EP2275209B1 - Cabin for coating workpieces with powder - Google Patents

Description

Technical area

The invention relates to a cabin for coating workpieces with powder.

To coat a workpiece, such as a plate or a cabinet with powder, the powder is sprayed in a powder coating booth using one or more powder spray guns on the workpiece. In order for the powder to adhere better to the workpiece, the powder can be electrostatically charged. However, care must be taken to ensure that the powder in the cabin does not exceed a certain concentration, otherwise there is a danger of explosion. For this reason, the air in the cabin is continuously sucked together with the non-adhering to the workpiece powder, the so-called overspray. In addition, this creates a negative pressure in the cabin, which ensures that no powder escapes from the cabin.

Another reason why excess powder is already removed from the interior of the cabin during the operation is that the cleaning measures take less time during a color change if the booth is already largely freed of excess powder during the coating operation.

State of the art

From the state of the art DE 103 50 332 A1 a powder spray coating booth is known in which the cabin floor consists of several flaps. The flaps are arranged parallel to each other. When the flaps are in a horizontal position, a narrow slit is created between the flaps, through which excess powder is sucked into a suction channel located below the flaps. In order to clean the suction channel, the flaps can be rotated in a vertical position, so that the suction channel is accessible from above. However, this solution has the disadvantage that the operator can not enter the cabin floor formed by the flaps. This makes it more difficult to manually clean the cabin interior. If air is sucked out during the coating operation by the suction channel arranged under the flaps, this leads to the fact that the powder, which is in any case exposed to the force of gravity, is additionally sucked downwards to the cabin floor. This in turn can lead to less coating of the workpiece to be coated in the upper area and more powder in the lower area. Coating the workpiece uniformly thick over the entire height is made more difficult. In addition, this cabin is not designed to save coating powder.

From the state of the art EP 1 125 639 B1 A further booth for the powder coating of workpieces is known. The cabin has a walk-in floor, wherein between the side walls of the cabin and the floor in each case an inclined wall is arranged, which together with the side wall and the bottom forms a suction channel in the lower corner of the cabin. The two sloping walls each have a suction gap over which excess powder deposited on the floor can be sucked into the suction channel. The disadvantage is that the cabin is expensive to produce. Another disadvantage is that not only one, but two suction ducts are required, which are also very long in an elongated cabin. This can lead to a high pressure loss in the suction channels and thus to a low energy efficiency. In addition, the suction pipe is complex. Under certain circumstances, even a discharge conveyor for the removal of the excess powder is required.

From the publication US Pat. No. 6,821,346 B2 a powder coating booth is known in which a suction channel is arranged below a provided with suction slideable floor. Between the floor and the sidewalls of the cabin there is arranged in each case an inclined wall from which the excess powder deposited there is blown downwards toward the floor by means of blowing nozzles arranged in the side wall. This design of the lower portion of the cabin is complex to manufacture and has the additional disadvantage that the powder, which is already subject to gravity, is additionally accelerated down to the ground by the blowing air and the suction. This can cause the workpiece to be coated with more powder in the lower area than in the upper area.

Finally, in the publication EP 0 698 421 A1 a coating system with a powder recovery described. Between the cabin and the cyclone there is a powder roller trough in which a roller with several fins is arranged. The lamellae of the roller together with the powder roller trough form several lamellar chambers. The powder deposited on the cabin floor during coating is transported by scraper, conveyor belt or vibrator into the powder roller recess. The roller driven by a motor conveys the powder via the lamellar chambers into a screening machine at a continuously slow speed. From there, the powder finally reaches a powder container.

Presentation of the invention

An object of the invention is to provide a booth for coating workpieces with powder, in which the excess powder is sucked out of the booth via a suction duct and in which the suction duct is designed such that the cover of the suction duct can be automatically cleaned.

Advantageously, the amount of air required for cleaning the cabin floor is minimized.

The arrangement of the suction line is particularly simple. The number of bends in the suction line is low and the entire length of the suction line is short. The pressure loss is thus reduced.

Advantageously, the cab according to the invention also comes with a small installation space. The overall height of the cabin becomes lower without sacrificing the interior height of the cabin.

Advantageously, in the invention, not only the amount of air for blowing off the cabin floor, but also the amount of air for sucking the excess powder is minimized.

Another advantage is that with the erfindunqsqemässen cabin over the entire height of the workpiece constant layer thickness distribution is achieved. This means that the workpiece to be coated should be able to be evenly coated with powder over its entire height.

The object is achieved by a booth for coating a workpiece with powder having the features according to claim 1.

The inventive cabin for coating workpieces with powder has a trough and a roller arranged therein. The tub and the roller form a suction channel and a suction opening to suck off excess powder. The roller is rotatably mounted.

Advantageous developments of the invention will become apparent from the features specified in the dependent claims abhänqigen.

In one embodiment of the invention, the roller has a diameter which is smaller than the opening width of the trough.

Advantageously, the suction channel is arranged on the cabin floor.

In addition, it can be provided that the suction channel is arranged transversely to the cabin side wall.

The suction channel can also be arranged on or in the cabin side wall.

In addition, it can be provided that the suction channel runs vertically in the cabin side wall.

In another embodiment of the inventive cabin, a further suction channel with a suction opening for sucking off excess powder and a door provided, by means of which the further suction channel is accessible. The suction opening is provided in the door.

In a further embodiment of the inventive cabin one end of the suction channel is connected to a cyclone and the other end of the suction channel with another cyclone.

Instead, it can also be provided that the cabin according to the invention has a secondary filter which is connected to one end of the suction channel.

Advantageously, it is provided in the cabin according to the invention that the blow bar is arranged in the region of the cabin opening.

In addition, it is advantageous if, in the case of the cabin according to the invention, the blowing strip has a plurality of blow strip sections and the blow strip is configured and operable in such a way that the blow strip sections can be operated sequentially. As a result, the amount of compressed air required to clean the cabin floor per unit of time can be reduced.

In addition, in the case of the cabin according to the invention, a control can be provided by means of which the blow strip sections can be controlled individually.

In a further development of the cabin according to the invention, a further blow bar is provided and the suction channel is arranged between the two blower bars.

In an additional development of the inventive cabin, the suction channel is designed such that the opening width of the suction opening is adjustable. In this way, the amount of air extracted in the area of the cabin floor can be individually adapted to the respective needs.

According to a further feature of the inventive cabin, the suction channel at the end of a lid with a lid opening, wherein the lid is formed such that the opening width of the lid opening is adjustable. This also allows the amount of air extracted in the area of the cabin floor to be individually adapted to the respective needs. In addition, the lid can be removed to clean the suction channel.

In the cabin according to the invention, the suction channel is advantageously made of steel or plastic. The advantage is that with these materials little or no powder adheres to the wall of the suction channel.

Finally, the cabin according to the invention can also have a manual coating booth. Thus, the workpiece to be coated can be manually pre-coated or post-coated.

Brief description of the drawings

Figur 1

zeigt eine erste Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken im Längsschnitt.

Figur 2

zeigt die erste Ausführungsform der erfindungsge- mässen Kabine zum Beschichten von Werkstücken in der Draufsicht im Schnitt.

Figur 3

zeigt eine zweite Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken im Längsschnitt.

Figur 4

zeigt die zweite Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken in der Draufsicht im Schnitt.

Figur 5

zeigt eine dritte Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken im Längschnitt.

Figur 6

zeigt die dritte Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken in der Draufsicht im Schnitt.

Figur 7

zeigt eine vierte Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken in der Draufsicht im Schnitt.

Figur 8

zeigt eine fünfte Ausführungsform der erfindungs- gemässen Kabine zum Beschichten von Werkstücken in der Draufsicht im Schnitt einschliesslich ei- ner Steuerung für Blasluft.

Figur 9

zeigt einen Ausschnitt des Absaugkanals mit der Walze in einer dreidimensionalen Ansicht.

Figur 10

zeigt eine mögliche Anordnung des Absaugkanals mit der Walze zusammen mit dem Kabinenboden im Längsschnitt.

Figur 11

zeigt eine sechste Ausführungsform der erfin- dungsgemässen Kabine zum Beschichten von Werkstü- cken in der Draufsicht im Schnitt.

Figur 12

zeigt einen Ausschnitt der sechsten Ausführungs- form der Kabine im Querschnitt.

Figur 13

zeigt einen Ausschnitt einer siebten Ausfüh- rungsform der erfindungsgemässen Kabine zum Be- schichten von Werkstücken im Querschnitt.

Figur 14

zeigt einen Ausschnitt des Absaugkanals mit der Walze und dem Deckel im Querschnitt.

Figur 15

zeigt das Ende des Absaugkanals in der Seitenan- sicht im Schnitt.

In the following the invention with several embodiments with reference to 14 figures will be further explained.

FIG. 1

shows a first embodiment of the inventive cab for coating workpieces in longitudinal section.

FIG. 2

shows the first embodiment of the inventive Cabin for coating workpieces in plan view in section.

FIG. 3

shows a second embodiment of the invention according to the cab for coating workpieces in longitudinal section.

FIG. 4

shows the second embodiment of the invention according to the invention cabin for coating workpieces in plan view in section.

FIG. 5

shows a third embodiment of the inventive cab for coating workpieces in the longitudinal section.

FIG. 6

shows the third embodiment of the inventive cab for coating workpieces in plan view in section.

FIG. 7

shows a fourth embodiment of the invention according to the invention cabin for coating workpieces in plan view in section.

FIG. 8

shows a fifth embodiment of the inventive cabin for coating workpieces in plan view in section including a control for blowing air.

FIG. 9

shows a section of the suction channel with the roller in a three-dimensional view.

FIG. 10

shows a possible arrangement of the suction duct with the roller together with the cabin floor in longitudinal section.

FIG. 11

shows a sixth embodiment of the inventive cabin for coating workpieces in plan view in section.

FIG. 12

shows a section of the sixth embodiment of the cabin in cross section.

FIG. 13

shows a section of a seventh embodiment of the inventive cabin for the coating of workpieces in cross section.

FIG. 14

shows a section of the suction channel with the roller and the cover in cross section.

FIG. 15

shows the end of the suction channel in the side view in section.

Ways to carry out the invention First embodiment

In FIG. 1 1 shows a first embodiment of a cabin 1 according to the invention for coating a workpiece 11 in longitudinal section. FIG. 2 shows the first one Embodiment of the inventive cabin 1 in plan view in section.

To coat the workpiece 11, it is first hung on a workpiece transport bracket 10.1, which in turn is attached to a conveyor belt 10 located above the car 1. The workpiece 11 is then transported on the conveyor belt 10 suspended by the car 1. The arrow T indicates the transport direction. In the present embodiment, the workpiece 11 is coming from the right first past a manual coater stand 5 and then transported through the section 39 of the car 1. Of course, the workpiece 11 can also be transported in the reverse direction.

On the hand-coat stand 5, personnel 17 can precoat the workpiece 11 as needed. This is helpful if the workpiece 11 has undercuts that can not be coated with the automatic pistols 7 and 9 or only with great effort and loss of material. The staff 17 uses a manual spray gun for pre-coating, which is not shown in the figures.

Subsequently, the workpiece 11 is transported via a cabin opening 22 in the section 39 of the car 1. The further section 39 of the cabin 1 is bounded laterally by a first cabin side wall 2 and a second cabin side wall 3. The cabin side walls 2 and 3 are hereinafter also referred to as side walls. Through an opening 2.1 in the cabin side wall 2, a first row of automatically operating spray guns 7 projects into the cabin 1. The spray guns 7 are also referred to as automatic guns are mounted on a lifting device 6 and are controlled by a computer-aided control. Through an opening 3.1 in the opposite cabin side wall 3, another series of automatically operating spray guns 9 projects into the cabin 1. The spray guns 9 are mounted on a lifting device 8 and are also controlled by the computerized controller. With the help of the spray guns 7 and 8, the workpiece 11 is coated automatically.

Subsequently, the workpiece 11 is transported through a cabin opening 21 again out of the car 1 and fed to a furnace, not shown in the figures, so that the powder layer on the workpiece 11 liquefy and crosslink and can form a closed surface.

At the top, the cabin 1 is limited by a cabin roof 20. Down the car 1 is completed by a cabin floor 4. The cabin floor 4 is also referred to below as floor in the following.

The bottom of the hand coater stand 5 can, as in the Figures 1 and 2 is shown slightly higher than the Kabincnboden 4 may be arranged. Thus, the staff 17 can easily enter the Handbeschichterstand 5, located on both longitudinal sides of the car 1 each have a staircase 18 and 19 respectively.

Transverse to the two side walls 2 and 3 runs at the cabin floor 4, a suction channel 14. The longitudinal axis of the suction channel 14 thus extends transversely to the transport direction T of the workpiece 11. In other words, this means that the Longitudinal axis of the suction channel 14 extends parallel to the plane which is spanned by the cabin opening 21 and 22 respectively. The suction channel 14 has two suction openings 14.1 and 14.2. One end of the suction channel 14 is connected to a cyclone 16 via a suction pipe 15 arranged outside the booth 1. Through the suction openings 14.1 and 14.2 of the overspray P is sucked out of the cabin 1 in the suction channel 14 and fed from there via the suction pipe 15 to the cyclone 16 to recover the excess powder. If necessary, the recovered powder can be returned to the spray guns 7 and 8 or the gun at the hand coater booth 5.

The suction channel 14 is formed by a trough 38 and a roller 35 arranged in the trough 38. The diameter C D of the roller 35 is slightly smaller than the opening width 2 R of the trough 38 (see. FIG. 14 ), so that arise between the outside of the roller 35 and the two inner sides of the tub 38 slots, which form the suction openings 14.1 and 14.2. As the roller 35 rotates, both the roller 35 itself and the inner walls of the tub 38 opposite the roller are automatically cleaned in the region of the suction openings.

In addition, two blow bars 12 and 13 extend transversely to the two side walls 2 and 3 on the cabin floor 4. In general, the blow bars 12 and 13 thus run parallel to the suction channel 14 Figures 1 and 2 In the embodiment shown, the first blowing strip 12 extends from the first side wall 2 to the second side wall 3 and is arranged in the region of the booth outlet opening 21. The second blow bar 13 extends also from the first side wall 2 to the second side wall 3. However, the second blow bar 13 is arranged in the region of the cabin inlet opening 22. The first blow bar 12 comprises two blow bar sections 12.1 and 12.2, through which compressed air L can be blown in the direction of the suction openings 14.1. The Blasleistenabschnitte 12.1 and 12.2 are constructed so that they can be operated independently. The second blow bar 13 also includes two Blasleistenabschnitte 13.1 and 13.2. By the two Blasleistenabschnitte 13.1 and 13.2 compressed air L can be blown in the direction of the suction openings 14.2. The Blasleistenabschnitte 13.1 and 13.2 are constructed so that they can be operated independently. The two blow bars 12 and 13 are thus arranged so that they blow compressed air L from the area of the cabin openings 21 and 22 to the interior of the cabin. This causes less powder to escape from the cabin 1 through the cabin openings 21 and 22.

The Zyklon 16 abqewandte end of the suction channel 14 is closed with a cover 23. The structure of the lid 23 is in FIG. 10 shown and will be explained later.

Second embodiment

FIG. 3 shows a second embodiment of the inventive cabin 1 for coating workpieces in longitudinal section. FIG. 4 shows the second embodiment of the erfindungsgcmässen cab 1 in plan view in section.

In addition to the in the Figures 1 and 2 shown embodiment of the cabin are in the embodiment according to FIGS. 3 and 4 integrated into the side walls 2 and 3 of the cabin 1 each have a plurality of vertically stacked suction openings 26. The Absauöffnungen 26 are embedded in a door 25. Behind the suction openings 26 is a vertically extending suction channel 45 which is connected at the bottom with the suction channel 14. Through the Absausöffnungen 26 that excess powder is sucked, which floats in the cabin. This reduces the amount of powder that would otherwise deposit on the cabin floor 4. In order to clean the suction channel located behind the suction openings 26 45, the door 25 is opened. During the coating operation, the door 25 is closed.

Unlike the first embodiment, according to the second embodiment FIGS. 3 and 4 Also, the second end of the suction channel 14 via a suction pipe 32 with a cyclone 24 is connected.

Basically, it is not absolutely necessary that the vertical suction on both side walls 2 and 3 is provided. In addition, it can be provided that the opening widths of the suction openings 26 are adjustable, so that they can also be completely closed in case of need.

Third embodiment

FIG. 5 shows a third embodiment of the invention according to cab 1 for the coating of workpieces in longitudinal section. FIG. 6 shows the third embodiment of the inventive cabin 1 in plan view in section.

The third embodiment differs from the second embodiment in that the vertically extending suction channels do not have doors 25. Satisfied that of the arranged in the side wall 2 suction channel 45 is formed by a vertically extending trough and a roller 46 disposed therein, the longitudinal axis 47 is rotatably mounted. The diameter of the roller 46 is smaller than the opening width of the tub. This results in between the roller 46 and the trough two vertically extending slots, which form the suction of the suction 45. The suction channel 55 arranged in the side wall 3 is likewise formed by a vertically arranged trough and a roller 56 arranged therein, whose longitudinal axis 57 is rotatably mounted. Also ago are the two suction between the tub and roller. Through these exhaust openings and the suction openings 14.1 and 14.2 that excess powder is sucked, which floats in the cabin. This reduces the amount of powder that would otherwise deposit on the cabin floor 4.

It is not mandatory that the vertical suction on both side walls 2 and 3 is provided. Thus, it can also be provided that a vertical suction channel is provided only on one of the two side walls.

Many embodiment

FIG. 7 shows a fourth embodiment of the inventive cabin 1 for coating workpieces in plan view in section.

The fourth embodiment differs from the third embodiment in that no suction channels and no blow bars are arranged on the cabin floor.

Fifth embodiment

FIG. 8 shows a fifth embodiment of the inventive cabin for coating workpieces in plan view in section including a controller 31 for operating the coating system. The structure of the cabin 1 corresponds to that in the Figures 1 and 2 shown first embodiment. The one end of the suction channel 14 is not completed in the fifth embodiment but by a lid, but connected via a suction pipe 32 with a post-filter 33.

As a rule, the overspray extracted from the booth 1 is recovered and reused for the coating of the work piece. In this case, the cyclone 16 is activated by means of the controller 31 and the postfilter 33 is switched off and closed. In this way, the overspray is sucked out of the cabin 1 via the suction channel 14 and recovered in the cyclone 16. In the event that the coating system, however, is to be run in loss mode, by means of the controller 31 of the Afterfilter 33 is activated and the cyclone 16 is switched off and closed. In this way, the overspray is sucked out of the cabin 1 via the suction channel 14 and filtered out in the afterfilter 33. The filtered out through the post-filter 33 overspray is no longer used for coating. Running the coater in loss mode can be beneficial if frequent color changes take place and too much time is required to clean the cabin during a color change.

In addition, the controller 31 also controls via valves 40, 41, 42 and 43, the Blasleistenabschnitte 12.1, 12.2, 13.1 and 13.2. The control outputs of the controller 31 are connected to the control inputs of the valves 40, 41, 42 and 43. The two valves 40 and 41 are also connected to a first compressed air source 29. On the output side, the valve 40 is connected to the Blasleistenabschnitt 12.1 and the valve 41 to the Blasleistenabschnitt 13.1. The two valves 42 and 43 are connected to a second compressed air source 30. On the output side, the valve 42 is connected to the Blasleistenabschnitt 12.2 and the valve 43 to the Blasleistenabschnitt 13.2.

The cabin floor 4 can be cleaned as follows. The controller 31 causes the valve 40 to be opened, so that compressed air L flows through the tuyeres of the Blasleistenabschnitts 12.1 in the direction of the suction channel 14 and the powder P transported at the bottom in the direction of the suction channel 14. At the same time, the controller 31 causes the valve 41 to be opened, so that compressed air L also flows through the blowing nozzles of the blow strip section 13.1 in the direction of the suction channel 14 and transported into the powder P at the bottom in the direction of the suction channel 14. In this way, the lying between the Blasleistenabschnitten 12.1 and 13.1 bottom area is cleaned. Subsequently, the controller 31 causes the two valves 40 and 41 to be closed and the valves 42 and 43 to be opened. As a result, compressed air L flows through the blowing nozzles of the two blow strip sections 12.2 and 13.2 in the direction of the suction channel 14 and the bottom region lying between the blow strip sections 12.2 and 13.2 is cleaned. As soon as the reclamation process is completed, the valves 42 and 43 are also closed again.

Instead of applying two Blasleistenabschnitte simultaneously with compressed air, the control of the blower can also be done individually one after the other. This means that the four floor sections are cleaned one after the other. Each Blasleitenabschnitt is activated only in every fourth cleaning interval for a certain period of time. As a result, total compressed air can be saved.

The control just described 31 and the associated compressed air sources 29, 30, the valves 10 to 43 and the connecting lines are also present in the first, second and third embodiments described above, but in the associated FIGS. 1 to 6 for the sake of clarity not shown.

Under certain circumstances, instead of the two compressed air sources 29 and 30, a single compressed air source can suffice, which is then connected to all the valves.

Depending on the design and size of the cabin 1, it may be advantageous to provide more or less many Blasleistenabschnitte.

In FIG. 9 a section of the suction channel 14 and the cabin floor 4 is shown in a three-dimensional view. FIG. 10 shows a possible arrangement of the suction channel 14 with the roller 35 together with the cabin floor 4 in longitudinal section. As already described above, the suction channel 14 is formed by a trough 38 and a roll 35 lying partially therein. The roller 35 thus forms the upper cover of the suction channel 14. The trough 38 has a semicircular cross section with a radius R in the lower region. The ends of the trough 38 run perpendicularly and are connected to the cabin floor 4. The suction openings 14.1 and 14.2 are distributed over the entire length of the tub 38 and are located at the height of the cabin floor 4. The roller 35 is rotatably mounted and rotated about the axis of rotation 37. The longitudinal axis of the roller 35 and thus the axis of rotation 37 are located approximately at the height of the upper edge of the cabin floor. 4

During the cleaning operation, the excess powder-air mixture P depending on the cabin embodiment via the suction channel 14 (eg FIG. 2 ) or via the suction channel 14 and the other suction channels 45 and 55 (eg FIG. 6 ) sucked out of the cabin 1. In addition, the rollers 35, 46 and 56 rotate so that the powder depositing on them is also sucked off.

As the rollers 35, 46 and 56 rotate during the coating operation, the powder which strikes the rollers 35, 46 and 56 during coating also becomes permanently sucked off via the suction channels. As a result, the rollers 35, 46 and 56 are continuously cleaned automatically.

The suction channel 14 or the tub 38 and the roller 35 and the lid 23 may be made of stainless steel or plastic.

If necessary, the trough 38 may also have a polygonal cross-section. The same applies analogously to the tubs on the side walls 2 and 3.

If necessary, the cross section of the suction channel 14 can be increased - without the radius H of the trough 38 being increased - by extending the vertically extending side walls of the trough 38.

Sixth embodiment

FIG. 11 shows a sixth embodiment of the inventive cabin for coating workpieces in plan view in section. FIG. 12 shows a section of the sixth embodiment of the cabin in cross section.

In the sixth embodiment, two exhaust ducts 14 and 50 run on the floor 4 of the cabin parallel to the cabin side walls 2 and 3. The exhaust ducts 14 and 50 are constructed as described above. In the middle of the cabin floor 4 is a blow bar 27 with four Blasleistenabschnitten 27.1, 27.2, 27.3 and 27.4. The blow bar 27 is between the two suction channels 14th and 50 and preferably runs parallel to them. The control of the individual BlasleistenabschniLte done as described above.

The powder trickling down on the side walls 2 and 3 is received via the suction openings 14.1 or 50.1. Advantageously, in this embodiment, no powder can be deposited in the corners between the cabin floor 4 and the side walls 2 and 3.

Seventh embodiment

The two suction channels 14 and 50 can also be arranged in the lower region of the cabin side walls 2 and 3, extend horizontally there and become part of the side walls 2 and 3. Tn FIG. 13 is a section of this embodiment of the cabin shown in cross section. This embodiment has the advantage that the entire cabin floor 4 is accessible.

In the seventh embodiment, the suction channels 14 and 50 are constructed as described above. In the middle of the cabin floor 1 is the blow bar 27 with four Blasleistenabschnitten 27.1, 27.2, 27.3 and 27.4. The blow bar 27 is disposed between the two suction channels 14 and 50 and preferably runs parallel to them. The control of the individual Blasleistenabschnitte done as described above.

As in the sixth embodiment, in the seventh embodiment as well, the powder trickling down on the side walls 2 and 3 is communicated via the suction openings 14.1 50.1 recorded. Advantageously, in this embodiment, no powder can be deposited in the corners between the cabin floor 4 and the side walls 2 and 3. In addition, the seventh embodiment has the advantage that the cabin floor 4 can be arranged even further down. This makes it possible to increase the height in the cabin, but without increasing the overall height of the cabin.

FIG. 14 shows one end of the suction channel 14 with the lid 23 in the side view in section and FIG. 15 the end of Absauqkanals 14 in plan view in section. How out FIG. 14 can be seen, the lid 23 is fastened with several screws 49 on the trough 38. The trough 38 has a flange with corresponding threaded holes 49. With the help of the screws 49, the distance S between the end of the trough 38 and the lid 23 can be adjusted. The air gap, which thus results between the end of the tub 38 and the lid 23, forms an air inlet opening 44, can be sucked through the air L from outside the cabin 1 in the suction channel 14. About the distance S, which is also referred to as the opening width, the air sucked through the air inlet opening 44 amount of air can be adjusted.

Instead of arranging the air inlet opening 44 between the tub end and the cover 23, as shown in FIG FIG. 14 also shown, the lid 23 itself may have one or more openings for the intake of air.

Thus, the staff can gain access to the interior of the suction channel 14 and can look into the suction channel 14, the lid 23 can be removed. To this Way, the suction channel 14 can be easily cleaned.

The foregoing description of the embodiments according to the present invention is for illustrative purposes only, and not for the purpose of limiting the invention. Various changes and modifications are possible within the scope of the invention without departing from the scope of the invention and its equivalents. For example, versions with only one row or more than two rows of powder spray guns are possible. In addition, the individual embodiments can also be combined with each other.

LIST OF REFERENCE NUMBERS

1

cabin

2

Side wall

3

Side wall

4

cabin floor

5

Handbeschichterstand

6

lifting

7

spray gun

8th

lifting

9

spray gun

10

conveyor belt

10.1

Workpiece transport holder

11

workpiece

12

blowing strip

12.1

Blasleistenabschnitt

12.2

Blasleistenabschnitt

13

blowing strip

13.1

Blasleistenabschnitt

13.2

Blasleistenabschnitt

14

suction

14.1

suction

14.2

suction

15

vertical suction pipe section

16

cyclone

17

operator

18

stairway

19

stairway

20

cabin ceiling

21

cabin opening

22

cabin opening

23

Cover on the suction channel

24

cyclone

25

Flap or door

26

suction

27

blowing strip

27.1

Blasleistenabschnitt

27.2

Blasleistenabschnitt

27.3

Blasleistenabschnitt

27.4

Blasleistenabschnitt

29

Compressed air source

30

Compressed air source

31

control

32

vertical suction pipe section

33

afterfilter

35

roller

36

bracket

37

axis of rotation

38

tub

39

cabin section

40

Valve

41

Valve

42

Valve

43

Valve

44

Lufteinlassüffnung

45

vertical suction channel

46

roller

47

axis of rotation

48

threaded hole

49

screw

50

suction

50.1

suction

50.2

suction

51

roller

52

axis of rotation

55

vertical suction channel

56

roller

57

axis of rotation

D

diameter

R

radius

T

transport direction

L

air

P

powder

Claims (17)

1. A cabin for coating workpieces with powder,

   - in which a tank (38) and a cylindrical roller (35) disposed therein form the suction channel (14) and the suction opening (14.1; 14.2) for suctioning up excess powder (P), and

   - in which the roller (35) is rotatably mounted.
2. The cabin according to claim 1,
   in which the roller (35) has a diameter (D) that is smaller than the opening width (2R) of the tank (38).
3. The cabin according to one of claims 1 or 2,
   comprising a cabin base (4), in which the suction channel (14) is disposed.
4. The cabin according to claim 3,
   in which the suction channel (14) is disposed transversely to the cabin sidewall (2; 3).
5. The cabin according to one of claims 1 or 2,
   comprising a cabin sidewall (2, 3), in which the suction channel (14) is disposed.
6. The cabin according to claim 5,
   in which the suction channel (45) in the cabin sidewall (2; 3) extends vertically.
7. The cabin according to one of claims 1 to 6,

   - in which a further suction channel (45) is provided with a suction opening (26) for suctioning up excess powder (P),

   - in which a door (25) is provided, by way of which the further suction channel (45) is accessible, and

   - in which the suction opening (26) is provided in the door (25).
8. The cabin according to one of claims 1 to 7,
   in which one end of the suction channel (14) is connected to a cyclone (16) and the other end of the suction channel (14) is connected to a further cyclone (24).
9. The cabin according to one of claims 1 to 7,
   in which an afterfilter (33) is provided, which is connected to one end of the suction channel (14).
10. The cabin according to one of claims 1 to 7,
    in which the suction channel (14) has an air inlet opening (44) at one end, which is designed such that the opening width (S) thereof is adjustable.
11. The cabin according to one of claims 1 to 10,
    comprising a blow strip (12; 13), which is disposed such that it can blow compressed air (L) in the direction of the suction opening (14.1; 14.2).
12. The cabin according to claim 1,
    in which the blow strip (12; 13) is disposed in the region of the cabin opening (21; 22).
13. The cabin according to one of claims 11 or 12, in which the blow strip (12; 13) comprises a plurality of blow-strip sections (12.1, 12.2; 13.1; 13.2) and is designed and can be operated such that the blow-strip sections (12.1, 12.2; 13.1; 13.2) can be operated sequentially.
14. The cabin according to claim 13,
    in which a control (31) is provided, by way of which the blow-strip sections (12.1, 12.2; 13.1; 13.2) can be activated individually.
15. The cabin according to one of claims 1 to 14,

    - in which a further blow strip (13) is provided, and

    - in which the suction channel (14) is disposed between the two blow strips (12, 13).
16. The cabin according to one of claims 1 to 15, in which the suction channel (14) is made of steel or plastic.
17. The cabin according to one of claims 1 to 16, in which a manual coating stand (5) is provided.

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