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The Scientific American Boy Part 19

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THE PADDLES.

[Ill.u.s.tration: Fig. 257. A Paddle.]

Then we cut sixteen paddles of the form shown in Fig. 257. Eight of these were 12 inches long, and the rest measured 18 inches. A slot 3 inches deep was cut in each paddle of just the right width to slip over the tie boards. The shorter paddles were fastened on just back of the spokes, and the rest were secured half-way between each spoke. The paddles were braced by stretching a wire from one to another all the way around the wheel.

THE RECEIVING TROUGH.

[Ill.u.s.tration: Fig. 258. How the Paddles and Cans Were Attached.]

[Ill.u.s.tration: Fig 259. The Receiving Trough.]

Our next task was to nail the receiving trough in place on the higher tower. We set up the towers on land and mounted the wheel between them with the axle resting in the crotch of the short tower and in a deep notch cut in the cross boards of the larger one. The cans on the wheel faced the larger tower, but the hub at the center and a block nailed to the larger tower s.p.a.ced the wheel far enough out so that the cans did not strike the tower as they revolved. We carefully measured the distance between the spokes and the larger tower, and then built a square trough of a size to just fit into this s.p.a.ce. This trough was nailed across the end of the V-shaped trough on top of the tower, but a notch was cut in the side so that the water would pour from the square or receiving trough into this V-shaped one. The square trough was about 8 feet long and its sides were 12 inches high; but at the ends we had to cut them down to a height of but 6 inches, so as to permit the cans to pa.s.s without hitting them.

SETTING UP THE TOWERS.

Our filter was located nearly 20 feet from the end of the river, and in order to get a good current of water to revolve our wheel we had to place it about 15 feet from sh.o.r.e. This necessitated building a trough line 35 feet long. Ten feet of this line were already provided in the top of the tall tower. This tower was now set up in place with the legs firmly wedged into holes excavated in the bottom of the river. The legs on the sh.o.r.e side were sunk a little deeper, so as to tilt the trough slightly sh.o.r.eward. The outer end of the trough was about 12 feet above the level of the water. We needed but one more tower to support the remainder of the trough line. This tower was built like the first one, but was much shorter, as it was erected on land and the level of the trough at the top had to be 5 or 6 inches lower so as to make the water flow. We connected the towers by another V-shaped trough section. This we nailed to the under side of the first trough and to the inside of the second trough. The latter was then in the same way connected by a trough section with the upper filter barrel. We now rigged up our shorter tower about a foot from the taller one, wedging in the legs so that the top came level with the slotted boards of the other tower.

MOUNTING THE WATER WHEEL.

Then came the task of mounting our wheel in place. We were working in a pretty strong current and found it no easy matter. In the first place, the wheel was floated down to the towers, but there it got jammed and we couldn't lift it up. One of the paddles was broken and a bucket wrenched off before we could disentangle the wheel from the towers, and then the wheel was carried quite a distance down-stream before we could drag it in to sh.o.r.e.

Our next attempt was more successful. This time we anch.o.r.ed the wheel so that it just cleared the towers, then fastening a couple of long guy ropes to it, we raised the wheel on edge, while a boy stood on each side holding the ropes to keep the wheel steady. The anchor rope was now slowly paid out and the wheel was rolled in between the towers. This done, the wheel was lifted up and the axle rod was pushed in, with the ends of the rod resting in slots of the boards on the tall tower and in the crotch on the shorter one. To prevent the axle rod from working endwise out of its bearings, we nailed pieces of wood across the crotch and the slots against the ends of the rod. Then we cast off the anchor rope and our wheel started work, the cans dipping up the water as they were carried around by the wheel and pouring it out of the top into the receiving trough, from which the water flowed down into the filter barrel.

COOLING THE FILTER BARREL.

[Ill.u.s.tration: Fig. 260. The Water Wheel in Action.]

The trough line was very leaky and a great deal of water splashed out of the buckets. But for all that, within a few moments our barrel was full and overflowing. We hadn't figured on its filling so rapidly, but we soon found a way of utilizing the surplus water. It was led to a half-barrel in which we washed our dishes, and from there it flowed through a ditch back to the river. The water for the wash barrel was taken from the top of the upper filter barrel. But we let the lower filter barrel flow over so that it would be kept wet on the outside. Our filter was fortunately placed at a point where a good breeze struck it, and we shoveled away the earth that had been piled around it so that the wind playing on the wet barrel evaporated the moisture, making the water inside very cool.

THE CANVAS BUCKET.

[Ill.u.s.tration: Fig. 261. Bottom of Bucket.]

This same trick was used for cooling our drinking water whenever we went off on an expedition away from camp. We had a heavy canvas bucket, the kind used on s.h.i.+ps. We would fill this bucket with water and then hang it up in the wind. The water seeping out of the pores of the bucket would be evaporated by the wind, and this would, in a few moments, make the water inside delightfully cool. Such buckets may be bought for $1.50 to $2.00 apiece, but ours was a home-made affair, and made somewhat differently from the store kind. The canvas used was the heaviest we could find. A piece 9 inches in diameter was cut out for the bottom. A ring 7 inches in diameter, made of heavy bra.s.s wire, was laid on the canvas, and the cloth was turned over it and sewed down the inside of the ring. For the sides of the bucket we cut a piece 14 inches wide and 23 inches long. The upper edge was strengthened by a piece of light rope held in place by hemming the cloth over it. The lower edge was now sewed to the bottom, just inside the wire ring and then the ends of the piece were joined, completing the sides of the bucket. The bail of the bucket was formed of a piece of rope fastened to the roped upper edge of the bucket.

[Ill.u.s.tration: Fig. 262. The Canvas Bucket.]

But to return to the current wheel; the day after it was completed, when I went over to Lumberville for the mail, I was met by old Jim Halliday, who wanted to know what sort of a rig we had out on the river. I told him, and after a dint of much persuasion, induced him to take a ride back in the scow with me. He had never visited our camp and hadn't realized how handy we were with the tools, because, with the exception of the current wheel, all our work had been done on the opposite side of the island. We made him a guest of honor, showing him over the whole place. The bridges struck him as remarkably clever, but what pleased him most was our current wheel.

"I swan," he said. "Ef that ain't jest the thing I have been awantin'

for the past twenty year. What'll ye sell me the hull plant fer, boys?"

MR. HALLIDAY'S WATER WHEEL.

[Ill.u.s.tration: Fig. 263. Mr. Halliday's Water Wheel.]

We thought he was fooling at first, but when he had a.s.sured us that he was in earnest, Bill told him that we needed our own plant, but we could build him a similar and even better current wheel for any amount he thought it was worth to him. The figure settled on was six dollars (a dollar apiece) for our work, Mr. Halliday paying for the material. It was not a large sum, but it seemed a lot to us, and considering the scarcity of money in that region it was pretty generous pay. We built Mr. Halliday's current wheel just like our own, except that the paddles were much broader, and instead of using cans for the buckets Mr.

Halliday supplied us with small dinner pails. The method of fastening on the pails is shown in Fig. 263. A stick was nailed across the end of each spoke and the bail of the pail was held by a screw eye threaded into this stick. The pails would hang straight, holding all the water without spilling a drop until the receiving trough was reached. This trough was fastened high enough to strike the bottom of the pails as they went by, tipping them over and emptying them of their contents.

From the trough the water ran directly into a large cider barrel and from here was carried through a pipe to Mr. Halliday's barn. A stopc.o.c.k was here provided so that he could turn the water on or off, as he desired. The use of pails was a great improvement on tin can buckets.

Fully three times as much water was poured into the receiving trough, because not a drop was spilled out on the way up.

CHAPTER XXII.

THE LOG CABIN.

Immediately after fitting out Jim Halliday with his water wheel we set to work on our log cabin. As a model we had a photograph of a log hut which Uncle Ed had sent us. As the cabin was designed particularly for use in winter time, we decided that it should be located where it would be sheltered from the northern winds and would be exposed to the sun.

The ideal spot seemed to be on the southern sh.o.r.e of Kite Island, which was backed by a thick grove of trees but gave an un.o.bstructed view in front for a distance of about four miles down-stream.

FOUNDATION OF LOG CABIN.

First we staked out the plan of the house. It was to be 12 feet long by 10 feet wide, so we leveled off a s.p.a.ce of this area, and at the corners, where the greatest weight of the building would come, large rocks were embedded in the ground.

A LOGGING EXPEDITION.

The logs for the house were cut from a tract of wooded land about five miles up the river, belonging to Mr. Schreiner. To be sure we could have cut the timber from our own island, but when Reddy had said something to his father about our building a log cabin, Mr. Schreiner had warned us not to cut down any of the trees without the owner's permission. All we could learn about the owner was that his name was Smith, and that he lived somewhere in New York city. It seemed unlikely that he would ever have anything to say about our cutting down a few trees, but rather than run any risk Mr. Schreiner advised us to make use of his woods for any timber we might need. Accordingly we started out early one morning on a logging expedition. We had no apparatus for handling any logs more than 6 or 8 inches in diameter, and Bill reckoned it out that we would have to have about fifty logs of this size for the sides of the building alone. This did not mean that fifty trees had to be chopped down, because we could usually cut two logs from a single tree. As the logs would have to overlap about a foot at each corner, we had to cut the longer ones to a length of 14 feet and the others to a length of 12 feet. Aside from these we had to have several 16-foot logs for the roof.

Only the straightest logs were chosen, and while Bill and Reddy wielded the axes the rest of us hacked off the small branches with hatchets and hauled the sticks down the river. Here we tied them together to make a raft.

THE LOG RAFT.

[Ill.u.s.tration: Fig. 264. Tying the Logs Together.]

This was done by running a pair of ropes alternately over and under the logs at each end (see Fig. 264). About fifteen were thus fastened together, and then as an extra precaution a log was laid across each end of the raft and tied fast. As soon as we had cut enough timber for our first raft, we all ceased work, to take a ride down the river on the logs. Two of us, armed with poles, were to do the steering. There was one spot in the river of which we were rather apprehensive. That was a bit of shallow, swift water three miles from camp. A line of rocks jutted up from the river, forming a natural dam which was broken only at the eastern end. The water swirled madly through this opening, and veering off a huge rock which lay directly in front of the gap turned sharply westward. As we neared this dam the river became deeper and deeper, until finally we could no longer reach bottom with the poles, and could not properly steer the boat. For some time we drifted helplessly round and round in the still water above the dam. Then suddenly the current caught us and we swept like a shot for the opening.

The gap was quite wide, and had we only thought to provide ourselves with oars we could have steered the raft clear of the rocks below, but we were entirely at the mercy of the current, and with a terrific crash we were hurled head on against the boulder.

[Ill.u.s.tration: Getting Dinner.]

[Ill.u.s.tration: The Photo after which Our Log Cabin was Modeled.]

Just what happened then I can not say. When I undertook to record the incident in the chronicles of the S. S. I. E. E. of W. C. I., I found there were five entirely different versions of the affair besides my own. I knew that immediately after the shock I found myself struggling in the water just below the rock over which I must have been slung by the force of the impact. Dutchy declared up and down that he had sailed fifty feet in the air astride of a log. Bill had been almost stunned by a blow on the head and was clinging desperately to a jagged projection of the rock. The ropes that had held the raft together had parted, scattering the logs in all directions, and I could see the rest of the crew hanging on to them for dear life.

Shouting to Bill to let go his hold on the rock. I swam over and caught him as he drifted down, then I helped him ash.o.r.e. Leaving Bill to recuperate I rushed down the bank, shouting to the others to paddle the logs over toward sh.o.r.e. Then I plunged in, and pulling myself up on the nearest log, paddled sh.o.r.eward as we had done on the planks when shooting the rapids. In this way one by one we corralled the logs, and after tying them together again resumed our voyage down the river. We now had no swift water to fear and were able to guide the raft successfully down to Lake Placid. But here we moored it, not venturing to take it past the mill-race until we had gotten the oars from the scow and nailed on oar locks at each side and the rear, so that we could properly row and steer the raft safely to Kite Island.

THE SAIL-RIGGED RAFT.

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