The automotive vacuum system – Mityvac MV8500 silverline elite aUtoMotive test kit User Manual

This manual deals with vacuum and pressure, how

it is used in various automotive systems and how

the vacuum pump can be used to test and diagnose

these systems . This section discusses what vacuum

is, how it is measured, where it comes from on an

automobile, the system for distributing and using

vacuum, and some troubleshooting basics .
WHAT IS VACUUM?

Put simply, vacuum is empty space, and may exist

as either a total or partial vacuum . Vacuum does

not, of itself, create power . Rather, power for

vacuum devices depends on the presence of

atmospheric pressure . The atmosphere exerts a

pressure of 14 .7 pounds per square inch (psi) on

everything at sea level . If a portion of the air is

removed from one side of a diaphragm (partial

vacuum), the atmospheric pressure will exert a

force on the diaphragm . The force is equal to the

pressure difference times the diaphragm area

(FIGURE 1) . Generally, the less air (greater

vacuum) in a given space, the more the atmosphere

tries to get in and the more force is created .
HOW IS VACUUM MEASURED?

In the United States, vacuum is commonly measured

in inches of Mercury (“ Hg) . It may also be

measured in centimeters of Mercury (cm Hg) and

kiloPascals (kPa) . Atmospheric pressure will sup-

port a column of Mercury in a manometer gauge

about 30 inches high or about 76 cm high . This is

the barometric pressure in “ Hg which varies as the

weather changes . Vacuum readings in “ Hg are

really negative pressure readings . For example,

30” Hg vacuum would be a complete vacuum . Half

of a complete vacuum would be 15” Hg . A gasoline

engine at idle usually pulls about 16-” Hg

vacuum . On deceleration, because the throttle is

closed, the vacuum will increase . The pump will pull

about 5” Hg as indicated on its vacuum gauge

which is calibrated in both “ Hg and kPa .
WHY ENGINES CREATE VACUUM

Vacuum is created when air is withdrawn from

a given volume, or a sealed volume is increased .

That is why vacuum is available in an engine .

On the intake stroke, the piston moves down, this

creates a partial vacuum because the volume of the

cylinder is increased . Air cannot rush through the

intake system fast enough to totally fill the space

created when the piston moves down (FIGURE ) .

This is the most common automotive vacuum

supply source .
GASOLINE VS. DIESEL VACUUM

Because a diesel engine does not produce as much

vacuum as a gasoline engine, a mechanical vacuum

pump must be employed to operate vacuum

devices . The pump is useful in testing devices

on both types of engines .

the automotive vacuum sYstem

Form 8433

Page Number - 5

FIGURE 1:

VACUUM VS. ATMOSPHERIC PRESSURE

14 .7 - 10 .7 = 4 PSI

40 Pounds

14 .7 PSI

10 .7 PSI

Piston area 10 sq . in .

FIGURE 2: THE ENGINE AS A VACUUM SOURCE

Vacuum

Air

Vacuum Port

Intake Stroke