A Vision To Clear Solutions.
In the procedure for
the estimation of brickwork, two approaches - Centre-line, and Long- and Short-wall methods - are
applicable. While in the case of centre-line approach (in straight forward
cases), the total length dimension remains unchanged with the width and height
of the masonry courses (in footings, plinth, and superstructure) varying
according to the design as detailed in the given section of the wall; but the
length dimensions (as well as width and height) in long- and short-wall method
do register a change from course to
course (Figure 1).
In fact there are no
strict straight-jacket rules for arriving at (taking out) dimensions from the
plan, elevation, and sectional drawings - experience and suitability
(vis-a-vis, each drawing) always guide one dividing a plan into parts so that
the dimensions are easily worked out for ultimately computing the quantities
Three procedures (for
the sake of clear understanding of full basics of the mode of mensuration)
however, are available concerning the quantification of foundation work -
excavation, concreting and masonry - and superstructure in a given building as
listed below:
(a)
out-to-out and in-to-in method (i.e., long-
and short-wall method),
(b)
crossing method, and
(c)
centre-line method.
Out-to-out and in-to-in method is the
most commonly adopted procedure. Here the length of long walls (say for excavation purposes) are reckoned from out to out - AB in
Figure 1 - and, the length of short walls measured in between the long walls
in-to-in - EF. These lengths shall, obviously, apply to foundation concreting
also. The magnitude of these dimensions changes (in fact, decreases) for long
walls, and increases for short walls at every change in the breadth (or, ray,
thickness) of a course of brickwork:
AB Will decrease to (AB-2X(b1-b2)/2),i.e.for the
first footing of the foundation masonry the length of long wall shall be (2 -
3). And EF shall increase by same amount, becoming
(EF+2x(b1-b2)/2),i.e(5-3).Here ,the width for excavation is bland height (or thickness,
vertically) is dl; while for the first
footing, width = b2, and depth = d2. Similarly, in the plinth course (or for
next footing if it is there), long wall length shall be [(10) - (11)], and short-wall
length shall be [(15) - (16)] - width being b3, and depth = (d3+ d4). And for
the superstructure, long-wall will have a length [(18) - (19)], and short wall
length will be [(23) - (24)] - width being = b4, and height = height of the
room from the top of DPC (of floor top) to the underside of roof slab (or
whatever it is). Here it is important to point out that the width and depth of
excavation shall be bland (dl+ d2+ d3), respectively; while for foundation concrete the values will be bl and dl, respectively.
Fig-1:A simple Rectangular Trench Plan of a Building and section of wall-Cum-Foundation
It is obvious that with the decrease in the thickness of
walls of a room, (i.e. proceeding up from the first footing towards the
superstructure) the length of a long wall decreases, whereas the length of a
short wall increases in accordance with the breadth (or, thickness as it is
generally designated). At the plinth level, the length of long wall = the
length of the room (wall to wall, i.e. inner dimension plus twice the wall
thickness; and the length of short wall = width of the room (inner dimension).
If the thickness of the walls is different, the dimensions are reckoned
accordingly.
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