Tag Archives: Tillotson Construction

Timeline for Tillotson Const., J.H. Tillotson, and Mayer-Osborn companies and jobs

by baggyparagraphs

Ronald Ahrens and Kristen Cart cofounded this blog. Gary Rich is a primary contributor. We have visited elevators around the United States and Canada.

Ronald’s maternal grandfather was Reginald Oscar “Mike” Tillotson.

Kristen’s paternal grandfather was William Arthur Osborn.

Reginald O. Tillotson

R. O. Tillotson

Reginald’s company was Tillotson Construction Co., of Omaha. The company had been building and repairing wooden elevators since the 1920s, when it was led by Reginald’s father Charles H. Tillotson. Before his death, experiments were made with slip-form concrete construction techniques.

1938: Charles dies, and the company passes to his sons Reginald and Joseph H. Tillotson and daughter Mary V. Tillotson. They begin to perfect slip-forming and refine their design strategy, which includes a rounded headhouse.

1945: Tillotson Construction builds a concrete elevator in Giddings, Tex. William Osborn works on this project. He is probably employed by the company by late in ’44. Tillotson Construction wins the contract to build in Elkhart, Kan., and starts construction.

1946: The 225,000-bushel elevator in Elkhart is completed. “Shortly after the war, my Dad and Joe decided they couldn’t see eye to eye, so they split,” writes Charles J. Tillotson in “The Tillotson Construction Story” on this blog. Joe forms J.H. Tillotson, Contractor in Denver. William Osborn works for Joe Tillotson.

William A. Osborn in 1965

William A. Osborn in 1965

1947: Tillotson Construction builds  the Vinton Street elevator in Omaha. Joe Tillotson dies in a car accident in March. J.H. Tillotson, Contractor builds at Daykin and Fairbury, Neb., and Hanover and Linn, Kan., with William Osborn supervising the projects. Maxine Carter leaves Tillotson Construction on Oct. 7 to wed Russell L. Bentley.

1948: Formed in September from the residue of J.H. Tillotson, Contractor, the Mayer-Osborn Company builds its first elevator at McCook, Neb. Joe Tillotson’s wife Sylvia was a Mayer, and her brother Eugene Mayer is one of the partners. William Osborn is the other. Meanwhile, Reginald begins to use a light airplane for business travel in the postwar years. Reginald’s nephew John Hassman joins Tillotson Construction in September; among many other duties, he pilots the company plane to jobs in Nebraska, Kansas, and Oklahoma. Tillotson’s projects that year are in Paullina, Iowa, and Montevideo, Minn.

1949: John Hassman’s father Ralph, Reginald’s cousin, joins Tillotson Construction in sales and stays through 1952.

1950: Construction begins in November on the Tillotson house, which is built of concrete. It still stands north of Omaha. Tillotson employee Jess Weiser weds Lavonne Wiemers on Dec. 22.

1951: Drafted into the Air Force, John Hassman leaves Tillotson Construction in January.

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Hanging by a thread on the ‘wrecking-out’ scaffold, a young workman faces mortality

by baggyparagraphs

By Charles J. Tillotson

Editor’s note: Uncle Chuck here recalls one of the more harrowing experiences of his young life, when he was building grain elevators for Tillotson Construction Company. It occurred on what is called a wrecking scaffold–or to be more precise, during the scramble off one heading into the void.

From left, Tim Tillotson, Chuck Tillotson, and La Rose Tillotson Hunt, posing in June 2012 in Victorville, California.

From left, Tim Tillotson, Chuck Tillotson, and La Rose Tillotson Hunt, posing in June 2012 in Victorville, California.

When the slip-form process reached the intended height of construction, all wood form-work and other equipment and devices were removed from the structure via an external hoist.

The final portion of the demolition process, the removal of the wood forms, involved the most difficult and dangerous part of the operation, that being the “wrecking out” of the wood forms and decking material that is, by design, trapped inside each of the grain tanks.

All of this wooden material must be removed, and it must be done from the inside.

This is accomplished by utilizing a temporary platform, or wrecking-out scaffold, suspended within each tank.

Elevator design preconceived the need for a ‘wrecking-out’ platform

In preparation for the building of a temporary platform, cutout sleeves and manhole forms are strategically placed to allow cable and scaffold planking to be inserted into the tanks after the concrete roof deck has been poured. The cutouts, usually four round holes per tank, are each large enough in diameter for insertion of a cable with a preconstructed loop end.

Via the manhole, planks are slid through to a workman who is suspended on a rope with a bosun’s chair, allowing him to have a hands-free position.

He takes the planking being passed down to him and extends the two major beam planks through the hanging cable loops.

After the beam planks are in place, scaffold planking is installed perpendicular to the beams in such a way as to create a solid plank platform.

The final scaffold then becomes a square platform suspended in a round tank.

The void on each side of the scaffold is used for lowering or throwing the wood material into the tank’s dark abyss. After all the overhead wrecking has been accomplished, another team gains access to the tank’s bottom via a manhole in the side of the tank at or near ground level.

The noon whistle as harbinger of doom

This description of building the wrecking-out scaffold sets the stage on another personal experience with the perils of constructing grain elevators.

It took place when I was assigned duty on the wrecking-out scaffold. The morning of labor with two other workmen had passed without incident, and when the town’s noon whistle blew, we three stopped for lunch.

The beginning of Tillotson Construction's job in Flagler, Colo.

The beginning of Tillotson Construction’s job in Flagler, Colo.

Typically, rather than have the wrecking crew go through the process of crawling or being lifted back up through the manholes and then go in reverse to gain access to the platform again, the workmen just brought their lunches down to the platform and ate them there.

As we sat on the planking in this semi-dark and dank grain tank, eating our lunches and telling war stories, I heard a plunking noise that sounded like someone had dropped a rock onto the scaffold. It seemed to come from the corner behind me. I didn’t pay much attention and soon rejoined the important conversation taking place.

About five minutes later, I noticed another similar sound and asked the other two workmen if they had heard it, too. Neither of them had. They went back to talking. But within minutes another “rock” hit the scaffold and simultaneously one corner tilted down.

A precarious situation soon becomes a mortal threat

We suddenly realized the nut fasteners of the cable clamps–which were U-shaped and bolted around the main cable drop and the end of the cable loop–had somehow unwound. (Two cable clamps were used per loop, each clamp having two fastener nuts turned sufficiently tight to form a bond on the loop.)

So only one nut remained on the cable clamp to hold the loop and that corner of the scaffold.

To save ourselves from this sinking ship, we quickly helped one another by doing a foot-up maneuver, with the first man out through the manhole above. Once he crawled to safety on the deck, he reached down for the next one and yanked him through.

I had been sitting the furthest away from the manhole, so I was the last man out.

Again, as with my previously described narrow escape (see the link below), God was watching after me.

Just as I punched through to safety on the roof, I heard the cable loop fail and the scaffolding crash into the tank’s deep dark recesses.

Why worker safety was a secondary consideration

In those days, there were many similar incidents that occurred during the construction process.

Contributing to the lack of safety precautions was the use of unskilled labor. Most of it came from the surrounding farm community, and these men had no background in construction.

Lives were lost, and assumptions were made that this would occur, as the ultimate goal was building grain storage as quickly as possible. Safeguarding life and limb took a secondary position to that effort.

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At Tillotson’s Albert City, Iowa, job, a deckhand’s pendulous moments

by baggyparagraphs
This photo, provided by Kristen Cart from Osborn family archives, shows a deckhand standing nonchalantly on elevator formwork. Kristen believes the picture may have been taken in Giddings, Texas, in 1945.

This photo, provided by Kristen Cart from Osborn family archives, shows a deckhand standing nonchalantly on elevator formwork. Kristen believes the picture may have been taken in Giddings, Texas, when Tillotson Construction Co. built there in 1945.

Story by Charles J. Tillotson

Reinforced-concrete grain elevators used the slip-form method of construction, whereby a wooden form system was built on the ground, having the footprint required to configure the grain-storage tanks.

Once the forms were in place and the vertical lifting and jacking system assembled, laborers began installing rebar and pouring cement into these forms.

When the forms were filled to the top–about four feet–the lifting and slipping commenced by turning screw jacks placed strategically throughout the formwork. After this procedure of vertical form lifting and rebar setting and cement pouring began, it never stopped until the structure reached its intended height, usually between 100 and 120 feet.

thThis process was the intended norm but was oftentimes interrupted by a myriad of problems, which caused the form-slipping to come to a halt. One of these instances occurred one night when I was eighteen or nineteen, working as a deckhand in Albert City, Iowa, for the family’s construction company.

The structure had reached about eighty feet in height when the electrical power supplying the lighting system and other machinery was cut off by a huge summer storm distributing lots of rain and wind throughout the area.

All personnel, including myself, were stranded on the stationary deck with little else to do but wait out the storm and the return of power.

A few hours of waiting produced a carload of my friends that had arrived on the surface. They were yelling for me to come down and join them. The only possible way to get off the tower was the vertical “ship’s ladder” that was installed in sections on the side of the rising structure.

Access to this emergency ladder was gained by going over the side of the formwork to the finishing scaffold below. Here, a rope was suspended down to the uppermost section of the ship’s ladder. The length of the rope was normally long enough so that a person could slide down it and gain hold of the ladder’s top rung.

I say normally the rope was long enough, based on the fact that the ladder sections were routinely placed sufficient to keep pace with the ever-vertical movement of the concrete structure.

However, as I soon discovered on this particular stormy night, the norm didn’t prevail. I hopped over the side of the formwork and reached for the rope hanging from the finishing scaffold’s frames. It was pitch black, and the wind was blowing to go along with heavy rain, but I was able to find the rope and swing off the side.

The first thing I discovered was that the wind was so strong, it blew me sideways and shoved me around the bin tank.

When the gusting stopped, I was able to line up vertically above the supposed location of the ship’s ladder.

So, undeterred, I slid down the rope—but not very far before another gust of wind blew. I had to stop sliding down and let it subside.

This process went on for a number of iterations, and as I slowly went down the rope, I began to wonder where the top of the ladder was exactly.

I was running out of rope.

With about three feet left, I really started sweating–I still couldn’t see the top of the ladder.

Because I had become somewhat exhausted while sliding down, swinging back and forth like a teabag, I knew I couldn’t crawl back up to the scaffold.

Now I reached the very end of the rope, and a big blast of wind blew me away and around the tank. When that gust stopped, I flew back around and by sheer luck found purchase with my foot on the top rung of the ladder. Another blast hit me, but with my foot hooked under the top rung, I stabilized myself.

With my strength ebbing, if I was going to survive, I had to make an attempt to release the rope, drop down along the ladder, and catch a rung. (Any rung would do.) So, with trepid emotions, I let go of the rope and dropped.

The testimony of my luck (and strength and skill of course) is that I am able today to relate this harrowing story.

As I released the rope I yelled up to the top of the tower to alert other personnel that they shouldn’t attempt to do what I had done. I’m sure I saved someone else’s life besides my own that night.

But the message of this story is that constructing grain elevators in the early days was filled with these types of unsafe conditions where protection of life was not as important and took a back seat to getting the job done.

There was grain being harvested in the fields, and it needed a place to be stored. The nation was on the upswing, growing by leaps and bounds, and in need of being fed.

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A house of slip-formed concrete was Reginald Tillotson’s pet project in 1950

by baggyparagraphs

Tillotson Home

By Ronald Ahrens

An early post on this blog included John Hassman’s recollection of design and construction of the house Reginald Tillotson built on a hilltop north of Omaha’s Florence neighborhood:

“While in the office I [was] trained by the office engineer to design buildings and was the major designer with R.O. to build his new home in Florence, Neb. Many mornings he would arrive with new ideas of what he wanted changed in the house, and we would start all over. Starting in Nov. 1950 we began construction on the new house. The foremen were kept busy in the winter doing that work. All using a concrete house with the ideas we used in Elevator Const. That was the coldest, windiest place to work in December. I left to go the the Air Force because I was about to be drafted in the middle of the Korean War.” 

The house, of course, still stands, and is the home of Michael Tillotson, youngest son of Reginald and Margaret.

It did not incorporate Tillotson Construction’s signature rounded headhouse!

As a grandchild who spent a lot of time there, I always though it was remarkable because of the use of glass blocks as a design feature. The entire second floor was reserved as a music and game area. And despite the single garage door, there was a second “lane” to the right when you drove in.

But Uncle Mike always had it blocked with his relics.

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Good corn is good news at Altoona, Iowa

by kocart
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“Nice corn” goes straight into storage without a stop in the dryer.

Story and photos by Kristen Cart

One of the elevators on my list to see was the facility built in Altoona, Iowa by Tillotson Construction Company. It was reported to be the near-twin of the elevator in Mitchellville, Iowa. It is located about a half-mile south of I-80 in Altoona, just east of Des Moines, off an exit prominently marked by a Bass Pro Shops Outdoor World. Its business partner, the Bondurant elevator, stands about a mile away, on the north side of the Interstate. Farmers Cooperative operates both elevators.

Farmers Co-op, instantly recognizable by its trademark “FC”, is the largest Co-op in Iowa with more than sixty locations. It employs four full-time truckers in the local area serving Altoona in addition to the farm trucks that serve the location.

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The manhole cover on bin number 4 indicates the builder and year of construction.

The Altoona elevator was built in 1954. The manhole covers, furnished by the Hutchinson Foundry, of Hutchinson, Kan., indicate the builder and the year of construction. Most of the covers are inside the elevator, but there is one also on the outside near the ground, which is typical of Tillotson elevators. A large grain dryer flanks the elevator on the east side.

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Jacob Holloway, driver for Gibson Farms, paused for a photo after delivering grain.

When I stopped to visit in October, Pat Printy, a thirty-year employee of the Farmers Co-op, shared some of the history of the elevator. He also explained the elevator’s operations during harvest and the significance of good corn.

Sam Wise, former mayor of Altoona, owned the elevator before the cooperative purchased it in 1963 for $175,000. Farmers Co-op began operating the elevator in 1964. About ten years ago, the elevator headhouse had to be rebuilt because of cracking concrete, but it still retains its Tillotson-style rounded contours. The elevator is currently used for beans and corn.

A truck came up to deliver corn while I visited. Pat Printy vacuumed a sample into the building and tested it for moisture content. He placed a scoop of it on the counter for me to see.

“Nice corn,” Pat commented. I asked why. He said it was dry enough to store, at about 14 percent moisture content. Corn with a moisture content of 14 percent or less was dry enough to go into storage without drying, and depended on the right weather conditions to arrive already dry from the field. If the moisture content was over 15.5 percent, the corn would be in danger of spoilage if it was not dried right away.

Exceptionally wet corn could become a problem because the dryer could only treat 2,500 bushels per hour. Each truck holds about 950 bushels, so during a wet harvest the dryer would become a bottleneck. Pat said the dryer at Altoona was an old one, but the dryer at Bondurant was newer and much faster.

The elevator was busy the day I stopped by, both accepting corn and moving beans out for transfer into the larger Bondurant elevator about a mile away. Ninety-five percent of the bean harvest was already in, and the Altoona elevator needed to make room for some nice, dry corn.

The Altoona, Iowa elevator built by Tillotson Construction of Omaha

A grain truck driver pointed out that Tillotson Construction Company’s Altoona, Iowa, elevator, seen here, is very similar to another of the company’s creations, which is found in Mitchellville, Iowa.

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Tillotson Construction’s postwar business card, in full color, is a story in itself

by baggyparagraphs

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By Ronald Ahrens

Reginald Tillotson’s business card from the years after World War Two demands some interpretation.

The splashy color side—perhaps a bit of an extravagance, although surely effective when handed to a co-op manager in a remote district—presents the image of what we’re sure is the Vinton Street elevator. Completed in 1947, this South Omaha elevator with its unusual, towering headhouse, would be a showcase for any builder.

On the back, above the rule, the range of Tillotson Construction’s services is spelled out. We don’t yet know much about the mills and warehouses but hope some information will turn up.

Below the rule, we find the six-character telephone number from the alphanumeric dialing days. Local exchanges were assigned prefix names from Bell Telephone’s mostly generic list. Besides Atlantic, Omaha exchanges were named Jackson, Prospect, Regent, and so on.

Seven-digit numbers replaced Omaha’s alphanumeric plan in 1960. The Atlantic exchange received the numerical prefix of 341.

Numerical postal zones, introduced during World War Two, were replaced when the national zip code system was introduced in 1963.

Reginald Oscar Tillotson was widely known as Mike. It could have been that Reginald was too exotic for the time and place, so he picked the nickname for himself.

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How we know Tillotson Construction built the Burlington, Colorado, grain elevator

by baggyparagraphs

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Story by Charles J. Tillotson and photos by Gary Rich

Editor’s note: Chuck Tillotson had just finished high school in Omaha when he and his two younger brothers, Tim, 16, and Mike, 13, were dispatched by their father, Reginald, to work on the family construction company’s grain elevator project in Flagler, Colo. Chuck had drawn up the plans himself in the preceding months during breaks from school. They drove out together in a 1953 Ford, towing the twenty-eight-foot travel trailer in which they would live for the duration. To the best of Uncle Chuck’s recollection, they subsisted on beans and wieners when they weren’t dining in the Flagler cafe. “That was when Tim and I weren’t screaming over to Elitches Park outdoor pavilion, in Denver, some 120 miles to the west, to squeeze in a night of dancing and return at daybreak to assume our work shift—no sleep of course.” Uncle Mike fended for himself, alone, in Flagler. 

When we were building the Flagler job in 1953, Tillotson also commenced the construction of a new elevator in Burlington, Colo. The thing I remember about that job is a story regarding a cement mixer.

We had contracted with a local hauler with a pickup truck to relocate one of our mixers to the Burlington job, which was about forty-five miles to the east on US-24.

He came one day, hitched it up to the back end of his pickup, and started off down the road. Just about where the Flagler town sign is, the road made a ninety-degree turn, and then it crossed the tracks to the south.

The hauler made the turn and started southward. Just as he crossed the tracks, his truck ran out of gas.

He ended up stalled—with the mixer straddling the tracks.

Every afternoon about 3:00 p.m., the eastbound passenger train came roaring along toward Kansas.

Well, the hauler jumped out of his truck and started running, ’cause he heard the train a-comin’, comin’ down the track, clickety-clack, like Johnny Cash sings.

The train barely slowed down as it passed through town, and it ended up smashing the mixer to smithereens.

The engine, and, as I recall at least, one of the first cars behind, were derailed.

It was a mess, but no one was injured.

That’s how I know we built Burlington.

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It looks like a Tillotson elevator in Bird City, Kansas, but it’s a surprise instead

by baggyparagraphs

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Story and photos by Gary Rich

I wanted some information about the Bird City Equity Co-op elevator that is now operated by Frontier Ag, Inc. Bird City is located on U.S.-36 in Cheyenne County, Kan., which is in the very northwestern corner of the state.

The Bird City elevator features a rounded headhouse.

The Bird City elevator features a rounded headhouse.

I was positive this elevator was built by Tillotson Construction Company, of Omaha, Neb. I called the elevator manager prior to my trip and drove to Bird City on Dec. 7. Upon arriving I went into the office. It was noon, so the whole crew was having lunch. I introduced myself to the manager. One employee told me there was a plaque on the outside of the elevator. I have never seen a plaque on a Tillotson elevator. I guess I should have had some qualms at this point that it wasn’t a Tillotson elevator.

We walked out to the elevator. The plaque, dated 1950, showed the elevator was built by Vickroy-Mong Construction Company, of Salina, Kan. Another interesting thing: the manhole covers in most elevators were produced by the Hutchinson Foundry, of Hutchinson, Kan, but these were made in Salina by Wyatt Manufacturing.

There have been other stories in our blog about elevators that Mayer-Osborn built and another construction company that was building identical elevators. This company was Johnson-Sampson Construction Company, of Salina, Kansas. Now, we have Vickroy-Mong building a Tillotson-lookalike elevator.

It has been demonstrated that the curved headhouse was a Tillotson signature. Did someone leave the Tillotson operation and branch out on his own, or were the plans sold to Vickroy-Mong?

In the future, I plan on photographing the Bird City elevator in more detail and will compare it closely to a Tillotson elevator.

Stay tuned for more information.

Editor’s note on Dec. 14: The reference desk at the Salina Public Library has come through with information that Carl Vickroy and Raymond Mong were partners in a company located on South 9th Street, according to the Salina city directory of 1950. Additionally, it’s possible that the Hutchinson Foundry produced the manhole covers for Wyatt Manufacturing. 

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Tillotson Construction’s classic elevator makes a good neighbor in Clifton, Kansas

by kocart

Story and photos by Kristen Cart

The north-central Kansas town of Clifton is dominated at each end by a massive elevator. At one end of the main drag is a huge metal-sided wood elevator rising prominently above the street, and at the other is a gleaming white concrete elevator with its annex. The two elevators, defining the town skyline, are the center of the town’s agricultural business. Clifton’s concrete elevator was very busy during a visit there in October.

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The Clifton elevator, built by Tillotson Construction Company, of Omaha, Neb., defines the town skyline.

The characteristic rounded headhouse epitomized the classic Tillotson Construction Company style. After sixty-odd years of continuous use, the durable elevator was still going full steam ahead during the harvest. Several trucks pulled through the driveway while I watched, and it looked like more were waiting.

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Its neighboring landmark, the wooden elevator, was deserted and may have been retired, but anyone entering the town would be immediately impressed by its size. The two elevators together represented a continuum of agricultural cooperation and success, beginning in the first half of the twentieth century and still going strong in the twenty-first.

The concrete elevator had a manhole cover on the exterior that identified the builder as Tillotson Construction Company of Omaha, Neb., but you could see that fact from a mile away by looking at the headhouse. The elevator was very representative of its type.

John B. Tillinghast, the location supervisor for United Farmers Co-op, cheerfully stood for a picture in front of his charge. He said the elevator was built in 1953.

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The familiar rounded headhouse atop a straight-up elevator was Tillotson Construction’s signature design.

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John B. Tillinghast, location supervisor for United Farmers Co-op.

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Clifton elevator with annex.

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Manhole cover names builder.

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Unsolved mysteries abound at Tillotson Construction’s Elkhart, Kansas, elevator

by baggyparagraphs

Story and photos by Gary Rich

Elkhart is located in extreme southwestern Kansas. This is Morton County. The 2000 census showed Morton County had 3,196 people, of which 2,036 live in Elkhart. The town sits just north of the Oklahoma border and is about 8 miles east of the Colorado border. The area has been known for wheat production. However, this has changed in the past few decades. Corn and milo are now grown as spring crops.

Tillotson Construction Company received the contract from the Elkhart Equity Co-op for the first concrete elevator built in Elkhart. Construction started in late 1945 and finished in late spring 1946. The elevator had a 225,000-bushel capacity.

I was totally shocked when I first viewed this elevator. The Elkart Co-op had three different elevators built over the years. Plus they added five different annexes. Tillotson built what is now known as Elevator Number One.

Elevators Number Two and Three were built by Chalmers & Borton, as well as all annexes.

Was the Elkhart elevator Tillotson’s first? Elkhart was started 1945.

Once I realized which elevator in Elkhart was the Number One, I noticed that it had a rectilinear headhouse. This is quite different from Tillotson’s other elevators. It has been thought that one Tillotson signature was the curved headhouse. Is the Elkhart elevator a one-of-a-kind?

Tillotson did one other thing different on their headhouses from other construction companies.

The long side of the headhouse had two different rows of windows. (You can view the window arrangements of other elevators on this blog, such as those in Rolla and Satanta, Kansas, as well as Ensign, Kansas.)

Could the Elkhart elevator actually have been the first line-elevator that they built. Why did they change to the curved headhouse in their future construction? Was it more cost effective, more efficient, or was it designed to distinguish their elevators from those of their competitors?

I wish to thank Morgan Walls, operations manager-Elkart Equity Co-op for much of their history.

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