Opel 1900 1973 Service Manual page 533

1973 OPEL SERVICE MANUAL
Figure 9B-15 Compressor Assembly - GT Shown
Figure 3B-16 Condenser Assembly
condenser. The refrigerant vapor gives up its heat,
which is quickly and easily radiated into the sur-
rounding air through the large finned surfaces of the
condenser. In giving up its heat, the refrigerant vapor
condenses back into liquid which collects in a pool
at the bottom of the condenser.
As we have said before, when the refrigerant con-
denses into a liquid, it again is ready for boiling in the
evaporator. So, we can run a pipe from the condenser
back to the evaporator.
Main Units of the System
These three units then; the evaporator, the compres-
sor, and the condenser are the main working
parts of any typical air conditioning system. We have
the evaporator where the refrigerant boils and
have the pump or compressor to put pressure on the
refrigerant so it can get rid of its heat. And we have
a condenser outside the car body to help discharge
the heat into the surrounding air.
Pressure and Flow
There is one more unit that co-operates with these
three. It doesn't do any real work,
sort of a traffic officer in controlling the flow of the
refrigerant through the system. To get a better idea
of what this does. let's first do a li,ttle exoerimentine
with an ordinary' tire pump.
When we use a t,ire pump to Sate an automobile
tire, we are creating pressure only because we are
"pushing" against the air already entrapped inside
the tire. If you question this, just try pumping up a
tire that has a large puncture in it. You
all day, and still not be able to build up any pressure.
As fast as you would pump the air in, it would leak
out through the puncture. Abou~t all you would be
doing would be circulating nice fresh air through the
tire. 1Jnless you have something lo push against - to
block the tlow of air - you can't create more than a
mere semblance of pressure.
The same situation holds true
system. The compressor can pump refrigerant vapor
through the system, but unless it has something to
push against, it cannot build up pressure. All the
compressor would be doing would be to circulate the
vapor without increasing its pres,sure.
Yet we can't just block the flow through the system
entirely. All we want to do is put pressure on the
refrigerant vapor so it will condense at normal tem-
peratures. What's more, this musi: be done some time
after the vapor leaves the evaporator and before it
returns again as a liquid. We can't have high pressure
in the evaporator because that would slow down the
boiling of the refrigerant and thus penalize the re-
frigerating effect.
Controlling Pressure and
Pressure and flow can be controlled with a float
valve, or with a pressure-regulating valve. They do
the same job, but in a different way.
Since the float valve type will give us a better idea of
pressure and flow control, let's look at it first (Fig.
It consists simply of a float that rides on the surface
of the liquid refrigerant. As the refrigerant liquid
boils and passes off as a vapor, naturally the liquid
level drops lower and lower. Correspondingly, the
float, because it rides on the surface of the refriger-
ant, also drops lower and lower as the liquid goes
d o w n .
By means of a simple system of mechanical linkage,
the downward movement of the float opens a valve
to let refrigerant in. The incoming liquid raises the
fluid level and, of course, the float rides up with it.
When the surface level of the refrigerant liquid re-
aches a desired height, the float: will have risen far
but it does act as
pump
could
in an air conditioning
Flow