Device for controlling pressure of paint container for use in conjunction with paint spray gun

A pressure controlling device of a paint container for use in conjunction with a paint spray gun is composed of a pressure stabilizing plug capable of regulating the air discharge in accordance with the magnitude of the air pressure that is admitted to the paint container. The device is further composed of an air valve piece capable of displacing to control the entry of an appropriate amount of air into the paint container so as to keep the air pressure of the paint container constant. The device is provided with an adjustment nut for adjusting the elastic force of the pressure stabilizing plug in accordance with the desired thickness of a coating.

FIELD OF THE INVENTION 
The present invention relates generally to an auxiliary painting implement, 
and more particularly to an air pressure controlling device of a paint 
container for use in conjunction with a paint spray gun. 
BACKGROUND OF THE INVENTION 
The paint contained in the conventional paint container is drawn out by 
siphonage into a paint gun. In order to effect the siphonage, a 
considerable air current pressure is called for at the expense of the 
mechanical power. In light of the presence of excessive air current 
pressure, the paint is prone to be shot out by the paint spray gun in an 
excessive amount to result in the waste of the paint as well as the 
pollution of air by the paint spray. In addition, the coating so formed is 
often uneven in thickness. 
SUMMARY OF THE INVENTION 
It is therefore the primary objective of the present invention to provide a 
pressure controlling device to eliminate the drawbacks of the prior art 
described above. 
The objective of the present invention is achieved by the pressure 
controlling device consisting of a pressure stabilizing plug capable of 
regulating the air current discharge in accordance with the magnitude of 
the air pressure that is admitted to the paint container. The device 
further consist of an air valve piece capable of displacing to control the 
entry of an appropriate amount of air into the paint container so as to 
keep the air pressure inside the paint container constant. The device is 
provided with an adjustment nut for adjusting the elastic force of the 
pressure stabilizing plug in accordance with the desired thickness of a 
coating. 
The objective, features and functions of the present invention will be more 
readily understood upon a thoughtful deliberation of the following 
detailed description of a preferred embodiment of the present invention 
with reference to the drawings provided herewith.

DETAILED DESCRIPTION OF THE EMBODIMENT 
As shown in all drawings provided herewith, an air pressure controlling 
device embodied in the present invention is intended for use in 
conjunction with a paint spray gun which is mounted on a paint container 
1. The device of the present invention is composed of an air admission 
connector 2, an air valve piece 3, an air guiding main body 4, an 
adjustment nut 6, a pressure stabilizing plug 7, and an air discharge nut 
8. 
The air guiding main body 4 is provided in the bottom thereof with a 
threaded protrusion 41 of a hollow construction, and in the upper portion 
thereof with an inner threaded hole 42 in communication with an air 
admission duct 43 extending through the threaded protrusion 41. The main 
body 4 has an air discharging head 5 extending therefrom and having outer 
threads 52, a slot 53 of an appropriate depth, and a through hole 54 in 
communication with the air admission duct 43. 
The air admission connector 2 is provided in the bottom thereof with an 
outer threaded portion 21 which is engaged with the inner threaded hole 42 
of the main body 4. The air admission connector 2 is provided in the top 
thereof with a connection head 22 having a through hole 23. The connection 
head 22 is connected with one end of a pliable tube S which is connected 
at other end thereof with the paint spray gun mounted on the paint 
container 1. 
The air valve piece 3 is disposed in the inner threaded hole 42 of the main 
body 4 and is provided in the upper surface thereof with a tapered portion 
31 and in the underside thereof with a plurality of slots 32 which are 
arranged in a radiate manner. 
The adjustment nut 6 has inner threads 61 which are engaged with the outer 
threads 52 of the air discharging head 5. 
The pressure stabilizing plug 7 is composed of a plug block 71 and a spring 
72 fastened at one end thereof with the plug block. The plug block 71 is 
dimensioned to obstruct the through hole 54 of the air discharging head 5. 
The air discharge nut 8 has inner threads 81 which are engaged with the 
outer threads 52 of the air discharging head 5. The air discharge nut 8 is 
provided with a plurality of air discharging holes 82. 
As shown in FIG. 2, when the device of the present invention is not in 
operation, the air valve piece 3 is located at the bottom of the inner 
threaded hole 42. The threaded protrusion 41 of the main body 4 is engaged 
with the paint container 1. The connection head 22 of the air admission 
connector 2 is connected with one end of the pliable tube S which is in 
turn connected at other end thereof with an air duct 1A of the paint spray 
gun. The air current A in the air duct 1A of the paint spray gun is thus 
guided into the air admission connector 2. The air current A is converged 
in the air admission duct 43 via the tapered portion 31 and the radiate 
slots 32 of the air valve piece 3. The air current A is introduced into 
the paint container 1 via the air admission duct 43, as shows in FIG. 2A. 
When the air current A has reached a saturation point, the air pressure 
inside the through hole 54 is greater than the elastic force of the spring 
72 of the pressure stabilizing plug 7, thereby causing the plug block 71 
of the pressure stabilizing plug 7 to move aside from the through hole 54 
so as to allow the passage of the air current A, which is then discharged 
into the atmospheric air via the air discharging holes 82 of the air 
discharging nut 8. As a result, air pressure inside the paint container 1 
is kept constant. When the painting operation is interrupted or 
terminated, the air pressure of the paint container 1 forces the air valve 
piece 3 to ascend such that the tapered portion 31 of the air valve piece 
3 obstructs the through holes 23 of the connection head 22 of the air 
admission connector 2, so as to prevent the escape of air of the paint 
container 1, as illustrated in FIG. 2B. 
The spring 72 is substantially compressed when the adjustment nut 6 is 
located at the most inner end of the outer threads 52 of the air 
discharging head 5. The spring 72 is thus provided with a greater recovery 
force. Only a small quantity of air current A can pass the plug 7. The 
residual high air pressure of the paint container 1 can be set, as shown 
in FIG. 2A. When the adjustment nut 6 is moved toward the outer end of the 
outer threads 52 of the air discharging head 5, the spring 72 is less 
compressed such that the spring 72 is provided with a less recovery force. 
A greater quantity of air current can pass the plug 7. The residual low 
air pressure of the paint container 1 can be set, as shown in FIG. 2B. As 
a result, the device of the present invention enables the worker to adjust 
the air pressure in accordance with the desired thickness of a coating. 
The embodiment of the present invention described above is to be deemed in 
all respects as being merely illustrative and not restrictive. 
Accordingly, the present invention may be embodied in other specific forms 
without deviating from the spirit thereof. The present invention is 
therefore to be limited only by the scope of the following appended claim.