WO2011121820A1 - フィルタ装置、そのフィルタ装置を用いた塗装ブース、そのフィルタ装置を用いた簡易塗装ブース - Google Patents
フィルタ装置、そのフィルタ装置を用いた塗装ブース、そのフィルタ装置を用いた簡易塗装ブース Download PDFInfo
- Publication number
- WO2011121820A1 WO2011121820A1 PCT/JP2010/066410 JP2010066410W WO2011121820A1 WO 2011121820 A1 WO2011121820 A1 WO 2011121820A1 JP 2010066410 W JP2010066410 W JP 2010066410W WO 2011121820 A1 WO2011121820 A1 WO 2011121820A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- filter
- filter device
- gas
- inlet
- precoat agent
- Prior art date
Links
- 238000001914 filtration Methods 0.000 title abstract 5
- 238000007592 spray painting technique Methods 0.000 title 2
- 230000014759 maintenance of location Effects 0.000 claims abstract description 70
- 239000003795 chemical substances by application Substances 0.000 claims description 145
- 238000010422 painting Methods 0.000 claims description 79
- 238000011144 upstream manufacturing Methods 0.000 claims description 55
- 239000011248 coating agent Substances 0.000 claims description 42
- 238000000576 coating method Methods 0.000 claims description 38
- 239000003973 paint Substances 0.000 claims description 25
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- 239000000853 adhesive Substances 0.000 claims description 7
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- 230000003405 preventing effect Effects 0.000 claims description 3
- 238000005507 spraying Methods 0.000 claims description 3
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- VTYYLEPIZMXCLO-UHFFFAOYSA-L Calcium carbonate Chemical compound [Ca+2].[O-]C([O-])=O VTYYLEPIZMXCLO-UHFFFAOYSA-L 0.000 description 2
- 238000009825 accumulation Methods 0.000 description 2
- AXCZMVOFGPJBDE-UHFFFAOYSA-L calcium dihydroxide Chemical compound [OH-].[OH-].[Ca+2] AXCZMVOFGPJBDE-UHFFFAOYSA-L 0.000 description 2
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- 238000003892 spreading Methods 0.000 description 2
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
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- 239000000378 calcium silicate Substances 0.000 description 1
- 229910052918 calcium silicate Inorganic materials 0.000 description 1
- OYACROKNLOSFPA-UHFFFAOYSA-N calcium;dioxido(oxo)silane Chemical compound [Ca+2].[O-][Si]([O-])=O OYACROKNLOSFPA-UHFFFAOYSA-N 0.000 description 1
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Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D46/00—Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
- B01D46/02—Particle separators, e.g. dust precipitators, having hollow filters made of flexible material
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D46/00—Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
- B01D46/24—Particle separators, e.g. dust precipitators, using rigid hollow filter bodies
- B01D46/2403—Particle separators, e.g. dust precipitators, using rigid hollow filter bodies characterised by the physical shape or structure of the filtering element
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D46/00—Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
- B01D46/42—Auxiliary equipment or operation thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B14/00—Arrangements for collecting, re-using or eliminating excess spraying material
- B05B14/40—Arrangements for collecting, re-using or eliminating excess spraying material for use in spray booths
- B05B14/43—Arrangements for collecting, re-using or eliminating excess spraying material for use in spray booths by filtering the air charged with excess material
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B14/00—Arrangements for collecting, re-using or eliminating excess spraying material
- B05B14/40—Arrangements for collecting, re-using or eliminating excess spraying material for use in spray booths
- B05B14/43—Arrangements for collecting, re-using or eliminating excess spraying material for use in spray booths by filtering the air charged with excess material
- B05B14/437—Arrangements for collecting, re-using or eliminating excess spraying material for use in spray booths by filtering the air charged with excess material with means for introducing solid material into the air charged with excess material for preventing clogging of the filter
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2273/00—Operation of filters specially adapted for separating dispersed particles from gases or vapours
- B01D2273/12—Influencing the filter cake during filtration using filter aids
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
Definitions
- the present invention relates to a filter device, a painting booth using the filter device, and a simple painting booth using the filter device.
- a filter is provided in the device case, and an inflow port for a gas to be treated containing an adhesive material to be collected such as paint mist or oil mist is provided in the device case.
- the precoat agent nozzle is arrange
- a precoat agent nozzle is disposed in the inlet portion in order to reliably mix the precoat agent with the gas to be processed flowing into the device case through the inlet portion.
- a simple circular or square opening is formed as an inlet portion in a plate material forming the device case, and a precoat agent nozzle is provided in the opening portion in the device case. It is arranged in such a posture as to point to. ... (Conventional example 1)
- an exhaust chamber 4 that receives the exhaust air EA from the painting chamber 2 is provided below the painting chamber 2. Further, a pair of guide plates 20 are provided in a posture to partition the exhaust chamber 4 in the vertical direction, and a central slit-shaped gap 21 is formed between the front edges of the pair of guide plates 20.
- This central slit-shaped gap 21 is a gap extending in the booth longitudinal direction (that is, the direction in which the object is conveyed in the coating chamber 2).
- the lower region of the exhaust chamber 4 partitioned by the guide plates 20 is used as a filter chamber, and a plurality of filters 8 are arranged in the filter chamber.
- the plurality of filters 8 are arranged in the booth longitudinal direction.
- the precoat agent nozzle 11 is disposed on the lower surface side of the guide plate 20 in the vicinity of the central slit-shaped gap 21, and the precoat agent is applied to the exhaust air EA passing through the central slit-shaped gap 21 by the precoat agent nozzle 11. P is ejected. ... (Conventional example 3)
- a vertical plate 22 surrounding the filter 8 together with the guide plate 20 is suspended from the front end of the guide plate 20, and the lower end edge of the vertical plate 22 and the exhaust gas are exhausted.
- a bottom slit-like gap 23 is formed between the bottom of the chamber 4.
- the bottom slit-like gap 23 is also a gap extending in the booth longitudinal direction.
- the precoat agent nozzle 11 is disposed on the back side of the vertical plate 22 in the vicinity of the bottom slit-like gap 23, and the precoat agent P is applied to the exhaust air EA passing through the bottom slit-like gap 23 by the precoat agent nozzle 11. Erupt. ... (Conventional example 4)
- the precoat agent P is jetted against the high-speed flow of the exhaust air EA passing through the central slit-shaped gap 21 and the bottom slit-shaped gap 23. Thereby, the precoat agent P is uniformly mixed with the exhaust air EA by stirring with the high-speed flow of the exhaust air EA, and then the exhaust air EA is passed through the filter 8.
- the filter device is often required to have a rectangular shape or a slit shape in the inlet portion of the filter device extending in the lateral width direction. This is because, for example, the gas to be processed that flows in from the inflow port passes uniformly through the filter in the apparatus case.
- the filter device attached to the painting booth found in Patent Document 4 and the filter device attached to the simple painting booth found in Patent Document 5 (demister device) the exhaust air from the painting chamber is removed from the painting chamber. This is for allowing the filter device to flow uniformly and smoothly over the entire width.
- the coating booths of Conventional Example 3 and Conventional Example 4 also have the same problem (especially in the case of Conventional Example 4, the problem with the filter device described above substantially). Equivalent to that). That is, in order to uniformly mix the precoat agent P ejected from the precoat agent nozzle 11 in the booth longitudinal direction with respect to the exhaust air EA passing through the central slit-like gap 21 and the bottom slit-like gap 23 extending in the booth longitudinal direction. In addition, it is necessary to arrange a large number of precoat agent nozzles 11 in the booth longitudinal direction at as small intervals as possible. For this reason, there is also a problem that the apparatus becomes complicated and the apparatus cost increases.
- the main problem of the present invention is to effectively solve the above problems by adopting a rational stirring and mixing method for the precoat agent ejected from the precoat agent nozzle.
- a first characteristic configuration of the present invention relates to a filter device,
- the apparatus case is provided with a filter, and an inflow port for a gas to be treated containing an adhesive substance to be collected is provided in the apparatus case, and the gas to be processed flows into the inflow port from there into the apparatus case
- a filter device in which a precoat agent nozzle for ejecting a powdery precoat agent for a filter together with a gas is disposed, Provided in the side of the device case as a slit or rectangular opening extending in the width direction the inlet portion, On the upper edge portion of the inflow port portion, a recess for retention having a cross-sectional shape opening downward in the longitudinal direction of the inflow port portion is formed continuously in the longitudinal direction of the inflow port portion, In the predetermined place in the longitudinal direction of the inflow port portion, the precoat agent nozzle is arranged in a state in which the precoat agent and gas are ejected toward the inner surface of the back portion of the retention recess.
- the powdery precoat agent is ejected together with the gas from the precoat agent nozzle toward the inner surface of the inner portion of the retention recess, so that the flow of the gas to be treated at the inlet port In combination with passing through the vicinity of the opening surface portion of the downward opening, it is possible to cause vortex retention of the gas accompanied by the jetted precoat agent in the retention recess for an appropriate time. Due to this vortex-like residence, the precoat agent can be diffused from the location where the precoat agent nozzle is disposed in the longitudinal direction (lateral width direction) of the inflow port portion with stirring, in the retention recess that is continuous in the longitudinal direction of the inflow port portion. it can.
- the precoat agent can be mixed with the gas to be treated in this intake form.
- a precoat agent can be mixed with the to-be-processed gas which flows in in an apparatus case from an inflow port part in the uniform dispersion state in the longitudinal direction of an inflow port part.
- the inflow port portion has a slit-like or rectangular opening extending in the width direction according to various demands
- a large number of precoat agent nozzles are arranged in the width direction of the inflow port portion at a small interval ( It is possible to avoid juxtaposition in the longitudinal direction. That is, it is sufficient to provide only one precoat agent nozzle for the inlet portion, or even if the precoat agent nozzles are juxtaposed in the width direction of the inlet portion, the juxtaposition interval is increased to effectively increase the number of juxtapositions. Can be reduced.
- various shapes such as an arc shape and a polygonal shape can be adopted as the specific shape of the retention recess in the longitudinal direction of the inlet port, and the flow rate of the gas to be processed and the material of the precoat agent And so on.
- the second feature configuration of the present invention specifies an embodiment suitable for the implementation of the first feature configuration.
- the upstream edge of the retention recess in the direction of passage of the gas to be processed at the inlet port is an upstream drooping wall in a vertical posture.
- the precoat agent and the gas in the diffusion state reaching the upstream end of the retention recess in the direction of the gas to be treated in the vortex retention in the retention recess are caused to flow downward by the upstream drooping wall in the vertical posture.
- the precoat agent can be positively merged with the flow of the gas to be processed at the upstream portion of the inlet portion by the downward guide by the upstream drooping wall.
- the precoat agent can be mixed with the gas to be processed in a state in which the precoat agent is also effectively dispersed in the height direction (short side direction) of the inlet, and the precoat agent distribution of the gas to be processed that passes through the filter Can be made more uniform.
- the third feature configuration of the present invention specifies an embodiment suitable for the implementation of the first or second feature configuration.
- the downstream edge of the retention recess in the direction of passage of the gas to be processed at the inflow port is a downstream drooping wall in a vertical posture.
- the precoat agent can be actively merged with the flow of the gas to be treated at the downstream portion of the inlet portion by the downward guidance by the downstream drooping wall.
- the precoat agent can be mixed with the gas to be processed in a state in which the precoat agent is also effectively dispersed in the height direction (short side direction) of the inlet, and the precoat agent distribution of the gas to be processed that passes through the filter Can be made more uniform.
- the bottom portion facing the retention recess is formed continuously at the lower edge portion of the inlet portion in the longitudinal direction of the inlet portion, the following effect is also obtained. be able to.
- the downward flow formed by the guide by the upstream drooping wall or the downstream drooping wall ensures that an appropriate partial amount of the precoat agent to be mixed with the flow of the gas to be treated at the inflow port is the inflow port.
- a precoat agent layer can be formed on the bottom.
- the downward flow formed by the guide by the downstream drooping wall causes a part of the precoat agent to reach the downstream portion of the inclined wall and along the inclined bottom of the downward flow after reaching the downstream portion of the inclined wall.
- the pre-coating agent that reaches the downstream portion of the inclined wall can be held in a state of spreading on the inclined bottom by the reverse flow component to the upstream side (that is, the airflow component that runs up the inclined bottom).
- the fourth feature configuration of the present invention specifies an embodiment suitable for the implementation of any of the first to third feature configurations.
- the precoat agent nozzle is disposed in a state in which the ejection center axis is obliquely intersected with the inner surface of the inner portion of the recess for retention.
- the vortex-like residence in the recess for retaining the precoat agent and gas ejected from the precoat agent nozzle is guided by the inner surface of the inner part obliquely intersecting the ejection center axis of the precoat agent nozzle. Can be promoted. Thereby, the spreading
- the following arrangement can be adopted in order to obliquely intersect the ejection center axis of the precoat agent nozzle with the inner surface of the back portion of the retention recess. That is, an arrangement configuration in which the ejection center axis of the precoat agent nozzle is inclined with respect to the vertical direction, or an arrangement configuration in which the inner surface of the back portion of the retention recess is inclined with respect to the horizontal, or an ejection center axis of the precoat agent nozzle Any arrangement may be employed in which the core is inclined with respect to the vertical direction and the inner surface of the inner portion of the retention recess is inclined with respect to the horizontal.
- the fifth characteristic configuration of the present invention specifies an embodiment suitable for any of the first to fourth characteristic configurations, and the characteristic is as follows:
- the jet port of the precoat agent nozzle is disposed closer to the downstream side than the central portion of the retention recess in the direction of passage of the gas to be processed at the inlet.
- the swirl-like staying region formed in the staying recess by the ejection of the precoat agent and gas from the precoat agent nozzle is upstream of the downstream part of the staying recess in the gas passage direction.
- a large portion can be formed in the portion (that is, the portion between the upstream end of the retention recess and the precoat agent nozzle).
- a sixth characteristic configuration of the present invention is an inclined bottom that faces the lower edge portion of the inflow port portion with respect to the retention recess and becomes lower toward the downstream side in the passage direction of the gas to be processed in the inflow port portion. Is formed continuously in the longitudinal direction of the inlet portion.
- the inclined wall is inclined and the above-described bottom portion is In the case where there is a precoat agent layer, in combination with the adhesion preventing effect of the precoat agent layer, it is possible to quickly remove the deposit in the mixed state to the inside of the apparatus case. Thereby, the operation of the filter device can be maintained favorably and stably.
- the seventh feature configuration of the present invention specifies an embodiment suitable for the implementation of the sixth feature configuration.
- Arranging the downstream edge of the retention recess in the direction of passage of the gas to be processed at the inlet port at a position lower than the upstream edge Arranging the downstream opening formed between the downstream edge of the retention recess and the downstream edge of the inclined bottom located below the upstream recess is the upstream edge of the retention recess. And a state that is lower than the upstream opening formed between the upstream edge of the inclined bottom located below and the inclined bottom, The filter is disposed at a position higher than the downstream opening inside the device case.
- the gas to be treated is greatly changed in the direction from the obliquely downward direction to the upward direction, after passing the gas to be treated obliquely downward from the high-order upstream opening to the downstream downstream opening. It can be passed through a filter higher than the downstream opening of the inflow port. That is, this large change in direction can further promote the diffusion of the precoat agent mixed with the gas to be processed in the gas to be processed in the process of passing through the inflow port, thereby allowing the gas to be processed to pass through the filter.
- the precoat agent distribution can be made more uniform.
- the eighth characteristic configuration of the present invention specifies an embodiment suitable for the implementation of the sixth or seventh characteristic configuration.
- the upstream edge of the inclined bottom in the direction of passage of the gas to be treated at the inlet is an upstream rising wall in a vertical posture rising toward the upstream edge of the retention recess. It is in.
- the passing air speed of the gas to be treated is suppressed by the presence of the retention recess (especially the presence of the upstream end edge of the retention recess) at the upper edge of the inlet.
- the gas to be treated is also formed on the lower edge side (that is, the inclined bottom side) of the inlet portion.
- the passing wind speed can be suppressed. This makes it possible to balance the flow velocity of the gas to be processed at the inlet portion, so that the gas to be processed flows into the apparatus case through the inlet portion and the gas to be processed at the inlet portion.
- the pre-coating agent can be mixed smoothly and stably.
- the ninth feature configuration of the present invention specifies an embodiment suitable for any one of the first to eighth feature configurations, and the feature is: While arranging the filter at a position higher than the inlet port inside the device case, Provided below the filter at a position lower than the inlet part is a delivery means for transporting the falling mixture that has been peeled off from the filter and dropped in the longitudinal direction of the inlet part to the outside of the apparatus case. There is a point.
- a collected deposit layer composed of a mixture of an adhesive collection target contained in the gas to be processed and a precoat agent mixed with the gas to be processed is formed on the filter surface.
- the mixture that forms the collected sediment layer is separated from the filter by an appropriate means, and the filter is regenerated.
- the mixture that falls due to the separation during the regeneration of the filter and the mixture that naturally falls off the filter during the normal operation can be carried out of the apparatus case by the carrying-out means. .
- the precoat agent that falls can be carried out of the apparatus case together with the dropped mixture peeled off from the filter by the carrying-out means. In this respect, the maintenance of the filter apparatus can be facilitated.
- the tenth characteristic configuration of the present invention specifies an embodiment suitable for the implementation of the ninth characteristic configuration.
- a rising prevention guide plate is provided in a horizontal posture from the lower edge of the inflow port to the unloading means.
- the gas flow prevention guide plate guides the air flow to the processing target gas that has passed through the inflow port, so that the air flow of the processing gas that has passed through the inflow port has an influence on the carry-out means. It is possible to prevent the gas to be treated from being changed in the upward direction and to be directed to the filter in a state in which the influence on the carry-out means is prevented.
- the eleventh characteristic configuration of the present invention relates to a painting booth using the filter device according to any of the first to tenth characteristic configurations,
- a painting booth in which an exhaust chamber is provided below a painting chamber for painting an object to be coated, and exhaust air containing paint mist discharged downward from the coating chamber is received in the exhaust chamber,
- a plurality of the filter devices are arranged side by side in the booth longitudinal direction, and the inlet portions of these filter devices are arranged in a row in the booth longitudinal direction so as to be opened to the interior of the exhaust chamber.
- a large amount of exhaust air from the coating chamber flowing into the exhaust chamber can be stably supplied in a uniform airflow state in the booth longitudinal direction by suction by the inlet portions arranged in a row in the booth longitudinal direction. It can reach the inflow port of each filter device, and the large amount of exhausted air can be flowed as the gas to be processed without being biased into each of the filter devices arranged in the booth longitudinal direction. Thereby, the paint mist as a collection object substance contained in the exhaust air with a large air volume from the coating chamber can be collected smoothly and efficiently by the filter device.
- the precoat agent ejected from the precoat agent nozzle is discharged in the longitudinal direction of the inlet portion (that is, the booth length) by the retention recess formed at the upper edge portion of the inlet portion as described above. Direction) and can be mixed with the gas to be treated (that is, the exhaust air) passing through the inlet portion.
- the gas to be treated that is, the exhaust air
- the required number of precoat agent nozzles can be greatly reduced compared to the painting booth found in 15). Therefore, the structure of the painting booth can be simplified as a whole painting booth including the filter device, the equipment cost of the painting booth can be reduced, and the painting booth can be easily maintained.
- the twelfth feature configuration of the present invention specifies an embodiment suitable for the implementation of the eleventh feature configuration.
- the inflow ports are arranged in a row in the booth longitudinal direction at the bottom of the exhaust chamber.
- the inflow ports arranged in a row are positioned at the bottom of the exhaust chamber, so that a large amount of exhaust air flowing downward from the coating chamber into the exhaust chamber is directed horizontally by the bottom wall of the exhaust chamber.
- the air can be smoothly guided to the inflow port portion of each filter device in a state where the air flow is guided.
- the thirteenth feature configuration of the present invention specifies an embodiment suitable for the implementation of the eleventh or twelfth feature configuration.
- the filter device is arranged adjacent to the exhaust chamber in the booth longitudinal direction, and the inlet portion of the filter device is formed on the side wall of the exhaust chamber.
- the filter device is installed at a position away from the painting booth and the inlet part of the filter device and the exhaust chamber are connected to each other with a long length. Compared to communicating through a duct, maintenance of the connecting duct can be made unnecessary, and in this respect, a painting booth having excellent maintainability can be obtained.
- each filter device is adjacent to the exhaust chamber having a width substantially the same as the coating chamber, or adjacent to the exhaust chamber narrower than the coating chamber.
- various installation forms can be employed for the filter device, such as an installation form in which each filter device is inserted into a recess formed in the booth longitudinal direction on the lateral side outside the exhaust chamber and below the coating chamber.
- a fourteenth characteristic configuration of the present invention relates to a simple painting booth using a filter device according to any one of the first to tenth characteristic configurations,
- the filter device is disposed adjacent to a coating chamber for spraying and painting an object to be coated, and the inlet portion of the filter device is formed on the side wall of the coating chamber at the bottom of the coating chamber.
- room air containing floating paint mist generated by overspraying in the painting chamber is caused to flow into the filter device as the gas to be treated through the inlet port formed on the side wall of the bottom of the painting chamber.
- the paint mist as a collection object substance contained in the air namely, exhaust air
- the precoat agent ejected from the precoat agent nozzle is effectively dispersed in the longitudinal direction of the inlet portion by the retention recess formed at the upper edge of the inlet portion.
- the gas to be treated that is, the exhausted air
- the number of necessary precoat agent nozzles can be greatly reduced. Therefore, as a whole simple paint booth including the filter device, it is possible to reduce the equipment cost of the simple paint booth while requiring the equipment of the precoat agent nozzle, and to make the simple paint booth easy to maintain. .
- the filter device is adjacent to the painting chamber and the inlet portion of the filter device is formed directly on the side wall of the painting chamber, the original compactness of the simple painting booth can be maintained as it is.
- FIG. 1 is a cross-sectional view of a painting booth showing the first embodiment.
- 2 is a side sectional view of the painting booth shown in FIG.
- FIG. 3 is an enlarged view of the main part.
- FIG. 4 is a cross-sectional view of a painting booth showing the second embodiment.
- FIG. 5 is a cross-sectional view of a simple coating booth showing the third embodiment.
- FIG. 6 is an enlarged view of a main part showing another embodiment.
- FIG. 7 is a side sectional view showing a conventional painting booth.
- FIG. 8 is a side sectional view showing another conventional painting booth.
- FIG. 1 and FIG. 2 show a painting booth.
- a painting chamber 2 for painting the article 1 (the automobile body in this example) with a painting gun is formed.
- the painting chamber 2 has a tunnel-like room shape extending in the conveying direction of the article 1 (the depth direction in FIG. 1).
- the coating room 2 has ventilation air that is adjusted in temperature and humidity for the entire tunnel-like room.
- SA is supplied from the ceiling 2a.
- an exhaust chamber 4 is formed extending in the conveying direction of the article 1 as in the painting chamber 2, and this exhaust chamber 4 is painted along with the supply of ventilation air SA to the painting chamber 2.
- the exhaust air EA discharged downward from the chamber 2 through the lattice floor 2b is received.
- the exhaust air EA contains floating paint mist generated by overspraying in the painting chamber 2, and as the ventilation air SA is supplied from the ceiling portion 2a of the painting chamber 2, the painting chamber 2 is in a piston flow. Indoor air EA is discharged to the lower exhaust chamber 4. As a result, the floating paint mist generated in the coating chamber 2 is quickly and reliably removed from the coating chamber 2 to keep the coating quality of the object 1 to be high and to keep the working environment of the coating chamber 2 favorable.
- a filter device 5 is juxtaposed in the longitudinal direction of the painting booth, which is the conveying direction of the article 1, on both sides of the exhaust chamber 4 having substantially the same width as the painting chamber 2.
- the exhaust air EA from the chamber 2 is subsequently passed through these filter devices 5 so that the paint mist contained in the exhaust air EA is collected by the filter device 5 to purify the exhaust air EA.
- the exhaust air EA purified by the filter device 5 is discharged to the outside by the exhaust fan 7 through the exhaust duct 6 connected to the upper part of each filter device 5 (or returned to the painting chamber 2 through the air conditioner as ventilation air SA). .
- each filter device 5 a plurality of bag filters 8 arranged in a vertical state in a suspended posture are internally provided in the device case 9, and below the internal bag filter 8 and below the side wall 9 a of the device case 9 in the lateral width direction.
- Two inflow port portions 10 each having an elongated slit shape or a rectangular shape (hereinafter collectively referred to as slit shapes) are formed, and these two inflow port portions 10 are formed in a line in the lateral width direction. .
- the exhaust case EA is discharged from the exhaust chamber 4 through the slit-like inlet 10 by the suction force. 9 is allowed to flow through the bag filter 8, whereby the paint mist in the exhaust air EA, which is the material to be collected, is collected by the bag filter 8.
- the inlet 10 is equipped with the precoat agent nozzle 11, and the inlet 10 The powdered precoat agent P is mixed with the exhausted air EA passing through.
- this precoat layer is a deposited layer of the precoat agent P in which the paint mist in the exhaust air EA is mixed in a dispersed state.
- the filter devices 5 are juxtaposed in the booth longitudinal direction while being adjacent to both sides of the exhaust chamber 4, and the slit-shaped inlet portions 10 of the filter devices 5 are arranged in a row in the booth longitudinal direction.
- the two side walls 4 a are formed at the lower end portions of the two side walls 4 a and are opened in the exhaust chamber 4 at the bottom of the exhaust chamber 4.
- the exhaust air EA flowing downward from the coating chamber 2 into the exhaust chamber 4 is divided into two flows in the booth width direction as indicated by arrows in the figure, and each of the two flows of exhaust air EA is uniform in the booth longitudinal direction.
- the air is smoothly guided laterally outward by the bottom wall 4 b of the exhaust chamber 4, and sucked into the slit-like inlet portions 10 of the respective filter devices 5 without being biased.
- a retaining recess 12 having a cross-sectional shape that opens downward in the longitudinal direction of the inlet 10 is formed at the upper edge of each inlet 10 of the filter device 5.
- the concave portion 12 is formed continuously in the longitudinal direction (lateral width direction) of the inflow port portion 10.
- the upstream end edge of the retention recess 12 is an upstream drooping wall 12 a in a vertical posture continuous with the side wall 4 a of the exhaust chamber 4.
- the downstream edge of the retention recess 12 is a vertical drooping wall 12b in a vertical posture that is generally continuous with the side wall 9a of the device case 9.
- an inclined bottom 13 is provided at the lower edge portion of the inlet portion 10 so as to face the retention recess 12 at the upper edge portion and lower toward the downstream side in the passage direction of the exhaust air EA at the inlet portion 10.
- the inclined bottom 13 is also formed continuously in the longitudinal direction (lateral width direction) of the inlet portion 10. And in the passage direction of the exhaust air EA at the inlet 10, the upstream edge of the inclined bottom 13 becomes an upstream rising wall 13 a in a vertical posture rising toward the upstream edge 12 a of the retention recess 12. It is.
- downstream drooping wall 12b which is the downstream edge of the retention recess 12
- the upstream drooping wall 12a which is the upstream edge, and thereby the downstream end of the retention recess 12
- the downstream opening 10b formed between the edge portion 12b and the downstream end edge portion 13b of the inclined bottom 13 positioned below the edge portion 12b is inclined upstream of the upstream end edge portion 12a of the retention recess 12 and below it. It is in a state of being positioned lower than the upstream side opening 10a formed between the upstream side edge portion 13a of the bottom 13.
- the precoat agent nozzle 11 that ejects the precoat agent P together with the compressed air is directed toward the inner surface of the back of the retention recess 12 at the center in the longitudinal direction of each inlet 10. It arrange
- the precoat agent P is diffused in the longitudinal direction (lateral width direction) of the inflow port portion 10 in the retention recesses 12 that are continuous in the longitudinal direction of the inflow port portion 10 with stirring due to vortex retention. Then, the diffused precoat agent P is gradually taken into the passing flow of the exhaust air EA in the inlet portion 10 so that the precoat agent P is uniformly dispersed in the longitudinal direction of the inlet port 10 with respect to the exhaust air EA. Mix.
- the flow velocity of the exhaust air EA is equalized in the vertical direction of the inflow port 10 by the upstream hanging wall 12a of the retention recess 12 and the upstream rising wall 13a of the inclined bottom 13, and in this state, the retention recess 12
- the upstream-side drooping wall 12a and the downstream-side drooping wall 12b guide the precoat agent P in the diffusing state in the retention recess 12 downward together with air.
- the precoat agent P is effectively dispersed also in the height direction (short side direction) of the inlet portion 10.
- a part of the precoat agent P is formed on the inclined bottom 13 by the reverse flow component upstream along the inclined bottom 13 after reaching the inclined wall 13 of the downward flow formed by the guide by the downstream drooping wall 12b.
- the precoat agent layer that keeps the expanded state and prevents the coating mist from adhering to the inclined bottom 13 is stably maintained on the inclined bottom 13.
- the downstream side opening 10b of the inflow port portion 10 is lower than the upstream side opening 10a, the exhaust air EA that has passed through the inflow port portion 10 obliquely downward is greatly changed in direction from obliquely downward to upward. Therefore, the diffusion of the precoat agent P mixed with the exhaust air EA in the exhaust air EA is further promoted.
- the ejection port 11a of the precoat agent nozzle 11 is disposed at a position closer to the downstream side than the central portion of the retention recess 12 in the passage direction of the exhaust air EA at the inflow port portion 10, and is disposed substantially vertically upward.
- the portion of the back inner surface of the retention recess 12 where the precoat agent P and the compressed air are blown is an inclined surface 12c in a posture substantially parallel to the inclined bottom 13, and the precoat agent nozzle 11 is in contact with the inclined surface 12c.
- the ejection center axis is in an oblique state.
- this oblique arrangement prevents the precoat agent P ejected from the precoat agent nozzle 11 from adhering and accumulating on the inner surface of the back portion of the retention recess 12. Further, the above-described vortex-like staying area is formed mainly in the upstream portion of the staying recess 12 so that the location where the precoat agent P is mixed into the exhaust air EA passing through the inflow port 10 is defined as the staying recess 12. To ensure the diffusion time after mixing.
- a belt conveyor 14 is provided as a carry-out means below the bag filter 8 and below the downstream opening 10 b of the inlet 10.
- a belt conveyor 14 is provided as a carry-out means below the bag filter 8 and below the downstream opening 10 b of the inlet 10.
- the collected deposit that peels off from the collecting surface of the bag filter 8 that is, the mixture of the paint mist and the precoat agent P
- the precoat agent P and the paint mist are combined in the process of reaching the bag filter 8.
- the fallen objects generated in this manner are conveyed in the booth longitudinal direction while being received by the belt conveyor 14 and are carried out of the filter devices 5.
- reference numeral 19 denotes a recovery hopper that receives the output from the belt conveyor 14, and the output received in the recovery hopper 19 is sent to a predetermined recovery unit by air conveyance or the like.
- a peeling device 15 that jets compressed air in a pulsed manner is provided near the upper portion of the bag filter 8. That is, when the collected matter accumulation layer on the bag filter collecting surface made of the mixture of the paint mist and the precoat agent P grows to some extent, the peeling device 15 compresses each bag filter 8 from the downstream side in the air passing direction. The air is caused to act in a pulse manner, whereby the collected material accumulation layer is forcibly separated from the collecting surface of the bag filter 8 and dropped onto the belt conveyor 14.
- a guide plate 16 for preventing rising is continuously provided from the downstream end of the inclined bottom 13 in the inflow port portion 10 so as to project in a horizontal posture to an upper region of the belt conveyor 14. That is, the exhaust air EA that has passed through the inflow port 10 is directed to the upper bag filter 8 under the guidance of the soaring prevention guide plate 16, so that the light powder of the fallen mixture on the belt conveyor 14. The minute is prevented from being raised by the exhaust air EA.
- FIG. 4 shows a painting booth in which the painting booth according to the first embodiment is improved.
- the width of the exhaust chamber 4 is made smaller than the width of the painting chamber 2, and both sides of the exhaust chamber 4 are arranged.
- a depression 17 is formed below the coating chamber 2.
- the filter device 5 is juxtaposed in the booth longitudinal direction in a state where the filter device 5 is adjacent to the exhaust chamber 4 in the hollow portion 17. Similar to the coating booth of the first embodiment, the slit-like inlet portion 10 of these filter devices 5 is formed at the lower end of each side wall 4a of the exhaust chamber 4 in a state of being arranged in a row in the booth longitudinal direction. 4 is opened in the exhaust chamber 4 at the bottom.
- FIG. 5 shows a simple painting booth.
- the side wall located on the opposite side of the side of the coating gun 18 from the side where the coating gun 18 is disposed, among the side walls of the painting chamber 2 where the article 1 is painted.
- the filter device 5 is adjacent to the coating chamber 2 in a form in which 2 c is shared as one side wall of the device case 9 in the filter device 5.
- the inlet portion 10 of the filter device 5 having a slit shape extending in the lateral width direction is formed at the lower end portion of the common side wall 2c and is opened at the bottom portion of the coating chamber 2.
- the filter device 5 basically, the exhaust air EA sucked into the device case 9 from the coating chamber 2 through the slit-like inlet 10 is changed upward as in the filter device shown in the first embodiment.
- the bag filter 8 By passing through the bag filter 8, the paint mist in the exhaust air EA is collected by the bag filter 8.
- a retention recess 12 having substantially the same structure as that shown in FIG. 3 is formed in the upper edge portion so as to be continuous in the longitudinal direction (lateral width direction) of the inlet 10.
- a precoat agent nozzle 11 that ejects the precoat agent P together with compressed air toward the inner surface of the inner portion of the retention recess 12 is disposed in the center in the longitudinal direction (lateral width direction) of the inflow port portion 10.
- stagnation of the pre-coating agent P ejected from the pre-coating agent nozzle 11 is caused by causing the stagnation of the stay recess 12 to flow.
- 10 is mixed with the exhaust air EA passing through the inlet 10 in a state of being diffused in the longitudinal direction, And by this, while reducing the required number of precoat agent nozzles 11, the distribution of the precoat agent P in the exhaust air EA directed toward the bag filter 8 is changed in the longitudinal direction of the inlet portion 10 (in other words, Effectively uniform in the width direction of the coating chamber 2).
- a collection container 20 is provided at the bottom of the device case 9, and collected deposits (mixed deposits of paint mist and precoat agent P) that are peeled off from the collection surface of the bag filter 8 and dropped are collected in this collection container. 20 is received and accommodated.
- the filter device 5 is arranged adjacent to the exhaust chamber 4 and the coating chamber 2, and the inlet 10 of the filter device 5 is formed on the side wall 4 a of the exhaust chamber 4 and the side wall 2 c of the coating chamber 2.
- the side wall 9 a of the device case 9 is adjacent to the side wall 4 a of the exhaust chamber 4 and the side wall 2 c of the coating chamber 2, or the side wall 4 a of the exhaust chamber 4 and the side wall 2 c of the coating chamber 2. Any of the adjacent installation forms that share the same as the side wall 9a of the device case 9 in the filter device 5 may be adopted.
- the concrete cross-sectional shape in the inlet-portion longitudinal direction has various structure changes, such as various polygonal shapes and arc shape. Is possible. Further, as shown in FIGS. 6 (a) and 6 (b), a shape in which a recess is further provided in the back of the staying recess 12 or an inner surface of the back of the staying recess 12 as shown in FIG. 6 (c). You may employ
- the position of the precoat agent nozzle 11 is inclined with respect to the inner surface of the back portion of the retention recess 12.
- Various postures that intersect or cross each other can be adopted, and the precoat agent nozzle 11 may be arranged in the postures shown in FIGS.
- the specific cross-sectional shape and structure in the longitudinal direction thereof are not limited to the shape and structure shown in the above-described embodiment, and the retaining recess provided in the upper edge portion. 12 can be changed in various ways in relation to In some cases, the upstream opening 10a and the downstream opening 10b may be arranged at the same height, and conversely, the downstream opening 10b may be arranged at a higher position than the upstream opening 10a. Moreover, you may make the lower edge part of the inflow port part 10 into the cut edge of a mere vertical board without a bottom wall.
- Examples of the precoat agent P include calcium carbonate powder, caustic soda powder, slaked lime powder, calcium hydroxide powder, calcium silicate powder, zeolite powder, rock powder, aluminum oxide powder, silicon oxide powder, Various powdery substances, such as powder paints, can be used depending on the adhesive substance to be collected. Among them, those that can reduce the tackiness of the substance to be collected by combining with a substance to be collected such as paint mist, and those that have a deodorizing effect, a sterilizing effect, and the like are preferable.
- the gas to be treated containing the substance to be collected is not limited to air but may be any gas.
- the filter 8 installed in the device case 9 is not limited to a bag filter, and various types of filters such as a pleat shape, a flat plate shape, and a box shape can be adopted depending on the substance to be collected and the precoat agent P.
- a deposition layer of only the spray precoat agent P is formed in advance on the collection surface of the filter 8 prior to collection of the collection target substance.
- a driving method may be employed.
- the filter device according to the present invention can be used not only for collecting paint mist but also for collecting sticky collection objects in various fields.
- the painting booth and the simple painting booth according to the present invention can be used for painting various objects such as automobile bodies, automobile parts, cases of household electrical appliances and various steel materials.
- the present invention can be used in various fields where it is necessary to collect sticky collection objects such as painting equipment.
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Abstract
Description
このフィルタ装置では、装置ケースにフィルタを内装し、また、塗料ミストや油ミストなどの粘着性の捕集対象物質を含む被処理ガスの流入口部を装置ケースに設ける。
そして、この流入口部にプリコート剤ノズルを配置する。このプリコート剤ノズルは、流入口部から装置ケース内に流入する被処理ガスに対して粉体状のフィルタ用プリコート剤を気体とともに噴出する。
ところで従来、特許文献1の第1図に見られるフィルタ装置では、装置ケースを形成する板材に流入口部として単純な円形や角形の開口を形成し、この開口部分にプリコート剤ノズルを装置ケース内に向けるなどの姿勢で配置している。………(従来例1)
また、この排気室4を上下に仕切る姿勢の一対の案内板20を設け、これら一対の案内板20の先端縁どうしの間に中央スリット状間隙21を形成してある。
この中央スリット状間隙21はブース長手方向(即ち、塗装室2での被塗物搬送方向)に延びる間隙である。
プリコート剤ノズル11は、中央スリット状間隙21の近傍で案内板20の下面側に配置してあり、このプリコート剤ノズル11により、上記中央スリット状間隙21を通過する排出空気EAに対してプリコート剤Pを噴出する。………(従来例3)
プリコート剤ノズル11は、底部スリット状間隙23の近傍で縦板22の裏面側に配置してあり、このプリコート剤ノズル11により、底部スリット状間隙23を通過する排出空気EAに対してプリコート剤Pを噴出する。………(従来例4)
これにより、その排出空気EAの高速流による攪拌をもってプリコート剤Pを排出空気EAに対して均一に混合し、その上で、その排出空気EAをフィルタ8に通過させる。
これは、流入口部から流入する被処理ガスを装置ケース内のフィルタに対して均一に通過させるなどのためである。
あるいはまた、特許文献4に見られる塗装ブースに付属のフィルタ装置や、特許文献5に見られる簡易塗装ブースに付属のフィルタ装置(デミスタ装置)のように、塗装室からの排出空気を塗装室の全幅にわたって均一かつ円滑にフィルタ装置に流入させるなどのためである。
つまり、横幅方向に長い流入口部から流入する被処理ガスに対してプリコート剤ノズルからの噴出プリコート剤が流入口部の横幅方向で均一に分散されない。この為、フィルタに通過させる被処理ガスにおけるプリコート剤の分布が偏ったものになり、これが原因で、フィルタにおけるプリコート層の形成が不良になってしまう。
つまり、ブース長手方向に延びる中央スリット状間隙21や底部スリット状間隙23を通過する排出空気EAに対して、プリコート剤ノズル11からの噴出プリコート剤Pをブース長手方向で均一に混合するためには、プリコート剤ノズル11をブース長手方向にできるだけ小さい間隔で多数並置することが必要になる、この為、やはり装置が複雑になるとともに装置コストが嵩む問題が生じる。
装置ケースにフィルタを内装するとともに、粘着性の捕集対象物質を含む被処理ガスの流入口部を前記装置ケースに設け、この流入口部に、そこから前記装置ケース内に流入する被処理ガスに対して粉体状のフィルタ用プリコート剤を気体とともに噴出するプリコート剤ノズルを配置してあるフィルタ装置であって、
前記流入口部を横幅方向に延びるスリット状又は長方形状の開口部にして前記装置ケースの側面部に設け、
この流入口部の上縁部に、前記流入口部の長手方向視で下向きに開口する断面形状の滞留用凹部を前記流入口部の長手方向に連続させて形成し、
前記流入口部の長手方向における所定箇所において、前記プリコート剤ノズルを前記滞留用凹部の奥部内面に向けてプリコート剤及び気体を噴出する状態に配置してある点にある。
この渦流的な滞留により、流入口部の長手方向に連続する滞留用凹部において、攪拌を伴いながらプリコート剤をプリコート剤ノズルの配置箇所から流入口部の長手方向(横幅方向)へ拡散させることができる。
これにより、流入口部から装置ケース内に流入する被処理ガスに対してプリコート剤を流入口部の長手方向において均一な分散状態に混合することができる。
即ち、流入口部に対して1つのプリコート剤ノズルを設けるだけで済ませる、あるいは、プリコート剤ノズルを流入口部の横幅方向に並置するにしても、並置間隔を大きくして並置数を効果的に削減することができる。
そして、この上流側垂れ壁による下向きへの案内により、プリコート剤を流入口部の上流側部分で被処理ガスの通過流に積極的に合流させることができる。
前記流入口部における被処理ガスの通過方向で前記滞留用凹部の下流側の端縁部を縦姿勢の下流側垂れ壁にしてある点にある。
そして、この下流側垂れ壁による下向きへの案内により、プリコート剤を流入口部の下流側部分で被処理ガスの通過流に積極的に合流させることができる。
つまり、上流側垂れ壁や下流側垂れ壁による案内で形成する下向き流により、流入口部における被処理ガスの通過流に対して混合するプリコート剤のうちの適当な一部量を確実に流入口部の上記底部に至らせることができ、そのことで、底部上にプリコート剤層を形成することができる。
これにより、被処理ガス中に含まれる粘着性の捕集対象物質が流入口部の底部に付着堆積することをその底部上のプリコート剤層により効果的に防止することができる。
つまり、下流側垂れ壁による案内で形成する下向き流により、プリコート剤の一部を傾斜壁の下流側部分に至らせるとともに、傾斜壁の下流側部分に至った後の下向き流の傾斜底に沿った上流側への反転流成分(即ち、傾斜底を駆け上る気流成分)により、傾斜壁の下流側部分に至ったプリコート剤を傾斜底上に拡げた状態にして保持することができる。
これにより、流入口部の底部を傾斜底にしながらも、その傾斜底上に形成する付着防止用のプリコート剤層を安定的に維持することができる。
前記プリコート剤ノズルを、その噴出中心軸芯が前記滞留用凹部の奥部内面に対して斜交する状態に配置してある点にある。
これにより、被処理ガスの湿度が高い場合やプリコート剤の凝固性が高い場合などでも滞留用凹部でのプリコート剤の拡散を安定的かつ良好に維持することができる。
これにより、滞留用凹部でのプリコート剤の流入口部長手方向への拡散を一層促進することもできる。
つまり、プリコート剤ノズルの噴出中心軸芯を鉛直方向に対して傾斜させる配置形態、又は、滞留用凹部の奥部内面を水平に対して傾斜させる配置形態、あるいはまた、プリコート剤ノズルの噴出中心軸芯を鉛直方向に対して傾斜させるとともに滞留用凹部の奥部内面を水平に対して傾斜させる配置形態のいずれを採用してもよい。
前記流入口部における被処理ガスの通過方向で前記プリコート剤ノズルの噴出口を前記滞留用凹部の中央部よりも下流側寄りに配置してある点にある。
これにより、流入口部を通過する被処理ガスに対してプリコート剤を混入する箇所を被処理ガス通過方向において滞留用凹部の上流端側へ偏らせることができる。
これにより、フィルタ装置の運転を良好かつ安定的に維持することができる。
前記流入口部における被処理ガスの通過方向で前記滞留用凹部の下流側の端縁部を上流側の端縁部より低位置に配置して、
前記滞留用凹部の下流側の端縁部とその下方に位置する前記傾斜底の下流側の端縁部との間に形成される下流側開口が、前記滞留用凹部の上流側の端縁部とその下方に位置する前記傾斜底の上流側の端縁部との間に形成される上流側開口より低位置になる状態にするとともに、
前記装置ケースの内部において前記下流側開口よりも高位置に前記フィルタを配置してある点にある。
即ち、この大きな向き変化により、流入口部の通過過程で被処理ガスに混合したプリコート剤の被処理ガス中での拡散を一層促進することができ、これにより、フィルタに通過させる被処理ガスのプリコート剤分布を一層均一化することができる。
前記流入口部における被処理ガスの通過方向で前記傾斜底の上流側の端縁部を、前記滞留用凹部の上流側の端縁部に向かって立ち上がる縦姿勢の上流側立上り壁にしてある点にある。
これに対し、上記構成によれば、滞留用凹部の上流側の端縁部に向かって立ち上がる上流側立上り壁の存在により、流入口部の下縁側(即ち、傾斜底の側)でも被処理ガスの通過風速を抑制することができる。
このことで、流入口部における被処理ガス通過風速のバランスを採ることができ、これにより、流入口部を通じた装置ケース内への被処理ガスの流入、及び、流入口部での被処理ガスに対するプリコート剤の混合を円滑かつ安定的に保つことができる。
前記装置ケースの内部において前記流入口部よりも高位置に前記フィルタを配置するとともに、
前記フィルタの下方で前記流入口部よりも低位置に、前記フィルタから剥離して落下した落下混合物を前記流入口部の長手方向に搬送して前記装置ケースの外部に搬出する搬出手段を設けてある点にある。
これに対し、上記構成によれば、このフィルタ再生の際の剥離で落下する混合物や、通常運転中において自ずとフィルタから剥離して落下する混合物を搬出手段により装置ケースの外部に搬出することができる。
前記流入口部の下縁部から前記搬出手段の側へ水平姿勢で突出する舞い上がり防止用案内板を設けてある点にある。
従って、プリコート剤ノズルから供給した新鮮なプリコート剤のみが被処理ガスに混合された適切な混合状態で、被処理ガス中における粘着性の捕集対象物質をフィルタにより捕集することができ、また、搬出手段による落下混合物の搬出も確実かつ良好にすることができる。
被塗物を塗装する塗装室の下方に排気室を設け、前記塗装室から下方に排出される塗料ミストを含む排出空気を前記排気室に受け入れるようにした塗装ブースにおいて、
複数の前記フィルタ装置をブース長手方向に並べて配置し、これらフィルタ装置の前記流入口部をブース長手方向に列状に並べた配置で前記排気室の室内に対して開口させてある点にある。
これにより、塗装室からの大風量の排出空気に含まれる捕集対象物質としての塗料ミストを円滑かつ効率的にフィルタ装置で捕集することができる。
これにより、先述の如くブース長手方向に延びる中央スリット状間隙や底部スリット状間隙において多数のプリコート剤ノズルを小さい間隔でブース長手方向に並置する必要がある従来例3,4(特許文献3のFig1,Fig)15)に見られる塗装ブースに比べ、プリコート剤ノズルの必要装備数を大幅に削減することができる。
従って、フィルタ装置を含む塗装ブース全体として、塗装ブースの構造を簡素化することができて、塗装ブースの装置コストを低減することができ、また、メンテナンスも容易な塗装ブースにすることができる。
前記流入口部を前記排気室の底部でブース長手方向に列状に並べて配置してある点にある。
これにより、前記の如く塗装室からの排出空気をブース長手方向において均一な気流状態で安定的に各フィルタ装置の流入口部に向わせ得ることと相俟って、塗装室からの大風量の排出空気を一層円滑かつ効率的にフィルタ装置で処理することができる。
前記フィルタ装置を前記排気室に隣接させてブース長手方向に並べて配置し、これらフィルタ装置の前記流入口部を前記排気室の側壁に形成してある点にある。
被塗物を吹き付け塗装する塗装室に隣接させて前記フィルタ装置を配置し、このフィルタ装置の前記流入口部を前記塗装室の底部で前記塗装室の側壁に形成してある点にある。
これにより、その空気(即ち、排出空気)に含まれる捕集対象物質としての塗料ミストを円滑かつ効率的にフィルタ装置で捕集することができる。
従って、フィルタ装置を含む簡易塗装ブース全体として、プリコート剤ノズルの装備を必要としながらも、簡易塗装ブースの装置コストを低減することができ、また、メンテナンスも容易な簡易塗装ブースにすることができる。
図1,図2は塗装ブースを示し、この塗装ブースでは、被塗物1(本例では自動車ボディ)を塗装ガンにより塗装する塗装室2を形成し、この塗装室2には被塗物1を搬送する搬送装置3を装備してある。
これにより、塗装室2から排気室4に下向きに流入する排出空気EAを図中矢印で示す如くブース横幅方向で2流に分けて、それら2流の排出空気EAの夫々をブース長手方向において均一な気流状態に保って、かつ、排気室4の底部では排気室4の底壁4bにより横外向きに円滑に案内して、各フィルタ装置5のスリット状流入口部10に偏りなく吸入させる。
また、流入口部10における排出空気EAの通過方向において、この滞留用凹部12の上流側の端縁部は排気室4の側壁4aに連なる縦姿勢状態の上流側垂れ壁12aにし、同様に、この滞留用凹部12の下流側の端縁部は装置ケース9の側壁9aに概ね連なる縦姿勢状態の下流側垂れ壁12bにしてある。
そして、流入口部10における排出空気EAの通過方向において、この傾斜底13の上流側端縁部は滞留用凹部12の上流側端縁部12aに向かって立ち上がる縦姿勢の上流側立上り壁13aにしてある。
これにより、渦流的な滞留による攪拌を伴いながらプリコート剤Pを流入口部10の長手方向に連続する滞留用凹部12において流入口部10の長手方向(横幅方向)へ拡散させる。そして、その拡散したプリコート剤Pを流入口部10における排出空気EAの通過流に徐々に取り込ませる形態で、排出空気EAに対しプリコート剤Pを流入口部10の長手方向において均一な分散状態に混合する。
これにより、プリコート剤Pを流入口部10の高さ方向(短辺方向)についても効果的に分散させる。
また、下流側垂れ壁12bによる案内で形成した下向き流の傾斜壁13に至った後の傾斜底13に沿った上流側への反転流成分により、プリコート剤Pの一部を傾斜底13上に拡げた状態に保持して、傾斜底13への塗料ミストの付着を防止するプリコート剤層を傾斜底13上で安定的に維持する。
また、前述の渦流的な滞留域を主に滞留用凹部12における上流側部分で形成し、これにより、流入口部10を通過する排出空気EAにプリコート剤Pを混入する箇所を滞留用凹部12の上流端側へ偏らせて、混入後の拡散時間を確保する。
即ち、バグフィルタ8の捕集面から剥離して落下する捕集堆積物(即ち、塗料ミストとプリコート剤Pとの混合物)や、バグフィルタ8に至る過程でプリコート剤Pと塗料ミストとが結合して生じる落下物を、このベルトコンベア14により受け止めた状態でブース長手方向に搬送して各フィルタ装置5から搬出する。
即ち、塗料ミストとプリコート剤Pとの混合物からなるバグフィルタ捕集面上の捕集物堆積層がある程度成長すると、この剥離装置15により各バグフィルタ8に対して空気通過方向の下流側から圧縮空気をパルス的に作用させ、これにより、捕集物堆積層をバグフィルタ8の捕集面から強制的に剥離させてベルトコンベア14上に落下させる。
即ち、流入口部10を通過した排出空気EAをこの舞い上がり防止用案内板16による案内下で上方のバグフィルタ8に向わせ、これにより、ベルトコンベア14上の落下混合物のうちの軽量な粉状分が排出空気EAにより舞い上げられてしまうことを防止する。
図4は第1実施形態の塗装ブースに改良を施した塗装ブースを示し、この塗装ブースでは、排気室4の室幅を塗装室2の室幅よりも小さくして、排気室4の両横側で塗装室2の下方に窪み部17を形成してある。
これらフィルタ装置5のスリット状流入口部10は、第1実施形態の塗装ブースと同様、ブース長手方向に一列に並べた状態で排気室4の両側壁4a夫々の下端部に形成し、排気室4の底部で排気室4内に開口させてある。
図5は簡易塗装ブースを示し、この簡易塗装ブースでは、被塗物1を塗装する塗装室2の側壁のうち塗装ガン18の配備側とは被塗物1に対して反対側に位置する側壁2cを、フィルタ装置5における装置ケース9の一側壁として共用する形態で、フィルタ装置5を塗装室2に隣接させてある。
そして、このことにより、プリコート剤ノズル11の必要装備数を少なくしながらも、バグフィルタ8に向わせる排出空気EA中におけるプリコート剤Pの分布を流入口部10の長手方向(換言すれば、塗装室2の横幅方向)で効果的に均一化する。
次に別実施形態を列記する
フィルタ装置5を排気室4や塗装室2に隣接配置してフィルタ装置5の流入口部10を排気室4の側壁4aや塗装室2の側壁2cに形成するには、フィルタ装置5における装置ケース9の側壁9aを排気室4の側壁4aや塗装室2の側壁2cに対して近接させる隣接設置形態、あるいは、排気室4の側壁4aや塗装室2の側壁2cをフィルタ装置5における装置ケース9の側壁9aとして共用する隣接設置形態のいずれを採用してもよい。
場合によっては、上流側開口10aと下流側開口10bとを同じ高さに配置してもよく、逆に下流側開口10bを上流側開口10aよりも高位置に配置してもよい。また、流入口部10の下縁部を底壁のない単なる縦板の切り縁にするなどしてもよい。
質を使用することができる。
中でも特に、塗料ミストなどの捕集対象物質との結合により捕集対象物質の粘着性を低減し得るものや、脱臭効果、殺菌効果などを備えるものが好ましい。
8 フィルタ
EA 被処理ガス,排出空気
10 流入口部
P プリコート剤
11 プリコート剤ノズル
12 滞留用凹部
12a 上流側垂れ壁
12b 下流側垂れ壁
13 傾斜底
10a 上流側開口
10b 下流側開口
13a 上流側立上り壁
14 搬出手段
16 舞い上がり防止用案内板
1 被塗物
2 塗装室
4 排気室
5 フィルタ装置
4a 側壁
2c 側壁
Claims (14)
- 装置ケースにフィルタを内装するとともに、粘着性の捕集対象物質を含む被処理ガスの流入口部を前記装置ケースに設け、この流入口部に、そこから前記装置ケース内に流入する被処理ガスに対して粉体状のフィルタ用プリコート剤を気体とともに噴出するプリコート剤ノズルを配置してあるフィルタ装置であって、
前記流入口部を横幅方向に延びるスリット状又は長方形状の開口部にして前記装置ケースの側面部に設け、
この流入口部の上縁部に、前記流入口部の長手方向視で下向きに開口する断面形状の滞留用凹部を前記流入口部の長手方向に連続させて形成し、
前記流入口部の長手方向における所定箇所において、前記プリコート剤ノズルを前記滞留用凹部の奥部内面に向けてプリコート剤及び気体を噴出する状態に配置してあるフィルタ装置。 - 前記流入口部における被処理ガスの通過方向で前記滞留用凹部の上流側の端縁部を縦姿勢の上流側垂れ壁にしてある請求項1記載のフィルタ装置。
- 前記流入口部における被処理ガスの通過方向で前記滞留用凹部の下流側の端縁部を縦姿勢の下流側垂れ壁にしてある請求項1又は2記載のフィルタ装置。
- 前記プリコート剤ノズルを、その噴出中心軸芯が前記滞留用凹部の奥部内面に対して斜交する状態に配置してある請求項1~3のいずれか1項に記載のフィルタ装置。
- 前記流入口部における被処理ガスの通過方向で前記プリコート剤ノズルの噴出口を前記滞留用凹部の中央部よりも下流側寄りに配置してある請求項1~4のいずれか1項に記載のフィルタ装置。
- 前記流入口部の下縁部に、前記滞留用凹部に対して対向し、かつ、前記流入口部における被処理ガスの通過方向で下流側ほど低くなる傾斜底を前記流入口部の長手方向に連続させて形成してある請求項1~5のいずれか1項に記載のフィルタ装置。
- 前記流入口部における被処理ガスの通過方向で前記滞留用凹部の下流側の端縁部を上流側の端縁部より低位置に配置して、
前記滞留用凹部の下流側の端縁部とその下方に位置する前記傾斜底の下流側の端縁部との間に形成される下流側開口が、前記滞留用凹部の上流側の端縁部とその下方に位置する前記傾斜底の上流側の端縁部との間に形成される上流側開口より低位置になる状態にするとともに、
前記装置ケースの内部において前記下流側開口よりも高位置に前記フィルタを配置してある請求項6記載のフィルタ装置。 - 前記流入口部における被処理ガスの通過方向で前記傾斜底の上流側の端縁部を、前記滞留用凹部の上流側の端縁部に向かって立ち上がる縦姿勢の上流側立上り壁にしてある請求項6又は7記載のフィルタ装置。
- 前記装置ケースの内部において前記流入口部よりも高位置に前記フィルタを配置するとともに、
前記フィルタの下方で前記流入口部よりも低位置に、前記フィルタから剥離して落下した落下混合物を前記流入口部の長手方向に搬送して前記装置ケースの外部に搬出する搬出手段を設けてある請求項1~8のいずれか1項に記載のフィルタ装置。 - 前記流入口部の下縁部から前記搬出手段の側へ水平姿勢で突出する舞い上がり防止用案内板を設けてある請求項9記載のフィルタ装置。
- 請求項1~10のいずれか1項に記載のフィルタ装置を用いた塗装ブースであって、
被塗物を塗装する塗装室の下方に排気室を設け、前記塗装室から下方に排出される塗料ミストを含む排出空気を前記排気室に受け入れるようにした塗装ブースにおいて、
複数の前記フィルタ装置をブース長手方向に並べて配置し、これらフィルタ装置の前記流入口部をブース長手方向に列状に並べた配置で前記排気室の室内に対して開口させてある塗装ブース。 - 前記流入口部を前記排気室の底部でブース長手方向に列状に並べて配置してある請求項11記載の塗装ブース。
- 前記フィルタ装置を前記排気室に隣接させてブース長手方向に並べて配置し、これらフィルタ装置の前記流入口部を前記排気室の側壁に形成してある請求項11又は12記載の塗装ブース。
- 請求項1~10のいずれか1項に記載のフィルタ装置を用いた簡易塗装ブースであって、
被塗物を吹き付け塗装する塗装室に隣接させて前記フィルタ装置を配置し、このフィルタ装置の前記流入口部を前記塗装室の底部で前記塗装室の側壁に形成してある簡易塗装ブース。
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Also Published As
Publication number | Publication date |
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RU2012146075A (ru) | 2014-05-10 |
EP2556874A1 (en) | 2013-02-13 |
BR112012021855A2 (pt) | 2016-05-17 |
EP2556874A4 (en) | 2017-04-05 |
US8801820B2 (en) | 2014-08-12 |
JP2011206718A (ja) | 2011-10-20 |
US20120266812A1 (en) | 2012-10-25 |
JP4738539B1 (ja) | 2011-08-03 |
MX2012011050A (es) | 2012-11-16 |
CA2780438C (en) | 2015-07-14 |
CN102271784A (zh) | 2011-12-07 |
RU2515872C1 (ru) | 2014-05-20 |
CA2780438A1 (en) | 2011-10-06 |
BR112012021855B1 (pt) | 2021-01-05 |
EP2556874B1 (en) | 2018-07-11 |
CN102271784B (zh) | 2013-08-21 |
KR20130029038A (ko) | 2013-03-21 |
KR101417788B1 (ko) | 2014-07-09 |
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