Protective housing for coating applicator

A housing for a coating applicator having a pair of mating housing members which define a chamber for a portion of a coating applicator and which are supported and retained by a front and rear bulkhead, the rear bulkhead having a spring means urging at least one of the housing members against the front bulkhead.

BACKGROUND OF THE INVENTION 
Coating applicators, including automatic spray painting equipment, are 
being used in an ever increasing variety of work places. Typical 
electrostatic equipment often involves the use of high voltages, electric 
motors, turbines and numerous air, paint and solvent lines. Often times, 
this spray painting equipment is exposed to work conditions that are 
harmful to safe and effective operation of the equipment. These hazards 
include the possibilities of the supply lines being severed and equipment 
malfunction due to, for example, the turbine becoming fouled by airborne 
contaminants. 
It is therefore an object of this invention to provide a coating applicator 
with a housing to protect the components of the applicator while in use. 
It is a further object of this invention to provide a housing for a coating 
applicator that can be quickly and easily installed and removed without 
the use of any tools and without having to stand in front of the 
applicator. 
These and other objects and advantages of the present invention will become 
more apparent from a review of the following specification and drawings. 
SUMMARY OF THE INVENTION 
The present invention relates to the development of a protective housing 
for material coating applicators. The protective housing consists of a 
front and rear bulkhead and a pair of mating housing members. The front 
and rear bulkheads serve to retain the mating housing members which 
protect the components of the material coating applicator. 
No tools are required for removal and installation of the housing members 
due to a spring mechanism located in the rear bulkhead which urges the 
housing members into engagement with the front bulkhead. Movement of the 
housing members toward the rear bulkhead causes the spring mechanism to 
deflect thus allowing the front of the housing members to clear the front 
bulkhead and be removed. Installation of the protective housing is 
achieved by reversing the steps for removal.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
The invention relates to a coating applicator 12 as generally depicted in 
FIGS. 1 and 2. The present embodiment of the applicator 12 is shown being 
used in conjunction with a rotary bell atomizer 14. It should be 
understood, however, that other types of coating applicators can be used 
in conjunction with the present invention, including but not limited to, 
nozzles, rotary discs, etc., without departing from the scope of the 
invention. 
The housing 16 is primarily designed to cover and protect the portion of 
the coating applicator 12 located behind the dispensing head or bell 18 
while still allowing quick and easy access to the components of the 
applicator 12. 
The housing 16 in FIGS. 1 and 2 is shown covering the rearward portion of a 
rotary bell atomizer 14. The atomizer 14 consists of a bell or dispensing 
unit 18, a rotary air turbine 20 and assorted supply lines 22 which 
provide air, coating material and solvent to the atomizer 14. The atomizer 
14 also has a bell wash tube 24 which protrudes from the housing 16 to 
allow cleaning of the bell 18. A more detailed description of the atomizer 
14 is not warranted as the present invention is designed to be used with 
coating dispensers in general, with the rotary atomizer being used for 
illustration purposes only. 
The present invention consists of a housing 16 which comprises three main 
sections; the front bulkhead 26, the rear bulkhead 28 and a pair of 
housing members 30 and 32. The entire coating applicator 12, including the 
housing 16, is supported by a support member 34 to which the rotary bell 
atomizer 14 is mounted. 
The front bulkhead 26 is located directly behind the bell 18 and acts as a 
retaining means or collar for the housing members 30 and 32. The shaft 36 
of the turbine 20 passes through the front bulkhead 26 and is connected to 
the rotary bell 18 which is free to rotate while the front bulkhead 26 
remains stationary. 
As shown in FIGS. 2 and 4, the front bulkhead 26 is cup-shaped and has a 
rearwardly extending lip 38 thereby defining a recess 40 into which the 
front flange 42 of housing members 30 and 32 are designed to fit. 
Referring to FIGS. 4 and 9, the front bulkhead 26 has an alignment pin 44 
which extends inwardly from the lip 38. A corresponding notch 46 is 
provided in housing member 32 thereby ensuring proper alignment of the 
housing members 30 and 32 during installation and removal. 
Current rotary bell atomizers will often have a shaping air cap and 
manifold located directly behind the atomizer bell. Consequently, it is 
also possible to provide a modified air cap/manifold assembly which can be 
used as the front bulkhead 26 for the present invention. 
The rear bulkhead 28 is in opposed relationship to the front bulkhead 26 
and serves to accept and retain the housing members 30 and 32 from the 
rear. Referring to FIGS. 6 and 7, the rear bulkhead 28 has a large hole 48 
and several smaller holes 50. The larger hole 48 allows the rear bulkhead 
28 to be positioned about and secured to the support member 34 by any 
suitable means including set screws, brackets or welding (not shown). The 
remaining smaller holes 50 allow connections to be made between the supply 
lines 22 and the external supply lines (not shown). As is shown in FIGS. 2 
and 3, connections of these lines can be facilitated through the use of 
suitable coupler fittings 52. 
Referring to FIGS. 7 and 10, the rear bulkhead assembly 28 consists of 
three main parts: a cup-shaped member 54, a retaining ring 56 and a spring 
means 58 disposed between the base member 54 and the retaining ring 56. 
Two types of spring means 58 are shown in FIGS. 7 and 10. However, these 
particular spring means 58 are only illustrative of the possible types of 
spring means which can be used in the present invention and should in no 
way limit the types of spring means which can be used while still 
remaining within the scope of the present invention. 
In FIG. 7, the spring means consist of a plurality of butterfly springs 60 
which are secured to the base member 54 by means of rivets 62. The 
outermost edges 63 of the butterfly springs 60 extend upwardly and away 
from the base member 54. The distance that the outermost edges 63 of the 
butterfly springs 60 extend above the base member 54 is controlled by the 
retaining ring 56. A flat washer 57 may be interposed between the 
outermost edges 63 of the butterfly springs 60 and the outer ridge or lip 
64 of retaining ring 56. The washer 57 serves to more evenly distribute 
the spring forces to the housing members 30 and 32. 
The retaining ring 56 has an outer ridge or lip 64 and a sleeve 66 which 
depends downwardly from the lip 64. The sleeve 66 fits inside the 
butterfly springs 60 and is secured to the base member 54 with screws 68. 
Referring to FIGS. 5 and 6, the lip 64 retains the butterfly springs 60 
while still leaving an annular spring loaded cavity 70 exposed to receive 
the housing members 30 and 32 which deflect the butterfly springs 60 
downwardly when a force is applied on the housing members 30 and 32 in a 
direction toward the rear bulkhead 28. The rear bulkhead 28 in FIG. 10 
operates in the same manner as the bulkhead 28 depicted in FIG. 7, the 
only difference being in the type of spring means 58 used. FIG. 10 shows a 
wavy washer 72 which is used in place of the butterfly springs 60 shown in 
FIG. 7. The wavy washer 72 can also be deflected downwardly when the 
housing members 30 and 32 are urged in a direction toward the rear 
bulkhead 28. 
The housing members 30 and 32 are shown in FIGS. 8 and 9 respectively. The 
main and rear portions of the members 30 and 32 are of uniform diameter 
while the front portion is conical shaped with a flange portion 42 which 
is designed to fit within the front bulkhead 26. Each of the housing 
members 30 and 32 have supporting ribs 74 positioned circumferentially 
about their interiors. 
The lower housing member 32 is fitted with alignment plates 76 which allow 
proper mating of the two housing member halves. In addition, the housing 
member 32 has several holes 78 which allow drainage in the event that a 
fluid is released within the housing 16. 
The housing members 30 and 32 can be made of any suitable material. If the 
coating applicator 12 uses high voltages that pose potential shock 
hazards, it is recommended that a non-conductive material such as 
polyethylene or non-conductive fiberglass be used in construction. 
Assembly of the present invention is quick and easy due to its novel design 
and does not require any tools. Referring to FIGS. 3, 5 and 6 the lower 
housing member 32 is attached first by sliding its rear semi-circle 
portion 80 into the annular spring loaded cavity 70 in the rear bulkhead 
28. By pushing the housing member 32 into the spring loaded cavity 70, the 
front flange 42 of the housing member 32 can be slipped under the lip 38 
of the front bulkhead 26. Once past this lip 38, proper alignment of the 
housing member 32 is achieved by aligning the notch 46 in the housing 
member 32 with the pin 44 in the front bulkhead 26. Having properly 
aligned the pin 44 in notch 46, the spring force of the spring means 58 
urges the housing member 32 toward the front bulkhead 26, thus maintaining 
the housing member 32 in an engaged relationship with the front and rear 
bulkheads 26 and 28 respectively. 
The upper housing member 30 is then installed by placing it over the lower 
housing member 32 so that it straddles the alignment plates 76 which are 
along the edges of the lower housing member 32. The upper housing member 
30 is then slid rearwardly so that its rear edge 80 fits into the spring 
loaded cavity 70 of the rear bulkhead 28. Referring to FIG. 1, a thumb 
recess 82 is located in the front portion of the upper housing member 30 
to aid installation. A sufficient force is applied to the housing member 
30 to depress the spring means 58 and allow the front flange 42 of the 
housing member 30 to be slide under the lip 38 of the front bulkhead 26. 
The housing member 30 is then allowed to move toward the front bulkhead 26 
by virtue of the spring means 58 in the rear bulkhead 28. 
To remove the housing, the operator simply uses the thumb recess 82 to urge 
the upper housing member 30 further into the rear bulkhead 28. Once the 
front flange 42 clears the lip 38 of the front bulkhead 26, the front of 
the housing member 30 is lifted up and away from the front bulkhead 26. 
The rear 80 of the housing member 26 is then removed from the rear 
bulkhead 28 thus exposing the internal components of the coating 
applicator 12. The same procedure is used to remove the lower housing 
member 32, except that the operator grips the alignment plates 76 to 
depress the housing member 32 since there is no thumb recess 82 located in 
the lower housing member 32. 
Having thus described the present invention it should be understood that 
various modifications can be made without departing from the scope and 
content of the following claims.