Space General Corporation Lunar Exploration Suit, Model MK 1

Monday, January 6, 2025

Allyn Hazzard's 1958 Proposed Moon Suit build

Dave Busch from RFP Post

Published by Dave Busch (user "ooteedee" on Jul 30, 2019 on the RFP "Create Your Fandom" site).

As a child I first saw it in a Time Life "Science Library" edition entitled "Man in Space". I always thought it would be fun to build it and then walk around town in it.

It was called The Lunar Exploration Suit - Model MK 1 (Space General Corporation) Designed by Allyn "Hap" Hazzard (sic there's only one "z" in Hazard's last name)

This thread is a basic documentation of its build. It took about 5 months. It's made of aluminum bicycle rims, aluminum stock rails, pvc plastic sheeting, 10" rubberized ducting hose, galvanized ventilation ducting reducers, rubber muck boots, rubber gloves, Radio Flyer metal snow saucer, plastic snow saucer, metal fire pit basin, clear plexiglass sheeting, misc pvc plumbing, a scientific lab instrument purchased from the MSU recycle center, magnetic-base radio antennae, semi-truck marker lights, and other found objects.

It has a fully lit interior and a 20 watt wireless sound system that can play a custom edited 1.5 hour multi-track environmental soundtrack - comprised of instrumental music, select Apollo mission radio chatter, ambiant sound effects and more. It's on youtube but I don't want to post the link here. It's not a video of the suit. Search youtube for "External Ambiant (sic) Soundtrack - MK-1 Integrated Moonsuit"

I also created a vintage replica CCA headset with working two way microphones - connected to a separate externally facing speaker.

An article about the suit and how I built it appeared in the Lansing City Pulse. Houston, do you copy?

The attached images represent the build and the reference material I used to estimate its dimensions.

I did not build it to coincide with the lunar landing anniversary.

The following paragraph is a nice summation of the original suit concept.

The Lunar Exploration Suit - Model MK 1
Space General Corporation
Designed by Allyn Hazzard

The Lunar Exploration Suit, Model MK 1 has been developed by Space General Corporation for travel across the surface of the moon. It resembles a shelter because it must carry its own life-support system wherever it goes. The basic suit assembly weighs 60 pounds on earth, 10 pounds on the moon. It will carry a two-week food supply weighing 30 pounds; a two-hour oxygen supply, 24 pounds; battery, 24 pounds; communication equipment, 12 pounds; reading and miscellaneous material, 12 pounds. With an 180- pound astronaut, this suit will total 342 earth- pounds and 57 moon-pounds.

Looking at this enormous suit from top to bottom, you see first a wide-domed headpiece with an identification light centered on top, V- shaped antennae, a built-in helmet camera and see-around faceplate that drops almost straight down to the shoulders to give the astronaut 360-degree vision. At collar height there is a bumper to protect the "windshield" and for another astronaut to grab in helping his buddy. At thigh level ground lights can be turned on. Boots are double-soled and vacuum-insulated.

The astronaut will maneuver the suit much like a small tank. As he walks, he will use his arms inside to help the shoulder harness support the suit. He will operate dials and knobs on the control panel below the windshield for his life-support functions, to control the suit's cooking facilities, tune his radio and operate electronic equipment. From his "dashboard" inside the suit, he will also be able to manipulate a ground-powered vehicle which will support him with additional oxygen and supplies during exploration. This "Moon mobile" is technically called the Lunar Exploration Vehicle (2 man) MK I. It has a 20-foot umbilical which delivers oxygen and power to the space suit. The astronaut may walk with the vehicle, or he may choose to ride. If he rides, he hooks himself onto one end of the Moon mobile with support trunnions located on each side of his space suit. A mechanism on the vehicle will lift him off the ground and carry him in an upright position at five miles an hour. Also, when supported by the vehicle, the astronaut can easily shift his weight much the same as in a lean-back chair. In this way he can tilt the suit horizontally for sleeping. It is padded down the back so as to be reasonably comfort- able under reduced lunar gravity. The multi-purpose support trunnions not only provide a means of support aboard the Moon mobile, but they can serve as a point of attachment for "flying belts." They can also be used to hoist this "detachable man-propelled cabin of a Moon-mobile" into the spaceship.

There are advantages to integrating the hard-shell space suit into the configuration of a vehicle such as a Moon mobile. If the astronaut must move away from his supply vehicle, the umbilical can be disconnected. Then the suit's self-contained oxygen and power supply will permit it to operate independently until the oxygen is used. In exploration missions this is important. When each crewman is contained within his own suit. the failure of one will not affect the others, In this way space clothing will provide each astronaut a better chance for survival.

References:

The Build:

Dave Busch from RFP Post

Dave Busch from RFP Post

Dave Busch from RFP Post

Test Drive

Lansing CityPulse May 23, 2019
Houston, do you copy?
Astronaut suit replica marks 50th anniversary of moon landing

CityPulse May 23, 2019 "Houston, do you copy?"

Transcript:
By Lawrence Cosentino

If you are walking around in greater Lansing this summer and a man in a white tub beckons to you, waving rubbery arms and emitting bursts of static, don’t run away. It’s only Dave Busch, trying in his own way to communicate to you.
CityPulse May 23, 2019 "Houston, do you copy?"

His message: this summer marks the 50th anniversary of the first manned lunar expedition. Acknowledge.

Area space fanatics will surely mark this summer’s milestone in many ways, but Busch, 53, is a local singularity.

Last Thursday, he was nearing the end of four months of nights and weekends recreating a 1962 prototype of a lunar explorer’s suit in his workshop-barn east of Lansing. He lives in Perry and commutes daily to work in Old Town.

The MK-1 Integrated Moon Suit, or “man in a can,” made the cover of Life magazine and became a toy that’s now worth hundreds of dollars on eBay, but was never used by NASA.

This summer, Busch plans to don the suit and materialize wherever he gets the urge, at Lansing area festivals or just to liven up slow legislative days near the Capitol.

Well, maybe not too close. “I’m a little nervous about the security there,” he said.

A portrait of the suit’s designer, buzz-cutted engineer Allyn “Hap” Hazard, is reverently nailed to a pole in the barn that doubles as Busch’s workshop.

“If nobody else has built this suit, then only two people have — him and me,” Busch said. “And I don’t know of anyone else.”

Lunar convoy

Last week, Busch was hunkered down in the barn, fitting plastic sheets into the helmet visor as the moon suit hung silently on suspended dowels. A plastic chandelier hung overhead and a Mozart quintet played in the background. After months of work, the project was down to the visor and several other details, including the iconic number “3.”

Busch built model airplanes as a kid, but never anything like this. He remembers watching the Apollo 11 moon landing on TV 50 years ago.

“I was only 3, but I knew something important was happening,” he said.

He first saw the MK-1 moon suit in a book, “Man in Space,” from a set of Time-Life science books his parents collected. The suit also did a spectacular star turn on the cover of Life Magazine April 27, 1962, to accompany a speculative story on lunar exploration.

Hazard, an engineer at Space-General Corp. in the 1950s and ‘60s, looked beyond the proposed Apollo moon landings nearly 10 years before they became reality.

He imagined that man’s first small steps on the moon would be followed by real work: a 12-man convoy of cargo and passenger-carrying rockets, with civilian scientists in tow.

In Hazard’s vision, four explorers would live, eat, sleep and work in the suits as they did their work, with eight support personnel staying near the convoy ships.

While working on the suit, Busch has collected any snippets of information about it he could find, which isn’t much.

Hazard’s rocket convoy is shown parked near a picturesque lunar crevasse in a futurist period magazine published by the owner of Space-General Corp., Aerojet, in 1961. Moon-suited researchers wander the area, decked out in radiation–resistant “umbrellas.”

Busch left the cosmic parasols out, banking that he can get away without a radiation shield in Lansing.

The “man in a can” design looks silly now, but Hazard envisioned long journeys in the suits of up to 500 miles, followed by assist vehicles. The suits would enable the moonwalkers to slip their hands out of the sleeves, eat, sleep, scratch their noses or do whatever else they needed to do. Fully loaded, the suit weighed 350 pounds — only about 50 pounds in the Moon’s weak gravitational field.

Needless to say, NASA never used the design. By the time humans walked on the moon for the first time on July 20, 1969, it was only for two hours, in a much more maneuverable (but still bulky) spacesuit. The big lunar research convoys Hazard envisioned never came to pass.

The barrel suit became a curiosity, albeit a persistent one.

Professor John Lyman of UCLA and several of his experimental engineering students put the suit through a few amusing paces as part of a research project. A tongue-in-cheek spread in the August 6, 1961, issue of the Syracuse Post-Standard showed one student inside the suit, chasing a frightened co-ed. In another photo, he’s upended like a turtle, with his friends helping him get back up.

Major Matt Mason, a Mattel toy based on Hazard in his space suit, goes for hundreds of dollars on eBay.

Around 2000, Busch saw a piece of junk mail lying on his desk at work. A marketer’s steampunk-ish logo featured a familiar image: the man in the can.

“That triggered me,” he said. The image was still seared in his mind from the Time-Life book he pored over as a kid.

“I needed to build this.”

How he built it

CityPulse May 23, 2019 "Houston, do you copy?"

Busch compared his obsession over the suit to the UFO mania of Richard Dreyfuss in “Close Encounters of the Third Kind.”

In the film, Dreyfuss even sculpts his mashed potatoes into a mini-Devil’s Tower, where aliens planned to rendezvous with Earthlings.

One morning before work, Busch went to the Golden Harvest Restaurant in Old Town with a stack of reference photos. He didn’t order mashed potatoes, but he did bring a notebook and worked out a set of dimensions, using Hazard’s head as a reference point, over coffee. (Most heads are about 6 inches wide.)

Busch’s hands look pretty banged up. The bottom half of his left thumbnail is dark purple, owing to a blow from a slipped wrench.

“Oddly enough, construction has gone remarkably well,” he said.

The main body “can” is a 4-foot-by-8-foot sheet of heavy duty PVC plastic he bought at a sign shop on Lansing’s west side.

“They don’t usually sell plastic to people,” he said. “When I told them I’m building a space suit, they looked terrified, but they took my money.”

The sheet was relatively cheap at 50 bucks, but he didn’t want to go through more than one. The first cut had to be just the right size.

To his surprise, he found that “some online fanatic” created a template maker for various geometric solids, including the shape of the moon suit’s main shell — a truncated cone.

He plugged in the dimensions, took the resulting drawing to Kinko’s and blew it up to full scale. The resulting sheet of plastic was almost the perfect size.

He found a credible instrument panel at MSU Surplus that turns the view from inside the suit into straight-up science fiction. A real air pressure gauge is screwed into the hull nearby.

CityPulse May 23, 2019 "Houston, do you copy?"

“It’s stuck at zero, though,” Busch said. “If we were on the Moon, we’d be in trouble.”

The arms are made of heavy-duty, rubber coated flexible hose —stronger and more expensive than dryer vent hose, but worth it.

A small dryer vent serves as a vent near the wearer’s behind. Bright trailer lights illuminate the undercarriage.

Busch stole straps from his son’s book bag to go over his shoulders. A pair of black Kinco work gloves and old-fashioned rubber galoshes complete the ensemble.

The helmet is the literal, and figurative, topper. Aluminum bicycle wheel rims served as ideal rigid, lightweight frames to craft a spectacular headpiece. The slick, circular helmet is capped by a Radio Flyer sled, painted white. Magnetic antennas, for use on trucks, bristle on top, for a Sputnik-era flourish.

The suit has a few bells and whistles Hazard never thought of, such as a microphone and external speaker.

“I have a way to communicate with any people that I encounter,” Busch announced, getting into character early.

The speaker will also emit a carefully crafted mix of ambient music and sound effects, via a Bluetooth amplified speaker.

Busch hooked the sound system up as he fiddled with the suit last Thursday.

The barn hummed with a weird haze of NASA sound effects and chatter mixed with Trent Reznor’s ominous, groaning-metal score for the video game “Quake” and the floaty music of Floex (Czech composer Tomá Dvorák) from the game Samorost.

He worked at fitting a tubular PVC bumper around the base of the helmet.

“I don’t know what that was for,” Busch said. “Maybe some kind of umbilical.” For his purposes, the bumper adds approximately 4 percent more space weirdness.

As Busch battled the tubes, which kept popping out of place, the setting sun peeked through the slats of the barn, throwing tiny pools of light everywhere.

One of them rested on Allyn Hazard’s face.

“Look at that!” Busch said.

He took it as an omen. It was time to apply the number “3.”

Busch soaked the 18-inch “3” decal in water for a few minutes and applied it with the gentlest caress to the suit’s ventral surface.

“I’ve been waiting to do this since forever,” he said.

Busch is sure that his dad, an engineer who died in 2006, would have gotten a bang out of the project.

“He was the gentlest, most intelligent engineer and mathematician,” he said. “Anything I know about repairing anything, I learned from him.”

The number “3” was crooked by just a hair.

“It’s going to bother me. It’s going to bother me,” he intoned.

He somehow salvaged both layers of the decal without cracking it, moved it a few millimeters and pressed down again.

As he peeled the top layer away, the suit suddenly looked like the real thing.

“Hee-hee-hee-hee!” he cackled.

He pressed out the wrinkles with a yellow spatula adorned with a smiley face.

“Looks good,” he said quietly.

He’s not afraid of dings and dirt. On the contrary, the suit is likely to look even more realistic after a few expeditions to the mean streets of Lansing.

“Look at the Apollo suits,” he said. “Those things came back covered in dust.”

The last thing to go in will be the beer can holder.

John's Notes

I reached out to the publisher of this thread back when it first became available online, I asked some questions but he seemed hesitant to engage with me.
I get asked why I copy stuff like this if it's already been published online? Over the years I've found sites to be unreliable - this started when I'd post a link to a news article only to have the article move or be deleted. It's annoying. There's always Wayback Machine but it doesn't always get everything (the crawler seems to only go about three levels deep) and sometimes the articles were very ephemeral so they disappear before WBM's crawler can pick it up.
Thus I started saving entire sites, originally all the code, images and files, locally so I can recover the info. This also became annoying as code standards changed (why all image files that had ampersands became error files). It's just easier to copy all the content and create a local copy.

Sunday, January 5, 2025

Reading Eagle 27 November 1960 "Building of 'Moonmobile' Is Problem for Scientists by Ralph Dighton (AP)

Reading Eagle 27 November 1960 "Building of 'Moonmobile' Is Problem for Scientists by Ralph Dighton (AP) Full Page

Interesting article published in the Reading (PA) Eagle on 1960.11.27 that discusses the challenges of designing a "Moonmobile" with contributions by Allyn B. Hazard, a member of the JPL team assigned the task.

Reading Eagle 27 November 1960 "Building of 'Moonmobile' Is Problem for Scientists by Ralph Dighton (AP) Article Detail

Transcript:

Building of 'Moonmobile' Is Problem for Scientists They Must Decide If Travel Will Be Over Lava or Sand

Editor's Note: Green cheese it's not, say the scientists. But they can't agree whether the moon is mountains of lava or oceans of sand. The disagreement is giving fits to the men trying to design a moonmobile, who know almost everything except what's most important: Will it need wheels claws?

By RALPH DIGHTON Associated Press Writer

When your ship lands on the moon, will you step out among knife-edged crags jutting from volcano-spawned miles of lava jungle?

Or onto gently sloping plains covered with talcum-fine dust into which you could sink like a rock dropped in fresh snow?

Search for the answer - which probably lies somewhere between these two extremes - will cost government and industry millions of dollars in the next few years.

When the truth is finally known there will be some very red faces in scientific circles - those who guessed wrong about the kind of vehicles needed to explore the moon's surface.

Within the next year industry will be invited to bid on supplying "moonmobiles" to be carried in rockets already scheduled for launching.

The first moon jeeps will be unmanned, built to be operated by remote control from earth. They will carry a few instruments to give scientists a rough idea of what the moon is like. To a nation accustomed to 300- horsepower automobiles, they will be extremely crude, intended only to move a few hundred feet before their batteries wear out.

These are the basic specifications. Beyond that, the design is up to the individual scientists, and their ideas of the conditions the vehicles will have to overcome differ vastly.

Varied Suggestions

If the craters that pit the moon are extinct volcanoes, the lunar surface might well be fissured no-man's-land, a wave tossed sea turned magically into black stone. No vehicle with conventional wheels could travel far across this type of terrain, and even tractors would find hard going.

Serious study has been given to fat, balloon-like wheels, but no material has been found yet which would resist punctures and still remain flexible in the extremes of lunar temperature - from 210 above to 250 below zero.

Also under consideration are cars mounted on telescoping stilts which would shorten or lengthen hydraulically to adjust to uneven ground. These would be similar to a landing vehicle proposed by Dr. Jack Green of North American Aviation's aero-space laboratories in Los Angeles.

Dr. Green has spent months mapping the vast lava beds on California's Mojave Desert, hunting for "landing sites" like those he believes will confront moon expeditions.

From his studies of several such sites, he has come up with a three-legged vehicle equipped with clams (sic - probably clamps) to grab a foothold on any kind of terrain.

Green is one of those who is sure the moon is volcanic. He has even designed a machine using the heat of the sun to sweat water from pulverized lava.

One aero-space scientist conceives of a contraption like this to land a man on the moon. He suggested the machine, with telescoping stilts, after studying jagged California lava beds which he believes approximate the contours of the moon.

But suppose the lunar craters are not volcanic - that they were thrown up by meteorites splattering against the moon with a force they could never achieve through the earth's cushion of atmosphere?

In that case, the moon's surface would not be covered with lava but more probably with dust flaking down from the ringed peaks, eroded over millions of years by solar radiation and the impact of tiny particles from space.

Among those who lean toward this belief are scientists at the National Aeronautics and Space Administration's Jet Propulsion Laboratory in Pasadena, Calif.

In the most detailed moon-travel study yet undertaken, three men have spent months collecting what they think are the best guesses on lunar surface conditions, and designing vehicles to overcome them.

Dr. William Pickering, director of JPL, says these are only preliminary studies and that the laboratory's present job is to develop the technology and the machines for unmanned exploration of the moon and the planets. Later, he says, other groups may use these technologies and machines for manned explorations.

JPL's upcoming Ranger moon rockets will carry instruments - among them an earthquake meter made by the seismological laboratory of California Institute of Technology which will determine whether there are volcanoes on the moon.

Until this proof is available, the JPL team is assuming the moon is covered not with lava but with dust.

Some earlier researchers have contended that because the moon has no atmosphere to pack the dust down, it would be soft and feather-fluffy. A vehicle landing on it might plunge down as much as a half mile before hitting hard ground.

JPL's team, headed by section chief William Schimandle, believes the absence of air has created just the opposite condition. Air would tend to separate and fluff the dust particles, they say; the vacuum of lunar space would let the dust pack down hard.

The dust would fill crevices and any boulders would be buried, they say, so most of the moon's surface must be a flat, hard-packed plain something like the salt flats in Utah.

What about the "jagged peaks" detected in photographs of the moon?

One scientist's conception of a moon expedition features ships which would land tail down on adjustable legs. The object in the foreground is a man in a space suit, protected from the searing sun by a sort of umbrella and shower curtain. The big problem: determining the texture and contours of the moon's surface and designing a vehicle that could land on it. (AP Newsfeatures Photos)

The best photos, says Schimandle, were taken when the sun was rising or setting. "The resulting shadows have exaggerated lunar contours so greatly that we tend to liken them to the only things comparable on earth-volcanic craters."

Using a recent photograph of the moon, Schimandle points to a great plain called the Mare Imbrium - the right eye of the man in the moon. Rising like a hound's tooth from this plain is a lone "peak" called Mt. Piton which throws a long shadow.

Shadow Seen as Moutain (sic)

Measurements of this shadow, he says, show that the "peak" actually is a mountain gradually sloping upward over a distance of 13 miles to a height of 7,000 feet. The top is so nearly level that it is difficult to determine the highest point.

Anticipating gentle slopes and hard-packed dust, the JPL team has designed for the first landings a three-wheeled buggy something like the earliest automobiles. They don't plan to build the buggy -"our purpose is to collect data so we can tell industry what we want when the time comes," says Schimandle.

The buggy has steel-rimmed aluminum wheels six feet in diameter to enable it to cross any small cracks that may remain in the moon's surface. Electric motors will turn the wheels at very slow speeds - 2 to 5 miles an hour.

"It won't need much power because the slopes will be gentle," says team member Allyn Hazard, "and we certainly won't want it to go very fast because of the time lag between the vehicle and the remote operator.

"The buggy will carry rudimentary television and radar and we figure it will take 1.3 seconds for these signals to reach earth. It will take six-tenths of a second at least for the operator to decide whether to stop the vehicle in front of an obstacle or to go around it. Another 1.3 seconds will be needed to transmit his decision back to the vehicle a total of almost three seconds.

"In three seconds, a vehicle going five miles an hour will travel 22 feet. It could be wrecked before we could stop it. We may have to develop a radar device that will cut off the motor whenever an obstacle looms, thus giving the operator time to catch up with the machine."

Lights Will Be Needed

The buggy will be equipped with lights because, Schimandle says, "man may have to be a nocturnal animal on the moon, coming out of his shelters only at night.

"We don't know what solar radiation, unfiltered by any atmosphere, will do to men or their equipment. But we believe that anyone venturing out in daylight will at least have to wear something like this:"

He sketched a man in a spacesuit carrying an umbrella, from the rim of which hung a shower curtain. The umbrella and curtain were made of a thin film of aluminized plastic which, he said, would ward off up to 95 per cent of the sun's rays.

"Even this may not be enough protection," he added.

"Don't laugh, but it may turn out that we will hope that the moon dust is soft-packed, so we can tunnel through it like moles, using it to shield us from both heat and cold.

"If so, our three-wheel buggy will have to be shelved in favor of burrowing machines."

Saturday, January 4, 2025

Exploring God's World by James H. Jauncey

This interesting religious book "Exploring God's World" by James H. Jauncey (1965) uses space imagery, including an illustration of a couple of Moon Suited astronauts exploring the moon, as the first illustration of the "When God Made Outer Space" section.

Exploring God's World by James H. Jauncey

I've only found a single reference to the actual book on the Amazon UK site. You can tell the illustration is from early JPL photography (also it predates Major Matt Mason by a couple of years).

Thursday, January 2, 2025

Allyn B. Hazard

Allyn B. Hazard (1928-1979)

The inventor of the Moon Suit and founder/CEO of the Space General Corporation, was engineer Allyn Burson "Hap" Hazard. I did some cursory research on Hazard - seems he had an interesting career (the image above was copied from a Smithsonian image archive for JPL and used without permission). Allyn was born in Winnebago, IL on August 22 1924 and passed away in Los Angeles during August 1979, at age 54 or 55 (the birth year listed in SSDI is 1924 so presumably the JPL image has the wrong birth year). He was buried in Guaje Pines Cemetery, Los Alamos, New Mexico, United States.

Allyn Hazard was in the Navy towards the end of World War 2 but he was better known as a Navy space flight coordinator working at JPL during the planning and execution of the Ranger program. Earlier, in 1951 in a somewhat unexpected incident he accidentally captured a failing USAF B36 on film, which made it first into various news reports and later into Life Magazine as a pictorial. In 1952 he experimented with a new design for a hydrofoil boat and was awarded a patent for it (below). It was his post-JPL design for an Integrated Moonmobile-Spacesuit (AKA Moon Suit) Concept that brought him wide acclaim, including the cover of Life Magazine, which we famously know.

"HAP HAZARD, who shot the crash, is an engineer, inventor and a dianetics auditor.

Life Magazine May 21, 1951 "Camera Records Big B-36 Crash"

Life Magazine ran a piece with still shots of the B-36 that Hazard shot on his home movie camera.

Freak boat that flies on stilts, 1952

Freak boat that flies on stilts, 26 March 1952. Allyn B Hazard -- 27 years (in boat) 1317 1/2 South Gladys Street, San Gabriel.;Caption slip reads: 'Photographer: Emery. Date: 1952-03-26. Reporter: Phister. Assignment: Freak boat that flies on stilts. 16 or 17: Closeup of Allyn B 'Hap' Hazard, 27 years, of 1317 1/2 South Gladys St., San Gabriel, mechanical engineer, developer operator & owner of 'boat that flies'---shown after testing boat at Long Beach Marine Stadium. 38-39, 42-43, 72-73, 96-97, 01-02, 24-25, 44-45, 48-49, 32-33: Action shots of Hazard putting his experimental boat through high-speed paces, when boat rises about two feet over water and travels on metal vanes extending into water. Boat 'flies on stilts'. Closeups of one of the vanes and its control, shown by Hazard'.. (Photo by Los Angeles Examiner/USC Libraries/Corbis via Getty Images)

Hazard's Patent on "Hydrofoil Boat"

An Integrated Moonmobile-Spacesuit Concept 610086 (1961.01.01)

Citation: Hazard, A., "An Integrated Moonmobile-Spacesuit Concept," SAE Technical Paper 610086, 1961

Valley Times Collection from the Los Angeles Public Library "Moon suit" 1961

Pictured is engineer Allyn B. Hazard in a moon suit he designed. Hazard is a senior development engineer in the Missile Engineering Section of NASA's Jet Propulsion Laboratory. The suit was on loan to a UCLA biology laboratory class which studied its effectiveness. It was one of the first spacesuits ever designed. Photograph dated February 16, 1961.

Valley Times Collection from the Lost Angeles Public Library "New trends at home show" 1964

Valley Times Collection from the Los Angeles Public Library "New trends at home show" 1964

Photograph caption dated June 12, 1965 reads "Home show queen Janice Johnson is helped out of a model of the Apollo spacecraft by Hap Hazard, space engineer, wearing the very latest design in suits for moon crawling. Cutaway model of Apollo is now on exhibit in Sports Arena, along with other aerospace features, 12:30 to 11 p.m. daily through June 20."

Link sent to me by a retired researcher in Santa Fe working on a space archeology project in 2019, Ross Deforest Sackett. My heartfelt "Thank you!" goes out to him for this and other contributions.

NASA SP-4205 "CHARIOTS OF APOLLO - A History of Manned Lunar Space Craft"

NASA SP-4205 "CHARIOTS OF APOLLO - A History of Manned Lunar Space Craft" 1979 Page 64

This NASA publication references a paper done by Hazard published in 1959.

"Across the country from Huntsville, another NASA center had different ideas about the best way to put man on the moon. Jet Propulsion Laboratory in Pasadena, California, suggested a link-up of vehicles on the moon itself. A number of unmanned payloads-a vehicle designed to return to earth and one or more tankers-would land on the lunar surface at a preselected site. Using automatic devices, the return vehicle could then be refueled and checked out by ground control before the crew left the earth.

After the manned spacecraft arrived on the moon, the crew would transfer to the fully fueled return vehicle for the trip home. One of the earliest proposals for this approach was put together by Allyn B. Hazard, a senior development engineer at the laboratory. His 1959 scheme laid the ground work for JPL's campaign for lunar-surface rendezvous during the Apollo mode deliberations.(7)"

(7). [Nicholas E. Golovin], draft report of DoD-NASA Large Launch Vehicle Planning Group (LLVPG), 1 [November 1961 ], pp. 6B-39 through 6B-42; Allyn B. Hazard, "A Plan for Manned Lunar and Planetary Exploration," November 1959.

From the Earth to the Moon 1998 TV Mini-Series Episode 5: Spider

Allyn B. Hazard is played by actor David Brisbin

"Part five of this twelve-part docudrama series about the development of the U.S. space program as the country prepares to send men to the moon. Part five, entitled "Spider," examines the work of the engineers who built the lunar capsule. When Tom Dolan proposes the idea of a lunar orbit rendezvous between a command module and lunar module, John Houbolt of NASA approves the option as sensible and safe. With Grumman Aircraft Engineering Corporation in Bethpage, New York, approved to construct the lunar module, Tom Kelly and his team of engineers struggle to figure out how to lighten the heavy weight of the craft. They eliminate standard items in most spacecrafts, like seats, thermal shields, and windows. When construction begins, Kelly grasps the huge task ahead, considering all the parts must be handmade and repeatedly tested. But as the time for the scheduled lift-off nears, Kelly realizes the module will not be ready, so the engineers labor harder then ever to meet the tight deadline. Finally, the module is ready and astronauts Jim McDivitt, Dave Scott, and Rusty Schweikart wait anxiously for the launch. After a successful launch, the module separates from the command craft and begins its journey around the moon. But as McDivitt and Schweikart prepare to partake in a historic space walk, Schweikart gets sick and the mission gets scrapped. As McDivitt and Schweikart prepare to shut down the module and reconnect with the command craft, McDivitt decides that Schweikart is feeling better and he orders the first two-man spacewalk. Back at mission control, Kelly nervously awaits word of whether the lunar module and command craft have reconnected."

Photos I grabbed of Allyn B. Hazard from various online sources:

Most of the rocky sequences with Hazard in the #3 painted suit are from the Mojave Desert, I believe. The photos of him donning the #8 suit (probably the same prototype with an updated number) seem to be from later publicity appearances.

Monday, September 4, 2023

Moon Suit Patents

US Patent 3,381,303 was issued to Allyn B. Hazard on May 7, 1968. It was originally filed on Jan 2, 1964. You can find the document in the USPTO Database or download the PDF here.

There's some variation between the prototype produced by Hazard and the patent renderings (seems the original concept has the whole suit including the "bell" torso housing, to be encased in some type of beta material. The patent also has details of the accordion joints - I always wondered about those as when pressurized I'd imagine they would flop around much like the Major Matt Mason Moon Suit accessory. The patent describes a mechanical armature that maintains the joints flexibility.

If you search the USPTO database for "Allyn B. Hazard" you'll see another patent 3,516,243 "Globe Clock with Single Bearing" - another interesting read, if not as exciting as the Moon Suit patent.

Monday, July 7, 2014

Aerojet-General Spacelines and Rocket Review 1962 Edition "After Apollo - Exploring the Moon"

I cam across this partial article a few years ago but wasn't able to date it unil recently - there's an expansion of the graphic in the site I found (which appears to be a blogger site with emphasis on space in children's books "Dreams of Space"). The article (referencing the link at left) also features additional artist renderings including the two used in the Boys Life article.

Transcript:

After Apollo - Exploring the Moon

After the Apollo spacecraft lands its three- man crew on the moon and brings them back safely, what's the next step in lunar exploration?

A 12-man expedition to make a 500-mile research trip across the surface of the moon is proposed by Allyn B. Hazard, an engineer at Aerojet's subsidiary, Space-General Corporation.

It could be done in this decade, he says.

The spacemen would travel to the moon in four rockets-three round-trip passenger vehicles, the other a one-way cargo ship with 30,000 pounds of supplies to support the men and their scientific studies.

Each of the 12 astronauts would be a highly trained scientist or technologist in some particular field; some would be experts in several areas. On the moon, only four of them would make the trans-lunar journey, while the others remained at the rockets' landing site to conduct research.

The four explorers would wear special tub-like spacesuits in which they would have to live and work, eat and sleep, for the entire trip. They couldn't get out of the suits because of the airlessness and super-cold of the moon.

That's the reason for the suit's peculiar shape the wearer can slip his arms out of the sleeves to eat, adjust controls, make notes, or even to scratch his nose.

Umbilical connections would link each suit to a tractor-like "moon mobile" carrying the oxy- gen and life support system for two men. These would carry their passengers across the lunar landscape at five miles an hour. A 500 mile journey (for instance, from Crater Gruithuisen to Crater Aristarchus and back) would take 10 earth days. It would be made during the 330-hour lunar night, to avoid exposing the men to the sun's radiation.

Sunday, June 28, 2009

Post-Standard Sunday (Syracuse, NY) August 6, 1961 "A Suit for the First Man on the Moon"

Post-Standard Sunday (Syracuse, NY) August 6, 1961 "A Suit for the First Man on the Moon" Pages 10-11

This image popped up during a random search I made in 2009 - it's probably from a newspaper archive site originally. From the Post-Standard Sunday (Syracuse, NY) August 6, 1961 Pages 10-11 "A Suit for the First Man on the Moon"

Transcript below:

A suit for the first man on the moon

"You're going to land on the moon. You need a suit that will protect you against all the dangers you'll run into. You can start by figuring out what they are."

That's the assignment Professor John Lyman handed his class in Experimental Engineering at U.C.LA. Along with it he gave them a rough model of a moon man's suit designed by California engineer Allyn B. Hazard. The class studied it, wore it, and tried to make it into a practical safeguard for our first moon man. They pin-pointed six major problems the suit must solve:

Breathing: No air on the moon, so the suit must pack oxygen for at least 10 days.
Hot-cold: The moon switches from a boiling 215 degrees F. in the daytime to 250 below at night. Suit must be power-heated and cooled, heavily insulated.
Radiation: A phenomenon called "solar flair" intermittently showers the moon with very intense radiation. Suit must completely shield wearer.
Vacuum effect: Suit must prevent fatal loss of moisture due to moon's near-vacuum atmosphere.
Mobility: Moon's surface is thought to be covered with dust that may be 20 feet thick in places. Also, the atmospheric pressure inside the suit and absence of pressure outside will cause moon man's arms to fly up like Jimmy Durante's and stick there.
Chow: Moon man must carry rations inside suit.

You can see why the suit doesn't exactly have Ivy League cut. Our scientists have dubbed President Kennedy's proposed $40 billion man-to-the-moon project "Apollo." Apollo should sue!

--Joseph Gies