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say, ten may be entered as a fraction, with the time for all ten
observations as the numerator, and the number of observations for the
denominator.
In the illustration given on the note sheet, Fig. 2, the operation
consists of a series of elements. In such a case, the letters
designating each elementary unit are entered under the columns “Op.,”
the stop watch is thrown to zero, and started as the man commences to
work. As each new division of the operation (that is, as each
elementary unit or unit time) is begun, the time is recorded. During
any special delay the watch may be stopped, and started again from the
same point, although, as a rule, Mr. Thompson advocates allowing the
watch to run continuously, and enters the time of such a stop,
designating it for convenience by the letter “Y.”
In the case we are considering, two kinds of materials were handled sand
and clay. The time of each of the unit times, except the “filling,” is
the same for both sand and clay; hence, if we have sufficient
observations on either one of the materials, the only element of the
other which requires to be timed is the loading. This illustrates one of
the merits of the elementary system.
The column “Av.” is filled from the preceding column. The figures thus
found are the actual net times of the different unit times. These unit
times are averaged and entered in the “Time” column, on the lower half
of the right-hand page, preceded, in the “No.” column, by the number of
observations which have been taken of each unit. These times, combined
and compared with the gross times on the left-hand page, will determine
the percentage lost in resting and other necessary delays. A convenient
method for obtaining the time of an operation, like picking, in which
the quantity is difficult to measure, is suggested by the records on the
left-hand page.
The percentage of the time taken in rest and other necessary delays,
which is noted on the sheet as, in this case, about 27 per cent, is
obtained by a comparison of the average net “time per barrow” on the
right with the “time per barrow” on the left. The latter is the quotient
of the total time shoveling and wheeling divided by the number of loads
wheeled.
It must be remembered that the example given is simply for illustration.
To obtain accurate average times, for any item of work under specified
conditions, it is necessary to take observations upon a number of men,
each of whom is at work under conditions which are comparable. The total
number of observations which should be taken of any one elementary unit
depends upon its variableness, and also upon its frequency of occurrence
in a day’s work.
An expert observer can, on many kinds of work, time two or three men at
the same time with the same watch, or he can operate two or three
watches—one for each man. A note sheet can contain only a comparatively
few observations. It is not convenient to make it of larger size than
the dimensions given, when a watch-book is to be used, although it is
perfectly feasible to make the horizontal rulings 8 lines to the inch
instead of 5 lines to the inch as on the sample sheet. There will have
to be, in almost all cases, a large number of note sheets on the same
subject. Some system must be arranged for collecting and tabulating
these records. On Tables 2A and 2B (pages 160 and 161) is shown the form
used for tabulating. The length should be either 17 or 22 inches. The
height of the form is 11 inches. With these dimensions a form may be
folded and filed with ordinary letter sheets (8 1/2 inches by 11
inches). The ruling which has been found most convenient is for the
vertical divisions 3 columns to 1 1/8 inches, while the horizontal lines
are ruled 6 to the inch. The columns may, or may not, have printed
headings.
The data from the note sheet in Fig. 2 (page 151) is copied on to the
table for illustration. The first columns of the table are descriptive.
The rest of them are arranged so as to include all of the unit times,
with any other data which are to be averaged or used when studying the
results. At the extreme right of the sheet the gross times, including
rest and necessary delay, are recorded and the percentages of rest are
calculated.
Formulae are convenient for combining the elements. For simplicity, in
the example of barrow excavation, each of the unit times may be
designated by the same letters used on the note sheet (Fig. 2) although
in practice each element can best be designated .by the initial letters
of the words describing it.
Let
a = time filling a barrow with any material.
b = time preparing to wheel.
c = time wheeling full barrow 100 feet.
d = time dumping and turning.
e = time returning 100 feet with empty barrow.
f = time dropping barrow and starting to shovel.
p = time loosening one cubic yard with the pick.
P = percentage of a day required to rest and necessary delays.
L = load of a barrow in cubic feet.
B = time per cubic yard picking, loading, and wheeling any given kind of
earth to any given distance when the wheeler loads his own barrow.
[Transcriber’s note — formula and Tables omitted]
This general formula for barrow work can be simplified by choosing
average values for the constants, and substituting numerals for the
letters now representing them. Substituting the average values from the
note sheet on Fig. 2 (page 151), our formula becomes:
[Transcriber’s note — formula omitted]
In classes of work where the percentage of rest varies with the
different elements of an operation it is most convenient to correct all
of the elementary times by the proper percentages before combining them.
Sometimes after having constructed a general formula, it may be solved
by setting down the substitute numerical values in a vertical column for
direct addition.
Table 3 (page 164) gives the times for throwing earth to different
distances and different heights. It will be seen that for each special
material the time for filling shovel remains the same regardless of the
distance to which it is thrown. Each kind of material requires a
different time for filling the shovel. The time throwing one shovelful,
on the other hand, varies with the length of throw, but for any given
distance it is the same for all of the earths. If the earth is of such a
nature that it sticks to the shovel, this relation does not hold. For
the elements of shoveling we have therefore:
s = time filling shovel and straightening up ready to throw.
t = time throwing one shovelful.
w = time walking one foot with loaded shovel.
w1 = time returning one foot with empty shovel.
L = load of a shovel in cubic feet.
P = percentage of a day required for rest and necessary delays.
T = time for shoveling one cubic yard.
Our formula, then, for handling any earth after it is loosened, is:
[Transcriber’s note — omitted]
Where the material is simply thrown without walking, the formula
becomes:
If weights are used instead of volumes:
[Transcriber’s note — omitted]
The writer has found the printed form shown on the insert, Fig. 5
(opposite page 166), useful in studying unit times in a certain class of
the hand work done in a machine shop. This blank is fastened to a thin
board held in the left hand and resting on the left arm of the observer.
A stop watch is inserted in a small compartment attached to the back of
the board at a point a little above its center, the face of the watch
being seen from the front of the board through a small flap cut partly
loose from the observation blank. While the watch is operated by the
fingers of the left hand, the right hand of the operator is at all times
free to enter the time observations on the blank. A pencil sketch of the
work to be observed is made in the blank space on the upper left-hand
portion of the sheet. In using this blank, of course, all attempt at
secrecy is abandoned.
The mistake usually made by beginners is that of failing to note in
sufficient detail the various conditions surrounding the job. It is not
at first appreciated that the whole work of the time observer is useless
if there is any doubt as to even one of these conditions. Such items,
for instance, as the name of the man or men on the work, the number of
helpers, and exact description of all of the implements used, even those
which seem unimportant, such, for instance, as the diameter and length
of bolts and the style of clamps used, the weight of the piece upon
which work is being done, etc.
It is also desirable that, as soon as practicable after taking a few
complete sets of time observations, the operator should be given the
opportunity of working up one or two sets at least by summing up the
unit times and allowing the proper per cent of rest, etc., and putting
them into practical use, either by comparing his results with the actual
time of a job which is known to be done in fast time, or by setting a
time which a workman is to live up to.
The actual practical trial of the time student’s work is most useful,
both in teaching him the necessity of carefully noting the minutest
details, and on the other hand convincing him of the practicability of
the whole method, and in encouraging him in future work.
In making time observations, absolutely nothing should be left to the
memory of the student. Every item, even those which appear self-evident,
should be accurately recorded. The writer, and the assistant who
immediately followed him, both made the mistake of not putting the
results of much of their time study into use soon enough, so that many
times observations which extended over a period of months were thrown
away, in most instances because of failure to note some apparently
unimportant detail.
It may be needless to state that when the results of time observations
are first worked up, it will take far more time to pick out and add up
the proper unit times, and allow the proper percentages of rest, etc.,
than it originally did for the workman to do the job. This fact need not
disturb the operator, however. It will be evident that the slow time
made at the start is due to his lack of experience, and he must take it
for granted that later many short-cuts can be found, and that a man with
an average memory will be able with practice to carry all of the
important time units in his head.
No system of time study can be looked upon as a success unless it
enables the time observer, after a reasonable amount of study, to
predict with accuracy how long it should take a good man to do almost
any job in the particular trade, or branch of a trade, to which the time
student has been devoting himself. It is true that hardly any two jobs
in a given trade are exactly the same and that if a time student were to
follow the old method of studying and recording the whole
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