1. Field of the Invention
The present invention relates generally to paint spraying apparatus. More particularly, the invention concerns a novel paint spray apparatus in which a conventional paint spraying device is interconnected with a vacuum conduit for capturing bounce-back overspray.
2. Discussion of the Prior Art
Paint spraying is widely used in various industries for applying a uniform coating of paint to a work piece. Such a technique is particularly widely used in the automotive industry for painting vehicles. Typically paint spraying is accomplished using a basic spray painting system that consists of a conventional compressed air spray gun, a pressurized paint container, a compressed air system, and conduits connecting these components. Applying the coating material to the work piece is fairly straightforward and conventional, or atomized spray systems typically use air at high pressure (40-70 pounds per square inch) to atomize a liquefied stream of paint. The high-energy air stream finely atomizes the paint, making it relatively easy to apply.
Hand-held compressed air spray guns, which are commonly used for most industrial applications, are readily commercially available and are generally cost-effective, and easy to operate. In the conventional compressed air spray gun, paint is atomized into the droplets of various sizes and transported onto the work piece surface by the pressurized, atomizing air.
Aerosol paint spray cans have also become quite common and are widely used, particularly for small jobs. The typical, readily commercially available aerosol paint spray can comprises a cylindrical-shaped container having a reservoir for containing the paint to be sprayed and the propellant for driving the paint from the container. A finger-operated valve system is mounted in the top of the can and is operated by pressing down on the headpiece of the valve system to commence the flow of paint through the spray nozzle of the device.
Paints of the character typically used in spray painting can contain many hazardous chemicals including organic solvents, toxic metals, and iso-cyanates. Research has shown that higher risks of lung cancer, leukemia, liver cancer, stomach cancer and bladder cancer are related to long-term paint exposure. Accordingly, a major health hazard concern of the spray coating process is ‘overspray’, that is, the small aerosols that do not impact the work piece. If overspray is not contained, it can drift and land on nearby materials or workers. Additionally, bounce-back particles, that is, the small aerosols that bounce off or entirely miss the surface after leaving the spray gun, if not contained, can also drift and land on nearby materials or workers.
Vehicle preparation stations typically have no walls to contain the overspray, and, commonly, a single exhaust fan is relied upon to remove air from the painting area. Studies have shown that the single exhaust fan is quite ineffective in controlling the paint overspray.
Other prior art practices that have been adopted to attempt to solve this serious health hazard, include using respirators and spray booths designed to contain the overspray. However, experience has shown that in the typical workplace the respirators and spray booths are often improperly maintained, and, accordingly, frequently offer little meaningful protection to the worker. Similarly, users of aerosol paint spray cans seldom use respirators or other types of protective devices.
The thrust of the present invention is to address this long-standing health hazard by providing a simple and inexpensive means for effectively capturing overspray. More particularly, the apparatus of the present invention seeks to control hazardous overspray by providing an exhaust system that is directly interconnected with the paint spray device and includes a vacuum tube having an inlet in close proximity to the spray nozzle.
It is an object of the present invention to provide a simple, easy-to-use and inexpensive apparatus for effectively capturing overspray during paint spraying operations. More particularly, it is an object of the invention to provide a novel exhaust system for capturing overspray that comprises a vacuum hose that is directly interconnected with the paint spray device and is strategically positioned in close proximity to the spray nozzle of the paint spray device.
Another object of the invention is to provide an overspray capture apparatus of the aforementioned character that uses a conventional household-type vacuum cleaner as the vacuum source.
Another object of the invention is to provide an apparatus as described in the preceding paragraphs which can be used with a conventional paint spray gun and in which the vacuum hose of the conventional household-type vacuum cleaner is directly interconnected with the handle portion of the spray gun.
Another object of the invention is to provide an apparatus of the character described that can be used with a conventional aerosol paint spray can and in which the vacuum hose of the conventional household-type vacuum cleaner is directly connected to a special aerosol can-gripping device that can be interconnected with the top of the aerosol spray and can conveniently be used to operate the valve system.
Still another object of this invention to provide an overspray capture apparatus that is of a simple construction, requires minimum maintenance and is inexpensive to manufacture and install.
Referring to the drawings and particularly
Connected to the handle portion 22 of the spray gun assembly is the elongated vacuum hose 17 which is open at one end 17a and is interconnected at its opposite end to a source of vacuum generally designated by the numeral 33. While the vacuum source can take various forms, in the preferred form of the invention the vacuum source is provided in the form of a conventional, household-type vacuum cleaner.
As illustrated in
When the apparatus of the invention is in use to paint an article, such as article “A”, the overspray and bounce-back that occurs during the painting operation, which is depicted by the arrows 36 of
Turning next to
As illustrated in
In the present form of the invention the connector means comprises a connector clip 50, which is receivable over the annular shoulder “S” of the can for releasably gripping the shoulder in the manner shown in the drawings.
The important valve operating means of the invention here comprises a trigger mechanism 52 that is pivotally connected to the intermediate body portion 44 of the handgrip. Trigger mechanism 52, which is movable relative to the handgrip between the first position shown by the phantom lines in
An important feature of this latest form of the invention is the provision of suction means for capturing the overspray from the spray nozzle “N” of the valve system. As best seen in
In using the overspray capture apparatus of this latest embodiment of the invention, the can-gripping assembly is first connected to the top portion of the aerosol paint can in the manner shown in the drawings. Next, the elongated vacuum tube 60 is connected to the can-gripping assembly and the vacuum source, such as a conventional vacuum cleaner, is energized. This done, the finger-engaging member 54 can be pulled rearwardly to the position shown by the solid lines in
Having now described the invention in detail in accordance with the requirements of the patent statutes, those skilled in this art will have no difficulty in making changes and modifications in the individual parts or their relative assembly in order to meet specific requirements or conditions. Such changes and modifications may be made without departing from the scope and spirit of the invention, as set forth in the following claims.