« НазадПродовжити »
are two views of any pro- to for help.
the plumber will need, if not need any further help. On the other the work is to be shown fully. hand, in a great many cases there is These views are known
the plan abundant use for a special drawing on and the elevation, and each is equal- the plumbing work of a building, and ly valuable. The plan is sometimes called such a thing would often be of service the top view, that is to say, this view, by to the plumber and to the architect and whichever term it may be known, is ob- owner as well. If the architect had to tained by looking down upon the object work out in a drawing the way in which or the work, that is to be shown. Now the different pipes, vent and waste would in Figs. 20, 21, 22, and 23, we show draw- have to run, it would be the means of ings for an ordinary cottage house, such his giving more attention to the location
Fig. 20—Showing Cellar Plan. Scale 48-inch to 1 foot. as are usually drawn up by the architect of his fixtures, the laying out of bath having the work in charge, and such, no rooms, the running of floor timbers, etc. doubt, as most of our readers are entire- and as a result, the plumber would find ly familiar with.
himself able to put in his work to better These views are what the plumber us- advantage, with less cutting, etc., tha: ually figures his work from, and as a he is usually able to do under preser: general thing he has no further drawing existing and undesirable conditions.
Fig. 21—Showing Bathroom Connections on Second Floor. Scale 18-inch to 1 foot. one that will almost always be required tically, and as may readily be seen, these when drawings of the plumbing work are ends will appear circular. Now when desired.
we come to study the first and second That two stacks that pass up through floor plans, each gives, or should give,
Fig. 22-Showing First Floor Plan. Scale 18-inch to I foot. the house, and through the roof, are the location of all fixtures on that particshown in this view or in any other plan ular floor, also the location of any stacks view by circles, for in looking down on that may pass up through said floor.
In comparing these floor plans with the cellar plan, if it is found that the position of the stack as the circle shows it, is located directly over its position in the cellar, it is clear that the pipe runs vertically without offset.
If the positions do not show this, but it is found that the locations vary, then we know that there is an offset.
It would be first-class practice for any one following these articles, to take the set of plans which we illustrate, and work out the same on a larger scale, or better still, to change the layout and locate the stacks in their proper positions on the several floors.
The drawing of a cellar plan, with the pipes showing, as we submit in Fig. 20, is especially desirable work for the beginner, and not too difficult for him. We therefore suggest that he give particular attention to perfecting that view. It will be noticed that these four views are each drawn on a scale of 48 inch to the foot. To those who do not understand clearly what is meant by a scale drawing, we would make the following explanation: It is obviously impossible to lay out any view of an object of as large size as a house in its actual size. In this event, it is customary to choose some certain measurement, and let such measurement on the drawing represent some larger measurement on the object itself. Thus, in these floor plans, if we find a certain measurement to be 5/6 inch, we know from the scale that we are using, that the same measurement on the house itself is 5 feet. Various scales are in use, depending on the size of the building usually.
On ordinary work, the scale generally used is 14 inch to the foot. On large work 18 inch to the foot is common. This brings to mind the fact that in working or figuring from plans care must be taken to do such work with the scale that the drawings are made on. The writer has heard several times oi people who have made such a mistake as figuring the work from plans drawn on a 18 inch scale at 14 inch scale, thus figuring only one-half the necessary lengths of pipes a fifty per cent. loss.
Fig. 23—Showing Elevation. Scale 18-ln. to Ift. made four times as large in the new drawing.
Fig. 23 we have scarcely referred to as yet. It represents a very simple ele. vation of the house shown in plan on the three other views, and is not meant to represent in any way, the finished elevation that the architect usually prepares.
of in representing runs of pipe This new position is shown by No. 1.
After having shown such a line position, place No. 2 triangle in the posiof pipe, it is necessary to show the hubs tion shown by No. 3, with one of its on pipe and fittings, and the lines repre- edges at right angles to the line of pipe, senting the hub are of course at right as it must of necessity be. angles to the direction of the pipe.
It will be clearly seen that by sliding Referring now to Fig. 26, let us sup- No. 3 along No. 1, lines at right angles to pose the two parallel lines representing the direction of the line of pipe can be the pipe have been drawn at some oda drawn at any desired point. It has taken angle, and it is desired to put in the per: quite a few words to explain this method, pendicular lines showing the hubs. We simple as it is, and it is a good example will suppose that the lower line on the of the difficulties in carrying on a course pipe has been drawn by placing the tri- of this kind in any other way than by angles. No. 2 and No. 4 together, and oral demonstrations. An instructor could following the method explained above. explain a great deal to the pupil before Still holding No. 2 in position, draw No. hiin very quickly, whereas the writing of 4 along the edge of No. 2 into a new the same explanation demands of the one
Method of Drawing Lines Perpendicular to Each Other at Right Angles.