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effect of unity.

Plate 10

      Two Horizontal Divisions in Metal

      The horizontal subdivisions in metal are usually made for service. Figures 17, 18, and 19, Plate 10, are examples of such divisions. The location of the clock face in Figure 18 calls for the placing of its horizontal axis in accordance with Rule 2a. The lamp in Figure 19 shows an instance where the entire design once divided by Rule 2a, may be again subdivided into a similar series of divisions. This arrangement is quite similar to the system of repetitions seen in Figure 12 and termed "echoing" the original divisions.

      Three Horizontal Space Divisions

      Rule 2b. If the primary mass is divided into three horizontal divisions or sections, the dominance should be placed in the center section with varying widths in the upper and lower thirds.

      When it becomes necessary to divide the primary mass into more than two sections the designer's problem becomes more difficult. With the addition of a greater number of horizontal divisions there is a manifest tendency for the design to become cut up into so many small sections that the simplicity of the whole mass is lost. Here, as elsewhere, that principle which we call unity or the quality of "holding together" is necessary and should be the constant test of the design. The instant any part of the design seems to fly apart from the main mass it becomes the designer's duty to simplify the design or pull the parts together and thus restore the lost unity.

      As a restriction against loss of unity it is necessary to group all of the minor horizontal divisions into a system of two or three large horizontal divisions. Referring to Rule 2b, it is seen that when three divisions are used, it becomes the practice to accentuate the center section by making it larger. This arrangement is designed to give weight to the center portion and by this big stable division to hold the other subdivisions together and in unity.

      Three Horizontal Divisions in Wood

      Two horizontal masses and one vertical mass shown in Figures 9, 10, and 11, Plate 8, illustrate the application of this three-division rule to wood construction. It is seen that the construction of rails, doors, and shelves is responsible for the fixing of all of these divisions. It may also be seen that three divisions are applicable to either the vertical or the horizontal primary mass. Figure 10 illustrates the violation of this type of spacing at the point A, where the shelves are no more pleasingly arranged than the rounds of a ladder. Later on we shall be able to rearrange these shelves in a pleasing manner but at present it is better to relieve the monotony by omitting the center shelf. This applies the three division rule to the satisfactory appearance of the desk at B.

      Similar monotony in spacing is seen in the screen, Figure 11. The correction in B appeals at once as a far more satisfactory arrangement than that secured by placing the cross bar half way up as in A. There are no infallible rules for this readjustment beyond those already stated. The eye must in part be depended upon to guide the artistic sense aright.

      Three Horizontal Divisions in Clay

      It is suggested that it is desirable to keep clay forms within the limitations of two divisions. Rectangular posts, pedestals, and other vertical forms in cement may be developed by the application of Rule 2a or 2b, if care is taken to group all minor divisions well within the limitations of these rules.

      The statement just made in reference to simplified groupings is illustrated in the candlestick and cup in Figures 20 and 21, Plate 10. The construction based upon the three functions performed by the cup, the handle, and the base, suggests the use of these horizontal divisions. The minor curves have been subordinated to, and kept within, these three divisions. The final result gives a distinct feeling of unity impossible under a more complex grouping. The Greek column will afford an architectural illustration of a similar grouping system.

      Three Horizontal Divisions in Metal

      The lathe bed of Figure 22 shows one of innumerable examples of space violations in the industrial arts. A slight lowering of the cross brace would add materially to the appearance and strength of the casting. Figure 23 is a copper box with the following more or less common faults of design: commonplace ratio of length and width (2:1) partially counteracted, however, by a more pleasing ratio of the vertical dimension, equal spacing in the width of cover of box and box body, and equal spacing of the hinges of the box from the ends of the box and from each other. By applying the two and three horizontal division rules these errors may be avoided.

      Freehand Curves

      Figure 24 shows a low bowl with a compass curve used in designing the contour. This has brought the widest part of the design in the exact center of the bowl which makes it commonplace. In addition to this the top and bottom are of the same width, lacking variety in this respect. Correction is readily made by applying a freehand curve to the contour, raising or lowering the widest point (F), at the same time designing the bottom either larger or smaller than the top.

INSTRUCTION SHEET

       Table of Contents

      Plate 7 is a sheet suggestive of the application of Rules 1a, 1b, 2a, and 2b, with an indication of the type of problem to be required. The steps of the designing processes in either wood (class 1), clay (class 2), or metal (class 3), are summarized as follows:

SUMMARY OF DESIGN STEPS

       Table of Contents

      (a) Construction of the rectangle representing the vertical or horizontal character of the primary mass with desirable proportions. It is better to select a typical view (Plate 6, D), preferably a front elevation.

      (b) Subdivide this rectangle into two or three structural sections; horizontal in character. Make two or three trial freehand sketches for varied proportions and select the most pleasing one in accordance with Rules 1a, 1b, 2a, and 2b.

      (c) Translate the selected sketch to a full size mechanical drawing or at least to a reasonably large scale drawing. The structural elements: i.e., legs, rails, posts, etc., should be added and other additional views made.

      (d) Dimension and otherwise prepare the drawing for shop purposes.

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