modifications, classifieds, troubleshooting, maintenance, and more!