The present invention relates to a paint mist collecting device for collecting a mist of paint particles floating within a paint booth and also to a paint booth using such paint mist collecting device.
Paint particles sprayed from a paint gun or a like painting means are applied onto an object to be coated (hereinafter referred to as “workpiece”) within a paint booth. In this instance, uncoated paint particles float as a mist around the workpiece in an atmosphere of a paint booth. In order to secure a desired painting quality, a mist of paint particles should be promptly removed from the surroundings of the workpiece.
To this end, it has been a common practice that clean air supplied from an upper part of the paint booth flows downwards toward the workpiece, while at the same time, dirty air containing the paint mist is discharged from a bottom of the paint booth. From a standpoint of environmental protection, the paint mist must be removed from the dirty air before the air is vented to atmosphere.
To meet the requirement, the paint booth is generally provided with a paint mist collecting device, such as disclosed in Japanese Patent Application Laid-open Publication (JP-A) No. 2008-149248.
As shown here in
Then, the circulation water and the air are separated from one another according to the difference in specific gravity, and the circulation water is allowed to further flow downward and eventually returns to the water tank 101. The air containing the paint mist is held in contact with the circulation water for a time period beginning from its entry to the central outlet 107 and ending at its separation from the circulation water. This contact time is not considered to be sufficiently long. In order to achieve a desired purification effect within such a limited contact time, an increased quantity of circulation water must be supplied. However, this requires a large-capacity pump, which will increase the running cost.
It is accordingly an object of the present invention to provide a paint mist collecting device which is capable of collecting a mist of paint particles floating within a paint booth without requiring a large quantity of cleaning liquid.
Another object of the present invention is to provide a paint booth equipped with such paint mist collecting device.
According to one aspect of the present invention, there is provided a paint mist collecting device for use in a paint booth for collecting a mist of paint particles produced when a paint is sprayed onto a workpiece within the paint booth while air containing the paint mist and a cleaning liquid are allowed to flow out from an outlet formed at a bottom part of the paint booth. The paint mist collecting device comprises: a tubular duct having one end adapted to be connected to the outlet of the paint booth; and a swirl-generating guide fin unit disposed inside the tubular duct and configured to force axial flows of the paint-mist-containing air and the cleaning liquid into a rotational movement to thereby generate a helical vortex as the paint-mist-containing air and the cleaning liquid flow downward along the tubular duct.
By thus generating a helical vortex of the paint-mist-containing air and the cleaning liquid, the paint-mist-containing air can stay in the tubular duct for a relatively long time, which will increase a contact time between the paint-mist-containing air and the cleaning liquid. This means that the paint mist can be entrained in the cleaning liquid with increased efficiency and the necessary amount of cleaning liquid can be reduced.
Preferably, the tubular duct includes a frustconical intake section, a cylindrical intermediate section, and a tapered nozzle section arranged in an axial direction of the tubular duct with the intermediate section disposed between the intake section and the nozzle section. The frustconical intake section has a large-diameter end forming the one end of the tubular duct. The cylindrical intermediate section has a uniform diameter throughout the length thereof. The tapered nozzle section has a diameter gradually reducing in a direction toward an opposite end of the tubular duct. The swirl-generating guide fin unit is disposed in the intermediate section at a position near a small-diameter end of the frustconical intake section. The tapered nozzle section serves to restrict downward flow of the paint-mist-containing air and the cleaning liquid, thereby facilitating mixing of the paint-mist-containing air and the cleaning liquid.
Preferably, the swirl-generating guide fin unit comprises a plurality of guide fins projecting from an inner surface of the tubular duct and circumferentially spaced at equal intervals, the guide fins being skewed with respect to a longitudinal axis of the tubular duct in a direction to form a clockwise or a counter-clockwise swirl flow of the paint-mist-containing air and the cleaning liquid. The skew direction (i.e., the direction of the swirl flow) may be selected in view of the position of the outlet relative to a travel path of the workpiece within the paint booth.
Preferably, the tubular duct has a circumferential groove formed in an inner surface thereof and located adjacent to the one end of the tubular duct, and a liquid-jetting means for jetting the cleaning liquid into the circumferential groove to form a swirl flow of the cleaning liquid in a direction same as a direction of rotational movement produced by the swirl-generating guide fin unit. With this arrangement, since the cleaning liquid is forced into a swirl movement at the intake section of the tubular duct located upstream of the swirl-generating guide fin unit, the cleaning liquid can stay in the tubular duct for a longer time and, hence, a contact time between the cleaning liquid and the paint-mist-containing-air further increases. This means that the paint mist can be entrained in the cleaning liquid at higher efficiency.
According to another aspect of the present invention, there is provoded a paint booth comprising: a painting pit for receiving therein a workpiece to be painted, the painting pit having a bottom wall and at least one outlet formed in the bottom wall; a painting means disposed in the painting pit for spraying a paint onto the workpiece; means for supplying air from above into the painting pit; means for supplying a cleaning liquid over the bottom wall of the painting pit, wherein air containing a mist of paint particles produced when the paint is sprayed onto the workpiece and the cleaning liquid are allowed to flow out through the outlet formed in the bottom wall; and a paint mist collecting device for collecting the paint mist, wherein the paint mist collecting device comprises; a tubular duct connected at one end to the outlet of the painting pit and extending downward; and a swirl-generating guide fin unit disposed inside the tubular duct and configured to force axial flows of the paint-mist-containing air and the cleaning liquid into a rotational movement to thereby generate a helical vortex as the paint-mist-containing air and the cleaning liquid flow downward along the tubular duct.
The paint booth further includes a conveyor disposed in the painting pit for conveying the workpiece in a direction along a travel path. The painting pit has a first row of outlets disposed on a right side of the travel path as view in the direction of conveyance of the workpiece, and a second row of outlets disposed on a left side of the travel path as viewed in the direction of conveyance of the workpiece. The swirl-generating guide fin unit of the paint mist collecting device, which is associated with each of the first row of outlets, is configured to generate a clockwise swirl flow of the paint-mist-containing air and the cleaning liquid, and the swirl-generating guide fin unit of the paint mist collecting device, which is associated with each of the second row of outlets, is configured to generate a counterclockwise swirl flow of the paint-mist-containing air and the cleaning liquid. With this arrangement, the paint-mist-containing air is centered toward the travel path without adhering or staying to sidewalls of the paint booth and, hence, the paint mist recovery efficiency increases further.
Preferably, the painting pit has a third row of outlets aligned with the travel path, and the first and second rows of outlets and the third row of outlets are arranged in a zigzag alignment. Even when the third row of outlets are temporarily closed by the workpiece while being conveyed, the first and second rows of outlets can maintain their prescribed function.
Certain preferred structural embodiments of the present invention will be described in detail herein below, by way of example only, with reference to the accompanying sheets of drawings, in which:
Referring now to the drawings and
The paint booth 10 is hermetically sealed except an entrance and an exit, and fresh air is supplied downward into the spray booth 10 via a duct 15 after the air is conditioned in temperature, humidity and cleanliness by a fresh air-conditioner 14 disposed at an inlet of the duct 15. Furthermore, air is also supplied into the paint booth 10 via a return duct 16 after the air is conditioned in temperature, humidity and cleanliness by a recycling air-conditioner 17 disposed in the return duct 16.
The supplied air enters plenum chambers 18, 19 in which the air is forced to slowly distribute uniformly over the entire area of each respective plenum chamber 18, 19. Then the air flows downward through a wire-grid ceiling 21. The air, as it flows downward, carries or entrains a mist of paint particles floating around the workpiece 12, then passes downward through a wire-grid floor 22 and reaches a space defined between the wire-grid floor 22 and a bottom wall 23 of the painting pit 10a. The fresh air-conditioner 14, recycling air-conditioner 17, ducts 15, 16, plenum chambers 18, 19 and wire-grid ceiling 21 form an air supplying means.
A cleaning liquid 25 is supplied from a spray pipe 24 over an inside surface of the bottom wall 23. The bottom wall 23 has a plurality of outlets 26 through which the air containing the paint mist and the cleaning liquid 25 are allowed to enter a gas-liquid separation chamber 27 provided below the painting pit 10a. In the gas-liquid separation chamber 27, the air and the cleaning liquid 25 are separated according to the difference in specific gravity. Thereafter, the cleaning liquid 25 is guided into a liquid storage tank 28 for purification, and purified cleaning liquid 25 is supplied by a pump 29 to the spray pipe 24. The air is drawn from the gas-liquid separation chamber 27 by an exhaust fan 31 and guided into an exhaust duct 32 where a part of the guided air flows into the return duct 16 and the remaining part of the guided air is discharged to atmosphere. The spray pipe 24 and the pump 29 together form a cleaning liquid supply means.
The paint booth 10 further includes a paint mist collecting device 40 associated with each of the outlets 26. As shown in
Stated more specifically, the tubular duct 60 includes a frustconical intake section 41, a cylindrical intermediate section 42, and a tapered nozzle section 44 that are arranged in an axial direction of the tubular duct 60 with the intermediate section 42 disposed between the intake section 41 and the nozzle section 43. The frustconical intake section 41 has a large-diameter end (upper end in
As shown in
The guide fins 45 shown in
Operation of the paint mist collecting device 40 will be described with reference to
As shown in
As shown in
As shown in
A description will be next made about an arrangement of the outlets 26 with reference to
The central outlets 26C are intermittently closed by the workpiece 12 while the workpiece 12 moves along the travel path TR. However, by virtue of the zigzag alignment, the left and right outlets 26L, 26R can maintain their prescribed function as a fluid passage even when the central outlets 26C are temporarily closed by the workpiece 12.
In the preferred embodiment shown in
Next, a paint mist collecting device according to a second embodiment of the present invention will be described with reference to
As shown in
As shown in
Operation of the paint mist collecting device 40B will be described with reference to
As shown in
Obviously, various minor changes and modifications are possible in the light of the above teaching. It is to be understood that within the scope of the appended claims the present invention may be practiced otherwise than as specifically described.
Number | Date | Country | Kind |
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2011-051863 | Mar 2011 | JP | national |
Number | Name | Date | Kind |
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5336283 | Horisawa | Aug 1994 | A |
6093250 | Salazar et al. | Jul 2000 | A |
Number | Date | Country |
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2008-149249 | Jul 2008 | JP |
Number | Date | Country | |
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20130061802 A1 | Mar 2013 | US |